ClamAV is an open source (GPLv2) anti-virus toolkit.
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clamav/CMakeLists.txt

1271 lines
44 KiB

# Copyright (C) 2019-2022 Cisco Systems, Inc. and/or its affiliates. All rights reserved.
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if(WIN32)
cmake_minimum_required( VERSION 3.16 ) # For file(GET_RUNTIME_DEPENDENCIES)
else()
cmake_minimum_required( VERSION 3.14 )
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
set(CMAKE_C_STANDARD 90)
set(CMAKE_C_STANDARD_REQUIRED ON)
# CMAKE_CXX_STANDARD not set because we may need to match the compiler used to build LLVM.
# There's probably a good chance this issue will go away if using modern LLVM versions.
CMake: Add CTest support to match Autotools checks An ENABLE_TESTS CMake option is provided so that users can disable testing if they don't want it. Instructions for how to use this included in the INSTALL.cmake.md file. If you run `ctest`, each testcase will write out a log file to the <build>/unit_tests directory. As with Autotools' make check, the test files are from test/.split and unit_tests/.split files, but for CMake these are generated at build time instead of at test time. On Posix systems, sets the LD_LIBRARY_PATH so that ClamAV-compiled libraries can be loaded when running tests. On Windows systems, CTest will identify and collect all library dependencies and assemble a temporarily install under the build/unit_tests directory so that the libraries can be loaded when running tests. The same feature is used on Windows when using CMake to install to collect all DLL dependencies so that users don't have to install them manually afterwards. Each of the CTest tests are run using a custom wrapper around Python's unittest framework, which is also responsible for finding and inserting valgrind into the valgrind tests on Posix systems. Unlike with Autotools, the CMake CTest Valgrind-tests are enabled by default, if Valgrind can be found. There's no need to set VG=1. CTest's memcheck module is NOT supported, because we use Python to orchestrate our tests. Added a bunch of Windows compatibility changes to the unit tests. These were primarily changing / to PATHSEP and making adjustments to use Win32 C headers and ifdef out the POSIX ones which aren't available on Windows. Also disabled a bunch of tests on Win32 that don't work on Windows, notably the mmap ones and FD-passing (i.e. FILEDES) ones. Add JSON_C_HAVE_INTTYPES_H definition to clamav-config.h to eliminate warnings on Windows where json.h is included after inttypes.h because json-c's inttypes replacement relies on it. This is a it of a hack and may be removed if json-c fixes their inttypes header stuff in the future. Add preprocessor definitions on Windows to disable MSVC warnings about CRT secure and nonstandard functions. While there may be a better solution, this is needed to be able to see other more serious warnings. Add missing file comment block and copyright statement for clamsubmit.c. Also change json-c/json.h include filename to json.h in clamsubmit.c. The directory name is not required. Changed the hash table data integer type from long, which is poorly defined, to size_t -- which is capable of storing a pointer. Fixed a bunch of casts regarding this variable to eliminate warnings. Fixed two bugs causing utf8 encoding unit tests to fail on Windows: - The in_size variable should be the number of bytes, not the character count. This was was causing the SHIFT_JIS (japanese codepage) to UTF8 transcoding test to only transcode half the bytes. - It turns out that the MultiByteToWideChar() API can't transcode UTF16-BE to UTF16-LE. The solution is to just iterate over the buffer and flip the bytes on each uint16_t. This but was causing the UTF16-BE to UTF8 tests to fail. I also split up the utf8 transcoding tests into separate tests so I could see all of the failures instead of just the first one. Added a flags parameter to the unit test function to open testfiles because it turns out that on Windows if a file contains the \r\n it will replace it with just \n if you opened the file as a text file instead of as binary. However, if we open the CBC files as binary, then a bunch of bytecode tests fail. So I've changed the tests to open the CBC files in the bytecode tests as text files and open all other files as binary. Ported the feature tests from shell scripts to Python using a modified version of our QA test-framework, which is largely compatible and will allow us to migrate some QA tests into this repo. I'd like to add GitHub Actions pipelines in the future so that all public PR's get some testing before anyone has to manually review them. The clamd --log option was missing from the help string, though it definitely works. I've added it in this commit. It appears that clamd.c was never clang-format'd, so this commit also reformats clamd.c. Some of the check_clamd tests expected the path returned by clamd to match character for character with original path sent to clamd. However, as we now evaluate real paths before a scan, the path returned by clamd isn't going to match the relative (and possibly symlink-ridden) path passed to clamdscan. I fixed this test by changing the test to search for the basename: <signature> FOUND within the response instead of matching the exact path. Autotools: Link check_clamd with libclamav so we can use our utility functions in check_clamd.c.
5 years ago
cmake_policy(SET CMP0087 NEW) # support generator expressions in install(CODE) and install(SCRIPT)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
# Change this on a release:
# During active development: set(VERSION_SUFFIX "-devel-${TODAY}")
# For beta: set(VERSION_SUFFIX "-beta")
# For release candidate: set(VERSION_SUFFIX "-rc")
# For release: set(VERSION_SUFFIX "")
string(TIMESTAMP TODAY "%Y%m%d")
set(VERSION_SUFFIX "-rc2")
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
project( ClamAV
VERSION "1.0.0"
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
DESCRIPTION "ClamAV open source email, web, and end-point anti-virus toolkit." )
set(CMAKE_MODULE_PATH "${CMAKE_CURRENT_SOURCE_DIR}/cmake" ${CMAKE_MODULE_PATH})
include(Version)
set(PACKAGE_NAME "${PROJECT_NAME}")
set(PACKAGE_VERSION "${PROJECT_VERSION}")
set(PACKAGE_STRING "${PROJECT_NAME} ${PROJECT_VERSION}${VERSION_SUFFIX}")
set(PACKAGE_BUGREPORT "https://github.com/Cisco-Talos/clamav/issues")
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
set(PACKAGE_URL "https://www.clamav.net/")
HexVersion(PACKAGE_VERSION_NUM ${PROJECT_VERSION_MAJOR} ${PROJECT_VERSION_MINOR} ${PROJECT_VERSION_PATCH})
# libtool library versioning rules: http://www.gnu.org/software/libtool/manual/html_node/Updating-version-info.html
set(LIBCLAMAV_CURRENT 11)
set(LIBCLAMAV_REVISION 0)
set(LIBCLAMAV_AGE 2)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
math(EXPR LIBCLAMAV_SOVERSION "${LIBCLAMAV_CURRENT} - ${LIBCLAMAV_AGE}")
set(LIBCLAMAV_VERSION "${LIBCLAMAV_SOVERSION}.${LIBCLAMAV_AGE}.${LIBCLAMAV_REVISION}")
HexVersion(LIBCLAMAV_VERSION_NUM ${LIBCLAMAV_CURRENT} ${LIBCLAMAV_REVISION} ${LIBCLAMAV_AGE})
set(LIBFRESHCLAM_CURRENT 2)
set(LIBFRESHCLAM_REVISION 2)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
set(LIBFRESHCLAM_AGE 0)
math(EXPR LIBFRESHCLAM_SOVERSION "${LIBFRESHCLAM_CURRENT} - ${LIBFRESHCLAM_AGE}")
set(LIBFRESHCLAM_VERSION "${LIBFRESHCLAM_SOVERSION}.${LIBFRESHCLAM_AGE}.${LIBFRESHCLAM_REVISION}")
HexVersion(LIBFRESHCLAM_VERSION_NUM ${LIBFRESHCLAM_CURRENT} ${LIBFRESHCLAM_REVISION} ${LIBFRESHCLAM_AGE})
set(GENERATE_WARNING "WARNING: This file was generated by CMake. Do not edit!")
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
#
# Define C_LINUX and C_BSD because CMake only defines UNIX, APPLE, WIN32, MSVC
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
#
if(CMAKE_SYSTEM_NAME STREQUAL "Linux")
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
set(C_LINUX 1)
elseif(APPLE OR CMAKE_SYSTEM_NAME MATCHES "BSD")
set(C_BSD 1)
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
# Git optionally used to add commit info into build to differentiate in bug reports.
find_package(Git)
if(Git_FOUND)
# Store git description into variable
execute_process(COMMAND ${GIT_EXECUTABLE} describe --tags --always
OUTPUT_VARIABLE REPO_VERSION ERROR_QUIET)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if("${REPO_VERSION}" MATCHES "")
unset(REPO_VERSION)
else()
string(STRIP ${REPO_VERSION} REPO_VERSION)
endif()
endif()
# Enable use of pkg-config to find depenencies.
find_package(PkgConfig QUIET)
#
# Load Build Options
#
# CMake Option default values:
set(MAINTAINER_MODE_DEFAULT OFF)
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
set(ENABLE_APP_DEFAULT ON)
if(WIN32 OR APPLE)
set(ENABLE_MILTER_DEFAULT OFF)
else()
set(ENABLE_MILTER_DEFAULT ON)
endif()
if(C_LINUX)
set(ENABLE_CLAMONACC_DEFAULT ON)
else()
set(ENABLE_CLAMONACC_DEFAULT OFF)
endif()
set(ENABLE_EXAMPLES_DEFAULT OFF)
set(ENABLE_TESTS_DEFAULT ON)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if(WIN32)
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
set(ENABLE_MAN_PAGES_DEFAULT OFF)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
else()
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
set(ENABLE_MAN_PAGES_DEFAULT ON)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
endif()
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
set(ENABLE_DOXYGEN_DEFAULT OFF)
set(ENABLE_UNRAR_DEFAULT ON)
set(ENABLE_SYSTEMD_DEFAULT ON)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
# See CMakeOptions.cmake for additional options.
include(CMakeOptions.cmake)
# Set build type to RelWithDebInfo if not specified.
# This must be done before pulling in the Rust module
# or else the default build will be Debug for Rust stuffs.
if(NOT CMAKE_BUILD_TYPE AND NOT CMAKE_CONFIGURATION_TYPES)
set(CMAKE_BUILD_TYPE RelWithDebInfo CACHE STRING "Choose the build type" FORCE)
# Include "None" as option to disable any additional (optimization) flags,
# relying on just CMAKE_C_FLAGS and CMAKE_CXX_FLAGS (which are empty by
# default). These strings are presented in cmake-gui.
set_property(CACHE CMAKE_BUILD_TYPE PROPERTY STRINGS
"None" "Debug" "Release" "MinSizeRel" "RelWithDebInfo")
endif()
#
# Find Build Tools
#
if(MAINTAINER_MODE)
# Bison, Flex required to build Yara module for libclamav.
find_package(BISON REQUIRED)
find_package(FLEX REQUIRED)
# TODO: Gperf required to generate JS-normalization code.
# find_package(GPERF REQUIRED)
endif()
find_package(Rust REQUIRED)
if(ENABLE_FUZZ)
# We'd like the fuzz targets to be statically linked
set(ENABLE_STATIC_LIB ON)
set(ENABLE_SHARED_LIB OFF)
set(ENABLE_LIBCLAMAV_ONLY ON)
set(ENABLE_TESTS OFF)
set(OPTIMIZE OFF)
set(ENABLE_SYSTEMD OFF)
set(HAVE_MMAP OFF)
if(NOT DEFINED ENV{FUZZING_ENGINE})
# If you're not building in an oss-fuzz docker environment, you can build the fuzz targets by setting:
# bash: export CC=`which clang` && export CXX=`which clang++` && export SANITIZER=address/undefined/memory
# fish: export CC=(which clang) && export CXX=(which clang++) && export SANITIZER=address/undefined/memory
set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -fsanitize=$ENV{SANITIZER},fuzzer-no-link -fsanitize-coverage=edge,indirect-calls")
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fsanitize=$ENV{SANITIZER},fuzzer-no-link -fsanitize-coverage=edge,indirect-calls")
endif()
endif()
if(ENABLE_STATIC_LIB AND NOT ENABLE_SHARED_LIB AND ENABLE_UNRAR)
# When building everything static, link in libunrar.
set(UNRAR_LINKED 1)
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if(ENABLE_LIBCLAMAV_ONLY AND (ENABLE_APP OR ENABLE_EXAMPLES))
# Remember when disabled options are disabled for later diagnostics.
set(ENABLE_LIB_ONLY_DISABLED_OTHERS 1)
else()
set(ENABLE_LIB_ONLY_DISABLED_OTHERS 0)
endif()
if(ENABLE_LIBCLAMAV_ONLY)
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
set(ENABLE_APP OFF)
set(ENABLE_EXAMPLES OFF)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
endif()
#
# Set RPATH for custom install prefixes
#
if(APPLE)
set(CMAKE_MACOSX_RPATH 1)
endif()
include(GNUInstallDirs)
if (NOT DEFINED CMAKE_INSTALL_RPATH)
if(CMAKE_INSTALL_FULL_LIBDIR)
set(CMAKE_INSTALL_RPATH "${CMAKE_INSTALL_FULL_LIBDIR}")
else()
set(CMAKE_INSTALL_RPATH "${CMAKE_INSTALL_PREFIX}/lib")
endif()
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
if(C_LINUX)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if(CMAKE_COMPILER_IS_GNUCXX)
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
# Set _GNU_SOURCE for O_LARGEFILE, O_CLOEXEC, O_DIRECTORY, O_NOFOLLOW, etc flags on older systems
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
# (pre POSIX.1-2008: glibc 2.11 and earlier). #4042
set(_GNU_SOURCE 1)
endif()
endif()
#
# Use the `lib` prefix on Windows, to match previous ClamAV build
#
if(LLVM_FOUND)
list(JOIN LLVM_LIBRARIES "," LLVM_LIBS)
list(JOIN LLVM_LIBRARY_DIRS "," LLVM_DIRS)
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if(WIN32)
CMake: Add CTest support to match Autotools checks An ENABLE_TESTS CMake option is provided so that users can disable testing if they don't want it. Instructions for how to use this included in the INSTALL.cmake.md file. If you run `ctest`, each testcase will write out a log file to the <build>/unit_tests directory. As with Autotools' make check, the test files are from test/.split and unit_tests/.split files, but for CMake these are generated at build time instead of at test time. On Posix systems, sets the LD_LIBRARY_PATH so that ClamAV-compiled libraries can be loaded when running tests. On Windows systems, CTest will identify and collect all library dependencies and assemble a temporarily install under the build/unit_tests directory so that the libraries can be loaded when running tests. The same feature is used on Windows when using CMake to install to collect all DLL dependencies so that users don't have to install them manually afterwards. Each of the CTest tests are run using a custom wrapper around Python's unittest framework, which is also responsible for finding and inserting valgrind into the valgrind tests on Posix systems. Unlike with Autotools, the CMake CTest Valgrind-tests are enabled by default, if Valgrind can be found. There's no need to set VG=1. CTest's memcheck module is NOT supported, because we use Python to orchestrate our tests. Added a bunch of Windows compatibility changes to the unit tests. These were primarily changing / to PATHSEP and making adjustments to use Win32 C headers and ifdef out the POSIX ones which aren't available on Windows. Also disabled a bunch of tests on Win32 that don't work on Windows, notably the mmap ones and FD-passing (i.e. FILEDES) ones. Add JSON_C_HAVE_INTTYPES_H definition to clamav-config.h to eliminate warnings on Windows where json.h is included after inttypes.h because json-c's inttypes replacement relies on it. This is a it of a hack and may be removed if json-c fixes their inttypes header stuff in the future. Add preprocessor definitions on Windows to disable MSVC warnings about CRT secure and nonstandard functions. While there may be a better solution, this is needed to be able to see other more serious warnings. Add missing file comment block and copyright statement for clamsubmit.c. Also change json-c/json.h include filename to json.h in clamsubmit.c. The directory name is not required. Changed the hash table data integer type from long, which is poorly defined, to size_t -- which is capable of storing a pointer. Fixed a bunch of casts regarding this variable to eliminate warnings. Fixed two bugs causing utf8 encoding unit tests to fail on Windows: - The in_size variable should be the number of bytes, not the character count. This was was causing the SHIFT_JIS (japanese codepage) to UTF8 transcoding test to only transcode half the bytes. - It turns out that the MultiByteToWideChar() API can't transcode UTF16-BE to UTF16-LE. The solution is to just iterate over the buffer and flip the bytes on each uint16_t. This but was causing the UTF16-BE to UTF8 tests to fail. I also split up the utf8 transcoding tests into separate tests so I could see all of the failures instead of just the first one. Added a flags parameter to the unit test function to open testfiles because it turns out that on Windows if a file contains the \r\n it will replace it with just \n if you opened the file as a text file instead of as binary. However, if we open the CBC files as binary, then a bunch of bytecode tests fail. So I've changed the tests to open the CBC files in the bytecode tests as text files and open all other files as binary. Ported the feature tests from shell scripts to Python using a modified version of our QA test-framework, which is largely compatible and will allow us to migrate some QA tests into this repo. I'd like to add GitHub Actions pipelines in the future so that all public PR's get some testing before anyone has to manually review them. The clamd --log option was missing from the help string, though it definitely works. I've added it in this commit. It appears that clamd.c was never clang-format'd, so this commit also reformats clamd.c. Some of the check_clamd tests expected the path returned by clamd to match character for character with original path sent to clamd. However, as we now evaluate real paths before a scan, the path returned by clamd isn't going to match the relative (and possibly symlink-ridden) path passed to clamdscan. I fixed this test by changing the test to search for the basename: <signature> FOUND within the response instead of matching the exact path. Autotools: Link check_clamd with libclamav so we can use our utility functions in check_clamd.c.
