telegraf/plugins/parsers/influx/machine_test.go

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package influx
import (
"fmt"
"testing"
"github.com/stretchr/testify/require"
)
type TestingHandler struct {
results []Result
}
func (h *TestingHandler) SetMeasurement(name []byte) {
mname := Result{
Name: Measurement,
Value: name,
}
h.results = append(h.results, mname)
}
func (h *TestingHandler) AddTag(key []byte, value []byte) {
tagkey := Result{
Name: TagKey,
Value: key,
}
tagvalue := Result{
Name: TagValue,
Value: value,
}
h.results = append(h.results, tagkey, tagvalue)
}
func (h *TestingHandler) AddInt(key []byte, value []byte) {
fieldkey := Result{
Name: FieldKey,
Value: key,
}
fieldvalue := Result{
Name: FieldInt,
Value: value,
}
h.results = append(h.results, fieldkey, fieldvalue)
}
func (h *TestingHandler) AddUint(key []byte, value []byte) {
fieldkey := Result{
Name: FieldKey,
Value: key,
}
fieldvalue := Result{
Name: FieldUint,
Value: value,
}
h.results = append(h.results, fieldkey, fieldvalue)
}
func (h *TestingHandler) AddFloat(key []byte, value []byte) {
fieldkey := Result{
Name: FieldKey,
Value: key,
}
fieldvalue := Result{
Name: FieldFloat,
Value: value,
}
h.results = append(h.results, fieldkey, fieldvalue)
}
func (h *TestingHandler) AddString(key []byte, value []byte) {
fieldkey := Result{
Name: FieldKey,
Value: key,
}
fieldvalue := Result{
Name: FieldString,
Value: value,
}
h.results = append(h.results, fieldkey, fieldvalue)
}
func (h *TestingHandler) AddBool(key []byte, value []byte) {
fieldkey := Result{
Name: FieldKey,
Value: key,
}
fieldvalue := Result{
Name: FieldBool,
Value: value,
}
h.results = append(h.results, fieldkey, fieldvalue)
}
func (h *TestingHandler) SetTimestamp(tm []byte) {
timestamp := Result{
Name: Timestamp,
Value: tm,
}
h.results = append(h.results, timestamp)
}
func (h *TestingHandler) Reset() {
}
func (h *TestingHandler) Results() []Result {
return h.results
}
func (h *TestingHandler) AddError(err error) {
e := Result{
err: err,
}
h.results = append(h.results, e)
}
type BenchmarkingHandler struct {
}
func (h *BenchmarkingHandler) SetMeasurement(name []byte) {
}
func (h *BenchmarkingHandler) AddTag(key []byte, value []byte) {
}
func (h *BenchmarkingHandler) AddInt(key []byte, value []byte) {
}
func (h *BenchmarkingHandler) AddUint(key []byte, value []byte) {
}
func (h *BenchmarkingHandler) AddFloat(key []byte, value []byte) {
}
func (h *BenchmarkingHandler) AddString(key []byte, value []byte) {
}
func (h *BenchmarkingHandler) AddBool(key []byte, value []byte) {
}
func (h *BenchmarkingHandler) SetTimestamp(tm []byte) {
}
func (h *BenchmarkingHandler) Reset() {
}
type TokenType int
const (
NoMatch TokenType = iota
Measurement
TagKey
TagValue
FieldKey
FieldString
FieldInt
FieldUint
FieldFloat
FieldBool
Timestamp
EOL
EOF
Punc
WhiteSpace
)
func (t TokenType) String() string {
switch t {
case NoMatch:
return "NoMatch"
case Measurement:
return "Measurement"
case TagKey:
return "TagKey"
case TagValue:
return "TagValue"
case FieldKey:
return "FieldKey"
case FieldInt:
return "FieldInt"
case FieldUint:
return "FieldUint"
case FieldFloat:
return "FieldFloat"
case FieldString:
return "FieldString"
case FieldBool:
return "FieldBool"
case Timestamp:
return "Timestamp"
case EOL:
return "EOL"
case EOF:
return "EOF"
case Punc:
return "Punc"
case WhiteSpace:
return "WhiteSpace"
default:
panic("Unknown TokenType")
}
}
type Token struct {
Name TokenType
Value []byte
}
func (t Token) String() string {
return fmt.Sprintf("(%s %q)", t.Name, t.Value)
}
type Result struct {
Name TokenType
Value []byte
err error
}
func (r Result) String() string {
return fmt.Sprintf("(%s, %q, %v)", r.Name, r.Value, r.err)
}
var tests = []struct {
name string
input []byte
results []Result
err error
}{
{
name: "empty string",
input: []byte(""),
results: nil,
},
{
name: "minimal",
input: []byte("cpu value=42"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "newline",
input: []byte("cpu value=42\n"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "minimal with timestamp",
input: []byte("cpu value=42 1516241192000000000"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
Result{
Name: Timestamp,
Value: []byte("1516241192000000000"),
},
},
},
{
name: "measurement escape non-special",
input: []byte(`c\pu value=42`),
