ClamAV is an open source (GPLv2) anti-virus toolkit.
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clamav/libclamav/yara_parser.c

1053 lines
24 KiB

/*
* YARA parser for ClamAV: back-end functions
*
* Copyright (C) 2014 Cisco Systems, Inc. and/or its affiliates. All rights reserved.
*
* Authors: Steven Morgan
*
* This program is free software; you can redistribute it and/or modify it under
* the terms of the GNU General Public License version 2 as published by the
* Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc., 51
* Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
/*
Copyright (c) 2013. The YARA Authors. All Rights Reserved.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
#include <stddef.h>
#include <string.h>
#ifdef REAL_YARA
#include <yara/ahocorasick.h>
#include <yara/arena.h>
#include <yara/re.h>
#include <yara/error.h>
#include <yara/exec.h>
#include <yara/object.h>
#include <yara/utils.h>
#include <yara/modules.h>
#include <yara/parser.h>
#include <yara/mem.h>
#else
#include <stdint.h>
#include <stdio.h>
#include "yara_clam.h"
#include "yara_grammar.h"
#include "yara_lexer.h"
#include "others.h"
#endif
#define todigit(x) ((x) >='A'&& (x) <='F')? \
((uint8_t) (x - 'A' + 10)) : \
((uint8_t) (x - '0'))
int yr_parser_emit(
yyscan_t yyscanner,
int8_t instruction,
int8_t** instruction_address)
{
#ifdef REAL_YARA
return yr_arena_write_data(
yyget_extra(yyscanner)->code_arena,
&instruction,
sizeof(int8_t),
(void**) instruction_address);
#else
return ERROR_SUCCESS;
#endif
}
int yr_parser_emit_with_arg(
yyscan_t yyscanner,
int8_t instruction,
int64_t argument,
int8_t** instruction_address)
{
#ifdef REAL_YARA
int result = yr_arena_write_data(
yyget_extra(yyscanner)->code_arena,
&instruction,
sizeof(int8_t),
(void**) instruction_address);
if (result == ERROR_SUCCESS)
result = yr_arena_write_data(
yyget_extra(yyscanner)->code_arena,
&argument,
sizeof(int64_t),
NULL);
return result;
#else
return ERROR_SUCCESS;
#endif
}
int yr_parser_emit_with_arg_reloc(
yyscan_t yyscanner,
int8_t instruction,
int64_t argument,
int8_t** instruction_address)
{
void* ptr;
#ifdef REAL_YARA
int result = yr_arena_write_data(
yyget_extra(yyscanner)->code_arena,
&instruction,
sizeof(int8_t),
(void**) instruction_address);
if (result == ERROR_SUCCESS)
result = yr_arena_write_data(
yyget_extra(yyscanner)->code_arena,
&argument,
sizeof(int64_t),
&ptr);
if (result == ERROR_SUCCESS)
result = yr_arena_make_relocatable(
yyget_extra(yyscanner)->code_arena,
ptr,
0,
EOL);
return result;
#else
return ERROR_SUCCESS;
#endif
}
int yr_parser_emit_pushes_for_strings(
yyscan_t yyscanner,
const char* identifier)
{
YR_COMPILER* compiler = yyget_extra(yyscanner);
#ifdef REAL_YARA
YR_STRING* string = compiler->current_rule_strings;
const char* string_identifier;
const char* target_identifier;
int matching = 0;
while(!STRING_IS_NULL(string))
{
// Don't generate pushes for strings chained to another one, we are
// only interested in non-chained strings or the head of the chain.