5 years ago
set(CMAKE_SHARED_LIBRARY_PREFIX "lib")
set(CMAKE_STATIC_LIBRARY_PREFIX "lib")
endif()
#
# Find Test dependencies
#
if(ENABLE_TESTS)
# Used for the libclamav unit test framework
find_package(Libcheck REQUIRED)
# Used to generate the test files and for the application feature test framework
find_package(Python3 REQUIRED)
# First try using pytest from the PATH
execute_process(
COMMAND pytest --version
RESULT_VARIABLE PYTEST_EXIT_CODE
ERROR_QUIET OUTPUT_QUIET
)
if(${PYTEST_EXIT_CODE} EQUAL 0)
# pytest found in the path.
set(PythonTest_COMMAND "pytest;-v")
else()
# Not in the path, try using: python3 -m pytest
execute_process(
COMMAND ${Python3_EXECUTABLE} -m pytest --version
RESULT_VARIABLE PYTEST_MODULE_EXIT_CODE
ERROR_QUIET OUTPUT_QUIET
)
if(${PYTEST_MODULE_EXIT_CODE} EQUAL 0)
# pytest isn't in the path, but the Python 3 we found has it.
set(PythonTest_COMMAND "${Python3_EXECUTABLE};-m;pytest;-v")
else()
# pytest couldn't be found, verify that we can at least use: python3 -m unittest
execute_process(
COMMAND ${Python3_EXECUTABLE} -m unittest --help
RESULT_VARIABLE UNITTEST_MODULE_EXIT_CODE
ERROR_QUIET OUTPUT_QUIET
)
if(${UNITTEST_MODULE_EXIT_CODE} EQUAL 0)
# No pytest :-(, but we'll get by with unittest
message("Python 3 package 'pytest' is not installed for ${Python3_EXECUTABLE} and is not available in your PATH.")
message("Failed unit tests will be easier to read if you install pytest.")
message("Eg: python3 -m pip install --user pytest")
set(PythonTest_COMMAND "${Python3_EXECUTABLE};-m;unittest;--verbose")
else()
# No unittest either!
# Some weird Python installations do exist that lack standard modules like unittest.
# Let's make sure these folks know the Python 3 install we found won't cut it.
message("Python 3 found: ${Python3_EXECUTABLE}, but it is missing the unittest module (wierd!).")
message(FATAL_ERROR "The tests won't work with this Python installation. You can disable the tests by reconfiguring with: -D ENABLE_TESTS=OFF")
endif()
endif()
endif()
CMake: Add CTest support to match Autotools checks An ENABLE_TESTS CMake option is provided so that users can disable testing if they don't want it. Instructions for how to use this included in the INSTALL.cmake.md file. If you run `ctest`, each testcase will write out a log file to the <build>/unit_tests directory. As with Autotools' make check, the test files are from test/.split and unit_tests/.split files, but for CMake these are generated at build time instead of at test time. On Posix systems, sets the LD_LIBRARY_PATH so that ClamAV-compiled libraries can be loaded when running tests. On Windows systems, CTest will identify and collect all library dependencies and assemble a temporarily install under the build/unit_tests directory so that the libraries can be loaded when running tests. The same feature is used on Windows when using CMake to install to collect all DLL dependencies so that users don't have to install them manually afterwards. Each of the CTest tests are run using a custom wrapper around Python's unittest framework, which is also responsible for finding and inserting valgrind into the valgrind tests on Posix systems. Unlike with Autotools, the CMake CTest Valgrind-tests are enabled by default, if Valgrind can be found. There's no need to set VG=1. CTest's memcheck module is NOT supported, because we use Python to orchestrate our tests. Added a bunch of Windows compatibility changes to the unit tests. These were primarily changing / to PATHSEP and making adjustments to use Win32 C headers and ifdef out the POSIX ones which aren't available on Windows. Also disabled a bunch of tests on Win32 that don't work on Windows, notably the mmap ones and FD-passing (i.e. FILEDES) ones. Add JSON_C_HAVE_INTTYPES_H definition to clamav-config.h to eliminate warnings on Windows where json.h is included after inttypes.h because json-c's inttypes replacement relies on it. This is a it of a hack and may be removed if json-c fixes their inttypes header stuff in the future. Add preprocessor definitions on Windows to disable MSVC warnings about CRT secure and nonstandard functions. While there may be a better solution, this is needed to be able to see other more serious warnings. Add missing file comment block and copyright statement for clamsubmit.c. Also change json-c/json.h include filename to json.h in clamsubmit.c. The directory name is not required. Changed the hash table data integer type from long, which is poorly defined, to size_t -- which is capable of storing a pointer. Fixed a bunch of casts regarding this variable to eliminate warnings. Fixed two bugs causing utf8 encoding unit tests to fail on Windows: - The in_size variable should be the number of bytes, not the character count. This was was causing the SHIFT_JIS (japanese codepage) to UTF8 transcoding test to only transcode half the bytes. - It turns out that the MultiByteToWideChar() API can't transcode UTF16-BE to UTF16-LE. The solution is to just iterate over the buffer and flip the bytes on each uint16_t. This but was causing the UTF16-BE to UTF8 tests to fail. I also split up the utf8 transcoding tests into separate tests so I could see all of the failures instead of just the first one. Added a flags parameter to the unit test function to open testfiles because it turns out that on Windows if a file contains the \r\n it will replace it with just \n if you opened the file as a text file instead of as binary. However, if we open the CBC files as binary, then a bunch of bytecode tests fail. So I've changed the tests to open the CBC files in the bytecode tests as text files and open all other files as binary. Ported the feature tests from shell scripts to Python using a modified version of our QA test-framework, which is largely compatible and will allow us to migrate some QA tests into this repo. I'd like to add GitHub Actions pipelines in the future so that all public PR's get some testing before anyone has to manually review them. The clamd --log option was missing from the help string, though it definitely works. I've added it in this commit. It appears that clamd.c was never clang-format'd, so this commit also reformats clamd.c. Some of the check_clamd tests expected the path returned by clamd to match character for character with original path sent to clamd. However, as we now evaluate real paths before a scan, the path returned by clamd isn't going to match the relative (and possibly symlink-ridden) path passed to clamdscan. I fixed this test by changing the test to search for the basename: <signature> FOUND within the response instead of matching the exact path. Autotools: Link check_clamd with libclamav so we can use our utility functions in check_clamd.c.
5 years ago
# Check for valgrind. If it exists, we'll enable extra tests that use valgrind.
if(C_LINUX)
CMake: Add CTest support to match Autotools checks An ENABLE_TESTS CMake option is provided so that users can disable testing if they don't want it. Instructions for how to use this included in the INSTALL.cmake.md file. If you run `ctest`, each testcase will write out a log file to the <build>/unit_tests directory. As with Autotools' make check, the test files are from test/.split and unit_tests/.split files, but for CMake these are generated at build time instead of at test time. On Posix systems, sets the LD_LIBRARY_PATH so that ClamAV-compiled libraries can be loaded when running tests. On Windows systems, CTest will identify and collect all library dependencies and assemble a temporarily install under the build/unit_tests directory so that the libraries can be loaded when running tests. The same feature is used on Windows when using CMake to install to collect all DLL dependencies so that users don't have to install them manually afterwards. Each of the CTest tests are run using a custom wrapper around Python's unittest framework, which is also responsible for finding and inserting valgrind into the valgrind tests on Posix systems. Unlike with Autotools, the CMake CTest Valgrind-tests are enabled by default, if Valgrind can be found. There's no need to set VG=1. CTest's memcheck module is NOT supported, because we use Python to orchestrate our tests. Added a bunch of Windows compatibility changes to the unit tests. These were primarily changing / to PATHSEP and making adjustments to use Win32 C headers and ifdef out the POSIX ones which aren't available on Windows. Also disabled a bunch of tests on Win32 that don't work on Windows, notably the mmap ones and FD-passing (i.e. FILEDES) ones. Add JSON_C_HAVE_INTTYPES_H definition to clamav-config.h to eliminate warnings on Windows where json.h is included after inttypes.h because json-c's inttypes replacement relies on it. This is a it of a hack and may be removed if json-c fixes their inttypes header stuff in the future. Add preprocessor definitions on Windows to disable MSVC warnings about CRT secure and nonstandard functions. While there may be a better solution, this is needed to be able to see other more serious warnings. Add missing file comment block and copyright statement for clamsubmit.c. Also change json-c/json.h include filename to json.h in clamsubmit.c. The directory name is not required. Changed the hash table data integer type from long, which is poorly defined, to size_t -- which is capable of storing a pointer. Fixed a bunch of casts regarding this variable to eliminate warnings. Fixed two bugs causing utf8 encoding unit tests to fail on Windows: - The in_size variable should be the number of bytes, not the character count. This was was causing the SHIFT_JIS (japanese codepage) to UTF8 transcoding test to only transcode half the bytes. - It turns out that the MultiByteToWideChar() API can't transcode UTF16-BE to UTF16-LE. The solution is to just iterate over the buffer and flip the bytes on each uint16_t. This but was causing the UTF16-BE to UTF8 tests to fail. I also split up the utf8 transcoding tests into separate tests so I could see all of the failures instead of just the first one. Added a flags parameter to the unit test function to open testfiles because it turns out that on Windows if a file contains the \r\n it will replace it with just \n if you opened the file as a text file instead of as binary. However, if we open the CBC files as binary, then a bunch of bytecode tests fail. So I've changed the tests to open the CBC files in the bytecode tests as text files and open all other files as binary. Ported the feature tests from shell scripts to Python using a modified version of our QA test-framework, which is largely compatible and will allow us to migrate some QA tests into this repo. I'd like to add GitHub Actions pipelines in the future so that all public PR's get some testing before anyone has to manually review them. The clamd --log option was missing from the help string, though it definitely works. I've added it in this commit. It appears that clamd.c was never clang-format'd, so this commit also reformats clamd.c. Some of the check_clamd tests expected the path returned by clamd to match character for character with original path sent to clamd. However, as we now evaluate real paths before a scan, the path returned by clamd isn't going to match the relative (and possibly symlink-ridden) path passed to clamdscan. I fixed this test by changing the test to search for the basename: <signature> FOUND within the response instead of matching the exact path. Autotools: Link check_clamd with libclamav so we can use our utility functions in check_clamd.c.
5 years ago
find_package(Valgrind)
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
endif()
CMake: Support to build deb, rpm, & macOS pkg packages CMake/CPack is already used to build: - TGZ source tarball - WiX-based installer (Windows) - ZIP install packages (Windows) This commit adds support for building: - macOS PKG installer - DEB package - RPM package This should also enable building FreeBSD packages, but while I was able to build all of the static dependencies using Mussels, CMake/CPack 3.20 doesn't appear to have the the FreeBSD generator despite being in the documentation. The package names are will be in this format: clamav-<version><suffix>.<os>.<arch>.<extension> This includes changing the Windows .zip and .msi installer names. E.g.: - clamav-0.104.0-rc.macos.x86_64.pkg - clamav-0.104.0-rc.win.win32.msi - clamav-0.104.0-rc.win.win32.zip - clamav-0.104.0-rc.win.x64.msi - clamav-0.104.0-rc.linux.x86_64.deb - clamav-0.104.0-rc.linux.x86_64.rpm Notes about building the packages: I've only tested this with building ClamAV using static dependencies that I build using the clamav_deps "host-static" recipes from the "clamav" Mussels cookbook. Eg: msl build clamav_deps -t host-static Here's an example configuration to build clam in this way, installing to /usr/local/clamav: ```sh cmake .. \ -D CMAKE_FIND_PACKAGE_PREFER_CONFIG=TRUE \ -D CMAKE_PREFIX_PATH=$HOME/.mussels/install/host-static \ -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CMAKE_MODULE_PATH=$HOME/.mussels/install/host-static/lib/cmake \ -D CMAKE_BUILD_TYPE=RelWithDebInfo \ -D ENABLE_EXAMPLES=OFF \ -D JSONC_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/json-c" \ -D JSONC_LIBRARY="$HOME/.mussels/install/host-static/lib/libjson-c.a" \ -D ENABLE_JSON_SHARED=OFF \ -D BZIP2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D BZIP2_LIBRARY_RELEASE="$HOME/.mussels/install/host-static/lib/libbz2_static.a" \ -D OPENSSL_ROOT_DIR="$HOME/.mussels/install/host-static" \ -D OPENSSL_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D OPENSSL_CRYPTO_LIBRARY="$HOME/.mussels/install/host-static/lib/libcrypto.a" \ -D OPENSSL_SSL_LIBRARY="$HOME/.mussels/install/host-static/lib/libssl.a" \ -D LIBXML2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/libxml2" \ -D LIBXML2_LIBRARY="$HOME/.mussels/install/host-static/lib/libxml2.a" \ -D PCRE2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D PCRE2_LIBRARY="$HOME/.mussels/install/host-static/lib/libpcre2-8.a" \ -D CURSES_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D CURSES_LIBRARY="$HOME/.mussels/install/host-static/lib/libncurses.a" \ -D ZLIB_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D ZLIB_LIBRARY="$HOME/.mussels/install/host-static/lib/libz.a" \ -D LIBCHECK_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D LIBCHECK_LIBRARY="$HOME/.mussels/install/host-static/lib/libcheck.a" ``` Set CPACK_PACKAGING_INSTALL_PREFIX to customize the resulting package's install location. This can be different than the install prefix. E.g.: ```sh -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CPACK_PACKAGING_INSTALL_PREFIX="/usr/local/clamav" \ ``` Then `make` and then one of these, depending on the platform: ```sh cpack # macOS: productbuild is default cpack -G DEB # Debian-based cpack -G RPM # RPM-based ``` On macOS you'll need to `pip3 install markdown` so that the NEWS.md file can be converted to html so it will render in the installer. On RPM-based systems, you'll need rpmbuild (install rpm-build) This commit also fixes an issue where the html manual (if present) was not correctly added to the Windows (or now other) install packages. Fix num to hex function for Windows installer guid Fix win32 cpack build Fix macOS cpack build
4 years ago
#
# Configure CPack
# - for installers
# - for source tarball
CMake: Support to build deb, rpm, & macOS pkg packages CMake/CPack is already used to build: - TGZ source tarball - WiX-based installer (Windows) - ZIP install packages (Windows) This commit adds support for building: - macOS PKG installer - DEB package - RPM package This should also enable building FreeBSD packages, but while I was able to build all of the static dependencies using Mussels, CMake/CPack 3.20 doesn't appear to have the the FreeBSD generator despite being in the documentation. The package names are will be in this format: clamav-<version><suffix>.<os>.<arch>.<extension> This includes changing the Windows .zip and .msi installer names. E.g.: - clamav-0.104.0-rc.macos.x86_64.pkg - clamav-0.104.0-rc.win.win32.msi - clamav-0.104.0-rc.win.win32.zip - clamav-0.104.0-rc.win.x64.msi - clamav-0.104.0-rc.linux.x86_64.deb - clamav-0.104.0-rc.linux.x86_64.rpm Notes about building the packages: I've only tested this with building ClamAV using static dependencies that I build using the clamav_deps "host-static" recipes from the "clamav" Mussels cookbook. Eg: msl build clamav_deps -t host-static Here's an example configuration to build clam in this way, installing to /usr/local/clamav: ```sh cmake .. \ -D CMAKE_FIND_PACKAGE_PREFER_CONFIG=TRUE \ -D CMAKE_PREFIX_PATH=$HOME/.mussels/install/host-static \ -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CMAKE_MODULE_PATH=$HOME/.mussels/install/host-static/lib/cmake \ -D CMAKE_BUILD_TYPE=RelWithDebInfo \ -D ENABLE_EXAMPLES=OFF \ -D JSONC_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/json-c" \ -D JSONC_LIBRARY="$HOME/.mussels/install/host-static/lib/libjson-c.a" \ -D ENABLE_JSON_SHARED=OFF \ -D BZIP2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D BZIP2_LIBRARY_RELEASE="$HOME/.mussels/install/host-static/lib/libbz2_static.a" \ -D OPENSSL_ROOT_DIR="$HOME/.mussels/install/host-static" \ -D OPENSSL_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D OPENSSL_CRYPTO_LIBRARY="$HOME/.mussels/install/host-static/lib/libcrypto.a" \ -D OPENSSL_SSL_LIBRARY="$HOME/.mussels/install/host-static/lib/libssl.a" \ -D LIBXML2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/libxml2" \ -D LIBXML2_LIBRARY="$HOME/.mussels/install/host-static/lib/libxml2.a" \ -D PCRE2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D PCRE2_LIBRARY="$HOME/.mussels/install/host-static/lib/libpcre2-8.a" \ -D CURSES_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D CURSES_LIBRARY="$HOME/.mussels/install/host-static/lib/libncurses.a" \ -D ZLIB_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D ZLIB_LIBRARY="$HOME/.mussels/install/host-static/lib/libz.a" \ -D LIBCHECK_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D LIBCHECK_LIBRARY="$HOME/.mussels/install/host-static/lib/libcheck.a" ``` Set CPACK_PACKAGING_INSTALL_PREFIX to customize the resulting package's install location. This can be different than the install prefix. E.g.: ```sh -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CPACK_PACKAGING_INSTALL_PREFIX="/usr/local/clamav" \ ``` Then `make` and then one of these, depending on the platform: ```sh cpack # macOS: productbuild is default cpack -G DEB # Debian-based cpack -G RPM # RPM-based ``` On macOS you'll need to `pip3 install markdown` so that the NEWS.md file can be converted to html so it will render in the installer. On RPM-based systems, you'll need rpmbuild (install rpm-build) This commit also fixes an issue where the html manual (if present) was not correctly added to the Windows (or now other) install packages. Fix num to hex function for Windows installer guid Fix win32 cpack build Fix macOS cpack build
4 years ago
#
CMake: Support to build deb, rpm, & macOS pkg packages CMake/CPack is already used to build: - TGZ source tarball - WiX-based installer (Windows) - ZIP install packages (Windows) This commit adds support for building: - macOS PKG installer - DEB package - RPM package This should also enable building FreeBSD packages, but while I was able to build all of the static dependencies using Mussels, CMake/CPack 3.20 doesn't appear to have the the FreeBSD generator despite being in the documentation. The package names are will be in this format: clamav-<version><suffix>.<os>.<arch>.<extension> This includes changing the Windows .zip and .msi installer names. E.g.: - clamav-0.104.0-rc.macos.x86_64.pkg - clamav-0.104.0-rc.win.win32.msi - clamav-0.104.0-rc.win.win32.zip - clamav-0.104.0-rc.win.x64.msi - clamav-0.104.0-rc.linux.x86_64.deb - clamav-0.104.0-rc.linux.x86_64.rpm Notes about building the packages: I've only tested this with building ClamAV using static dependencies that I build using the clamav_deps "host-static" recipes from the "clamav" Mussels cookbook. Eg: msl build clamav_deps -t host-static Here's an example configuration to build clam in this way, installing to /usr/local/clamav: ```sh cmake .. \ -D CMAKE_FIND_PACKAGE_PREFER_CONFIG=TRUE \ -D CMAKE_PREFIX_PATH=$HOME/.mussels/install/host-static \ -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CMAKE_MODULE_PATH=$HOME/.mussels/install/host-static/lib/cmake \ -D CMAKE_BUILD_TYPE=RelWithDebInfo \ -D ENABLE_EXAMPLES=OFF \ -D JSONC_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/json-c" \ -D JSONC_LIBRARY="$HOME/.mussels/install/host-static/lib/libjson-c.a" \ -D ENABLE_JSON_SHARED=OFF \ -D BZIP2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D BZIP2_LIBRARY_RELEASE="$HOME/.mussels/install/host-static/lib/libbz2_static.a" \ -D OPENSSL_ROOT_DIR="$HOME/.mussels/install/host-static" \ -D OPENSSL_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D OPENSSL_CRYPTO_LIBRARY="$HOME/.mussels/install/host-static/lib/libcrypto.a" \ -D OPENSSL_SSL_LIBRARY="$HOME/.mussels/install/host-static/lib/libssl.a" \ -D LIBXML2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/libxml2" \ -D LIBXML2_LIBRARY="$HOME/.mussels/install/host-static/lib/libxml2.a" \ -D PCRE2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D PCRE2_LIBRARY="$HOME/.mussels/install/host-static/lib/libpcre2-8.a" \ -D CURSES_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D CURSES_LIBRARY="$HOME/.mussels/install/host-static/lib/libncurses.a" \ -D ZLIB_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D ZLIB_LIBRARY="$HOME/.mussels/install/host-static/lib/libz.a" \ -D LIBCHECK_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D LIBCHECK_LIBRARY="$HOME/.mussels/install/host-static/lib/libcheck.a" ``` Set CPACK_PACKAGING_INSTALL_PREFIX to customize the resulting package's install location. This can be different than the install prefix. E.g.: ```sh -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CPACK_PACKAGING_INSTALL_PREFIX="/usr/local/clamav" \ ``` Then `make` and then one of these, depending on the platform: ```sh cpack # macOS: productbuild is default cpack -G DEB # Debian-based cpack -G RPM # RPM-based ``` On macOS you'll need to `pip3 install markdown` so that the NEWS.md file can be converted to html so it will render in the installer. On RPM-based systems, you'll need rpmbuild (install rpm-build) This commit also fixes an issue where the html manual (if present) was not correctly added to the Windows (or now other) install packages. Fix num to hex function for Windows installer guid Fix win32 cpack build Fix macOS cpack build
