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The open and composable observability and data visualization platform. Visualize metrics, logs, and traces from multiple sources like Prometheus, Loki, Elasticsearch, InfluxDB, Postgres and many more.
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grafana/pkg/tsdb/mssql/mssql_test.go

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package mssql
import (
"fmt"
"strings"
"testing"
"time"
"github.com/go-xorm/xorm"
"github.com/grafana/grafana/pkg/components/simplejson"
"github.com/grafana/grafana/pkg/log"
"github.com/grafana/grafana/pkg/services/sqlstore/sqlutil"
"github.com/grafana/grafana/pkg/tsdb"
. "github.com/smartystreets/goconvey/convey"
)
// To run this test, remove the Skip from SkipConvey
// and set up a MSSQL db named grafana_tests and a user/password grafana/Password!
// and set the variable below to the IP address of the database
var serverIP string = "localhost"
func TestMSSQL(t *testing.T) {
Convey("MSSQL", t, func() {
x := InitMSSQLTestDB(t)
endpoint := &MssqlQueryEndpoint{
sqlEngine: &tsdb.DefaultSqlEngine{
MacroEngine: NewMssqlMacroEngine(),
XormEngine: x,
},
log: log.New("tsdb.mssql"),
}
sess := x.NewSession()
defer sess.Close()
Convey("Given a table with different native data types", func() {
sql := `
IF OBJECT_ID('dbo.[mssql_types]', 'U') IS NOT NULL
DROP TABLE dbo.[mssql_types]
CREATE TABLE [mssql_types] (
c_bit bit,
c_tinyint tinyint,
c_smallint smallint,
c_int int,
c_bigint bigint,
c_money money,
c_smallmoney smallmoney,
c_numeric numeric(10,5),
c_real real,
c_decimal decimal(10,2),
c_float float,
c_char char(10),
c_varchar varchar(10),
c_text text,
c_nchar nchar(12),
c_nvarchar nvarchar(12),
c_ntext ntext,
c_datetime datetime,
c_datetime2 datetime2,
c_smalldatetime smalldatetime,
c_date date,
c_time time,
c_datetimeoffset datetimeoffset
)
`
_, err := sess.Exec(sql)
So(err, ShouldBeNil)
dt := time.Date(2018, 3, 14, 21, 20, 6, 527e6, time.UTC)
dtFormat := "2006-01-02 15:04:05.999999999"
d := dt.Format(dtFormat)
dt2 := time.Date(2018, 3, 14, 21, 20, 6, 8896406e2, time.UTC)
dt2Format := "2006-01-02 15:04:05.999999999 -07:00"
d2 := dt2.Format(dt2Format)
sql = fmt.Sprintf(`
INSERT INTO [mssql_types]
SELECT
1, 5, 20020, 980300, 1420070400, '$20000.15', '£2.15', 12345.12,
1.11, 2.22, 3.33,
'char10', 'varchar10', 'text',
N'☺nchar12☺', N'☺nvarchar12☺', N'☺text☺',
CAST('%s' AS DATETIME), CAST('%s' AS DATETIME2), CAST('%s' AS SMALLDATETIME), CAST('%s' AS DATE), CAST('%s' AS TIME), SWITCHOFFSET(CAST('%s' AS DATETIMEOFFSET), '-07:00')
`, d, d2, d, d, d, d2)
_, err = sess.Exec(sql)
So(err, ShouldBeNil)
Convey("Query with Table format should map MSSQL column types to Go types", func() {
query := &tsdb.TsdbQuery{
Queries: []*tsdb.Query{
{
Model: simplejson.NewFromAny(map[string]interface{}{
"rawSql": "SELECT * FROM mssql_types",
"format": "table",
}),
RefId: "A",
},
},
}
resp, err := endpoint.Query(nil, nil, query)
queryResult := resp.Results["A"]
So(err, ShouldBeNil)
column := queryResult.Tables[0].Rows[0]
So(column[0].(bool), ShouldEqual, true)
So(column[1].(int64), ShouldEqual, 5)
So(column[2].(int64), ShouldEqual, 20020)
So(column[3].(int64), ShouldEqual, 980300)
So(column[4].(int64), ShouldEqual, 1420070400)
// So(column[5].(float64), ShouldEqual, 20000.15)
// So(column[6].(float64), ShouldEqual, 2.15)
//So(column[7].(float64), ShouldEqual, 12345.12)
So(column[8].(float64), ShouldEqual, 1.1100000143051147) // MSSQL dose not have precision for "real" datatype
// fix me: MSSQL driver puts the decimal inside an array of chars. and the test fails despite the values are correct.