results: []Result{
Result{
Name: Measurement,
Value: []byte(`c\pu`),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "measurement escaped trailing backslash",
input: []byte(`cpu\\ value=42`),
results: []Result{
Result{
Name: Measurement,
Value: []byte(`cpu\\`),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "single char measurement",
input: []byte("c value=42"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("c"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "escape backslash in measurement",
input: []byte(`cp\\u value=42`),
results: []Result{
Result{
Name: Measurement,
Value: []byte(`cp\\u`),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "measurement escape space",
input: []byte(`cpu\ abc value=42`),
results: []Result{
Result{
Name: Measurement,
Value: []byte(`cpu\ abc`),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "scientific float",
input: []byte("cpu value=42e0"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42e0"),
},
},
},
{
name: "scientific float negative mantissa",
input: []byte("cpu value=-42e0"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("-42e0"),
},
},
},
{
name: "scientific float negative exponent",
input: []byte("cpu value=42e-1"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42e-1"),
},
},
},
{
name: "scientific float big e",
input: []byte("cpu value=42E0"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42E0"),
},
},
},
{
name: "scientific float missing exponent",
input: []byte("cpu value=42E"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
err: ErrFieldParse,
},
},
},
{
name: "float with decimal",
input: []byte("cpu value=42.2"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42.2"),
},
},
},
{
name: "negative float",
input: []byte("cpu value=-42"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("-42"),
},
},
},
{
name: "float without integer digits",
input: []byte("cpu value=.42"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte(".42"),
},
},
},
{
name: "multiple fields",
input: []byte("cpu x=42,y=42"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("x"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
Result{
Name: FieldKey,
Value: []byte("y"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "integer field",
input: []byte("cpu value=42i"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldInt,
Value: []byte("42i"),
},
},
},
{
name: "negative integer field",
input: []byte("cpu value=-42i"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldInt,
Value: []byte("-42i"),
},
},
},
{
name: "zero integer field",
input: []byte("cpu value=0i"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldInt,
Value: []byte("0i"),
},
},
},
{
name: "negative zero integer field",
input: []byte("cpu value=-0i"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldInt,
Value: []byte("-0i"),
},
},
},
{
name: "invalid field",
input: []byte("cpu value=howdy"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
err: ErrFieldParse,
},
},
},
{
name: "string field",
input: []byte(`cpu value="42"`),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldString,
Value: []byte("42"),
},
},
},
{
name: "bool field",
input: []byte(`cpu value=true`),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldBool,
Value: []byte("true"),
},
},
},
{
name: "tag",
input: []byte(`cpu,host=localhost value=42`),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: TagKey,
Value: []byte("host"),
},
Result{
Name: TagValue,
Value: []byte("localhost"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "tag key escape space",
input: []byte(`cpu,h\ ost=localhost value=42`),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: TagKey,
Value: []byte(`h\ ost`),
},
Result{
Name: TagValue,
Value: []byte("localhost"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "tag key escape comma",
input: []byte(`cpu,h\,ost=localhost value=42`),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: TagKey,
Value: []byte(`h\,ost`),
},
Result{
Name: TagValue,
Value: []byte("localhost"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "tag key escape equal",
input: []byte(`cpu,h\=ost=localhost value=42`),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: TagKey,
Value: []byte(`h\=ost`),
},
Result{
Name: TagValue,