4 years ago
if (WIN32)
find_package(PThreadW32)
set(HAVE_PTHREAD_H 1)
set(_REENTRANT 1)
set(CL_THREAD_SAFE 1)
else()
set(CMAKE_THREAD_PREFER_PTHREAD 1)
find_package(Threads)
if(Threads_FOUND AND CMAKE_USE_PTHREADS_INIT)
set(HAVE_PTHREAD_H 1)
set(_REENTRANT 1)
set(CL_THREAD_SAFE 1)
endif()
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
#
# Configure CPack
# - for installers
# - for source tarball
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
#
CMake: Support to build deb, rpm, & macOS pkg packages CMake/CPack is already used to build: - TGZ source tarball - WiX-based installer (Windows) - ZIP install packages (Windows) This commit adds support for building: - macOS PKG installer - DEB package - RPM package This should also enable building FreeBSD packages, but while I was able to build all of the static dependencies using Mussels, CMake/CPack 3.20 doesn't appear to have the the FreeBSD generator despite being in the documentation. The package names are will be in this format: clamav-<version><suffix>.<os>.<arch>.<extension> This includes changing the Windows .zip and .msi installer names. E.g.: - clamav-0.104.0-rc.macos.x86_64.pkg - clamav-0.104.0-rc.win.win32.msi - clamav-0.104.0-rc.win.win32.zip - clamav-0.104.0-rc.win.x64.msi - clamav-0.104.0-rc.linux.x86_64.deb - clamav-0.104.0-rc.linux.x86_64.rpm Notes about building the packages: I've only tested this with building ClamAV using static dependencies that I build using the clamav_deps "host-static" recipes from the "clamav" Mussels cookbook. Eg: msl build clamav_deps -t host-static Here's an example configuration to build clam in this way, installing to /usr/local/clamav: ```sh cmake .. \ -D CMAKE_FIND_PACKAGE_PREFER_CONFIG=TRUE \ -D CMAKE_PREFIX_PATH=$HOME/.mussels/install/host-static \ -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CMAKE_MODULE_PATH=$HOME/.mussels/install/host-static/lib/cmake \ -D CMAKE_BUILD_TYPE=RelWithDebInfo \ -D ENABLE_EXAMPLES=OFF \ -D JSONC_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/json-c" \ -D JSONC_LIBRARY="$HOME/.mussels/install/host-static/lib/libjson-c.a" \ -D ENABLE_JSON_SHARED=OFF \ -D BZIP2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D BZIP2_LIBRARY_RELEASE="$HOME/.mussels/install/host-static/lib/libbz2_static.a" \ -D OPENSSL_ROOT_DIR="$HOME/.mussels/install/host-static" \ -D OPENSSL_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D OPENSSL_CRYPTO_LIBRARY="$HOME/.mussels/install/host-static/lib/libcrypto.a" \ -D OPENSSL_SSL_LIBRARY="$HOME/.mussels/install/host-static/lib/libssl.a" \ -D LIBXML2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/libxml2" \ -D LIBXML2_LIBRARY="$HOME/.mussels/install/host-static/lib/libxml2.a" \ -D PCRE2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D PCRE2_LIBRARY="$HOME/.mussels/install/host-static/lib/libpcre2-8.a" \ -D CURSES_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D CURSES_LIBRARY="$HOME/.mussels/install/host-static/lib/libncurses.a" \ -D ZLIB_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D ZLIB_LIBRARY="$HOME/.mussels/install/host-static/lib/libz.a" \ -D LIBCHECK_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D LIBCHECK_LIBRARY="$HOME/.mussels/install/host-static/lib/libcheck.a" ``` Set CPACK_PACKAGING_INSTALL_PREFIX to customize the resulting package's install location. This can be different than the install prefix. E.g.: ```sh -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CPACK_PACKAGING_INSTALL_PREFIX="/usr/local/clamav" \ ``` Then `make` and then one of these, depending on the platform: ```sh cpack # macOS: productbuild is default cpack -G DEB # Debian-based cpack -G RPM # RPM-based ``` On macOS you'll need to `pip3 install markdown` so that the NEWS.md file can be converted to html so it will render in the installer. On RPM-based systems, you'll need rpmbuild (install rpm-build) This commit also fixes an issue where the html manual (if present) was not correctly added to the Windows (or now other) install packages. Fix num to hex function for Windows installer guid Fix win32 cpack build Fix macOS cpack build
4 years ago
set(CPACK_PACKAGE_NAME ${PACKAGE_STRING})
#set(CPACK_PACKAGE_ICON ${PROJECT_SOURCE_DIR}/logo.png)
#set(CPACK_PACKAGE_RELOCATABLE TRUE)
set(CPACK_STRIP_FILES TRUE)
CMake: Support to build deb, rpm, & macOS pkg packages CMake/CPack is already used to build: - TGZ source tarball - WiX-based installer (Windows) - ZIP install packages (Windows) This commit adds support for building: - macOS PKG installer - DEB package - RPM package This should also enable building FreeBSD packages, but while I was able to build all of the static dependencies using Mussels, CMake/CPack 3.20 doesn't appear to have the the FreeBSD generator despite being in the documentation. The package names are will be in this format: clamav-<version><suffix>.<os>.<arch>.<extension> This includes changing the Windows .zip and .msi installer names. E.g.: - clamav-0.104.0-rc.macos.x86_64.pkg - clamav-0.104.0-rc.win.win32.msi - clamav-0.104.0-rc.win.win32.zip - clamav-0.104.0-rc.win.x64.msi - clamav-0.104.0-rc.linux.x86_64.deb - clamav-0.104.0-rc.linux.x86_64.rpm Notes about building the packages: I've only tested this with building ClamAV using static dependencies that I build using the clamav_deps "host-static" recipes from the "clamav" Mussels cookbook. Eg: msl build clamav_deps -t host-static Here's an example configuration to build clam in this way, installing to /usr/local/clamav: ```sh cmake .. \ -D CMAKE_FIND_PACKAGE_PREFER_CONFIG=TRUE \ -D CMAKE_PREFIX_PATH=$HOME/.mussels/install/host-static \ -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CMAKE_MODULE_PATH=$HOME/.mussels/install/host-static/lib/cmake \ -D CMAKE_BUILD_TYPE=RelWithDebInfo \ -D ENABLE_EXAMPLES=OFF \ -D JSONC_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/json-c" \ -D JSONC_LIBRARY="$HOME/.mussels/install/host-static/lib/libjson-c.a" \ -D ENABLE_JSON_SHARED=OFF \ -D BZIP2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D BZIP2_LIBRARY_RELEASE="$HOME/.mussels/install/host-static/lib/libbz2_static.a" \ -D OPENSSL_ROOT_DIR="$HOME/.mussels/install/host-static" \ -D OPENSSL_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D OPENSSL_CRYPTO_LIBRARY="$HOME/.mussels/install/host-static/lib/libcrypto.a" \ -D OPENSSL_SSL_LIBRARY="$HOME/.mussels/install/host-static/lib/libssl.a" \ -D LIBXML2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/libxml2" \ -D LIBXML2_LIBRARY="$HOME/.mussels/install/host-static/lib/libxml2.a" \ -D PCRE2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D PCRE2_LIBRARY="$HOME/.mussels/install/host-static/lib/libpcre2-8.a" \ -D CURSES_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D CURSES_LIBRARY="$HOME/.mussels/install/host-static/lib/libncurses.a" \ -D ZLIB_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D ZLIB_LIBRARY="$HOME/.mussels/install/host-static/lib/libz.a" \ -D LIBCHECK_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D LIBCHECK_LIBRARY="$HOME/.mussels/install/host-static/lib/libcheck.a" ``` Set CPACK_PACKAGING_INSTALL_PREFIX to customize the resulting package's install location. This can be different than the install prefix. E.g.: ```sh -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CPACK_PACKAGING_INSTALL_PREFIX="/usr/local/clamav" \ ``` Then `make` and then one of these, depending on the platform: ```sh cpack # macOS: productbuild is default cpack -G DEB # Debian-based cpack -G RPM # RPM-based ``` On macOS you'll need to `pip3 install markdown` so that the NEWS.md file can be converted to html so it will render in the installer. On RPM-based systems, you'll need rpmbuild (install rpm-build) This commit also fixes an issue where the html manual (if present) was not correctly added to the Windows (or now other) install packages. Fix num to hex function for Windows installer guid Fix win32 cpack build Fix macOS cpack build
4 years ago
set(CPACK_PACKAGE_VERSION_MAJOR ${CLAMAV_VERSION_MAJOR})
set(CPACK_PACKAGE_VERSION_MINOR ${CLAMAV_VERSION_MINOR})
set(CPACK_PACKAGE_VERSION_PATCH ${CLAMAV_VERSION_PATCH})
set(CPACK_PACKAGE_DESCRIPTION_SUMMARY ${PROJECT_DESCRIPTION})
set(CPACK_PACKAGE_CONTACT https://www.clamav.net/)
# point to readme and license files
set(CPACK_RESOURCE_FILE_README ${PROJECT_SOURCE_DIR}/README.md)
set(CPACK_RESOURCE_FILE_LICENSE ${PROJECT_SOURCE_DIR}/COPYING.txt)
set(CPACK_PACKAGE_FILE_NAME clamav-${PROJECT_VERSION}${VERSION_SUFFIX})
set(CPACK_SOURCE_GENERATOR "TGZ")
set(CPACK_SOURCE_PACKAGE_FILE_NAME ${CPACK_PACKAGE_FILE_NAME})
set(CPACK_SOURCE_IGNORE_FILES "\\.git/" ".*~$" "^${CMAKE_BINARY_DIR}")
set(CPACK_VERBATIM_VARIABLES YES)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if (WIN32)
set(CMAKE_INSTALL_SYSTEM_RUNTIME_DESTINATION .)
include(InstallRequiredSystemLibraries)
set(CPACK_GENERATOR "ZIP;WIX")
set(CPACK_PACKAGE_VENDOR "Cisco Systems, Inc.")
CMake: Support to build deb, rpm, & macOS pkg packages CMake/CPack is already used to build: - TGZ source tarball - WiX-based installer (Windows) - ZIP install packages (Windows) This commit adds support for building: - macOS PKG installer - DEB package - RPM package This should also enable building FreeBSD packages, but while I was able to build all of the static dependencies using Mussels, CMake/CPack 3.20 doesn't appear to have the the FreeBSD generator despite being in the documentation. The package names are will be in this format: clamav-<version><suffix>.<os>.<arch>.<extension> This includes changing the Windows .zip and .msi installer names. E.g.: - clamav-0.104.0-rc.macos.x86_64.pkg - clamav-0.104.0-rc.win.win32.msi - clamav-0.104.0-rc.win.win32.zip - clamav-0.104.0-rc.win.x64.msi - clamav-0.104.0-rc.linux.x86_64.deb - clamav-0.104.0-rc.linux.x86_64.rpm Notes about building the packages: I've only tested this with building ClamAV using static dependencies that I build using the clamav_deps "host-static" recipes from the "clamav" Mussels cookbook. Eg: msl build clamav_deps -t host-static Here's an example configuration to build clam in this way, installing to /usr/local/clamav: ```sh cmake .. \ -D CMAKE_FIND_PACKAGE_PREFER_CONFIG=TRUE \ -D CMAKE_PREFIX_PATH=$HOME/.mussels/install/host-static \ -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CMAKE_MODULE_PATH=$HOME/.mussels/install/host-static/lib/cmake \ -D CMAKE_BUILD_TYPE=RelWithDebInfo \ -D ENABLE_EXAMPLES=OFF \ -D JSONC_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/json-c" \ -D JSONC_LIBRARY="$HOME/.mussels/install/host-static/lib/libjson-c.a" \ -D ENABLE_JSON_SHARED=OFF \ -D BZIP2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D BZIP2_LIBRARY_RELEASE="$HOME/.mussels/install/host-static/lib/libbz2_static.a" \ -D OPENSSL_ROOT_DIR="$HOME/.mussels/install/host-static" \ -D OPENSSL_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D OPENSSL_CRYPTO_LIBRARY="$HOME/.mussels/install/host-static/lib/libcrypto.a" \ -D OPENSSL_SSL_LIBRARY="$HOME/.mussels/install/host-static/lib/libssl.a" \ -D LIBXML2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/libxml2" \ -D LIBXML2_LIBRARY="$HOME/.mussels/install/host-static/lib/libxml2.a" \ -D PCRE2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D PCRE2_LIBRARY="$HOME/.mussels/install/host-static/lib/libpcre2-8.a" \ -D CURSES_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D CURSES_LIBRARY="$HOME/.mussels/install/host-static/lib/libncurses.a" \ -D ZLIB_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D ZLIB_LIBRARY="$HOME/.mussels/install/host-static/lib/libz.a" \ -D LIBCHECK_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D LIBCHECK_LIBRARY="$HOME/.mussels/install/host-static/lib/libcheck.a" ``` Set CPACK_PACKAGING_INSTALL_PREFIX to customize the resulting package's install location. This can be different than the install prefix. E.g.: ```sh -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CPACK_PACKAGING_INSTALL_PREFIX="/usr/local/clamav" \ ``` Then `make` and then one of these, depending on the platform: ```sh cpack # macOS: productbuild is default cpack -G DEB # Debian-based cpack -G RPM # RPM-based ``` On macOS you'll need to `pip3 install markdown` so that the NEWS.md file can be converted to html so it will render in the installer. On RPM-based systems, you'll need rpmbuild (install rpm-build) This commit also fixes an issue where the html manual (if present) was not correctly added to the Windows (or now other) install packages. Fix num to hex function for Windows installer guid Fix win32 cpack build Fix macOS cpack build
4 years ago
set(CPACK_PACKAGE_FILE_NAME ${CPACK_PACKAGE_FILE_NAME}.win.${CMAKE_VS_PLATFORM_NAME})
NumberToHex(${PROJECT_VERSION_MAJOR} HEX_MAJOR)
NumberToHex(${PROJECT_VERSION_MINOR} HEX_MINOR)
NumberToHex(${PROJECT_VERSION_PATCH} HEX_PATCH)
SET(CPACK_WIX_PRODUCT_GUID "D9F136C1-3691-47E3-9079-4FE9C9${HEX_MAJOR}${HEX_MINOR}${HEX_PATCH}")
SET(CPACK_WIX_UPGRADE_GUID "D9F136C1-3691-47E3-9079-4FE9C9${HEX_MAJOR}${HEX_MINOR}00")
SET(CPACK_WIX_PRODUCT_ICON ${CMAKE_CURRENT_SOURCE_DIR}/win32/res/clam.ico)
SET(CPACK_WIX_UI_BANNER ${CMAKE_CURRENT_SOURCE_DIR}/win32/wix_ui_banner.bmp)
SET(CPACK_WIX_UI_DIALOG ${CMAKE_CURRENT_SOURCE_DIR}/win32/wix_ui_dialog.bmp)
SET(CPACK_WIX_CMAKE_PACKAGE_REGISTRY ClamAV)
set(CPACK_PACKAGE_INSTALL_DIRECTORY "ClamAV")
CMake: Support to build deb, rpm, & macOS pkg packages CMake/CPack is already used to build: - TGZ source tarball - WiX-based installer (Windows) - ZIP install packages (Windows) This commit adds support for building: - macOS PKG installer - DEB package - RPM package This should also enable building FreeBSD packages, but while I was able to build all of the static dependencies using Mussels, CMake/CPack 3.20 doesn't appear to have the the FreeBSD generator despite being in the documentation. The package names are will be in this format: clamav-<version><suffix>.<os>.<arch>.<extension> This includes changing the Windows .zip and .msi installer names. E.g.: - clamav-0.104.0-rc.macos.x86_64.pkg - clamav-0.104.0-rc.win.win32.msi - clamav-0.104.0-rc.win.win32.zip - clamav-0.104.0-rc.win.x64.msi - clamav-0.104.0-rc.linux.x86_64.deb - clamav-0.104.0-rc.linux.x86_64.rpm Notes about building the packages: I've only tested this with building ClamAV using static dependencies that I build using the clamav_deps "host-static" recipes from the "clamav" Mussels cookbook. Eg: msl build clamav_deps -t host-static Here's an example configuration to build clam in this way, installing to /usr/local/clamav: ```sh cmake .. \ -D CMAKE_FIND_PACKAGE_PREFER_CONFIG=TRUE \ -D CMAKE_PREFIX_PATH=$HOME/.mussels/install/host-static \ -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CMAKE_MODULE_PATH=$HOME/.mussels/install/host-static/lib/cmake \ -D CMAKE_BUILD_TYPE=RelWithDebInfo \ -D ENABLE_EXAMPLES=OFF \ -D JSONC_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/json-c" \ -D JSONC_LIBRARY="$HOME/.mussels/install/host-static/lib/libjson-c.a" \ -D ENABLE_JSON_SHARED=OFF \ -D BZIP2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D BZIP2_LIBRARY_RELEASE="$HOME/.mussels/install/host-static/lib/libbz2_static.a" \ -D OPENSSL_ROOT_DIR="$HOME/.mussels/install/host-static" \ -D OPENSSL_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D OPENSSL_CRYPTO_LIBRARY="$HOME/.mussels/install/host-static/lib/libcrypto.a" \ -D OPENSSL_SSL_LIBRARY="$HOME/.mussels/install/host-static/lib/libssl.a" \ -D LIBXML2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/libxml2" \ -D LIBXML2_LIBRARY="$HOME/.mussels/install/host-static/lib/libxml2.a" \ -D PCRE2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D PCRE2_LIBRARY="$HOME/.mussels/install/host-static/lib/libpcre2-8.a" \ -D CURSES_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D CURSES_LIBRARY="$HOME/.mussels/install/host-static/lib/libncurses.a" \ -D ZLIB_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D ZLIB_LIBRARY="$HOME/.mussels/install/host-static/lib/libz.a" \ -D LIBCHECK_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D LIBCHECK_LIBRARY="$HOME/.mussels/install/host-static/lib/libcheck.a" ``` Set CPACK_PACKAGING_INSTALL_PREFIX to customize the resulting package's install location. This can be different than the install prefix. E.g.: ```sh -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CPACK_PACKAGING_INSTALL_PREFIX="/usr/local/clamav" \ ``` Then `make` and then one of these, depending on the platform: ```sh cpack # macOS: productbuild is default cpack -G DEB # Debian-based cpack -G RPM # RPM-based ``` On macOS you'll need to `pip3 install markdown` so that the NEWS.md file can be converted to html so it will render in the installer. On RPM-based systems, you'll need rpmbuild (install rpm-build) This commit also fixes an issue where the html manual (if present) was not correctly added to the Windows (or now other) install packages. Fix num to hex function for Windows installer guid Fix win32 cpack build Fix macOS cpack build
4 years ago
install(
FILES
${CMAKE_CURRENT_SOURCE_DIR}/NEWS.md
${CMAKE_CURRENT_SOURCE_DIR}/README.md
DESTINATION ".")
elseif(APPLE)
set(CPACK_PACKAGE_NAME ClamAV)
set(CPACK_GENERATOR productbuild)
set(CPACK_PACKAGE_FILE_NAME ${CPACK_PACKAGE_FILE_NAME}.macos.universal)
set(CPACK_PACKAGE_VENDOR "cisco") # For Apple, creates short name com.cisco.clamav.xxx in pkgutil
CMake: Support to build deb, rpm, & macOS pkg packages CMake/CPack is already used to build: - TGZ source tarball - WiX-based installer (Windows) - ZIP install packages (Windows) This commit adds support for building: - macOS PKG installer - DEB package - RPM package This should also enable building FreeBSD packages, but while I was able to build all of the static dependencies using Mussels, CMake/CPack 3.20 doesn't appear to have the the FreeBSD generator despite being in the documentation. The package names are will be in this format: clamav-<version><suffix>.<os>.<arch>.<extension> This includes changing the Windows .zip and .msi installer names. E.g.: - clamav-0.104.0-rc.macos.x86_64.pkg - clamav-0.104.0-rc.win.win32.msi - clamav-0.104.0-rc.win.win32.zip - clamav-0.104.0-rc.win.x64.msi - clamav-0.104.0-rc.linux.x86_64.deb - clamav-0.104.0-rc.linux.x86_64.rpm Notes about building the packages: I've only tested this with building ClamAV using static dependencies that I build using the clamav_deps "host-static" recipes from the "clamav" Mussels cookbook. Eg: msl build clamav_deps -t host-static Here's an example configuration to build clam in this way, installing to /usr/local/clamav: ```sh cmake .. \ -D CMAKE_FIND_PACKAGE_PREFER_CONFIG=TRUE \ -D CMAKE_PREFIX_PATH=$HOME/.mussels/install/host-static \ -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CMAKE_MODULE_PATH=$HOME/.mussels/install/host-static/lib/cmake \ -D CMAKE_BUILD_TYPE=RelWithDebInfo \ -D ENABLE_EXAMPLES=OFF \ -D JSONC_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/json-c" \ -D JSONC_LIBRARY="$HOME/.mussels/install/host-static/lib/libjson-c.a" \ -D ENABLE_JSON_SHARED=OFF \ -D BZIP2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D BZIP2_LIBRARY_RELEASE="$HOME/.mussels/install/host-static/lib/libbz2_static.a" \ -D OPENSSL_ROOT_DIR="$HOME/.mussels/install/host-static" \ -D OPENSSL_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D OPENSSL_CRYPTO_LIBRARY="$HOME/.mussels/install/host-static/lib/libcrypto.a" \ -D OPENSSL_SSL_LIBRARY="$HOME/.mussels/install/host-static/lib/libssl.a" \ -D LIBXML2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/libxml2" \ -D LIBXML2_LIBRARY="$HOME/.mussels/install/host-static/lib/libxml2.a" \ -D PCRE2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D PCRE2_LIBRARY="$HOME/.mussels/install/host-static/lib/libpcre2-8.a" \ -D CURSES_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D CURSES_LIBRARY="$HOME/.mussels/install/host-static/lib/libncurses.a" \ -D ZLIB_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D ZLIB_LIBRARY="$HOME/.mussels/install/host-static/lib/libz.a" \ -D LIBCHECK_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D LIBCHECK_LIBRARY="$HOME/.mussels/install/host-static/lib/libcheck.a" ``` Set CPACK_PACKAGING_INSTALL_PREFIX to customize the resulting package's install location. This can be different than the install prefix. E.g.: ```sh -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CPACK_PACKAGING_INSTALL_PREFIX="/usr/local/clamav" \ ``` Then `make` and then one of these, depending on the platform: ```sh cpack # macOS: productbuild is default cpack -G DEB # Debian-based cpack -G RPM # RPM-based ``` On macOS you'll need to `pip3 install markdown` so that the NEWS.md file can be converted to html so it will render in the installer. On RPM-based systems, you'll need rpmbuild (install rpm-build) This commit also fixes an issue where the html manual (if present) was not correctly added to the Windows (or now other) install packages. Fix num to hex function for Windows installer guid Fix win32 cpack build Fix macOS cpack build
4 years ago
# productbuild requires components or it won't add anything to the PKG
set(CPACK_COMPONENT_LIBRARIES_DISPLAY_NAME "Libraries")
set(CPACK_COMPONENT_LIBRARIES_DESCRIPTION "The ClamAV libraries including the header files for C/C++ development.")
set(CPACK_COMPONENT_DOCUMENTATION_DISPLAY_NAME "Documentation")
set(CPACK_COMPONENT_DOCUMENTATION_DESCRIPTION "Manpages and HTML documentation.")
set(CPACK_COMPONENT_PROGRAMS_DISPLAY_NAME "Programs")
set(CPACK_COMPONENT_PROGRAMS_DESCRIPTION "The ClamAV toolkit.")