//So(column[9].([]uint8), ShouldEqual, []uint8{'2', '.', '2', '2'})
So(column[10].(float64), ShouldEqual, 3.33)
So(column[11].(string), ShouldEqual, "char10 ")
So(column[12].(string), ShouldEqual, "varchar10")
So(column[13].(string), ShouldEqual, "text")
So(column[14].(string), ShouldEqual, "☺nchar12☺ ")
So(column[15].(string), ShouldEqual, "☺nvarchar12☺")
So(column[16].(string), ShouldEqual, "☺text☺")
So(column[17].(time.Time), ShouldEqual, dt)
So(column[18].(time.Time), ShouldEqual, dt2)
So(column[19].(time.Time), ShouldEqual, dt.Truncate(time.Minute))
So(column[20].(time.Time), ShouldEqual, dt.Truncate(24*time.Hour))
So(column[21].(time.Time), ShouldEqual, time.Date(1, 1, 1, dt.Hour(), dt.Minute(), dt.Second(), dt.Nanosecond(), time.UTC))
So(column[22].(time.Time), ShouldEqual, dt2.In(time.FixedZone("UTC", int(-7*time.Hour))))
})
// Convey("stored procedure", func() {
// sql := `
// create procedure dbo.test_sp as
// begin
// select 1
// end
// `
// sess.Exec(sql)
// sql = `
// ALTER PROCEDURE dbo.test_sp
// @from int,
// @to int
// AS
// BEGIN
// select
// GETDATE() AS Time,
// 1 as value,
// 'metric' as metric
// END
// `
// _, err := sess.Exec(sql)
// So(err, ShouldBeNil)
// sql = `
// EXEC dbo.test_sp 1, 2
// `
// _, err = sess.Exec(sql)
// So(err, ShouldBeNil)
// })
})
Convey("Given a table with metrics", func() {
sql := `
IF OBJECT_ID('dbo.[metric]', 'U') IS NOT NULL
DROP TABLE dbo.[metric]
CREATE TABLE [metric] (
time datetime,
measurement nvarchar(100),
value int
)
`
_, err := sess.Exec(sql)
So(err, ShouldBeNil)
type metric struct {
Time time.Time
Measurement string
Value int64
}
series := []*metric{}
fromStart := time.Date(2018, 3, 15, 13, 0, 0, 0, time.UTC)
firstRange := genTimeRangeByInterval(fromStart, 10*time.Minute, 10*time.Second)
secondRange := genTimeRangeByInterval(fromStart.Add(20*time.Minute), 10*time.Minute, 10*time.Second)
for _, t := range firstRange {
series = append(series, &metric{
Time: t,
Measurement: "test",
Value: 15,
})
}
for _, t := range secondRange {
series = append(series, &metric{
Time: t,
Measurement: "test",
Value: 20,
})
}
dtFormat := "2006-01-02 15:04:05.999999999"
for _, s := range series {
sql = fmt.Sprintf(`
INSERT INTO metric (time, measurement, value)
VALUES(CAST('%s' AS DATETIME), '%s', %d)
`, s.Time.Format(dtFormat), s.Measurement, s.Value)
_, err = sess.Exec(sql)
So(err, ShouldBeNil)
}
Convey("When doing a metric query using timeGroup", func() {
query := &tsdb.TsdbQuery{
Queries: []*tsdb.Query{
{
Model: simplejson.NewFromAny(map[string]interface{}{
"rawSql": "SELECT $__timeGroup(time, '5m') AS time, measurement as metric, avg(value) as value FROM metric GROUP BY $__timeGroup(time, '5m'), measurement ORDER BY 1",
"format": "time_series",
}),
RefId: "A",
},
},
}
resp, err := endpoint.Query(nil, nil, query)
queryResult := resp.Results["A"]
So(err, ShouldBeNil)
So(queryResult.Error, ShouldBeNil)
points := queryResult.Series[0].Points
So(len(points), ShouldEqual, 4)
actualValueFirst := points[0][0].Float64
actualTimeFirst := time.Unix(int64(points[0][1].Float64)/1000, 0)
So(actualValueFirst, ShouldEqual, 15)
So(actualTimeFirst, ShouldEqual, fromStart)
actualValueLast := points[3][0].Float64
actualTimeLast := time.Unix(int64(points[3][1].Float64)/1000, 0)
So(actualValueLast, ShouldEqual, 20)
So(actualTimeLast, ShouldEqual, fromStart.Add(25*time.Minute))
})
})
})
}
func InitMSSQLTestDB(t *testing.T) *xorm.Engine {
x, err := xorm.NewEngine(sqlutil.TestDB_Mssql.DriverName, strings.Replace(sqlutil.TestDB_Mssql.ConnStr, "localhost", serverIP, 1))
// x.ShowSQL()
if err != nil {
t.Fatalf("Failed to init mssql db %v", err)
}
sqlutil.CleanDB(x)
return x
}
func genTimeRangeByInterval(from time.Time, duration time.Duration, interval time.Duration) []time.Time {
durationSec := int64(duration.Seconds())
intervalSec := int64(interval.Seconds())
timeRange := []time.Time{}
for i := int64(0); i < durationSec; i += intervalSec {
timeRange = append(timeRange, from)
from = from.Add(time.Duration(int64(time.Second) * intervalSec))
}
return timeRange
}