Value: []byte("localhost"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "multiple tags",
input: []byte(`cpu,host=localhost,cpu=cpu0 value=42`),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: TagKey,
Value: []byte("host"),
},
Result{
Name: TagValue,
Value: []byte("localhost"),
},
Result{
Name: TagKey,
Value: []byte("cpu"),
},
Result{
Name: TagValue,
Value: []byte("cpu0"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "tag invalid missing separator",
input: []byte("cpu,xyzzy value=42"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
err: ErrTagParse,
},
},
},
{
name: "tag invalid missing value",
input: []byte("cpu,xyzzy= value=42"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
err: ErrTagParse,
},
},
},
{
name: "tag invalid unescaped space",
input: []byte("cpu,h ost=localhost value=42"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
err: ErrTagParse,
},
},
},
{
name: "tag invalid unescaped comma",
input: []byte("cpu,h,ost=localhost value=42"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
err: ErrTagParse,
},
},
},
{
name: "tag invalid unescaped equals",
input: []byte("cpu,h=ost=localhost value=42"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
err: ErrTagParse,
},
},
},
{
name: "timestamp negative",
input: []byte("cpu value=42 -1"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
Result{
Name: Timestamp,
Value: []byte("-1"),
},
},
},
{
name: "timestamp zero",
input: []byte("cpu value=42 0"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
Result{
Name: Timestamp,
Value: []byte("0"),
},
},
},
{
name: "multiline",
input: []byte("cpu value=42\n\n\ncpu value=43\n"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("43"),
},
},
},
{
name: "error recovery",
input: []byte("cpu value=howdy\ncpu\ncpu value=42\n"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
err: ErrFieldParse,
},
Result{
err: ErrFieldParse,
},
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "line whitespace",
input: []byte(" cpu value=42 1516241192000000000 \n\n cpu value=42"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
Result{
Name: Timestamp,
Value: []byte("1516241192000000000"),
},
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "leading newline",
input: []byte("\ncpu value=42"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "invalid missing field value",
input: []byte("cpu value="),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
err: ErrFieldParse,
},
},
},
{
name: "invalid eof field key",
input: []byte("cpu value"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
err: ErrFieldParse,
},
},
},
{
name: "invalid measurement only",
input: []byte("cpu"),
results: []Result{
Result{
err: ErrFieldParse,
},
},
},
{
name: "invalid measurement only eol",
input: []byte("cpu\n"),
results: []Result{
Result{
err: ErrFieldParse,
},
},
},
{
name: "invalid missing tag",
input: []byte("cpu, value=42"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
err: ErrTagParse,
},
},
},
{
name: "invalid missing field",
input: []byte("cpu,x=y "),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: TagKey,
Value: []byte("x"),
},
Result{
Name: TagValue,
Value: []byte("y"),
},
Result{
err: ErrFieldParse,
},
},
},
{
name: "invalid too many fields",
input: []byte("cpu value=42 value=43"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
Result{
err: ErrTimestampParse,
},
},
},
{
name: "invalid timestamp too long",
input: []byte("cpu value=42 12345678901234567890"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
Result{
err: ErrTimestampParse,
},
},
},
{
name: "invalid open string field",
input: []byte(`cpu value="42 12345678901234567890`),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
err: ErrFieldParse,
},
},
},
{
name: "invalid newline in string field",
input: []byte("cpu value=\"4\n2\""),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
err: ErrFieldParse,
},
Result{
err: ErrFieldParse,
},
},
},
{
name: "invalid field value",
input: []byte(`cpu value=howdy`),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
err: ErrFieldParse,
},
},
},
{
name: "invalid quoted timestamp",
input: []byte(`cpu value=42 "12345678901234567890"`),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
Result{
err: ErrTimestampParse,
},
},
},
{
name: "commented line",