# dependencies between components
set(CPACK_COMPONENT_DOCUMENTATION_DEPENDS libraries)
set(CPACK_COMPONENT_PROGRAMS_DEPENDS libraries)
set(CPACK_COMPONENT_LIBRARIES_REQUIRED ON) # always install the libs
set(CPACK_COMPONENTS_ALL libraries documentation programs)
if(CLAMAV_SIGN_FILE)
# This tells Xcode's signing phase to pretend that the binary was signed by the linker.
# Then install_name_tool is willing to revise the ad-hoc signature.
# See: https://gitlab.kitware.com/cmake/cmake/-/issues/21854#note_907691
set(CMAKE_XCODE_ATTRIBUTE_OTHER_CODE_SIGN_FLAGS "-o linker-signed")
# Stripping the files will invalidate the signatures.
set(CPACK_STRIP_FILES FALSE)
CMake: Support to build deb, rpm, & macOS pkg packages CMake/CPack is already used to build: - TGZ source tarball - WiX-based installer (Windows) - ZIP install packages (Windows) This commit adds support for building: - macOS PKG installer - DEB package - RPM package This should also enable building FreeBSD packages, but while I was able to build all of the static dependencies using Mussels, CMake/CPack 3.20 doesn't appear to have the the FreeBSD generator despite being in the documentation. The package names are will be in this format: clamav-<version><suffix>.<os>.<arch>.<extension> This includes changing the Windows .zip and .msi installer names. E.g.: - clamav-0.104.0-rc.macos.x86_64.pkg - clamav-0.104.0-rc.win.win32.msi - clamav-0.104.0-rc.win.win32.zip - clamav-0.104.0-rc.win.x64.msi - clamav-0.104.0-rc.linux.x86_64.deb - clamav-0.104.0-rc.linux.x86_64.rpm Notes about building the packages: I've only tested this with building ClamAV using static dependencies that I build using the clamav_deps "host-static" recipes from the "clamav" Mussels cookbook. Eg: msl build clamav_deps -t host-static Here's an example configuration to build clam in this way, installing to /usr/local/clamav: ```sh cmake .. \ -D CMAKE_FIND_PACKAGE_PREFER_CONFIG=TRUE \ -D CMAKE_PREFIX_PATH=$HOME/.mussels/install/host-static \ -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CMAKE_MODULE_PATH=$HOME/.mussels/install/host-static/lib/cmake \ -D CMAKE_BUILD_TYPE=RelWithDebInfo \ -D ENABLE_EXAMPLES=OFF \ -D JSONC_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/json-c" \ -D JSONC_LIBRARY="$HOME/.mussels/install/host-static/lib/libjson-c.a" \ -D ENABLE_JSON_SHARED=OFF \ -D BZIP2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D BZIP2_LIBRARY_RELEASE="$HOME/.mussels/install/host-static/lib/libbz2_static.a" \ -D OPENSSL_ROOT_DIR="$HOME/.mussels/install/host-static" \ -D OPENSSL_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D OPENSSL_CRYPTO_LIBRARY="$HOME/.mussels/install/host-static/lib/libcrypto.a" \ -D OPENSSL_SSL_LIBRARY="$HOME/.mussels/install/host-static/lib/libssl.a" \ -D LIBXML2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/libxml2" \ -D LIBXML2_LIBRARY="$HOME/.mussels/install/host-static/lib/libxml2.a" \ -D PCRE2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D PCRE2_LIBRARY="$HOME/.mussels/install/host-static/lib/libpcre2-8.a" \ -D CURSES_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D CURSES_LIBRARY="$HOME/.mussels/install/host-static/lib/libncurses.a" \ -D ZLIB_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D ZLIB_LIBRARY="$HOME/.mussels/install/host-static/lib/libz.a" \ -D LIBCHECK_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D LIBCHECK_LIBRARY="$HOME/.mussels/install/host-static/lib/libcheck.a" ``` Set CPACK_PACKAGING_INSTALL_PREFIX to customize the resulting package's install location. This can be different than the install prefix. E.g.: ```sh -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CPACK_PACKAGING_INSTALL_PREFIX="/usr/local/clamav" \ ``` Then `make` and then one of these, depending on the platform: ```sh cpack # macOS: productbuild is default cpack -G DEB # Debian-based cpack -G RPM # RPM-based ``` On macOS you'll need to `pip3 install markdown` so that the NEWS.md file can be converted to html so it will render in the installer. On RPM-based systems, you'll need rpmbuild (install rpm-build) This commit also fixes an issue where the html manual (if present) was not correctly added to the Windows (or now other) install packages. Fix num to hex function for Windows installer guid Fix win32 cpack build Fix macOS cpack build
4 years ago
# Convert NEWS.md to HTML to match Apple productbuild requirements.
# Not in the path, try using: python3 -m pytest
execute_process(
COMMAND ${Python3_EXECUTABLE} -m markdown --version
RESULT_VARIABLE MARKDOWN_MODULE_EXIT_CODE
ERROR_QUIET OUTPUT_QUIET
)
if(${MARKDOWN_MODULE_EXIT_CODE} EQUAL 0)
# The markdown module is installed, we can do the conversion.
execute_process(
COMMAND echo "<html><body>"
OUTPUT_FILE ${CMAKE_CURRENT_BINARY_DIR}/prefix.html)
execute_process(
COMMAND ${Python3_EXECUTABLE} -m markdown ${CMAKE_CURRENT_SOURCE_DIR}/NEWS.md
OUTPUT_FILE ${CMAKE_CURRENT_BINARY_DIR}/body.html)
execute_process(
COMMAND echo "</html></body>"
OUTPUT_FILE ${CMAKE_CURRENT_BINARY_DIR}/suffix.html)
execute_process(
COMMAND cat ${CMAKE_CURRENT_BINARY_DIR}/prefix.html
${CMAKE_CURRENT_BINARY_DIR}/body.html
${CMAKE_CURRENT_BINARY_DIR}/suffix.html
OUTPUT_FILE ${CMAKE_CURRENT_BINARY_DIR}/NEWS.html)
CMake: Support to build deb, rpm, & macOS pkg packages CMake/CPack is already used to build: - TGZ source tarball - WiX-based installer (Windows) - ZIP install packages (Windows) This commit adds support for building: - macOS PKG installer - DEB package - RPM package This should also enable building FreeBSD packages, but while I was able to build all of the static dependencies using Mussels, CMake/CPack 3.20 doesn't appear to have the the FreeBSD generator despite being in the documentation. The package names are will be in this format: clamav-<version><suffix>.<os>.<arch>.<extension> This includes changing the Windows .zip and .msi installer names. E.g.: - clamav-0.104.0-rc.macos.x86_64.pkg - clamav-0.104.0-rc.win.win32.msi - clamav-0.104.0-rc.win.win32.zip - clamav-0.104.0-rc.win.x64.msi - clamav-0.104.0-rc.linux.x86_64.deb - clamav-0.104.0-rc.linux.x86_64.rpm Notes about building the packages: I've only tested this with building ClamAV using static dependencies that I build using the clamav_deps "host-static" recipes from the "clamav" Mussels cookbook. Eg: msl build clamav_deps -t host-static Here's an example configuration to build clam in this way, installing to /usr/local/clamav: ```sh cmake .. \ -D CMAKE_FIND_PACKAGE_PREFER_CONFIG=TRUE \ -D CMAKE_PREFIX_PATH=$HOME/.mussels/install/host-static \ -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CMAKE_MODULE_PATH=$HOME/.mussels/install/host-static/lib/cmake \ -D CMAKE_BUILD_TYPE=RelWithDebInfo \ -D ENABLE_EXAMPLES=OFF \ -D JSONC_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/json-c" \ -D JSONC_LIBRARY="$HOME/.mussels/install/host-static/lib/libjson-c.a" \ -D ENABLE_JSON_SHARED=OFF \ -D BZIP2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D BZIP2_LIBRARY_RELEASE="$HOME/.mussels/install/host-static/lib/libbz2_static.a" \ -D OPENSSL_ROOT_DIR="$HOME/.mussels/install/host-static" \ -D OPENSSL_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D OPENSSL_CRYPTO_LIBRARY="$HOME/.mussels/install/host-static/lib/libcrypto.a" \ -D OPENSSL_SSL_LIBRARY="$HOME/.mussels/install/host-static/lib/libssl.a" \ -D LIBXML2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/libxml2" \ -D LIBXML2_LIBRARY="$HOME/.mussels/install/host-static/lib/libxml2.a" \ -D PCRE2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D PCRE2_LIBRARY="$HOME/.mussels/install/host-static/lib/libpcre2-8.a" \ -D CURSES_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D CURSES_LIBRARY="$HOME/.mussels/install/host-static/lib/libncurses.a" \ -D ZLIB_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D ZLIB_LIBRARY="$HOME/.mussels/install/host-static/lib/libz.a" \ -D LIBCHECK_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D LIBCHECK_LIBRARY="$HOME/.mussels/install/host-static/lib/libcheck.a" ``` Set CPACK_PACKAGING_INSTALL_PREFIX to customize the resulting package's install location. This can be different than the install prefix. E.g.: ```sh -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CPACK_PACKAGING_INSTALL_PREFIX="/usr/local/clamav" \ ``` Then `make` and then one of these, depending on the platform: ```sh cpack # macOS: productbuild is default cpack -G DEB # Debian-based cpack -G RPM # RPM-based ``` On macOS you'll need to `pip3 install markdown` so that the NEWS.md file can be converted to html so it will render in the installer. On RPM-based systems, you'll need rpmbuild (install rpm-build) This commit also fixes an issue where the html manual (if present) was not correctly added to the Windows (or now other) install packages. Fix num to hex function for Windows installer guid Fix win32 cpack build Fix macOS cpack build
4 years ago
set(CPACK_RESOURCE_FILE_README ${PROJECT_BINARY_DIR}/NEWS.html)
else()
message("Failed to detect the Python 3 'markdown' package.")
message(FATAL_ERROR "Try running 'pip3 install --user markdown' and then try again.")
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
endif()
CMake: Support to build deb, rpm, & macOS pkg packages CMake/CPack is already used to build: - TGZ source tarball - WiX-based installer (Windows) - ZIP install packages (Windows) This commit adds support for building: - macOS PKG installer - DEB package - RPM package This should also enable building FreeBSD packages, but while I was able to build all of the static dependencies using Mussels, CMake/CPack 3.20 doesn't appear to have the the FreeBSD generator despite being in the documentation. The package names are will be in this format: clamav-<version><suffix>.<os>.<arch>.<extension> This includes changing the Windows .zip and .msi installer names. E.g.: - clamav-0.104.0-rc.macos.x86_64.pkg - clamav-0.104.0-rc.win.win32.msi - clamav-0.104.0-rc.win.win32.zip - clamav-0.104.0-rc.win.x64.msi - clamav-0.104.0-rc.linux.x86_64.deb - clamav-0.104.0-rc.linux.x86_64.rpm Notes about building the packages: I've only tested this with building ClamAV using static dependencies that I build using the clamav_deps "host-static" recipes from the "clamav" Mussels cookbook. Eg: msl build clamav_deps -t host-static Here's an example configuration to build clam in this way, installing to /usr/local/clamav: ```sh cmake .. \ -D CMAKE_FIND_PACKAGE_PREFER_CONFIG=TRUE \ -D CMAKE_PREFIX_PATH=$HOME/.mussels/install/host-static \ -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CMAKE_MODULE_PATH=$HOME/.mussels/install/host-static/lib/cmake \ -D CMAKE_BUILD_TYPE=RelWithDebInfo \ -D ENABLE_EXAMPLES=OFF \ -D JSONC_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/json-c" \ -D JSONC_LIBRARY="$HOME/.mussels/install/host-static/lib/libjson-c.a" \ -D ENABLE_JSON_SHARED=OFF \ -D BZIP2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D BZIP2_LIBRARY_RELEASE="$HOME/.mussels/install/host-static/lib/libbz2_static.a" \ -D OPENSSL_ROOT_DIR="$HOME/.mussels/install/host-static" \ -D OPENSSL_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D OPENSSL_CRYPTO_LIBRARY="$HOME/.mussels/install/host-static/lib/libcrypto.a" \ -D OPENSSL_SSL_LIBRARY="$HOME/.mussels/install/host-static/lib/libssl.a" \ -D LIBXML2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/libxml2" \ -D LIBXML2_LIBRARY="$HOME/.mussels/install/host-static/lib/libxml2.a" \ -D PCRE2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D PCRE2_LIBRARY="$HOME/.mussels/install/host-static/lib/libpcre2-8.a" \ -D CURSES_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D CURSES_LIBRARY="$HOME/.mussels/install/host-static/lib/libncurses.a" \ -D ZLIB_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D ZLIB_LIBRARY="$HOME/.mussels/install/host-static/lib/libz.a" \ -D LIBCHECK_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D LIBCHECK_LIBRARY="$HOME/.mussels/install/host-static/lib/libcheck.a" ``` Set CPACK_PACKAGING_INSTALL_PREFIX to customize the resulting package's install location. This can be different than the install prefix. E.g.: ```sh -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CPACK_PACKAGING_INSTALL_PREFIX="/usr/local/clamav" \ ``` Then `make` and then one of these, depending on the platform: ```sh cpack # macOS: productbuild is default cpack -G DEB # Debian-based cpack -G RPM # RPM-based ``` On macOS you'll need to `pip3 install markdown` so that the NEWS.md file can be converted to html so it will render in the installer. On RPM-based systems, you'll need rpmbuild (install rpm-build) This commit also fixes an issue where the html manual (if present) was not correctly added to the Windows (or now other) install packages. Fix num to hex function for Windows installer guid Fix win32 cpack build Fix macOS cpack build
4 years ago
elseif(C_BSD)
# User must specify `-G FreeBSD` when building FreeBSD packages
# Disclaimer: doesn't seem to actually exist, despite being in the documentation.
set(CPACK_PACKAGE_NAME clamav)
set(CPACK_PACKAGE_FILE_NAME ${CPACK_PACKAGE_FILE_NAME}.freebsd.${CMAKE_SYSTEM_PROCESSOR})
set(CPACK_FREEBSD_PACKAGE_LICENSE "GPLv2")
set(CPACK_FREEBSD_PACKAGE_MAINTAINER "https://www.clamav.net/")
else()
# User must specify `-G DEB` or `-G RPM` when building Linux packages
set(CPACK_PACKAGE_NAME clamav)
set(CPACK_PACKAGE_VERSION ${PROJECT_VERSION}${VERSION_SUFFIX})
set(CPACK_PACKAGE_FILE_NAME ${CPACK_PACKAGE_FILE_NAME}.linux.${CMAKE_SYSTEM_PROCESSOR})
set(CPACK_RPM_PACKAGE_LICENSE "GPLv2")
set(CPACK_RPM_PACKAGE_AUTOREQ " no")
set(CPACK_RPM_EXCLUDE_FROM_AUTO_FILELIST_ADDITION "/usr/sbin"
"/usr/local"
"/usr/local/bin"
"/usr/local/etc"
"/usr/local/include"
"/usr/local/lib"
"/usr/local/sbin"
"/usr/local/share"
"/usr/local/share/man"
"/usr/local/share/man/man1"
"/usr/local/share/man/man5"
"/usr/local/share/man/man8"
)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
endif()
CMake: Support to build deb, rpm, & macOS pkg packages CMake/CPack is already used to build: - TGZ source tarball - WiX-based installer (Windows) - ZIP install packages (Windows) This commit adds support for building: - macOS PKG installer - DEB package - RPM package This should also enable building FreeBSD packages, but while I was able to build all of the static dependencies using Mussels, CMake/CPack 3.20 doesn't appear to have the the FreeBSD generator despite being in the documentation. The package names are will be in this format: clamav-<version><suffix>.<os>.<arch>.<extension> This includes changing the Windows .zip and .msi installer names. E.g.: - clamav-0.104.0-rc.macos.x86_64.pkg - clamav-0.104.0-rc.win.win32.msi - clamav-0.104.0-rc.win.win32.zip - clamav-0.104.0-rc.win.x64.msi - clamav-0.104.0-rc.linux.x86_64.deb - clamav-0.104.0-rc.linux.x86_64.rpm Notes about building the packages: I've only tested this with building ClamAV using static dependencies that I build using the clamav_deps "host-static" recipes from the "clamav" Mussels cookbook. Eg: msl build clamav_deps -t host-static Here's an example configuration to build clam in this way, installing to /usr/local/clamav: ```sh cmake .. \ -D CMAKE_FIND_PACKAGE_PREFER_CONFIG=TRUE \ -D CMAKE_PREFIX_PATH=$HOME/.mussels/install/host-static \ -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CMAKE_MODULE_PATH=$HOME/.mussels/install/host-static/lib/cmake \ -D CMAKE_BUILD_TYPE=RelWithDebInfo \ -D ENABLE_EXAMPLES=OFF \ -D JSONC_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/json-c" \ -D JSONC_LIBRARY="$HOME/.mussels/install/host-static/lib/libjson-c.a" \ -D ENABLE_JSON_SHARED=OFF \ -D BZIP2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D BZIP2_LIBRARY_RELEASE="$HOME/.mussels/install/host-static/lib/libbz2_static.a" \ -D OPENSSL_ROOT_DIR="$HOME/.mussels/install/host-static" \ -D OPENSSL_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D OPENSSL_CRYPTO_LIBRARY="$HOME/.mussels/install/host-static/lib/libcrypto.a" \ -D OPENSSL_SSL_LIBRARY="$HOME/.mussels/install/host-static/lib/libssl.a" \ -D LIBXML2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/libxml2" \ -D LIBXML2_LIBRARY="$HOME/.mussels/install/host-static/lib/libxml2.a" \ -D PCRE2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D PCRE2_LIBRARY="$HOME/.mussels/install/host-static/lib/libpcre2-8.a" \ -D CURSES_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D CURSES_LIBRARY="$HOME/.mussels/install/host-static/lib/libncurses.a" \ -D ZLIB_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D ZLIB_LIBRARY="$HOME/.mussels/install/host-static/lib/libz.a" \ -D LIBCHECK_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D LIBCHECK_LIBRARY="$HOME/.mussels/install/host-static/lib/libcheck.a" ``` Set CPACK_PACKAGING_INSTALL_PREFIX to customize the resulting package's install location. This can be different than the install prefix. E.g.: ```sh -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CPACK_PACKAGING_INSTALL_PREFIX="/usr/local/clamav" \ ``` Then `make` and then one of these, depending on the platform: ```sh cpack # macOS: productbuild is default cpack -G DEB # Debian-based cpack -G RPM # RPM-based ``` On macOS you'll need to `pip3 install markdown` so that the NEWS.md file can be converted to html so it will render in the installer. On RPM-based systems, you'll need rpmbuild (install rpm-build) This commit also fixes an issue where the html manual (if present) was not correctly added to the Windows (or now other) install packages. Fix num to hex function for Windows installer guid Fix win32 cpack build Fix macOS cpack build