if (string->chained_to == NULL)
{
string_identifier = string->identifier;
target_identifier = identifier;
while (*target_identifier != '\0' &&
*string_identifier != '\0' &&
*target_identifier == *string_identifier)
{
target_identifier++;
string_identifier++;
}
if ((*target_identifier == '\0' && *string_identifier == '\0') ||
*target_identifier == '*')
{
yr_parser_emit_with_arg_reloc(
yyscanner,
OP_PUSH,
PTR_TO_UINT64(string),
NULL);
string->g_flags |= STRING_GFLAGS_REFERENCED;
matching++;
}
}
string = yr_arena_next_address(
compiler->strings_arena,
string,
sizeof(YR_STRING));
}
if (matching == 0)
{
yr_compiler_set_error_extra_info(compiler, identifier);
compiler->last_result = ERROR_UNDEFINED_STRING;
}
return compiler->last_result;
#else
return ERROR_SUCCESS;
#endif
}
int yr_parser_check_types(
YR_COMPILER* compiler,
YR_OBJECT_FUNCTION* function,
const char* actual_args_fmt)
{
int i;
char message[MAX_COMPILER_ERROR_EXTRA_INFO];
#ifdef REAL_YARA
const char* expected = function->arguments_fmt;
const char* actual = actual_args_fmt;
i = 0;
while (*expected != '\0' || *actual != '\0')
{
i++;
if (*expected != *actual)
{
if (*expected == '\0' || *actual == '\0')
{
snprintf(
message,
sizeof(message),
"wrong number of arguments for \"%s\"",
function->identifier);
compiler->last_result = ERROR_WRONG_NUMBER_OF_ARGUMENTS;
}
else
{
snprintf(
message,
sizeof(message),
"wrong type for argument %i of \"%s\"",
i,
function->identifier);
compiler->last_result = ERROR_WRONG_TYPE;
}
yr_compiler_set_error_extra_info(compiler, message);
break;
}
expected++;
actual++;
}
return compiler->last_result;
#else
return ERROR_SUCCESS;
#endif
}
YR_STRING* yr_parser_lookup_string(
yyscan_t yyscanner,
const char* identifier)
{
YR_STRING* string;
YR_COMPILER* compiler = yyget_extra(yyscanner);
#ifdef REAL_YARA
string = compiler->current_rule_strings;
while(!STRING_IS_NULL(string))
{
// If some string $a gets fragmented into multiple chained
// strings, all those fragments have the same $a identifier
// but we are interested in the heading fragment, which is
// that with chained_to == NULL
if (strcmp(string->identifier, identifier) == 0 &&
string->chained_to == NULL)
{
return string;
}
string = yr_arena_next_address(
compiler->strings_arena,
string,
sizeof(YR_STRING));
}
yr_compiler_set_error_extra_info(compiler, identifier);
compiler->last_result = ERROR_UNDEFINED_STRING;
return NULL;
#else
return ERROR_SUCCESS;
#endif
}
int yr_parser_lookup_loop_variable(
yyscan_t yyscanner,
const char* identifier)
{
YR_COMPILER* compiler = yyget_extra(yyscanner);
int i;
#ifdef REAL_YARA
for (i = 0; i < compiler->loop_depth; i++)
{
if (compiler->loop_identifier[i] != NULL &&
strcmp(identifier, compiler->loop_identifier[i]) == 0)
return i;
}
return -1;
#else
return ERROR_SUCCESS;
#endif
}
int _yr_parser_write_string(
const char* identifier,
int flags,
YR_COMPILER* compiler,
SIZED_STRING* str,
RE* re,
YR_STRING** string,
int* min_atom_length)
{
#ifdef REAL_YARA
SIZED_STRING* literal_string;
YR_AC_MATCH* new_match;
YR_ATOM_LIST_ITEM* atom;
YR_ATOM_LIST_ITEM* atom_list = NULL;
int result;
int max_string_len;
int free_literal = FALSE;
*string = NULL;
result = yr_arena_allocate_struct(
compiler->strings_arena,
sizeof(YR_STRING),
(void**) string,
offsetof(YR_STRING, identifier),
offsetof(YR_STRING, string),
offsetof(YR_STRING, chained_to),
EOL);
if (result != ERROR_SUCCESS)
return result;
result = yr_arena_write_string(
compiler->sz_arena,
identifier,
&(*string)->identifier);
if (result != ERROR_SUCCESS)
return result;
if (flags & STRING_GFLAGS_HEXADECIMAL ||
flags & STRING_GFLAGS_REGEXP)
{
literal_string = yr_re_extract_literal(re);
if (literal_string != NULL)
{
flags |= STRING_GFLAGS_LITERAL;
free_literal = TRUE;
}
}
else
{
literal_string = str;
flags |= STRING_GFLAGS_LITERAL;
}
(*string)->g_flags = flags;
(*string)->chained_to = NULL;
#ifdef PROFILING_ENABLED
(*string)->clock_ticks = 0;
#endif
memset((*string)->matches, 0,
sizeof((*string)->matches));
memset((*string)->unconfirmed_matches, 0,
sizeof((*string)->unconfirmed_matches));
if (flags & STRING_GFLAGS_LITERAL)
{
(*string)->length = literal_string->length;
result = yr_arena_write_data(
compiler->sz_arena,
literal_string->c_string,
literal_string->length,
(void*) &(*string)->string);
if (result == ERROR_SUCCESS)
{
result = yr_atoms_extract_from_string(
(uint8_t*) literal_string->c_string,
literal_string->length,
flags,
&atom_list);
}
}
else
{
result = yr_re_emit_code(re, compiler->re_code_arena);
if (result == ERROR_SUCCESS)
result = yr_atoms_extract_from_re(re, flags, &atom_list);
}
if (result == ERROR_SUCCESS)
{
// Add the string to Aho-Corasick automaton.