input: []byte("# blah blah\ncpu value=42"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "end with comment",
input: []byte("cpu value=42\n# blah blah"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "end with comment and whitespace",
input: []byte("cpu value=42\n# blah blah\n\n "),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("value"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
{
name: "unicode",
input: []byte("cpu ☺=42"),
results: []Result{
Result{
Name: Measurement,
Value: []byte("cpu"),
},
Result{
Name: FieldKey,
Value: []byte("☺"),
},
Result{
Name: FieldFloat,
Value: []byte("42"),
},
},
},
}
func TestMachine(t *testing.T) {
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
handler := &TestingHandler{}
fsm := NewMachine(handler)
fsm.SetData(tt.input)
count := 0
for fsm.ParseLine() {
if fsm.Err() != nil {
handler.AddError(fsm.Err())
}
count++
if count > 20 {
break
}
}
if fsm.Err() != nil {
handler.AddError(fsm.Err())
}
results := handler.Results()
require.Equal(t, tt.results, results)
})
}
}
func BenchmarkMachine(b *testing.B) {
for _, tt := range tests {
b.Run(tt.name, func(b *testing.B) {
handler := &BenchmarkingHandler{}
fsm := NewMachine(handler)
for n := 0; n < b.N; n++ {
fsm.SetData(tt.input)
for fsm.ParseLine() {
}
}
})
}
}
func TestMachineProcstat(t *testing.T) {
input := []byte("procstat,exe=bash,process_name=bash voluntary_context_switches=42i,memory_rss=5103616i,rlimit_memory_data_hard=2147483647i,cpu_time_user=0.02,rlimit_file_locks_soft=2147483647i,pid=29417i,cpu_time_nice=0,rlimit_memory_locked_soft=65536i,read_count=259i,rlimit_memory_vms_hard=2147483647i,memory_swap=0i,rlimit_num_fds_soft=1024i,rlimit_nice_priority_hard=0i,cpu_time_soft_irq=0,cpu_time=0i,rlimit_memory_locked_hard=65536i,realtime_priority=0i,signals_pending=0i,nice_priority=20i,cpu_time_idle=0,memory_stack=139264i,memory_locked=0i,rlimit_memory_stack_soft=8388608i,cpu_time_iowait=0,cpu_time_guest=0,cpu_time_guest_nice=0,rlimit_memory_data_soft=2147483647i,read_bytes=0i,rlimit_cpu_time_soft=2147483647i,involuntary_context_switches=2i,write_bytes=106496i,cpu_time_system=0,cpu_time_irq=0,cpu_usage=0,memory_vms=21659648i,memory_data=1576960i,rlimit_memory_stack_hard=2147483647i,num_threads=1i,cpu_time_stolen=0,rlimit_memory_rss_soft=2147483647i,rlimit_realtime_priority_soft=0i,num_fds=4i,write_count=35i,rlimit_signals_pending_soft=78994i,cpu_time_steal=0,rlimit_num_fds_hard=4096i,rlimit_file_locks_hard=2147483647i,rlimit_cpu_time_hard=2147483647i,rlimit_signals_pending_hard=78994i,rlimit_nice_priority_soft=0i,rlimit_memory_rss_hard=2147483647i,rlimit_memory_vms_soft=2147483647i,rlimit_realtime_priority_hard=0i 1517620624000000000")
handler := &TestingHandler{}
fsm := NewMachine(handler)
fsm.SetData(input)
for fsm.ParseLine() {
}
}
func BenchmarkMachineProcstat(b *testing.B) {
input := []byte("procstat,exe=bash,process_name=bash voluntary_context_switches=42i,memory_rss=5103616i,rlimit_memory_data_hard=2147483647i,cpu_time_user=0.02,rlimit_file_locks_soft=2147483647i,pid=29417i,cpu_time_nice=0,rlimit_memory_locked_soft=65536i,read_count=259i,rlimit_memory_vms_hard=2147483647i,memory_swap=0i,rlimit_num_fds_soft=1024i,rlimit_nice_priority_hard=0i,cpu_time_soft_irq=0,cpu_time=0i,rlimit_memory_locked_hard=65536i,realtime_priority=0i,signals_pending=0i,nice_priority=20i,cpu_time_idle=0,memory_stack=139264i,memory_locked=0i,rlimit_memory_stack_soft=8388608i,cpu_time_iowait=0,cpu_time_guest=0,cpu_time_guest_nice=0,rlimit_memory_data_soft=2147483647i,read_bytes=0i,rlimit_cpu_time_soft=2147483647i,involuntary_context_switches=2i,write_bytes=106496i,cpu_time_system=0,cpu_time_irq=0,cpu_usage=0,memory_vms=21659648i,memory_data=1576960i,rlimit_memory_stack_hard=2147483647i,num_threads=1i,cpu_time_stolen=0,rlimit_memory_rss_soft=2147483647i,rlimit_realtime_priority_soft=0i,num_fds=4i,write_count=35i,rlimit_signals_pending_soft=78994i,cpu_time_steal=0,rlimit_num_fds_hard=4096i,rlimit_file_locks_hard=2147483647i,rlimit_cpu_time_hard=2147483647i,rlimit_signals_pending_hard=78994i,rlimit_nice_priority_soft=0i,rlimit_memory_rss_hard=2147483647i,rlimit_memory_vms_soft=2147483647i,rlimit_realtime_priority_hard=0i 1517620624000000000")
handler := &BenchmarkingHandler{}
fsm := NewMachine(handler)
for n := 0; n < b.N; n++ {
fsm.SetData(input)
for fsm.ParseLine() {
}
}
}