4 years ago
# Including CPack must be the very last CPack thing we do.
include(CPack)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
# libclamav efficacy dependencies
find_package(OpenSSL REQUIRED)
if(OPENSSL_FOUND)
set(HAVE_LIBSSL 1)
endif()
find_package(ZLIB REQUIRED)
if(ZLIB_FOUND)
set(HAVE_ZLIB_H 1)
set(HAVE_LIBZ 1)
endif()
find_package(BZip2 REQUIRED)
if(BZIP2_FOUND)
set(HAVE_BZLIB_H 1)
endif()
# Disable CMAKE_FIND_PACKAGE_PREFER_CONFIG, temporarily, because
# we don't presently support the using libxml2's Config.cmake
set(PACKAGE_PREFER_CONFIG_BAK ${CMAKE_FIND_PACKAGE_PREFER_CONFIG})
set(CMAKE_FIND_PACKAGE_PREFER_CONFIG FALSE)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
find_package(LibXml2 REQUIRED)
if(LibXml2_FOUND)
set(HAVE_LIBXML2 1)
endif()
# Restore the requested CMAKE_FIND_PACKAGE_PREFER_CONFIG setting
set(CMAKE_FIND_PACKAGE_PREFER_CONFIG ${PACKAGE_PREFER_CONFIG_BAK})
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
find_package(PCRE2 REQUIRED)
if(PCRE2_FOUND)
set(HAVE_PCRE 1)
set(USING_PCRE2 1)
endif()
# libclamav feature dependencies
if(NOT WIN32)
find_package(Iconv REQUIRED)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
# Set variable required by libclamav to use iconv
set(HAVE_ICONV 1)
endif()
if(ENABLE_JSON_SHARED)
set(JSONC_USE_STATIC OFF)
else()
set(JSONC_USE_STATIC ON)
endif()
find_package(JSONC REQUIRED)
# Set variable required by libclamav to use libjson-c
set(HAVE_JSON 1)
set(LLVM_MAX_VER "13")
set(LLVM_MIN_VER "8")
string (TOLOWER ${BYTECODE_RUNTIME} bytecodeRuntime)
if(${bytecodeRuntime} STREQUAL "llvm")
if(DEFINED LLVM_ROOT_DIR AND DEFINED LLVM_FIND_VERSION)
find_package(LLVM EXACT ${LLVM_FIND_VERSION} REQUIRED HINTS ${LLVM_ROOT_DIR})
elseif(DEFINED LLVM_ROOT_DIR)
find_package(LLVM REQUIRED HINTS ${LLVM_ROOT_DIR})
elseif(DEFINED LLVM_FIND_VERSION)
find_package(LLVM EXACT ${LLVM_FIND_VERSION} REQUIRED)
else()
set (LLVM_FIND_VERSION ${LLVM_MIN_VER})
find_package(LLVM REQUIRED)
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if(LLVM_FOUND)
if (LLVM_AVAILABLE_LIBS)
message(STATUS "LLVM found using LLVMConfig.cmake")
set(LLVM_LIBRARIES ${LLVM_AVAILABLE_LIBS})
else()
message(STATUS "LLVM found using FindLLVM.cmake")
set(LLVM_PACKAGE_VERSION ${LLVM_VERSION_STRING})
if (${LLVM_VERSION_STRING} VERSION_GREATER_EQUAL "9.0.0" AND ${LLVM_VERSION_STRING} VERSION_LESS "10.0.0")
set (CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -DNDEBUG")
endif()
endif()
math(EXPR TOO_HIGH_VERSION "${LLVM_MAX_VER} + 1" OUTPUT_FORMAT DECIMAL)
if(${LLVM_PACKAGE_VERSION} VERSION_LESS ${LLVM_MIN_VER})
message(FATAL_ERROR "LLVM version ${LLVM_PACKAGE_VERSION} is too old")
elseif (${LLVM_PACKAGE_VERSION} VERSION_GREATER_EQUAL ${TOO_HIGH_VERSION} )
message(FATAL_ERROR "LLVM version ${LLVM_PACKAGE_VERSION} is too new")
else()
message(STATUS "LLVM version ${LLVM_PACKAGE_VERSION} found")
endif()
# Set variable required by libclamav to use llvm instead of interpreter
set(LLVM_VERSION ${LLVM_VERSION_MAJOR}${LLVM_VERSION_MINOR})
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
endif()
endif()
CMake: Add CTest support to match Autotools checks An ENABLE_TESTS CMake option is provided so that users can disable testing if they don't want it. Instructions for how to use this included in the INSTALL.cmake.md file. If you run `ctest`, each testcase will write out a log file to the <build>/unit_tests directory. As with Autotools' make check, the test files are from test/.split and unit_tests/.split files, but for CMake these are generated at build time instead of at test time. On Posix systems, sets the LD_LIBRARY_PATH so that ClamAV-compiled libraries can be loaded when running tests. On Windows systems, CTest will identify and collect all library dependencies and assemble a temporarily install under the build/unit_tests directory so that the libraries can be loaded when running tests. The same feature is used on Windows when using CMake to install to collect all DLL dependencies so that users don't have to install them manually afterwards. Each of the CTest tests are run using a custom wrapper around Python's unittest framework, which is also responsible for finding and inserting valgrind into the valgrind tests on Posix systems. Unlike with Autotools, the CMake CTest Valgrind-tests are enabled by default, if Valgrind can be found. There's no need to set VG=1. CTest's memcheck module is NOT supported, because we use Python to orchestrate our tests. Added a bunch of Windows compatibility changes to the unit tests. These were primarily changing / to PATHSEP and making adjustments to use Win32 C headers and ifdef out the POSIX ones which aren't available on Windows. Also disabled a bunch of tests on Win32 that don't work on Windows, notably the mmap ones and FD-passing (i.e. FILEDES) ones. Add JSON_C_HAVE_INTTYPES_H definition to clamav-config.h to eliminate warnings on Windows where json.h is included after inttypes.h because json-c's inttypes replacement relies on it. This is a it of a hack and may be removed if json-c fixes their inttypes header stuff in the future. Add preprocessor definitions on Windows to disable MSVC warnings about CRT secure and nonstandard functions. While there may be a better solution, this is needed to be able to see other more serious warnings. Add missing file comment block and copyright statement for clamsubmit.c. Also change json-c/json.h include filename to json.h in clamsubmit.c. The directory name is not required. Changed the hash table data integer type from long, which is poorly defined, to size_t -- which is capable of storing a pointer. Fixed a bunch of casts regarding this variable to eliminate warnings. Fixed two bugs causing utf8 encoding unit tests to fail on Windows: - The in_size variable should be the number of bytes, not the character count. This was was causing the SHIFT_JIS (japanese codepage) to UTF8 transcoding test to only transcode half the bytes. - It turns out that the MultiByteToWideChar() API can't transcode UTF16-BE to UTF16-LE. The solution is to just iterate over the buffer and flip the bytes on each uint16_t. This but was causing the UTF16-BE to UTF8 tests to fail. I also split up the utf8 transcoding tests into separate tests so I could see all of the failures instead of just the first one. Added a flags parameter to the unit test function to open testfiles because it turns out that on Windows if a file contains the \r\n it will replace it with just \n if you opened the file as a text file instead of as binary. However, if we open the CBC files as binary, then a bunch of bytecode tests fail. So I've changed the tests to open the CBC files in the bytecode tests as text files and open all other files as binary. Ported the feature tests from shell scripts to Python using a modified version of our QA test-framework, which is largely compatible and will allow us to migrate some QA tests into this repo. I'd like to add GitHub Actions pipelines in the future so that all public PR's get some testing before anyone has to manually review them. The clamd --log option was missing from the help string, though it definitely works. I've added it in this commit. It appears that clamd.c was never clang-format'd, so this commit also reformats clamd.c. Some of the check_clamd tests expected the path returned by clamd to match character for character with original path sent to clamd. However, as we now evaluate real paths before a scan, the path returned by clamd isn't going to match the relative (and possibly symlink-ridden) path passed to clamdscan. I fixed this test by changing the test to search for the basename: <signature> FOUND within the response instead of matching the exact path. Autotools: Link check_clamd with libclamav so we can use our utility functions in check_clamd.c.
5 years ago
# libfreshclam & application dependencies
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if(NOT ENABLE_LIBCLAMAV_ONLY)
find_package(CURL REQUIRED)
if(APPLE)
find_library(APPLE_CORE_FOUNDATION CoreFoundation)
if (NOT APPLE_CORE_FOUNDATION)
message(FATAL_ERROR "Apple CoreFoundation framework not found")
endif()
find_library(APPLE_SECURITY Security)
if (NOT APPLE_SECURITY)
message(FATAL_ERROR "Apple Security framework not found")
endif()
endif()
if(ENABLE_APP)
find_package(CURSES REQUIRED)
if(NOT WIN32 AND ENABLE_MILTER)
find_package(Milter REQUIRED)
endif()
if(C_LINUX AND ENABLE_SYSTEMD)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
find_package(SYSTEMD)
if(SYSTEMD_FOUND)
set(HAVE_SYSTEMD 1)
endif()
endif()
CMake: Add CTest support to match Autotools checks An ENABLE_TESTS CMake option is provided so that users can disable testing if they don't want it. Instructions for how to use this included in the INSTALL.cmake.md file. If you run `ctest`, each testcase will write out a log file to the <build>/unit_tests directory. As with Autotools' make check, the test files are from test/.split and unit_tests/.split files, but for CMake these are generated at build time instead of at test time. On Posix systems, sets the LD_LIBRARY_PATH so that ClamAV-compiled libraries can be loaded when running tests. On Windows systems, CTest will identify and collect all library dependencies and assemble a temporarily install under the build/unit_tests directory so that the libraries can be loaded when running tests. The same feature is used on Windows when using CMake to install to collect all DLL dependencies so that users don't have to install them manually afterwards. Each of the CTest tests are run using a custom wrapper around Python's unittest framework, which is also responsible for finding and inserting valgrind into the valgrind tests on Posix systems. Unlike with Autotools, the CMake CTest Valgrind-tests are enabled by default, if Valgrind can be found. There's no need to set VG=1. CTest's memcheck module is NOT supported, because we use Python to orchestrate our tests. Added a bunch of Windows compatibility changes to the unit tests. These were primarily changing / to PATHSEP and making adjustments to use Win32 C headers and ifdef out the POSIX ones which aren't available on Windows. Also disabled a bunch of tests on Win32 that don't work on Windows, notably the mmap ones and FD-passing (i.e. FILEDES) ones. Add JSON_C_HAVE_INTTYPES_H definition to clamav-config.h to eliminate warnings on Windows where json.h is included after inttypes.h because json-c's inttypes replacement relies on it. This is a it of a hack and may be removed if json-c fixes their inttypes header stuff in the future. Add preprocessor definitions on Windows to disable MSVC warnings about CRT secure and nonstandard functions. While there may be a better solution, this is needed to be able to see other more serious warnings. Add missing file comment block and copyright statement for clamsubmit.c. Also change json-c/json.h include filename to json.h in clamsubmit.c. The directory name is not required. Changed the hash table data integer type from long, which is poorly defined, to size_t -- which is capable of storing a pointer. Fixed a bunch of casts regarding this variable to eliminate warnings. Fixed two bugs causing utf8 encoding unit tests to fail on Windows: - The in_size variable should be the number of bytes, not the character count. This was was causing the SHIFT_JIS (japanese codepage) to UTF8 transcoding test to only transcode half the bytes. - It turns out that the MultiByteToWideChar() API can't transcode UTF16-BE to UTF16-LE. The solution is to just iterate over the buffer and flip the bytes on each uint16_t. This but was causing the UTF16-BE to UTF8 tests to fail. I also split up the utf8 transcoding tests into separate tests so I could see all of the failures instead of just the first one. Added a flags parameter to the unit test function to open testfiles because it turns out that on Windows if a file contains the \r\n it will replace it with just \n if you opened the file as a text file instead of as binary. However, if we open the CBC files as binary, then a bunch of bytecode tests fail. So I've changed the tests to open the CBC files in the bytecode tests as text files and open all other files as binary. Ported the feature tests from shell scripts to Python using a modified version of our QA test-framework, which is largely compatible and will allow us to migrate some QA tests into this repo. I'd like to add GitHub Actions pipelines in the future so that all public PR's get some testing before anyone has to manually review them. The clamd --log option was missing from the help string, though it definitely works. I've added it in this commit. It appears that clamd.c was never clang-format'd, so this commit also reformats clamd.c. Some of the check_clamd tests expected the path returned by clamd to match character for character with original path sent to clamd. However, as we now evaluate real paths before a scan, the path returned by clamd isn't going to match the relative (and possibly symlink-ridden) path passed to clamdscan. I fixed this test by changing the test to search for the basename: <signature> FOUND within the response instead of matching the exact path. Autotools: Link check_clamd with libclamav so we can use our utility functions in check_clamd.c.
5 years ago
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
endif()
endif()
# Do not disable assertions based on CMAKE_BUILD_TYPE.
foreach(_build_type "Release" "MinSizeRel" "RelWithDebInfo")
foreach(_lang C CXX)
string(TOUPPER "CMAKE_${_lang}_FLAGS_${_build_type}" _var)
string(REGEX REPLACE "(^|)[/-]D *NDEBUG($|)" " " ${_var} "${${_var}}")
endforeach()
endforeach()
# Disable optimizations if OPTIMIZE=OFF
if(NOT OPTIMIZE)
# Get rid of any previous optimization flag settings...
string(REGEX REPLACE "(\-O[011123456789])" "" CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS}")
string(REGEX REPLACE "(\-O[011123456789])" "" CMAKE_C_FLAGS "${CMAKE_C_FLAGS}")
# ...And substitute our own.
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -O0")
set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -O0")
endif()
# Support the latest c++ standard available.
include(ExtractValidFlags)
foreach(_cxx1x_flag -std=c++14 -std=c++11)
extract_valid_cxx_flags(_cxx1x_flag_supported ${_cxx1x_flag})
if(_cxx1x_flag_supported)
set(CXX1XCXXFLAGS ${_cxx1x_flag})
break()
endif()
endforeach()
# Always use '-fPIC'/'-fPIE' option.
set(CMAKE_POSITION_INDEPENDENT_CODE ON)
# Checks for header files.
include(CheckIncludeFile)
check_include_file("arpa/inet.h" HAVE_ARPA_INET_H)
check_include_file("fcntl.h" HAVE_FCNTL_H)
check_include_file("grp.h" HAVE_GRP_H)
check_include_file("limits.h" HAVE_LIMITS_H)
check_include_file("malloc.h" HAVE_MALLOC_H)
check_include_file("netdb.h" HAVE_NETDB_H)
check_include_file("netinet/in.h" HAVE_NETINET_IN_H)
check_include_file("poll.h" HAVE_POLL_H)
check_include_file("pwd.h" HAVE_PWD_H)
check_include_file("stdbool.h" HAVE_STDBOOL_H)
check_include_file("stdlib.h" HAVE_STDLIB_H)
check_include_file("string.h" HAVE_STRING_H)
check_include_file("strings.h" HAVE_STRINGS_H)
check_include_file("sys/cdefs.h" HAVE_SYS_CDEFS_H)
check_include_file("sys/dl.h" HAVE_SYS_DL_H)
check_include_file("sys/fileio.h" HAVE_SYS_FILIO_H)
check_include_file("sys/mman.h" HAVE_SYS_MMAN_H)
check_include_file("sys/param.h" HAVE_SYS_PARAM_H)
check_include_file("sys/queue.h" HAVE_SYS_QUEUE_H)
check_include_file("sys/select.h" HAVE_SYS_SELECT_H)
check_include_file("sys/socket.h" HAVE_SYS_SOCKET_H)
check_include_file("sys/stat.h" HAVE_SYS_STAT_H)
check_include_file("sys/time.h" HAVE_SYS_TIME_H)
check_include_file("sys/times.h" HAVE_SYS_TIMES_H)
check_include_file("sys/uio.h" HAVE_SYS_UIO_H)
check_include_file("syslog.h" USE_SYSLOG)
check_include_file("termios.h" HAVE_TERMIOS_H)
check_include_file("time.h" HAVE_TIME_H)
check_include_file("unistd.h" HAVE_UNISTD_H)
check_include_file("sys/fanotify.h" HAVE_SYS_FANOTIFY_H)
if(WIN32)
set(HAVE_RESOLV_H 1)
set(HAVE_DIRENT_H 1)
set(HAVE_DLFCN_H 1)
else()
if(APPLE)
set(BIND_8_COMPAT 1)
endif()
check_include_file("resolv.h" HAVE_RESOLV_H)
if(CMAKE_SYSTEM_NAME STREQUAL FreeBSD AND EXISTS /usr/include/resolv.h)
# This hack because check_include_file() can't find "resolv.h" on FreeBSD.
set(HAVE_RESOLV_H 1)
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
check_include_file("dirent.h" HAVE_DIRENT_H)
check_include_file("dlfcn.h" HAVE_DLFCN_H)
endif()
# int-types variants
check_include_file("inttypes.h" HAVE_INTTYPES_H)
check_include_file("sys/inttypes.h" HAVE_SYS_INTTYPES_H)
check_include_file("sys/int_types.h" HAVE_SYS_INT_TYPES_H)
check_include_file("stdint.h" HAVE_STDINT_H)
CMake: Add CTest support to match Autotools checks An ENABLE_TESTS CMake option is provided so that users can disable testing if they don't want it. Instructions for how to use this included in the INSTALL.cmake.md file. If you run `ctest`, each testcase will write out a log file to the <build>/unit_tests directory. As with Autotools' make check, the test files are from test/.split and unit_tests/.split files, but for CMake these are generated at build time instead of at test time. On Posix systems, sets the LD_LIBRARY_PATH so that ClamAV-compiled libraries can be loaded when running tests. On Windows systems, CTest will identify and collect all library dependencies and assemble a temporarily install under the build/unit_tests directory so that the libraries can be loaded when running tests. The same feature is used on Windows when using CMake to install to collect all DLL dependencies so that users don't have to install them manually afterwards. Each of the CTest tests are run using a custom wrapper around Python's unittest framework, which is also responsible for finding and inserting valgrind into the valgrind tests on Posix systems. Unlike with Autotools, the CMake CTest Valgrind-tests are enabled by default, if Valgrind can be found. There's no need to set VG=1. CTest's memcheck module is NOT supported, because we use Python to orchestrate our tests. Added a bunch of Windows compatibility changes to the unit tests. These were primarily changing / to PATHSEP and making adjustments to use Win32 C headers and ifdef out the POSIX ones which aren't available on Windows. Also disabled a bunch of tests on Win32 that don't work on Windows, notably the mmap ones and FD-passing (i.e. FILEDES) ones. Add JSON_C_HAVE_INTTYPES_H definition to clamav-config.h to eliminate warnings on Windows where json.h is included after inttypes.h because json-c's inttypes replacement relies on it. This is a it of a hack and may be removed if json-c fixes their inttypes header stuff in the future. Add preprocessor definitions on Windows to disable MSVC warnings about CRT secure and nonstandard functions. While there may be a better solution, this is needed to be able to see other more serious warnings. Add missing file comment block and copyright statement for clamsubmit.c. Also change json-c/json.h include filename to json.h in clamsubmit.c. The directory name is not required. Changed the hash table data integer type from long, which is poorly defined, to size_t -- which is capable of storing a pointer. Fixed a bunch of casts regarding this variable to eliminate warnings. Fixed two bugs causing utf8 encoding unit tests to fail on Windows: - The in_size variable should be the number of bytes, not the character count. This was was causing the SHIFT_JIS (japanese codepage) to UTF8 transcoding test to only transcode half the bytes. - It turns out that the MultiByteToWideChar() API can't transcode UTF16-BE to UTF16-LE. The solution is to just iterate over the buffer and flip the bytes on each uint16_t. This but was causing the UTF16-BE to UTF8 tests to fail. I also split up the utf8 transcoding tests into separate tests so I could see all of the failures instead of just the first one. Added a flags parameter to the unit test function to open testfiles because it turns out that on Windows if a file contains the \r\n it will replace it with just \n if you opened the file as a text file instead of as binary. However, if we open the CBC files as binary, then a bunch of bytecode tests fail. So I've changed the tests to open the CBC files in the bytecode tests as text files and open all other files as binary. Ported the feature tests from shell scripts to Python using a modified version of our QA test-framework, which is largely compatible and will allow us to migrate some QA tests into this repo. I'd like to add GitHub Actions pipelines in the future so that all public PR's get some testing before anyone has to manually review them. The clamd --log option was missing from the help string, though it definitely works. I've added it in this commit. It appears that clamd.c was never clang-format'd, so this commit also reformats clamd.c. Some of the check_clamd tests expected the path returned by clamd to match character for character with original path sent to clamd. However, as we now evaluate real paths before a scan, the path returned by clamd isn't going to match the relative (and possibly symlink-ridden) path passed to clamdscan. I fixed this test by changing the test to search for the basename: <signature> FOUND within the response instead of matching the exact path. Autotools: Link check_clamd with libclamav so we can use our utility functions in check_clamd.c.