if (atom_list != NULL)
{
result = yr_ac_add_string(
compiler->automaton_arena,
compiler->automaton,
*string,
atom_list);
}
else
{
result = yr_arena_allocate_struct(
compiler->automaton_arena,
sizeof(YR_AC_MATCH),
(void**) &new_match,
offsetof(YR_AC_MATCH, string),
offsetof(YR_AC_MATCH, forward_code),
offsetof(YR_AC_MATCH, backward_code),
offsetof(YR_AC_MATCH, next),
EOL);
if (result == ERROR_SUCCESS)
{
new_match->backtrack = 0;
new_match->string = *string;
new_match->forward_code = re->root_node->forward_code;
new_match->backward_code = NULL;
new_match->next = compiler->automaton->root->matches;
compiler->automaton->root->matches = new_match;
}
}
}
atom = atom_list;
if (atom != NULL)
*min_atom_length = MAX_ATOM_LENGTH;
else
*min_atom_length = 0;
while (atom != NULL)
{
if (atom->atom_length < *min_atom_length)
*min_atom_length = atom->atom_length;
atom = atom->next;
}
if (flags & STRING_GFLAGS_LITERAL)
{
if (flags & STRING_GFLAGS_WIDE)
max_string_len = (*string)->length * 2;
else
max_string_len = (*string)->length;
if (max_string_len == *min_atom_length)
(*string)->g_flags |= STRING_GFLAGS_FITS_IN_ATOM;
}
if (free_literal)
yr_free(literal_string);
if (atom_list != NULL)
yr_atoms_list_destroy(atom_list);
return result;
#else
return ERROR_SUCCESS;
#endif
}
#include <stdint.h>
#include <limits.h>
YR_STRING* yr_parser_reduce_string_declaration(
yyscan_t yyscanner,
int32_t string_flags,
const char* identifier,
SIZED_STRING* str)
{
int min_atom_length;
int min_atom_length_aux;
int re_flags = 0;
int32_t min_gap;
int32_t max_gap;
char message[512];
YR_COMPILER* compiler = yyget_extra(yyscanner);
YR_STRING* string = NULL;
YR_STRING* aux_string;
YR_STRING* prev_string;
RE* re = NULL;
RE* remainder_re;
#if REAL_YARA
RE_ERROR re_error;
#endif
if (str->flags & SIZED_STRING_FLAGS_NO_CASE)
string_flags |= STRING_GFLAGS_NO_CASE;
if (str->flags & SIZED_STRING_FLAGS_DOT_ALL)
re_flags |= RE_FLAGS_DOT_ALL;
if (strcmp(identifier,"$") == 0)
string_flags |= STRING_GFLAGS_ANONYMOUS;
if (!(string_flags & STRING_GFLAGS_WIDE))
string_flags |= STRING_GFLAGS_ASCII;
if (string_flags & STRING_GFLAGS_NO_CASE)
re_flags |= RE_FLAGS_NO_CASE;
// The STRING_GFLAGS_SINGLE_MATCH flag indicates that finding
// a single match for the string is enough. This is true in
// most cases, except when the string count (#) and string offset (@)
// operators are used. All strings are marked STRING_FLAGS_SINGLE_MATCH
// initially, and unmarked later if required.
string_flags |= STRING_GFLAGS_SINGLE_MATCH;
if (string_flags & STRING_GFLAGS_HEXADECIMAL ||
string_flags & STRING_GFLAGS_REGEXP)
{
#if REAL_YARA
if (string_flags & STRING_GFLAGS_HEXADECIMAL)
compiler->last_result = yr_re_parse_hex(
str->c_string, re_flags, &re, &re_error);
else
compiler->last_result = yr_re_parse(
str->c_string, re_flags, &re, &re_error);
if (compiler->last_result != ERROR_SUCCESS)
{
snprintf(
message,
sizeof(message),
"invalid %s \"%s\": %s",
(string_flags & STRING_GFLAGS_HEXADECIMAL) ?
