VictoriaMetrics/lib/logstorage/pipe_extract_test.go
2024-05-24 03:06:55 +02:00

293 lines
6.7 KiB
Go

package logstorage
import (
"testing"
)
func TestParsePipeExtractSuccess(t *testing.T) {
f := func(pipeStr string) {
t.Helper()
expectParsePipeSuccess(t, pipeStr)
}
f(`extract "foo<bar>"`)
f(`extract "foo<bar>" from x`)
f(`extract if (x:y) "foo<bar>" from baz`)
}
func TestParsePipeExtractFailure(t *testing.T) {
f := func(pipeStr string) {
t.Helper()
expectParsePipeFailure(t, pipeStr)
}
f(`extract`)
f(`extract from`)
f(`extract from x`)
f(`extract from x "y<foo>"`)
f(`extract if (x:y)`)
f(`extract "a<b>" if (x:y)`)
f(`extract "a"`)
f(`extract "<a><b>"`)
f(`extract "<*>foo<_>bar"`)
}
func TestPipeExtract(t *testing.T) {
f := func(pipeStr string, rows, rowsExpected [][]Field) {
t.Helper()
expectPipeResults(t, pipeStr, rows, rowsExpected)
}
// single row, extract from _msg
f(`extract "baz=<abc> a=<aa>"`, [][]Field{
{
{"_msg", `foo=bar baz="x y=z" a=b`},
},
}, [][]Field{
{
{"_msg", `foo=bar baz="x y=z" a=b`},
{"abc", "x y=z"},
{"aa", "b"},
},
})
// single row, extract from _msg into _msg
f(`extract "msg=<_msg>"`, [][]Field{
{
{"_msg", `msg=bar`},
},
}, [][]Field{
{
{"_msg", "bar"},
},
})
// single row, extract from non-existing field
f(`extract "foo=<bar>" from x`, [][]Field{
{
{"_msg", `foo=bar`},
},
}, [][]Field{
{
{"_msg", `foo=bar`},
{"bar", ""},
},
})
// single row, pattern mismatch
f(`extract "foo=<bar>" from x`, [][]Field{
{
{"x", `foobar`},
},
}, [][]Field{
{
{"x", `foobar`},
{"bar", ""},
},
})
// single row, partial partern match
f(`extract "foo=<bar> baz=<xx>" from x`, [][]Field{
{
{"x", `a foo="a\"b\\c" cde baz=aa`},
},
}, [][]Field{
{
{"x", `a foo="a\"b\\c" cde baz=aa`},
{"bar", `a"b\c`},
{"xx", ""},
},
})
// single row, disable unquoting
f(`extract 'foo=[< plain : bar >]' from x`, [][]Field{
{
{"x", `a foo=["bc","de"]`},
},
}, [][]Field{
{
{"x", `a foo=["bc","de"]`},
{"bar", `"bc","de"`},
},
})
// single row, default unquoting
f(`extract 'foo=[< bar >]' from x`, [][]Field{
{
{"x", `a foo=["bc","de"]`},
},
}, [][]Field{
{
{"x", `a foo=["bc","de"]`},
{"bar", `bc`},
},
})
// single row, overwirte existing column
f(`extract "foo=<bar> baz=<xx>" from x`, [][]Field{
{
{"x", `a foo=cc baz=aa b`},
{"bar", "abc"},
},
}, [][]Field{
{
{"x", `a foo=cc baz=aa b`},
{"bar", `cc`},
{"xx", `aa b`},
},
})
// single row, if match
f(`extract if (x:baz) "foo=<bar> baz=<xx>" from "x"`, [][]Field{
{
{"x", `a foo=cc baz=aa b`},
{"bar", "abc"},
},
}, [][]Field{
{
{"x", `a foo=cc baz=aa b`},
{"bar", `cc`},
{"xx", `aa b`},
},
})
// single row, if mismatch
f(`extract if (bar:"") "foo=<bar> baz=<xx>" from 'x'`, [][]Field{
{
{"x", `a foo=cc baz=aa b`},
{"bar", "abc"},
},
}, [][]Field{
{
{"x", `a foo=cc baz=aa b`},
{"bar", `abc`},
},
})
// multiple rows with distinct set of labels
f(`extract if (!ip:keep) "ip=<ip> "`, [][]Field{
{
{"foo", "bar"},
{"_msg", "request from ip=1.2.3.4 xxx"},
{"f3", "y"},
},
{
{"foo", "aaa"},
{"_msg", "ip=5.4.3.1 abcd"},
{"ip", "keep"},
{"a", "b"},
},
{
{"foo", "aaa"},
{"_msg", "ip=34.32.11.94 abcd"},
{"ip", "ppp"},
{"a", "b"},
},
{
{"foo", "klkfs"},
{"_msg", "sdfdsfds dsf fd fdsa ip=123 abcd"},
{"ip", "bbbsd"},
{"a", "klo2i"},
},
}, [][]Field{
{
{"foo", "bar"},