5 years ago
# this hack required to silence warnings on systems with inttypes.h
# because json-c's inttypes header isn't generated for each system. Hooray C!
if(HAVE_INTTYPES_H)
set(JSON_C_HAVE_INTTYPES_H 1)
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
include(CheckTypeSize)
# Checks for typedefs, structures, and compiler characteristics.
# AC_TYPE_SIZE_T
check_type_size("ssize_t" SIZEOF_SSIZE_T)
if(SIZEOF_SSIZE_T STREQUAL "")
# ssize_t is a signed type in POSIX storing at least -1.
# Set it to "int" to match the behavior of AC_TYPE_SSIZE_T (autotools).
set(ssize_t int)
endif()
check_type_size("off_t" SIZEOF_OFF_T)
if(SIZEOF_OFF_T STREQUAL "")
# off_t is a signed type in POSIX no narrower than int.
# Set it to "long int" to match the behavior of AC_TYPE_OFF_T (autotools).
set(off_t long int)
endif()
check_type_size("int" SIZEOF_INT)
check_type_size("short" SIZEOF_SHORT)
check_type_size("long" SIZEOF_LONG)
check_type_size("long long" SIZEOF_LONG_LONG)
#
# Variables for clamav-types.h.in
#
#TODO: Move this to a .cmake file
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if(HAVE_SYS_INT_TYPES_H)
set(INT_TYPES_HEADER "#include <sys/int_types.h>")
elseif(HAVE_INTTYPES_H)
set(INT_TYPES_HEADER "#include <inttypes.h>")
elseif(HAVE_STDINT_H)
set(INT_TYPES_HEADER "#include <stdint.h>")
elseif(WIN32 AND MSVC)
# Windows / Visual C++ (not Cygwin), stdint.h should exist.
set(INT_TYPES_HEADER "#include <stdint.h>")
else()
# No int types header available. We'll define the types manually.
set(INT8_DEF "typedef signed char int8_t;")
set(UINT8_DEF "typedef unsigned char uint8_t;")
if(SIZEOF_INT EQUAL 2)
set(INT16_DEF "typedef signed int int16_t;")
set(UINT16_DEF "typedef unsigned int uint16_t;")
elseif(SIZEOF_SHORT EQUAL 2)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
set(INT16_DEF "typedef signed short int16_t;")
set(UINT16_DEF "typedef unsigned short uint16_t;")
endif()
if(SIZEOF_INT EQUAL 4)
set(INT32_DEF "typedef signed int int32_t;")
set(UINT32_DEF "typedef unsigned int uint32_t;")
elseif(SIZEOF_LONG EQUAL 4)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
set(INT32_DEF "typedef signed long int32_t;")
set(UINT32_DEF "typedef unsigned long uint32_t;")
endif()
if(SIZEOF_LONG EQUAL 8)
set(INT64_DEF "typedef signed long int64_t;")
set(UINT64_DEF "typedef unsigned long uint64_t;")
elseif(SIZEOF_LONG_LONG EQUAL 8)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
set(INT64_DEF "typedef signed long long int64_t;")
set(UINT64_DEF "typedef unsigned long long uint64_t;")
endif()
endif()
# Always do this
if(SIZEOF_INT EQUAL 4)
set(DEFINE_SF32_PREFIX "#define _SF32_PREFIX \"\"")
elseif(SIZEOF_LONG EQUAL 4)
set(DEFINE_SF32_PREFIX "#define _SF32_PREFIX \"l\"")
endif()
if(SIZEOF_LONG EQUAL 8)
set(DEFINE_SF64_PREFIX "#define _SF64_PREFIX \"l\"")
elseif(SIZEOF_LONG_LONG EQUAL 8)
set(DEFINE_SF64_PREFIX "#define _SF64_PREFIX \"ll\"")
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
# Check for restrict keyword
#TODO: Move this to a .cmake file
foreach( ac_kw __restrict __restrict__ _Restrict restrict )
check_c_source_compiles(
"
typedef int * int_ptr;
int foo (int_ptr ${ac_kw} ip) {
return ip[0];
}
int main() {
int s[1];
int * ${ac_kw} t = s;
t[0] = 0;
return foo(t);
}
"
HAVE_RESTRICT )
if( HAVE_RESTRICT )
set( ac_cv_c_restrict ${ac_kw} )
break()
endif()
endforeach()
if( HAVE_RESTRICT )
set( restrict ${ac_cv_c_restrict} )
endif()
# Define inline macro as needed.
include(TestInline)
# Determine if _FILE_OFFSET_BITS 64 needs to be set to handle large files.
include(CheckFileOffsetBits)
# Determine how to pack structs on this platform.
include(CheckStructPacking)
# Check for signed right shift implementation.
include(CheckSignedRightShift)
# Check if systtem fts implementation available
include(CheckFTS)
# Check if uname(2) follows POSIX standard.
include(CheckUnamePosix)
# Check support for file descriptor passing
include(CheckFDPassing)
# Check if big-endian
include(TestBigEndian)
TEST_BIG_ENDIAN(WORDS_BIGENDIAN)
include(CheckStructHasMember)
check_struct_has_member("struct tm" tm_gmtoff time.h HAVE_STRUCT_TM_TM_GMTOFF)
# Check size of pointer to decide we need 8 bytes alignment adjustment.
check_type_size("int *" SIZEOF_INT_P)
check_type_size("time_t" SIZEOF_TIME_T)
# Checks for library functions.
include(CheckSymbolExists)
check_symbol_exists(_Exit "stdlib.h" HAVE__EXIT)
check_symbol_exists(accept4 "sys/types.h" HAVE_ACCEPT4)
check_symbol_exists(snprintf "stdio.h" HAVE_SNPRINTF)
check_symbol_exists(stat64 "sys/stat.h" HAVE_STAT64)
check_symbol_exists(strcasestr "string.h" HAVE_STRCASESTR)
check_symbol_exists(strerror_r "string.h" HAVE_STRERROR_R)
check_symbol_exists(strlcat "string.h" HAVE_STRLCAT)
check_symbol_exists(strlcpy "string.h" HAVE_STRLCPY)
check_symbol_exists(strndup "string.h" HAVE_STRNDUP)
check_symbol_exists(strnlen "string.h" HAVE_STRNLEN)
check_symbol_exists(strnstr "string.h" HAVE_STRNSTR)
check_symbol_exists(sysctlbyname "sysctl.h" HAVE_SYSCTLBYNAME)
check_symbol_exists(timegm "time.h" HAVE_TIMEGM)
check_symbol_exists(vsnprintf "stdio.h" HAVE_VSNPRINTF)
if(WIN32)
#set(HAVE_FSEEKO 1)
set(HAVE_GETADDRINFO 1)
set(HAVE_GETPAGESIZE 1)
set(HAVE_MKSTEMP 1)
set(HAVE_POLL 1)
else()
check_symbol_exists(fseeko "stdio.h" HAVE_FSEEKO)
check_symbol_exists(getaddrinfo "netdb.h" HAVE_GETADDRINFO)
check_symbol_exists(getpagesize "unistd.h" HAVE_GETPAGESIZE)
check_symbol_exists(mkstemp "unistd.h" HAVE_MKSTEMP)
check_symbol_exists(poll "poll.h" HAVE_POLL)
check_symbol_exists(setgroups "unistd.h" HAVE_SETGROUPS)
check_symbol_exists(setsid "unistd.h" HAVE_SETSID)
endif()
include(CheckSymbolExists)
# XXX does this correctly detect initgroups (un)availability on cygwin?
check_symbol_exists(initgroups grp.h HAVE_INITGROUPS)
if(NOT HAVE_INITGROUPS AND HAVE_UNISTD_H)
# FreeBSD declares initgroups() in unistd.h
check_symbol_exists(initgroups unistd.h HAVE_INITGROUPS2)
if(HAVE_INITGROUPS2)
set(HAVE_INITGROUPS 1)
endif()
endif()
set(WARNCFLAGS)
set(WARNCXXFLAGS)
if(CMAKE_C_COMPILER_ID MATCHES "MSVC")
if(ENABLE_WERROR)
set(WARNCFLAGS /WX)
set(WARNCXXFLAGS /WX)
endif()
else()
if(ENABLE_WERROR)
extract_valid_c_flags(WARNCFLAGS -Werror)
extract_valid_c_flags(WARNCXXFLAGS -Werror)
endif()
# For C compiler
extract_valid_c_flags(WARNCFLAGS
-Wall -Wextra
-Wformat-security
)
if(ENABLE_ALL_THE_WARNINGS)
extract_valid_c_flags(WARNCFLAGS
-Waddress
-Wattributes
-Wclobbered
-Wconversion
-Wdeclaration-after-statement
-Wdiv-by-zero
-Wempty-body
-Wendif-labels
-Wfloat-equal
-Wformat-nonliteral
-Winline
-Wmissing-declarations
-Wmissing-field-initializers
-Wmissing-noreturn
-Wmissing-prototypes
-Wnested-externs
#-Wno-format-nonliteral # May be required to pass format string as "const char*.
-Wpointer-arith
-Wpragmas
-Wredundant-decls
-Wshadow
-Wunreachable-code
-Wunused-parameter
-Wvla
-Wwrite-strings
-Wstrict-prototypes
-Wundef
-Wcast-align
-Wextended-offsetof # May be missing from GCC
-Wheader-guard # Only work with Clang for the moment
-Wlanguage-extension-token # May be missing from GCC
-Wmissing-variable-declarations # May be missing from GCC
#-Wpadded # Not used because we cannot change public structs
-Wshorten-64-to-32 # May be missing from GCC
-Wsign-conversion
#-Wswitch-enum # Not used because this basically disallows default case
-Wunreachable-code-break # May be missing from GCC
-Wunused-macros
)
endif()
# For C++ compiler
extract_valid_cxx_flags(WARNCXXFLAGS
-Wall
-Wformat-security
-Wno-comment # Disabled because LLVM's CFG.h has a warning about a multiline comment because of ascii-art of a graph with a `\` in it.
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
)
endif()
# autotools-compatible names
# Sphinx expects relative paths in the .rst files. Use the fact that the files
# below are all one directory level deep.
file(RELATIVE_PATH top_srcdir "${CMAKE_CURRENT_BINARY_DIR}/dir" "${CMAKE_CURRENT_SOURCE_DIR}")
file(RELATIVE_PATH top_builddir "${CMAKE_CURRENT_BINARY_DIR}/dir" "${CMAKE_CURRENT_BINARY_DIR}")
set(abs_top_srcdir "${CMAKE_CURRENT_SOURCE_DIR}")
set(abs_top_builddir "${CMAKE_CURRENT_BINARY_DIR}")
# libclamav.pc (pkg-config file)
set(prefix "${CMAKE_INSTALL_PREFIX}")
set(exec_prefix "${CMAKE_INSTALL_PREFIX}")
set(bindir "${CMAKE_INSTALL_FULL_BINDIR}")
set(sbindir "${CMAKE_INSTALL_FULL_SBINDIR}")
set(libdir "${CMAKE_INSTALL_FULL_LIBDIR}")
set(includedir "${CMAKE_INSTALL_FULL_INCLUDEDIR}")
set(VERSION "${PACKAGE_VERSION}")
# Absolute path of database directory
if(IS_ABSOLUTE ${DATABASE_DIRECTORY})
set(DATADIR "${DATABASE_DIRECTORY}")
else()
set(DATADIR "${CMAKE_INSTALL_PREFIX}/${DATABASE_DIRECTORY}")
endif()
# Absolute path of the applications' config directory
if(IS_ABSOLUTE ${APP_CONFIG_DIRECTORY})
set(CONFDIR "${APP_CONFIG_DIRECTORY}")
else()
set(CONFDIR "${CMAKE_INSTALL_PREFIX}/${APP_CONFIG_DIRECTORY}")
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if(ENABLE_DEBUG)
set(CL_DEBUG 1)
endif()
if(ENABLE_EXPERIMENTAL)
set(CL_EXPERIMENTAL 1)
endif()
if(ENABLE_STRN_INTERNAL)
set(HAVE_STRNI 1)
endif()
if(ENABLE_FRESHCLAM_DNS_FIX)
set(FRESHCLAM_DNS_FIX 1)
endif()
if(ENABLE_FRESHCLAM_NO_CACHE)
set(FRESHCLAM_NO_CACHE 1)
endif()
set(SCANBUFF 131072) # scan buffer size
set(FILEBUFF 8192) # file i/o buffer size
if(APPLE)
set(C_DARWIN 1)
endif()
include(CheckFmapFeatures)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if(WIN32)
set(USE_MPOOL 1)
endif()
add_definitions(-DHAVE_CONFIG_H)
configure_file(clamav-config.h.cmake.in clamav-config.h)
configure_file(target.h.cmake.in target.h)
configure_file(platform.h.in platform.h)
configure_file(clamav-version.h.in clamav-version.h)
configure_file(clamav-types.h.in clamav-types.h)
if(WIN32)
#
# Windows-specific config stuff
#
# Windows resource file
set(CLAMAV_RES "")
configure_file(
win32/res/common.rc.in
${CMAKE_BINARY_DIR}/version.rc
@ONLY)
else()
#
# POSIX-specific config stuff
#
# Don't confuse clamav-config.in with clamav-config.h.in or clamav-config.h.cmake.in
configure_file(clamav-config.in
${CMAKE_CURRENT_BINARY_DIR}/clamav-config
@ONLY)
install(FILES "${CMAKE_CURRENT_BINARY_DIR}/clamav-config"
DESTINATION "${CMAKE_INSTALL_BINDIR}"
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
PERMISSIONS
OWNER_READ OWNER_WRITE OWNER_EXECUTE
GROUP_READ GROUP_EXECUTE
CMake: Support to build deb, rpm, & macOS pkg packages CMake/CPack is already used to build: - TGZ source tarball - WiX-based installer (Windows) - ZIP install packages (Windows) This commit adds support for building: - macOS PKG installer - DEB package - RPM package This should also enable building FreeBSD packages, but while I was able to build all of the static dependencies using Mussels, CMake/CPack 3.20 doesn't appear to have the the FreeBSD generator despite being in the documentation. The package names are will be in this format: clamav-<version><suffix>.<os>.<arch>.<extension> This includes changing the Windows .zip and .msi installer names. E.g.: - clamav-0.104.0-rc.macos.x86_64.pkg - clamav-0.104.0-rc.win.win32.msi - clamav-0.104.0-rc.win.win32.zip - clamav-0.104.0-rc.win.x64.msi - clamav-0.104.0-rc.linux.x86_64.deb - clamav-0.104.0-rc.linux.x86_64.rpm Notes about building the packages: I've only tested this with building ClamAV using static dependencies that I build using the clamav_deps "host-static" recipes from the "clamav" Mussels cookbook. Eg: msl build clamav_deps -t host-static Here's an example configuration to build clam in this way, installing to /usr/local/clamav: ```sh cmake .. \ -D CMAKE_FIND_PACKAGE_PREFER_CONFIG=TRUE \ -D CMAKE_PREFIX_PATH=$HOME/.mussels/install/host-static \ -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CMAKE_MODULE_PATH=$HOME/.mussels/install/host-static/lib/cmake \ -D CMAKE_BUILD_TYPE=RelWithDebInfo \ -D ENABLE_EXAMPLES=OFF \ -D JSONC_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/json-c" \ -D JSONC_LIBRARY="$HOME/.mussels/install/host-static/lib/libjson-c.a" \ -D ENABLE_JSON_SHARED=OFF \ -D BZIP2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D BZIP2_LIBRARY_RELEASE="$HOME/.mussels/install/host-static/lib/libbz2_static.a" \ -D OPENSSL_ROOT_DIR="$HOME/.mussels/install/host-static" \ -D OPENSSL_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D OPENSSL_CRYPTO_LIBRARY="$HOME/.mussels/install/host-static/lib/libcrypto.a" \ -D OPENSSL_SSL_LIBRARY="$HOME/.mussels/install/host-static/lib/libssl.a" \ -D LIBXML2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/libxml2" \ -D LIBXML2_LIBRARY="$HOME/.mussels/install/host-static/lib/libxml2.a" \ -D PCRE2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D PCRE2_LIBRARY="$HOME/.mussels/install/host-static/lib/libpcre2-8.a" \ -D CURSES_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D CURSES_LIBRARY="$HOME/.mussels/install/host-static/lib/libncurses.a" \ -D ZLIB_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D ZLIB_LIBRARY="$HOME/.mussels/install/host-static/lib/libz.a" \ -D LIBCHECK_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D LIBCHECK_LIBRARY="$HOME/.mussels/install/host-static/lib/libcheck.a" ``` Set CPACK_PACKAGING_INSTALL_PREFIX to customize the resulting package's install location. This can be different than the install prefix. E.g.: ```sh -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CPACK_PACKAGING_INSTALL_PREFIX="/usr/local/clamav" \ ``` Then `make` and then one of these, depending on the platform: ```sh cpack # macOS: productbuild is default cpack -G DEB # Debian-based cpack -G RPM # RPM-based ``` On macOS you'll need to `pip3 install markdown` so that the NEWS.md file can be converted to html so it will render in the installer. On RPM-based systems, you'll need rpmbuild (install rpm-build) This commit also fixes an issue where the html manual (if present) was not correctly added to the Windows (or now other) install packages. Fix num to hex function for Windows installer guid Fix win32 cpack build Fix macOS cpack build
4 years ago
WORLD_READ WORLD_EXECUTE
COMPONENT libraries)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
# pkg-config
configure_file(
libclamav.pc.in
${CMAKE_CURRENT_BINARY_DIR}/libclamav.pc
@ONLY)
install(FILES "${CMAKE_CURRENT_BINARY_DIR}/libclamav.pc"
CMake: Support to build deb, rpm, & macOS pkg packages CMake/CPack is already used to build: - TGZ source tarball - WiX-based installer (Windows) - ZIP install packages (Windows) This commit adds support for building: - macOS PKG installer - DEB package - RPM package This should also enable building FreeBSD packages, but while I was able to build all of the static dependencies using Mussels, CMake/CPack 3.20 doesn't appear to have the the FreeBSD generator despite being in the documentation. The package names are will be in this format: clamav-<version><suffix>.<os>.<arch>.<extension> This includes changing the Windows .zip and .msi installer names. E.g.: - clamav-0.104.0-rc.macos.x86_64.pkg - clamav-0.104.0-rc.win.win32.msi - clamav-0.104.0-rc.win.win32.zip - clamav-0.104.0-rc.win.x64.msi - clamav-0.104.0-rc.linux.x86_64.deb - clamav-0.104.0-rc.linux.x86_64.rpm Notes about building the packages: I've only tested this with building ClamAV using static dependencies that I build using the clamav_deps "host-static" recipes from the "clamav" Mussels cookbook. Eg: msl build clamav_deps -t host-static Here's an example configuration to build clam in this way, installing to /usr/local/clamav: ```sh cmake .. \ -D CMAKE_FIND_PACKAGE_PREFER_CONFIG=TRUE \ -D CMAKE_PREFIX_PATH=$HOME/.mussels/install/host-static \ -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CMAKE_MODULE_PATH=$HOME/.mussels/install/host-static/lib/cmake \ -D CMAKE_BUILD_TYPE=RelWithDebInfo \ -D ENABLE_EXAMPLES=OFF \ -D JSONC_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/json-c" \ -D JSONC_LIBRARY="$HOME/.mussels/install/host-static/lib/libjson-c.a" \ -D ENABLE_JSON_SHARED=OFF \ -D BZIP2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D BZIP2_LIBRARY_RELEASE="$HOME/.mussels/install/host-static/lib/libbz2_static.a" \ -D OPENSSL_ROOT_DIR="$HOME/.mussels/install/host-static" \ -D OPENSSL_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D OPENSSL_CRYPTO_LIBRARY="$HOME/.mussels/install/host-static/lib/libcrypto.a" \ -D OPENSSL_SSL_LIBRARY="$HOME/.mussels/install/host-static/lib/libssl.a" \ -D LIBXML2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/libxml2" \ -D LIBXML2_LIBRARY="$HOME/.mussels/install/host-static/lib/libxml2.a" \ -D PCRE2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D PCRE2_LIBRARY="$HOME/.mussels/install/host-static/lib/libpcre2-8.a" \ -D CURSES_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D CURSES_LIBRARY="$HOME/.mussels/install/host-static/lib/libncurses.a" \ -D ZLIB_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D ZLIB_LIBRARY="$HOME/.mussels/install/host-static/lib/libz.a" \ -D LIBCHECK_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D LIBCHECK_LIBRARY="$HOME/.mussels/install/host-static/lib/libcheck.a" ``` Set CPACK_PACKAGING_INSTALL_PREFIX to customize the resulting package's install location. This can be different than the install prefix. E.g.: ```sh -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CPACK_PACKAGING_INSTALL_PREFIX="/usr/local/clamav" \ ``` Then `make` and then one of these, depending on the platform: ```sh cpack # macOS: productbuild is default cpack -G DEB # Debian-based cpack -G RPM # RPM-based ``` On macOS you'll need to `pip3 install markdown` so that the NEWS.md file can be converted to html so it will render in the installer. On RPM-based systems, you'll need rpmbuild (install rpm-build) This commit also fixes an issue where the html manual (if present) was not correctly added to the Windows (or now other) install packages. Fix num to hex function for Windows installer guid Fix win32 cpack build Fix macOS cpack build
4 years ago
DESTINATION "${CMAKE_INSTALL_LIBDIR}/pkgconfig"
COMPONENT libraries)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
endif()
# include CTest to enable testing before we add any subdirectories which may
# add additional tests (like with `add_rust_test()`)
if(ENABLE_TESTS)
include(CTest)
