amazon-kinesis-client-go/splitter/splitter.go

package splitter

import (
	"bytes"
	"compress/gzip"
	"encoding/json"
	"fmt"
	"io/ioutil"
	"regexp"
	"strconv"
	"time"
)

// LogEvent is a single log line within a LogEventBatch
type LogEvent struct {
	ID        string              `json:"id"`
	Timestamp UnixTimestampMillis `json:"timestamp"`
	Message   string              `json:"message"`
}

// UnixTimestampMillis is a time.Time that marshals (unmarshals) to (from) a unix timestamp with millisecond resolution.
type UnixTimestampMillis time.Time

func NewUnixTimestampMillis(ts int64) UnixTimestampMillis {
	return UnixTimestampMillis(time.Unix(ts/millisPerSecond,
		(ts%millisPerSecond)*nanosPerMillisecond))
}

func (t *UnixTimestampMillis) MarshalJSON() ([]byte, error) {
	ts := time.Time(*t).UnixNano()
	stamp := fmt.Sprint(ts / nanosPerMillisecond)

	return []byte(stamp), nil
}

var millisPerSecond = int64(time.Second / time.Millisecond)
var nanosPerMillisecond = int64(time.Millisecond / time.Nanosecond)

func (t *UnixTimestampMillis) UnmarshalJSON(b []byte) error {
	ts, err := strconv.ParseInt(string(b), 10, 64)
	if err != nil {
		return err
	}
	*t = NewUnixTimestampMillis(ts)
	return nil
}

func (t *UnixTimestampMillis) Time() time.Time {
	return time.Time(*t)
}

// LogEventBatch is a batch of multiple log lines, read from a KinesisStream with a CWLogs subscription
type LogEventBatch struct {
	MessageType         string     `json:"messageType"`
	Owner               string     `json:"owner"`
	LogGroup            string     `json:"logGroup"`
	LogStream           string     `json:"logStream"`
	SubscriptionFilters []string   `json:"subscriptionFilters"`
	LogEvents           []LogEvent `json:"logEvents"`
}

// IsGzipped returns whether or not a string is Gzipped (determined by looking for a Gzip byte prefix)
func IsGzipped(b []byte) bool {
	return b[0] == 0x1f && b[1] == 0x8b
}

// GetMessagesFromGzippedInput takes a gzipped record from a CWLogs Subscription and splits it into
// a slice of messages.
func GetMessagesFromGzippedInput(input []byte) ([][]byte, error) {
	unpacked, err := unpack(input)
	if err != nil {
		return [][]byte{}, err
	}
	return Split(unpacked), nil
}

// Unpack expects a gzipped + json-stringified LogEventBatch
func unpack(input []byte) (LogEventBatch, error) {
	gzipReader, err := gzip.NewReader(bytes.NewReader(input))
	if err != nil {
		return LogEventBatch{}, err
	}

	byt, err := ioutil.ReadAll(gzipReader)
	if err != nil {
		return LogEventBatch{}, err
	}

	var dat LogEventBatch
	if err := json.Unmarshal(byt, &dat); err != nil {
		return LogEventBatch{}, err
	}

	return dat, nil
}

// RFC3339Micro is the RFC3339 format in microseconds
const RFC3339Micro = "2006-01-02T15:04:05.999999-07:00"

// http://docs.aws.amazon.com/batch/latest/userguide/job_states.html
// "log stream name format is jobDefinitionName/default/ecs_task_id (this format may change in the future)."
const awsBatchTaskMeta = `([a-z0-9-]+)--([a-z0-9-]+)\/` + // env--app
	`default\/` +
	`([0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12})` // task-id
var awsBatchTaskRegex = regexp.MustCompile(awsBatchTaskMeta)

// lambda log groups are of the form /aws/lambda/<env>--<app>
var awsLambdaLogGroupRegex = regexp.MustCompile(`^/aws/lambda/([a-z0-9-]+)--([a-z0-9-]+)$`)
var awsLambdaRequestIDRegex = regexp.MustCompile(`[0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12}`)