"hex string" : "regular expression",
identifier,
re_error.message);
yr_compiler_set_error_extra_info(
compiler, message);
goto _exit;
}
if (re->flags & RE_FLAGS_FAST_HEX_REGEXP)
string_flags |= STRING_GFLAGS_FAST_HEX_REGEXP;
compiler->last_result = yr_re_split_at_chaining_point(
re, &re, &remainder_re, &min_gap, &max_gap);
if (compiler->last_result != ERROR_SUCCESS)
goto _exit;
#endif
compiler->last_result = _yr_parser_write_string(
identifier,
string_flags,
compiler,
NULL,
re,
&string,
&min_atom_length);
if (compiler->last_result != ERROR_SUCCESS)
goto _exit;
#if REAL_YARA
if (remainder_re != NULL)
{
string->g_flags |= STRING_GFLAGS_CHAIN_TAIL | STRING_GFLAGS_CHAIN_PART;
string->chain_gap_min = min_gap;
string->chain_gap_max = max_gap;
// Use "aux_string" from now on, we want to keep the value of "string"
// because it will returned.
aux_string = string;
while (remainder_re != NULL)
{
// Destroy regexp pointed by 're' before yr_re_split_at_jmp
// overwrites 're' with another value.
yr_re_destroy(re);
compiler->last_result = yr_re_split_at_chaining_point(
remainder_re, &re, &remainder_re, &min_gap, &max_gap);
if (compiler->last_result != ERROR_SUCCESS)
goto _exit;
prev_string = aux_string;
compiler->last_result = _yr_parser_write_string(
identifier,
string_flags,
compiler,
NULL,
re,
&aux_string,
&min_atom_length_aux);
if (compiler->last_result != ERROR_SUCCESS)
goto _exit;
if (min_atom_length_aux < min_atom_length)
min_atom_length = min_atom_length_aux;
aux_string->g_flags |= STRING_GFLAGS_CHAIN_PART;
aux_string->chain_gap_min = min_gap;
aux_string->chain_gap_max = max_gap;
prev_string->chained_to = aux_string;
}
#endif
}
else
{
compiler->last_result = _yr_parser_write_string(
identifier,
string_flags,
compiler,
str,
NULL,
&string,
&min_atom_length);
if (compiler->last_result != ERROR_SUCCESS)
goto _exit;
}
string = cli_calloc(1, sizeof(struct _yc_string));
if (string == NULL) {
cli_errmsg("yara_parser: no mem for struct _yc_string.\n");
compiler->last_result = CL_EMEM;
return NULL;
}
string->id = cli_strdup(identifier);
if (str->length > 0) {
string->string = cli_calloc(1, str->length+1);
if (string->string == NULL) {
cli_errmsg("yara_parser: no mem for string->string.\n");
compiler->last_result = CL_EMEM;
return NULL;
}
memcpy(string->string, (char *)&str->c_string, str->length);
string->g_flags = string_flags;
}
STAILQ_INSERT_TAIL(&compiler->current_rule_strings, string, link);
#if REAL_YARA
if (min_atom_length < 2 && compiler->callback != NULL)
{
snprintf(
message,
sizeof(message),
"%s is slowing down scanning%s",
string->identifier,
min_atom_length == 0 ? " (critical!)" : "");
yywarning(yyscanner, message);
}
#endif
_exit:
if (re != NULL)
yr_re_destroy(re);
if (compiler->last_result != ERROR_SUCCESS)
return NULL;
return string;
}
int yr_parser_reduce_rule_declaration(
yyscan_t yyscanner,
int32_t flags,
const char* identifier,
char* tags,
YR_STRING* strings,
YR_META* metas)
{
YR_COMPILER* compiler = yyget_extra(yyscanner);
YR_RULE* rule;
YR_STRING* string;
#if REAL_YARA
if (yr_hash_table_lookup(
compiler->rules_table,
identifier,
compiler->current_namespace->name) != NULL ||
yr_hash_table_lookup(
compiler->objects_table,
identifier,
compiler->current_namespace->name) != NULL)
{
// A rule or variable with the same identifier already exists, return the
// appropriate error.
yr_compiler_set_error_extra_info(compiler, identifier);
compiler->last_result = ERROR_DUPLICATE_IDENTIFIER;
return compiler->last_result;
}
#else
//TBD: Scan the queue for duplicate.