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
#
# ClamAV Build targets!
#
# Build targets for libraries.
if(ENABLE_UNRAR)
# Only build libclamunrar if enabled.
# We still define the libclamunrar_iface's interface regardless,
# so that libclamav will have unrar_iface.h in the include path.
add_subdirectory( libclamunrar )
endif()
add_subdirectory( libclamunrar_iface )
if(NOT ENABLE_EXTERNAL_MSPACK)
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
add_subdirectory( libclammspack )
set(LIBMSPACK "ClamAV::libmspack")
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
else()
find_package(MSPack REQUIRED)
set(LIBMSPACK "MSPack::mspack")
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
endif()
if(WIN32)
add_subdirectory( win32/compat )
endif()
add_subdirectory( libclamav )
add_subdirectory( libclamav_rust )
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if(NOT ENABLE_LIBCLAMAV_ONLY)
add_subdirectory( common )
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
add_subdirectory( libfreshclam )
if(ENABLE_APP)
# Build targets for primary applications.
add_subdirectory( clamconf )
add_subdirectory( clamd )
add_subdirectory( clamdscan )
if(C_LINUX AND ENABLE_CLAMONACC)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
add_subdirectory( clamonacc )
endif()
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
if(ENABLE_MILTER)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
add_subdirectory( clamav-milter )
endif()
add_subdirectory( clamscan )
add_subdirectory( sigtool )
add_subdirectory( clambc )
add_subdirectory( clamsubmit )
add_subdirectory( freshclam )
add_subdirectory( clamdtop )
if(WIN32)
add_subdirectory( win32/conf_examples )
else()
add_subdirectory( etc )
endif()
endif()
endif()
if(ENABLE_EXAMPLES)
add_subdirectory( examples )
endif()
CMake: Add CTest support to match Autotools checks An ENABLE_TESTS CMake option is provided so that users can disable testing if they don't want it. Instructions for how to use this included in the INSTALL.cmake.md file. If you run `ctest`, each testcase will write out a log file to the <build>/unit_tests directory. As with Autotools' make check, the test files are from test/.split and unit_tests/.split files, but for CMake these are generated at build time instead of at test time. On Posix systems, sets the LD_LIBRARY_PATH so that ClamAV-compiled libraries can be loaded when running tests. On Windows systems, CTest will identify and collect all library dependencies and assemble a temporarily install under the build/unit_tests directory so that the libraries can be loaded when running tests. The same feature is used on Windows when using CMake to install to collect all DLL dependencies so that users don't have to install them manually afterwards. Each of the CTest tests are run using a custom wrapper around Python's unittest framework, which is also responsible for finding and inserting valgrind into the valgrind tests on Posix systems. Unlike with Autotools, the CMake CTest Valgrind-tests are enabled by default, if Valgrind can be found. There's no need to set VG=1. CTest's memcheck module is NOT supported, because we use Python to orchestrate our tests. Added a bunch of Windows compatibility changes to the unit tests. These were primarily changing / to PATHSEP and making adjustments to use Win32 C headers and ifdef out the POSIX ones which aren't available on Windows. Also disabled a bunch of tests on Win32 that don't work on Windows, notably the mmap ones and FD-passing (i.e. FILEDES) ones. Add JSON_C_HAVE_INTTYPES_H definition to clamav-config.h to eliminate warnings on Windows where json.h is included after inttypes.h because json-c's inttypes replacement relies on it. This is a it of a hack and may be removed if json-c fixes their inttypes header stuff in the future. Add preprocessor definitions on Windows to disable MSVC warnings about CRT secure and nonstandard functions. While there may be a better solution, this is needed to be able to see other more serious warnings. Add missing file comment block and copyright statement for clamsubmit.c. Also change json-c/json.h include filename to json.h in clamsubmit.c. The directory name is not required. Changed the hash table data integer type from long, which is poorly defined, to size_t -- which is capable of storing a pointer. Fixed a bunch of casts regarding this variable to eliminate warnings. Fixed two bugs causing utf8 encoding unit tests to fail on Windows: - The in_size variable should be the number of bytes, not the character count. This was was causing the SHIFT_JIS (japanese codepage) to UTF8 transcoding test to only transcode half the bytes. - It turns out that the MultiByteToWideChar() API can't transcode UTF16-BE to UTF16-LE. The solution is to just iterate over the buffer and flip the bytes on each uint16_t. This but was causing the UTF16-BE to UTF8 tests to fail. I also split up the utf8 transcoding tests into separate tests so I could see all of the failures instead of just the first one. Added a flags parameter to the unit test function to open testfiles because it turns out that on Windows if a file contains the \r\n it will replace it with just \n if you opened the file as a text file instead of as binary. However, if we open the CBC files as binary, then a bunch of bytecode tests fail. So I've changed the tests to open the CBC files in the bytecode tests as text files and open all other files as binary. Ported the feature tests from shell scripts to Python using a modified version of our QA test-framework, which is largely compatible and will allow us to migrate some QA tests into this repo. I'd like to add GitHub Actions pipelines in the future so that all public PR's get some testing before anyone has to manually review them. The clamd --log option was missing from the help string, though it definitely works. I've added it in this commit. It appears that clamd.c was never clang-format'd, so this commit also reformats clamd.c. Some of the check_clamd tests expected the path returned by clamd to match character for character with original path sent to clamd. However, as we now evaluate real paths before a scan, the path returned by clamd isn't going to match the relative (and possibly symlink-ridden) path passed to clamdscan. I fixed this test by changing the test to search for the basename: <signature> FOUND within the response instead of matching the exact path. Autotools: Link check_clamd with libclamav so we can use our utility functions in check_clamd.c.
5 years ago
add_custom_target(check COMMAND ${CMAKE_CTEST_COMMAND})
if(ENABLE_TESTS)
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
add_subdirectory( unit_tests )
CMake: Add CTest support to match Autotools checks An ENABLE_TESTS CMake option is provided so that users can disable testing if they don't want it. Instructions for how to use this included in the INSTALL.cmake.md file. If you run `ctest`, each testcase will write out a log file to the <build>/unit_tests directory. As with Autotools' make check, the test files are from test/.split and unit_tests/.split files, but for CMake these are generated at build time instead of at test time. On Posix systems, sets the LD_LIBRARY_PATH so that ClamAV-compiled libraries can be loaded when running tests. On Windows systems, CTest will identify and collect all library dependencies and assemble a temporarily install under the build/unit_tests directory so that the libraries can be loaded when running tests. The same feature is used on Windows when using CMake to install to collect all DLL dependencies so that users don't have to install them manually afterwards. Each of the CTest tests are run using a custom wrapper around Python's unittest framework, which is also responsible for finding and inserting valgrind into the valgrind tests on Posix systems. Unlike with Autotools, the CMake CTest Valgrind-tests are enabled by default, if Valgrind can be found. There's no need to set VG=1. CTest's memcheck module is NOT supported, because we use Python to orchestrate our tests. Added a bunch of Windows compatibility changes to the unit tests. These were primarily changing / to PATHSEP and making adjustments to use Win32 C headers and ifdef out the POSIX ones which aren't available on Windows. Also disabled a bunch of tests on Win32 that don't work on Windows, notably the mmap ones and FD-passing (i.e. FILEDES) ones. Add JSON_C_HAVE_INTTYPES_H definition to clamav-config.h to eliminate warnings on Windows where json.h is included after inttypes.h because json-c's inttypes replacement relies on it. This is a it of a hack and may be removed if json-c fixes their inttypes header stuff in the future. Add preprocessor definitions on Windows to disable MSVC warnings about CRT secure and nonstandard functions. While there may be a better solution, this is needed to be able to see other more serious warnings. Add missing file comment block and copyright statement for clamsubmit.c. Also change json-c/json.h include filename to json.h in clamsubmit.c. The directory name is not required. Changed the hash table data integer type from long, which is poorly defined, to size_t -- which is capable of storing a pointer. Fixed a bunch of casts regarding this variable to eliminate warnings. Fixed two bugs causing utf8 encoding unit tests to fail on Windows: - The in_size variable should be the number of bytes, not the character count. This was was causing the SHIFT_JIS (japanese codepage) to UTF8 transcoding test to only transcode half the bytes. - It turns out that the MultiByteToWideChar() API can't transcode UTF16-BE to UTF16-LE. The solution is to just iterate over the buffer and flip the bytes on each uint16_t. This but was causing the UTF16-BE to UTF8 tests to fail. I also split up the utf8 transcoding tests into separate tests so I could see all of the failures instead of just the first one. Added a flags parameter to the unit test function to open testfiles because it turns out that on Windows if a file contains the \r\n it will replace it with just \n if you opened the file as a text file instead of as binary. However, if we open the CBC files as binary, then a bunch of bytecode tests fail. So I've changed the tests to open the CBC files in the bytecode tests as text files and open all other files as binary. Ported the feature tests from shell scripts to Python using a modified version of our QA test-framework, which is largely compatible and will allow us to migrate some QA tests into this repo. I'd like to add GitHub Actions pipelines in the future so that all public PR's get some testing before anyone has to manually review them. The clamd --log option was missing from the help string, though it definitely works. I've added it in this commit. It appears that clamd.c was never clang-format'd, so this commit also reformats clamd.c. Some of the check_clamd tests expected the path returned by clamd to match character for character with original path sent to clamd. However, as we now evaluate real paths before a scan, the path returned by clamd isn't going to match the relative (and possibly symlink-ridden) path passed to clamdscan. I fixed this test by changing the test to search for the basename: <signature> FOUND within the response instead of matching the exact path. Autotools: Link check_clamd with libclamav so we can use our utility functions in check_clamd.c.
5 years ago
endif()
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
add_subdirectory( docs )
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if(ENABLE_FUZZ)
add_subdirectory( fuzz )
endif()
if(WIN32)
# Include the license(s) in the installation
CMake: Support to build deb, rpm, & macOS pkg packages CMake/CPack is already used to build: - TGZ source tarball - WiX-based installer (Windows) - ZIP install packages (Windows) This commit adds support for building: - macOS PKG installer - DEB package - RPM package This should also enable building FreeBSD packages, but while I was able to build all of the static dependencies using Mussels, CMake/CPack 3.20 doesn't appear to have the the FreeBSD generator despite being in the documentation. The package names are will be in this format: clamav-<version><suffix>.<os>.<arch>.<extension> This includes changing the Windows .zip and .msi installer names. E.g.: - clamav-0.104.0-rc.macos.x86_64.pkg - clamav-0.104.0-rc.win.win32.msi - clamav-0.104.0-rc.win.win32.zip - clamav-0.104.0-rc.win.x64.msi - clamav-0.104.0-rc.linux.x86_64.deb - clamav-0.104.0-rc.linux.x86_64.rpm Notes about building the packages: I've only tested this with building ClamAV using static dependencies that I build using the clamav_deps "host-static" recipes from the "clamav" Mussels cookbook. Eg: msl build clamav_deps -t host-static Here's an example configuration to build clam in this way, installing to /usr/local/clamav: ```sh cmake .. \ -D CMAKE_FIND_PACKAGE_PREFER_CONFIG=TRUE \ -D CMAKE_PREFIX_PATH=$HOME/.mussels/install/host-static \ -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CMAKE_MODULE_PATH=$HOME/.mussels/install/host-static/lib/cmake \ -D CMAKE_BUILD_TYPE=RelWithDebInfo \ -D ENABLE_EXAMPLES=OFF \ -D JSONC_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/json-c" \ -D JSONC_LIBRARY="$HOME/.mussels/install/host-static/lib/libjson-c.a" \ -D ENABLE_JSON_SHARED=OFF \ -D BZIP2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D BZIP2_LIBRARY_RELEASE="$HOME/.mussels/install/host-static/lib/libbz2_static.a" \ -D OPENSSL_ROOT_DIR="$HOME/.mussels/install/host-static" \ -D OPENSSL_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D OPENSSL_CRYPTO_LIBRARY="$HOME/.mussels/install/host-static/lib/libcrypto.a" \ -D OPENSSL_SSL_LIBRARY="$HOME/.mussels/install/host-static/lib/libssl.a" \ -D LIBXML2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include/libxml2" \ -D LIBXML2_LIBRARY="$HOME/.mussels/install/host-static/lib/libxml2.a" \ -D PCRE2_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D PCRE2_LIBRARY="$HOME/.mussels/install/host-static/lib/libpcre2-8.a" \ -D CURSES_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D CURSES_LIBRARY="$HOME/.mussels/install/host-static/lib/libncurses.a" \ -D ZLIB_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D ZLIB_LIBRARY="$HOME/.mussels/install/host-static/lib/libz.a" \ -D LIBCHECK_INCLUDE_DIR="$HOME/.mussels/install/host-static/include" \ -D LIBCHECK_LIBRARY="$HOME/.mussels/install/host-static/lib/libcheck.a" ``` Set CPACK_PACKAGING_INSTALL_PREFIX to customize the resulting package's install location. This can be different than the install prefix. E.g.: ```sh -D CMAKE_INSTALL_PREFIX="/usr/local/clamav" \ -D CPACK_PACKAGING_INSTALL_PREFIX="/usr/local/clamav" \ ``` Then `make` and then one of these, depending on the platform: ```sh cpack # macOS: productbuild is default cpack -G DEB # Debian-based cpack -G RPM # RPM-based ``` On macOS you'll need to `pip3 install markdown` so that the NEWS.md file can be converted to html so it will render in the installer. On RPM-based systems, you'll need rpmbuild (install rpm-build) This commit also fixes an issue where the html manual (if present) was not correctly added to the Windows (or now other) install packages. Fix num to hex function for Windows installer guid Fix win32 cpack build Fix macOS cpack build
4 years ago
install(FILES ${CMAKE_SOURCE_DIR}/COPYING.txt DESTINATION . COMPONENT libraries)
install(DIRECTORY ${CMAKE_SOURCE_DIR}/COPYING DESTINATION . COMPONENT libraries)
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
#
# The Summary Info.
#
include(ColourMessage)
string(TOUPPER "${CMAKE_BUILD_TYPE}" _build_type)
message(STATUS "${Y}Configuration Options Summary${e} --
${c} Package Version: ${e}${PACKAGE_STRING}
${c} libclamav version: ${e}${LIBCLAMAV_CURRENT}:${LIBCLAMAV_REVISION}:${LIBCLAMAV_AGE}
${c} libfreshclam version: ${e}${LIBFRESHCLAM_CURRENT}:${LIBFRESHCLAM_REVISION}:${LIBFRESHCLAM_AGE}
${c} Install prefix: ${e}${CMAKE_INSTALL_PREFIX}
${c} Install database dir: ${e}${DATADIR}
${c} Install config dir: ${e}${CONFDIR}
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
${c} Host system: ${e}${CMAKE_HOST_SYSTEM}
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
${c} Target system: ${e}${CMAKE_SYSTEM}
${c} Compiler: ${e}
${b} Build type: ${e}${CMAKE_BUILD_TYPE}
${b} C compiler: ${e}${CMAKE_C_COMPILER}
${b} C++ compiler: ${e}${CMAKE_CXX_COMPILER}
${b} Rust toolchain: ${e}${cargo_EXECUTABLE} (${cargo_VERSION})
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
${b} CFLAGS: ${e}${CMAKE_C_FLAGS_${_build_type}} ${CMAKE_C_FLAGS}
${b} CXXFLAGS: ${e}${CMAKE_CXX_FLAGS_${_build_type}} ${CMAKE_CXX_FLAGS}
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
${b} WARNCFLAGS: ${e}${WARNCFLAGS}")
if(VCPKG_TOOLCHAIN)
message("\
${c} Using vcpkg: ${e}
${b} Target Triplet: ${e}${VCPKG_TARGET_TRIPLET}
${b} Target Arch: ${e}${VCPKG_TARGET_ARCHITECTURE}
${b} Get runtime DLLs: ${e}${VCPKG_APPLOCAL_DEPS}
${b} Package root path: ${e}${VCPKG_CMAKE_FIND_ROOT_PATH}")
endif()
message("\
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
${c} Build Options: ${e}
${b} Build apps: ${e}${ENABLE_APP}
${b} Shared library: ${e}${ENABLE_SHARED_LIB}
${b} Static library: ${e}${ENABLE_STATIC_LIB}
${b} Enable UnRAR: ${e}${ENABLE_UNRAR}
${b} Examples: ${e}${ENABLE_EXAMPLES}
CMake: Add CTest support to match Autotools checks An ENABLE_TESTS CMake option is provided so that users can disable testing if they don't want it. Instructions for how to use this included in the INSTALL.cmake.md file. If you run `ctest`, each testcase will write out a log file to the <build>/unit_tests directory. As with Autotools' make check, the test files are from test/.split and unit_tests/.split files, but for CMake these are generated at build time instead of at test time. On Posix systems, sets the LD_LIBRARY_PATH so that ClamAV-compiled libraries can be loaded when running tests. On Windows systems, CTest will identify and collect all library dependencies and assemble a temporarily install under the build/unit_tests directory so that the libraries can be loaded when running tests. The same feature is used on Windows when using CMake to install to collect all DLL dependencies so that users don't have to install them manually afterwards. Each of the CTest tests are run using a custom wrapper around Python's unittest framework, which is also responsible for finding and inserting valgrind into the valgrind tests on Posix systems. Unlike with Autotools, the CMake CTest Valgrind-tests are enabled by default, if Valgrind can be found. There's no need to set VG=1. CTest's memcheck module is NOT supported, because we use Python to orchestrate our tests. Added a bunch of Windows compatibility changes to the unit tests. These were primarily changing / to PATHSEP and making adjustments to use Win32 C headers and ifdef out the POSIX ones which aren't available on Windows. Also disabled a bunch of tests on Win32 that don't work on Windows, notably the mmap ones and FD-passing (i.e. FILEDES) ones. Add JSON_C_HAVE_INTTYPES_H definition to clamav-config.h to eliminate warnings on Windows where json.h is included after inttypes.h because json-c's inttypes replacement relies on it. This is a it of a hack and may be removed if json-c fixes their inttypes header stuff in the future. Add preprocessor definitions on Windows to disable MSVC warnings about CRT secure and nonstandard functions. While there may be a better solution, this is needed to be able to see other more serious warnings. Add missing file comment block and copyright statement for clamsubmit.c. Also change json-c/json.h include filename to json.h in clamsubmit.c. The directory name is not required. Changed the hash table data integer type from long, which is poorly defined, to size_t -- which is capable of storing a pointer. Fixed a bunch of casts regarding this variable to eliminate warnings. Fixed two bugs causing utf8 encoding unit tests to fail on Windows: - The in_size variable should be the number of bytes, not the character count. This was was causing the SHIFT_JIS (japanese codepage) to UTF8 transcoding test to only transcode half the bytes. - It turns out that the MultiByteToWideChar() API can't transcode UTF16-BE to UTF16-LE. The solution is to just iterate over the buffer and flip the bytes on each uint16_t. This but was causing the UTF16-BE to UTF8 tests to fail. I also split up the utf8 transcoding tests into separate tests so I could see all of the failures instead of just the first one. Added a flags parameter to the unit test function to open testfiles because it turns out that on Windows if a file contains the \r\n it will replace it with just \n if you opened the file as a text file instead of as binary. However, if we open the CBC files as binary, then a bunch of bytecode tests fail. So I've changed the tests to open the CBC files in the bytecode tests as text files and open all other files as binary. Ported the feature tests from shell scripts to Python using a modified version of our QA test-framework, which is largely compatible and will allow us to migrate some QA tests into this repo. I'd like to add GitHub Actions pipelines in the future so that all public PR's get some testing before anyone has to manually review them. The clamd --log option was missing from the help string, though it definitely works. I've added it in this commit. It appears that clamd.c was never clang-format'd, so this commit also reformats clamd.c. Some of the check_clamd tests expected the path returned by clamd to match character for character with original path sent to clamd. However, as we now evaluate real paths before a scan, the path returned by clamd isn't going to match the relative (and possibly symlink-ridden) path passed to clamdscan. I fixed this test by changing the test to search for the basename: <signature> FOUND within the response instead of matching the exact path. Autotools: Link check_clamd with libclamav so we can use our utility functions in check_clamd.c.