{"_msg", "request from ip=1.2.3.4 xxx"},
{"f3", "y"},
{"ip", "1.2.3.4"},
},
{
{"foo", "aaa"},
{"_msg", "ip=5.4.3.1 abcd"},
{"ip", "keep"},
{"a", "b"},
},
{
{"foo", "aaa"},
{"_msg", "ip=34.32.11.94 abcd"},
{"ip", "34.32.11.94"},
{"a", "b"},
},
{
{"foo", "klkfs"},
{"_msg", "sdfdsfds dsf fd fdsa ip=123 abcd"},
{"ip", "123"},
{"a", "klo2i"},
},
})
}
func TestPipeExtractUpdateNeededFields(t *testing.T) {
f := func(s string, neededFields, unneededFields, neededFieldsExpected, unneededFieldsExpected string) {
t.Helper()
expectPipeNeededFields(t, s, neededFields, unneededFields, neededFieldsExpected, unneededFieldsExpected)
}
// all the needed fields
f("extract '<foo>' from x", "*", "", "*", "foo")
f("extract if (foo:bar) '<foo>' from x", "*", "", "*", "")
// unneeded fields do not intersect with pattern and output fields
f("extract '<foo>' from x", "*", "f1,f2", "*", "f1,f2,foo")
f("extract if (f1:x) '<foo>' from x", "*", "f1,f2", "*", "f2,foo")
f("extract if (foo:bar f1:x) '<foo>' from x", "*", "f1,f2", "*", "f2")
// unneeded fields intersect with pattern
f("extract '<foo>' from x", "*", "f2,x", "*", "f2,foo")
f("extract if (f1:abc) '<foo>' from x", "*", "f2,x", "*", "f2,foo")
f("extract if (f2:abc) '<foo>' from x", "*", "f2,x", "*", "foo")
// unneeded fields intersect with output fields
f("extract '<foo>x<bar>' from x", "*", "f2,foo", "*", "bar,f2,foo")
f("extract if (f1:abc) '<foo>x<bar>' from x", "*", "f2,foo", "*", "bar,f2,foo")
f("extract if (f2:abc foo:w) '<foo>x<bar>' from x", "*", "f2,foo", "*", "bar")
// unneeded fields intersect with all the output fields
f("extract '<foo>x<bar>' from x", "*", "f2,foo,bar", "*", "bar,f2,foo,x")
f("extract if (a:b f2:q x:y foo:w) '<foo>x<bar>' from x", "*", "f2,foo,bar", "*", "bar,f2,foo,x")
// needed fields do not intersect with pattern and output fields
f("extract '<foo>x<bar>' from x", "f1,f2", "", "f1,f2", "")
f("extract if (a:b) '<foo>x<bar>' from x", "f1,f2", "", "f1,f2", "")
f("extract if (f1:b) '<foo>x<bar>' from x", "f1,f2", "", "f1,f2", "")
// needed fields intersect with pattern field
f("extract '<foo>x<bar>' from x", "f2,x", "", "f2,x", "")
f("extract if (a:b) '<foo>x<bar>' from x", "f2,x", "", "f2,x", "")
// needed fields intersect with output fields
f("extract '<foo>x<bar>' from x", "f2,foo", "", "f2,x", "")
f("extract if (a:b) '<foo>x<bar>' from x", "f2,foo", "", "a,f2,x", "")
// needed fields intersect with pattern and output fields
f("extract '<foo>x<bar>' from x", "f2,foo,x,y", "", "f2,x,y", "")
f("extract if (a:b foo:q) '<foo>x<bar>' from x", "f2,foo,x,y", "", "a,f2,foo,x,y", "")
}
func expectParsePipeFailure(t *testing.T, pipeStr string) {
t.Helper()
lex := newLexer(pipeStr)
p, err := parsePipe(lex)
if err == nil && lex.isEnd() {
t.Fatalf("expecting error when parsing [%s]; parsed result: [%s]", pipeStr, p)
}
}
func expectParsePipeSuccess(t *testing.T, pipeStr string) {
t.Helper()
lex := newLexer(pipeStr)
p, err := parsePipe(lex)
if err != nil {
t.Fatalf("cannot parse [%s]: %s", pipeStr, err)
}
if !lex.isEnd() {
t.Fatalf("unexpected tail after parsing [%s]: [%s]", pipeStr, lex.s)
}
pipeStrResult := p.String()
if pipeStrResult != pipeStr {
t.Fatalf("unexpected string representation of pipe; got\n%s\nwant\n%s", pipeStrResult, pipeStr)
}
}