#endif
// Check for unreferenced (unused) strings.
#if REAL_YARA
string = compiler->current_rule_strings;
#else
string = STAILQ_FIRST(&compiler->current_rule_strings);
#endif
while(!STRING_IS_NULL(string))
{
// Only the heading fragment in a chain of strings (the one with
// chained_to == NULL) must be referenced. All other fragments
// are never marked as referenced.
#if REAL_YARA
if (!STRING_IS_REFERENCED(string) &&
string->chained_to == NULL)
{
yr_compiler_set_error_extra_info(compiler, string->identifier);
compiler->last_result = ERROR_UNREFERENCED_STRING;
break;
}
string = yr_arena_next_address(
compiler->strings_arena,
string,
sizeof(YR_STRING));
#else
//TBD: String link.
// STAILQ_REMOVE_HEAD(&compiler->current_rule_strings, link);
string = STAILQ_NEXT(string, link);
#endif
}
if (compiler->last_result != ERROR_SUCCESS)
return compiler->last_result;
#if REAL_YARA
FAIL_ON_COMPILER_ERROR(yr_arena_allocate_struct(
compiler->rules_arena,
sizeof(YR_RULE),
(void**) &rule,
offsetof(YR_RULE, identifier),
offsetof(YR_RULE, tags),
offsetof(YR_RULE, strings),
offsetof(YR_RULE, metas),
offsetof(YR_RULE, ns),
EOL));
#else
rule = cli_calloc(1, sizeof(struct _yc_rule));
if (rule == NULL) {
cli_errmsg("yara_parser: no mem for struct _yc_rule.\n");
return CL_EMEM;
}
STAILQ_INIT(&rule->strings);
STAILQ_CONCAT(&rule->strings, &compiler->current_rule_strings);
STAILQ_INIT(&compiler->current_rule_strings);
rule->id = cli_strdup(identifier);
#endif
rule->g_flags = flags | compiler->current_rule_flags;
#if REAL_YARA
rule->tags = tags;
rule->strings = strings;
rule->metas = metas;
rule->ns = compiler->current_namespace;
#ifdef PROFILING_ENABLED
rule->clock_ticks = 0;
#endif
FAIL_ON_COMPILER_ERROR(yr_arena_write_string(
compiler->sz_arena,
identifier,
(char**) &rule->identifier));
FAIL_ON_COMPILER_ERROR(yr_parser_emit_with_arg_reloc(
yyscanner,
OP_MATCH_RULE,
PTR_TO_UINT64(rule),
NULL));
FAIL_ON_COMPILER_ERROR(yr_hash_table_add(
compiler->rules_table,
identifier,
compiler->current_namespace->name,
(void*) rule));
compiler->current_rule_flags = 0;
compiler->current_rule_strings = NULL;
#else
compiler->current_rule_flags = 0;
STAILQ_INSERT_TAIL(&compiler->rules, rule, link);
#endif
return compiler->last_result;
}
int yr_parser_reduce_string_identifier(
yyscan_t yyscanner,
const char* identifier,
int8_t instruction)
{
YR_STRING* string;
YR_COMPILER* compiler = yyget_extra(yyscanner);
#if REAL_YARA
if (strcmp(identifier, "$") == 0)
{
if (compiler->loop_for_of_mem_offset >= 0)
{
yr_parser_emit_with_arg(
yyscanner,
OP_PUSH_M,
compiler->loop_for_of_mem_offset,
NULL);
yr_parser_emit(yyscanner, instruction, NULL);
if (instruction != OP_STR_FOUND)
{
string = compiler->current_rule_strings;
while(!STRING_IS_NULL(string))
{
string->g_flags &= ~STRING_GFLAGS_SINGLE_MATCH;
string = yr_arena_next_address(
compiler->strings_arena,
string,
sizeof(YR_STRING));
}
}
}
else
{
compiler->last_result = ERROR_MISPLACED_ANONYMOUS_STRING;
}
}
else
{
string = yr_parser_lookup_string(yyscanner, identifier);
if (string != NULL)
{
yr_parser_emit_with_arg_reloc(
yyscanner,
OP_PUSH,
PTR_TO_UINT64(string),
NULL);