5 years ago
${b} Tests: ${e}${ENABLE_TESTS}
GitHub Actions testing on Ubuntu, Mac, & Windows Updates to fix issues in the CMake install instructions. Updates the README.md to indicate that CMake is now preferred Adds a GitHub Actions badge, Discord badge, and logo to the README.md. CMake: - Renamed ENABLE_DOCS to ENABLE_MAN_PAGES. - Fixed build issue when milter isn't enabled on Linux. Changed the default to build milter on non-macOS, non-Windows operating systems. - Fix LD_LIBRARY_PATH for tests including on macOS where LD_LIBRARY_PATH and DYLD_LIBRARY_PATH must be manually propagated to subprocesses. - Use UNKNOWN IMPORTED library instead of INTERFACE IMPORTED library for pdcurses, but still use INTERFACE IMPORTED for ncurses. UNKNOWN IMPORTED appears to be required so that we can use $<TARGET_FILE_DIR:Curses::curses> to collected the pdcurses library at install time on Windows. - When building with vcpkg on Windows, CMake will automatically install your app local dependencies (aka the DLL runtime dependencies). Meanwhile, file(GET_RUNTIME_DEPENDENCIES ...) doesn't appear to work correctly with vcpkg packages. The solution is to use a custom target that has CMake perform a local install to the unit_tests directory when using vcpkg. This is in fact far easier than using GET_RUNTIME_DEPENDENCIES in the unit_tests for assembling the test environment but we can't use this method for the non-vcpkg install because it won't collect checkDynamic.dll for us because we don't install our tests. We also can't link with the static check.lib because the static check.lib has pthreads symbols linked in and will conflict with our pthread.dll. TL;DR: We'll continue to use file(GET_RUNTIME_DEPENDENCIES ...) for assembling the test enviornment on non-vcpkg builds, and use the local install method for vcpkg builds. testcase.py: Wrapped a Pathlib.unlink() call in exception handling as the missing_ok optional parameter requires a Python version too new for common use. Remove localtime_r from win32 compat lib. localtime_r may be present in libcheck when building with vcpkg and while making it a static function would also solve the issue, using localtime_s instead like we do everywhere else should work just fine. check_clamd: Limited the max # of connections for the stress test on Mac to 850, to address issues found testing on macos-latest on GitHub Actions.
5 years ago
${b} Build man pages: ${e}${ENABLE_MAN_PAGES}
${b} Build doxygen HTML: ${e}${ENABLE_DOXYGEN}
${b} Maintainer Mode: ${e}${MAINTAINER_MODE}")
if(MAINTAINER_MODE)
message("\
${R} Maintainer Mode Tools: ${e}
${y} bison: ${e}${BISON_EXECUTABLE} (${BISON_VERSION})
${y} flex: ${e}${FLEX_EXECUTABLE} (${FLEX_VERSION})")
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if(NOT WIN32)
message("\
${c} Build Extras: ${e}")
message("\
${b} Build milter: ${e}${ENABLE_MILTER} (toggle with -DENABLE_MILTER=ON/OFF)")
if(C_LINUX)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
message("\
${b} Build clamonacc: ${e}${ENABLE_CLAMONACC} (toggle with -DENABLE_CLAMONACC=ON/OFF)")
endif()
endif()
if(LLVM_FOUND)
message(STATUS "${C}Engine Options${e} --
${b} Bytecode Runtime: ${e}
${_} llvm ${e}${LLVM_INCLUDE_DIRS}
${_} ${e}${LLVM_LIBRARY_DIRS}
${_} ${e}${LLVM_LIBRARIES}")
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
else()
message(STATUS "${C}Engine Options${e} --
${b} Bytecode Runtime: ${e}
${_} ${BYTECODE_RUNTIME} ${e}")
endif()
CMake: Add CTest support to match Autotools checks An ENABLE_TESTS CMake option is provided so that users can disable testing if they don't want it. Instructions for how to use this included in the INSTALL.cmake.md file. If you run `ctest`, each testcase will write out a log file to the <build>/unit_tests directory. As with Autotools' make check, the test files are from test/.split and unit_tests/.split files, but for CMake these are generated at build time instead of at test time. On Posix systems, sets the LD_LIBRARY_PATH so that ClamAV-compiled libraries can be loaded when running tests. On Windows systems, CTest will identify and collect all library dependencies and assemble a temporarily install under the build/unit_tests directory so that the libraries can be loaded when running tests. The same feature is used on Windows when using CMake to install to collect all DLL dependencies so that users don't have to install them manually afterwards. Each of the CTest tests are run using a custom wrapper around Python's unittest framework, which is also responsible for finding and inserting valgrind into the valgrind tests on Posix systems. Unlike with Autotools, the CMake CTest Valgrind-tests are enabled by default, if Valgrind can be found. There's no need to set VG=1. CTest's memcheck module is NOT supported, because we use Python to orchestrate our tests. Added a bunch of Windows compatibility changes to the unit tests. These were primarily changing / to PATHSEP and making adjustments to use Win32 C headers and ifdef out the POSIX ones which aren't available on Windows. Also disabled a bunch of tests on Win32 that don't work on Windows, notably the mmap ones and FD-passing (i.e. FILEDES) ones. Add JSON_C_HAVE_INTTYPES_H definition to clamav-config.h to eliminate warnings on Windows where json.h is included after inttypes.h because json-c's inttypes replacement relies on it. This is a it of a hack and may be removed if json-c fixes their inttypes header stuff in the future. Add preprocessor definitions on Windows to disable MSVC warnings about CRT secure and nonstandard functions. While there may be a better solution, this is needed to be able to see other more serious warnings. Add missing file comment block and copyright statement for clamsubmit.c. Also change json-c/json.h include filename to json.h in clamsubmit.c. The directory name is not required. Changed the hash table data integer type from long, which is poorly defined, to size_t -- which is capable of storing a pointer. Fixed a bunch of casts regarding this variable to eliminate warnings. Fixed two bugs causing utf8 encoding unit tests to fail on Windows: - The in_size variable should be the number of bytes, not the character count. This was was causing the SHIFT_JIS (japanese codepage) to UTF8 transcoding test to only transcode half the bytes. - It turns out that the MultiByteToWideChar() API can't transcode UTF16-BE to UTF16-LE. The solution is to just iterate over the buffer and flip the bytes on each uint16_t. This but was causing the UTF16-BE to UTF8 tests to fail. I also split up the utf8 transcoding tests into separate tests so I could see all of the failures instead of just the first one. Added a flags parameter to the unit test function to open testfiles because it turns out that on Windows if a file contains the \r\n it will replace it with just \n if you opened the file as a text file instead of as binary. However, if we open the CBC files as binary, then a bunch of bytecode tests fail. So I've changed the tests to open the CBC files in the bytecode tests as text files and open all other files as binary. Ported the feature tests from shell scripts to Python using a modified version of our QA test-framework, which is largely compatible and will allow us to migrate some QA tests into this repo. I'd like to add GitHub Actions pipelines in the future so that all public PR's get some testing before anyone has to manually review them. The clamd --log option was missing from the help string, though it definitely works. I've added it in this commit. It appears that clamd.c was never clang-format'd, so this commit also reformats clamd.c. Some of the check_clamd tests expected the path returned by clamd to match character for character with original path sent to clamd. However, as we now evaluate real paths before a scan, the path returned by clamd isn't going to match the relative (and possibly symlink-ridden) path passed to clamdscan. I fixed this test by changing the test to search for the basename: <signature> FOUND within the response instead of matching the exact path. Autotools: Link check_clamd with libclamav so we can use our utility functions in check_clamd.c.
5 years ago
if(ENABLE_TESTS)
message(STATUS "${C}Test Dependencies${e} --
${b} Unit Test Framework:${e}
${_} libcheck ${e}${LIBCHECK_INCLUDE_DIR}
${_} ${e}${LIBCHECK_LIBRARY}
${b} Feature Test Framework:${e}
${_} python3 ${e}${Python3_EXECUTABLE}
${_} test command ${e}${PythonTest_COMMAND}")
CMake: Add CTest support to match Autotools checks An ENABLE_TESTS CMake option is provided so that users can disable testing if they don't want it. Instructions for how to use this included in the INSTALL.cmake.md file. If you run `ctest`, each testcase will write out a log file to the <build>/unit_tests directory. As with Autotools' make check, the test files are from test/.split and unit_tests/.split files, but for CMake these are generated at build time instead of at test time. On Posix systems, sets the LD_LIBRARY_PATH so that ClamAV-compiled libraries can be loaded when running tests. On Windows systems, CTest will identify and collect all library dependencies and assemble a temporarily install under the build/unit_tests directory so that the libraries can be loaded when running tests. The same feature is used on Windows when using CMake to install to collect all DLL dependencies so that users don't have to install them manually afterwards. Each of the CTest tests are run using a custom wrapper around Python's unittest framework, which is also responsible for finding and inserting valgrind into the valgrind tests on Posix systems. Unlike with Autotools, the CMake CTest Valgrind-tests are enabled by default, if Valgrind can be found. There's no need to set VG=1. CTest's memcheck module is NOT supported, because we use Python to orchestrate our tests. Added a bunch of Windows compatibility changes to the unit tests. These were primarily changing / to PATHSEP and making adjustments to use Win32 C headers and ifdef out the POSIX ones which aren't available on Windows. Also disabled a bunch of tests on Win32 that don't work on Windows, notably the mmap ones and FD-passing (i.e. FILEDES) ones. Add JSON_C_HAVE_INTTYPES_H definition to clamav-config.h to eliminate warnings on Windows where json.h is included after inttypes.h because json-c's inttypes replacement relies on it. This is a it of a hack and may be removed if json-c fixes their inttypes header stuff in the future. Add preprocessor definitions on Windows to disable MSVC warnings about CRT secure and nonstandard functions. While there may be a better solution, this is needed to be able to see other more serious warnings. Add missing file comment block and copyright statement for clamsubmit.c. Also change json-c/json.h include filename to json.h in clamsubmit.c. The directory name is not required. Changed the hash table data integer type from long, which is poorly defined, to size_t -- which is capable of storing a pointer. Fixed a bunch of casts regarding this variable to eliminate warnings. Fixed two bugs causing utf8 encoding unit tests to fail on Windows: - The in_size variable should be the number of bytes, not the character count. This was was causing the SHIFT_JIS (japanese codepage) to UTF8 transcoding test to only transcode half the bytes. - It turns out that the MultiByteToWideChar() API can't transcode UTF16-BE to UTF16-LE. The solution is to just iterate over the buffer and flip the bytes on each uint16_t. This but was causing the UTF16-BE to UTF8 tests to fail. I also split up the utf8 transcoding tests into separate tests so I could see all of the failures instead of just the first one. Added a flags parameter to the unit test function to open testfiles because it turns out that on Windows if a file contains the \r\n it will replace it with just \n if you opened the file as a text file instead of as binary. However, if we open the CBC files as binary, then a bunch of bytecode tests fail. So I've changed the tests to open the CBC files in the bytecode tests as text files and open all other files as binary. Ported the feature tests from shell scripts to Python using a modified version of our QA test-framework, which is largely compatible and will allow us to migrate some QA tests into this repo. I'd like to add GitHub Actions pipelines in the future so that all public PR's get some testing before anyone has to manually review them. The clamd --log option was missing from the help string, though it definitely works. I've added it in this commit. It appears that clamd.c was never clang-format'd, so this commit also reformats clamd.c. Some of the check_clamd tests expected the path returned by clamd to match character for character with original path sent to clamd. However, as we now evaluate real paths before a scan, the path returned by clamd isn't going to match the relative (and possibly symlink-ridden) path passed to clamdscan. I fixed this test by changing the test to search for the basename: <signature> FOUND within the response instead of matching the exact path. Autotools: Link check_clamd with libclamav so we can use our utility functions in check_clamd.c.
5 years ago
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
message(STATUS "${C}libclamav Dependencies${e} --
${b} Compression support:${e}
${_} bzip2 ${e}${BZIP2_INCLUDE_DIRS}
${_} ${e}${BZIP2_LIBRARIES}
${_} zlib ${e}${ZLIB_INCLUDE_DIRS}
${_} ${e}${ZLIB_LIBRARIES}
${b} XML support: ${e}
${_} libxml2 ${e}${LIBXML2_INCLUDE_DIRS}
${_} ${e}${LIBXML2_LIBRARIES}
${b} RegEx support: ${e}
${_} libpcre2 ${e}${PCRE2_INCLUDE_DIRS}
${_} ${e}${PCRE2_LIBRARIES}
${b} Crypto support: ${e}
${_} openssl ${e}${OPENSSL_INCLUDE_DIR}
${_} ${e}${OPENSSL_LIBRARIES}
${b} JSON support: ${e}
${_} json-c ${e}${JSONC_INCLUDE_DIRS}
${_} ${e}${JSONC_LIBRARIES}
${b} Threading support: ${e}")
if(WIN32)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
message("\
${_} pthread-win32 ${e}${PThreadW32_INCLUDE_DIRS}
${_} ${e}${PThreadW32_LIBRARIES}")
elseif(Threads_FOUND AND CMAKE_USE_PTHREADS_INIT)
message("\
${_} pthread ${e}")
else()
message("\
${o} no ${e}")
endif()
if(NOT WIN32)
message("\
${b} Locale support: ${e}
${_} iconv ${e}${Iconv_INCLUDE_DIRS}
${_} ${e}${Iconv_LIBRARIES}")
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if(NOT ENABLE_LIBCLAMAV_ONLY)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
message(STATUS "${C}libfreshclam Extra Dependencies${e} --
${b} HTTP support: ${e}
${_} curl ${e}${CURL_INCLUDE_DIRS}
${_} ${e}${CURL_LIBRARIES}")
endif()
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if(HAVE_LIBNCURSES)
message(STATUS "${C}Application Extra Dependencies${e} --
${b} GUI support: ${e}
${_} ncurses ${e}${CURSES_INCLUDE_DIRS}
${_} ${e}${CURSES_LIBRARIES}")
elseif(HAVE_LIBPDCURSES)
message(STATUS "${C}Application Extra Dependencies${e} --
${b} GUI support: ${e}
${_} pdcurses ${e}${CURSES_INCLUDE_DIRS}
${_} ${e}${CURSES_LIBRARIES}")
endif()
if(C_LINUX)
Add CMake build tooling This patch adds experimental-quality CMake build tooling. The libmspack build required a modification to use "" instead of <> for header #includes. This will hopefully be included in the libmspack upstream project when adding CMake build tooling to libmspack. Removed use of libltdl when using CMake. Flex & Bison are now required to build. If -DMAINTAINER_MODE, then GPERF is also required, though it currently doesn't actually do anything. TODO! I found that the autotools build system was generating the lexer output but not actually compiling it, instead using previously generated (and manually renamed) lexer c source. As a consequence, changes to the .l and .y files weren't making it into the build. To resolve this, I removed generated flex/bison files and fixed the tooling to use the freshly generated files. Flex and bison are now required build tools. On Windows, this adds a dependency on the winflexbison package, which can be obtained using Chocolatey or may be manually installed. CMake tooling only has partial support for building with external LLVM library, and no support for the internal LLVM (to be removed in the future). I.e. The CMake build currently only supports the bytecode interpreter. Many files used include paths relative to the top source directory or relative to the current project, rather than relative to each build target. Modern CMake support requires including internal dependency headers the same way you would external dependency headers (albeit with "" instead of <>). This meant correcting all header includes to be relative to the build targets and not relative to the workspace. For example, ... ```c include "../libclamav/clamav.h" include "clamd/clamd_others.h" ``` ... becomes: ```c // libclamav include "clamav.h" // clamd include "clamd_others.h" ``` Fixes header name conflicts by renaming a few of the files. Converted the "shared" code into a static library, which depends on libclamav. The ironically named "shared" static library provides features common to the ClamAV apps which are not required in libclamav itself and are not intended for use by downstream projects. This change was required for correct modern CMake practices but was also required to use the automake "subdir-objects" option. This eliminates warnings when running autoreconf which, in the next version of autoconf & automake are likely to break the build. libclamav used to build in multiple stages where an earlier stage is a static library containing utils required by the "shared" code. Linking clamdscan and clamdtop with this libclamav utils static lib allowed these two apps to function without libclamav. While this is nice in theory, the practical gains are minimal and it complicates the build system. As such, the autotools and CMake tooling was simplified for improved maintainability and this feature was thrown out. clamdtop and clamdscan now require libclamav to function. Removed the nopthreads version of the autotools libclamav_internal_utils static library and added pthread linking to a couple apps that may have issues building on some platforms without it, with the intention of removing needless complexity from the source. Kept the regular version of libclamav_internal_utils.la though it is no longer used anywhere but in libclamav. Added an experimental doxygen build option which attempts to build clamav.h and libfreshclam doxygen html docs. The CMake build tooling also may build the example program(s), which isn't a feature in the Autotools build system. Changed C standard to C90+ due to inline linking issues with socket.h when linking libfreshclam.so on Linux. Generate common.rc for win32. Fix tabs/spaces in shared Makefile.am, and remove vestigial ifndef from misc.c. Add CMake files to the automake dist, so users can try the new CMake tooling w/out having to build from a git clone. clamonacc changes: - Renamed FANOTIFY macro to HAVE_SYS_FANOTIFY_H to better match other similar macros. - Added a new clamav-clamonacc.service systemd unit file, based on the work of ChadDevOps & Aaron Brighton. - Added missing clamonacc man page. Updates to clamdscan man page, add missing options. Remove vestigial CL_NOLIBCLAMAV definitions (all apps now use libclamav). Rename Windows mspack.dll to libmspack.dll so all ClamAV-built libraries have the lib-prefix with Visual Studio as with CMake.
5 years ago
if(SYSTEMD_PROGRAM_FOUND)
message("\
${b} systemd: ${e}
${_} unit directory ${e}${SYSTEMD_UNIT_DIR}
${b} systemd ctl support: ${e}")
if(SYSTEMD_FOUND)
message("\
${_} libsystemd ${e}${SYSTEMD_INCLUDE_DIRS}
${_} ${e}${SYSTEMD_LIBRARIES}")
else()
message("\
${_} libsystemd ${e}not found")
endif()
else()
message("\
${b} systemd: ${e}not found")
endif()
endif()
if(ENABLE_MILTER)
message("\
${b} Milter Support: ${e}
${_} libmilter ${e}${Milter_INCLUDE_DIRS}
${_} ${e}${Milter_LIBRARIES}")
endif()
message("")
if(NOT JSONC_USE_STATIC)
message(STATUS "${g}Warning:${e} libjson-c is known to share symbol names with other JSON libraries which may result in crashes for applications that use libclamav. Consider providing a static json-c library that was compiled with: CFLAGS=\"-fPIC\". Default build settings for json-c 0.15+ should also work. Use the `-DENABLE_JSON_SHARED=OFF` option to prefer detection of the static library, or use -DJSONC_INCLUDE_DIR and -DJSONC_LIBRARY to specify the static JSON library.")
endif()