if (instruction != OP_STR_FOUND)
string->g_flags &= ~STRING_GFLAGS_SINGLE_MATCH;
yr_parser_emit(yyscanner, instruction, NULL);
string->g_flags |= STRING_GFLAGS_REFERENCED;
}
}
#endif
return compiler->last_result;
}
YR_META* yr_parser_reduce_meta_declaration(
yyscan_t yyscanner,
int32_t type,
const char* identifier,
const char* string,
int32_t integer)
{
YR_COMPILER* compiler = yyget_extra(yyscanner);
YR_META* meta;
#if REAL_YARA
compiler->last_result = yr_arena_allocate_struct(
compiler->metas_arena,
sizeof(YR_META),
(void**) &meta,
offsetof(YR_META, identifier),
offsetof(YR_META, string),
EOL);
if (compiler->last_result != ERROR_SUCCESS)
return NULL;
compiler->last_result = yr_arena_write_string(
compiler->sz_arena,
identifier,
(char**) &meta->identifier);
if (compiler->last_result != ERROR_SUCCESS)
return NULL;
if (string != NULL)
compiler->last_result = yr_arena_write_string(
compiler->sz_arena,
string,
&meta->string);
else
meta->string = NULL;
if (compiler->last_result != ERROR_SUCCESS)
return NULL;
meta->integer = integer;
meta->type = type;
return meta;
#else
meta = cli_calloc(1, sizeof(YR_META));
if (meta == NULL) {
cli_errmsg("yara_parser: no mem for YR_META.\n");
compiler->last_result = CL_EMEM;
return NULL;
}
if (identifier != NULL) {
meta->identifier = cli_strdup(identifier);
if (meta->identifier == NULL) {
cli_errmsg("yara_parser: no mem for meta->identifier.\n");
compiler->last_result = CL_EMEM;
return NULL;
}
}
if (string != NULL) {
meta->string = cli_strdup(string);
if (meta->string == NULL) {
cli_errmsg("yara_parser: no mem for meta->string.\n");
compiler->last_result = CL_EMEM;
return NULL;
}
}
meta->integer = integer;
meta->type = type;
#if 0
STAILQ_INSERT_TAIL(&compiler->current_meta, meta, link);
#endif
//compiler->error_msg = "meta not yet supported";
return meta;
#endif
}
int yr_parser_reduce_import(
yyscan_t yyscanner,
SIZED_STRING* module_name)
{
YR_COMPILER* compiler = yyget_extra(yyscanner);
/// YR_OBJECT* module_structure;
#if REAL_YARA
char* name;
module_structure = yr_hash_table_lookup(
compiler->objects_table,
module_name->c_string,
compiler->current_namespace->name);
// if module already imported, do nothing
if (module_structure != NULL)
return ERROR_SUCCESS;
compiler->last_result = yr_object_create(
OBJECT_TYPE_STRUCTURE,
module_name->c_string,
NULL,
&module_structure);
if (compiler->last_result == ERROR_SUCCESS)
compiler->last_result = yr_hash_table_add(
compiler->objects_table,
module_name->c_string,
compiler->current_namespace->name,
module_structure);
if (compiler->last_result == ERROR_SUCCESS)
{
compiler->last_result = yr_modules_do_declarations(
module_name->c_string,
module_structure);
if (compiler->last_result == ERROR_UNKNOWN_MODULE)
yr_compiler_set_error_extra_info(compiler, module_name->c_string);
}
if (compiler->last_result == ERROR_SUCCESS)
compiler->last_result = yr_arena_write_string(
compiler->sz_arena,
module_name->c_string,
&name);
if (compiler->last_result == ERROR_SUCCESS)
compiler->last_result = yr_parser_emit_with_arg_reloc(
yyscanner,
OP_IMPORT,
PTR_TO_UINT64(name),
NULL);
return compiler->last_result;
#else
return ERROR_SUCCESS;
#endif
}