// arn cruft to satisfy parsing later on: https://github.com/Clever/amazon-kinesis-client-go/blob/94aacdf8339bd2cc8400d3bcb323dc1bce2c8422/decode/decode.go#L421-L425
const arnCruft = `/arn%3Aaws%3Aecs%3Aus-east-1%3A999988887777%3Atask%2F`

type RSysLogMessage struct {
	Timestamp   time.Time
	Hostname    string
	ProgramName string
	PID         int
	Message     string
}

func (r RSysLogMessage) String() string {
	// Adding an extra Microsecond forces `Format` to include all 6 digits within the micorsecond format.
	// Otherwise, time.Format omits trailing zeroes. (https://github.com/golang/go/issues/12472)
	return fmt.Sprintf(`%s %s %s[%d]: %s`,
		r.Timestamp.Add(time.Microsecond).Format(RFC3339Micro),
		r.Hostname, r.ProgramName, r.PID, r.Message)
}

func splitAWSBatch(b LogEventBatch) ([]RSysLogMessage, bool) {
	matches := awsBatchTaskRegex.FindAllStringSubmatch(b.LogStream, 1)
	if len(matches) != 1 {
		return nil, false
	}
	env := matches[0][1]
	app := matches[0][2]
	task := matches[0][3]

	out := []RSysLogMessage{}
	for _, event := range b.LogEvents {
		out = append(out, RSysLogMessage{
			Timestamp:   event.Timestamp.Time(),
			ProgramName: env + "--" + app + arnCruft + task,
			PID:         1,
			Hostname:    "aws-batch",
			Message:     event.Message,
		})
	}
	return out, true
}

func splitAWSLambda(b LogEventBatch) ([]RSysLogMessage, bool) {
	matches := awsLambdaLogGroupRegex.FindAllStringSubmatch(b.LogGroup, 1)
	if len(matches) != 1 {
		return nil, false
	}
	env := matches[0][1]
	app := matches[0][2]

	out := []RSysLogMessage{}
	for _, event := range b.LogEvents {
		// find the request ID, e.g. 1f7fcc25-015f-11e8-a728-a1b6168ab9aa, set it as task
		var task string
		if matches := awsLambdaRequestIDRegex.FindAllString(event.Message, 1); len(matches) == 1 {
			task = matches[0]
		}
		out = append(out, RSysLogMessage{
			Timestamp:   event.Timestamp.Time(),
			ProgramName: env + "--" + app + arnCruft + task,
			PID:         1,
			Hostname:    "aws-lambda",
			Message:     event.Message,
		})
	}
	return out, true
}

func splitDefault(b LogEventBatch) []RSysLogMessage {
	out := []RSysLogMessage{}
	for _, event := range b.LogEvents {
		out = append(out, RSysLogMessage{
			Timestamp:   event.Timestamp.Time(),
			Hostname:    "unknown",
			ProgramName: "unknown",
			PID:         1,
			Message:     event.Message,
		})
	}
	return out
}

// Split takes a LogEventBatch and separates into a slice of enriched log lines
// Lines are enhanced by adding an Rsyslog prefix, which should be handled correctly by
// the subsequent decoding logic.
func Split(b LogEventBatch) [][]byte {
	var rsyslogMsgs []RSysLogMessage
	var ok bool
	if rsyslogMsgs, ok = splitAWSLambda(b); !ok {
		rsyslogMsgs, ok = splitAWSBatch(b)
		if !ok {
			rsyslogMsgs = splitDefault(b)
		}
	}

	out := [][]byte{}
	for _, rsyslogMsg := range rsyslogMsgs {
		out = append(out, []byte(rsyslogMsg.String()))
	}

	return out
}
Implemented new consumer interface as well as example consumer: 'batchconsumer' 2017-07-18 02:03:15 +00:00			`package splitter`

			`import (`
			`"bytes"`
			`"compress/gzip"`
			`"encoding/json"`
			`"fmt"`
			`"io/ioutil"`
			`"regexp"`
handle logs coming in from lambda functions 2018-01-25 01:23:03 +00:00			`"strconv"`
Implemented new consumer interface as well as example consumer: 'batchconsumer' 2017-07-18 02:03:15 +00:00			`"time"`
			`)`

			`// LogEvent is a single log line within a LogEventBatch`
			`type LogEvent struct {`
handle logs coming in from lambda functions 2018-01-25 01:23:03 +00:00			ID string `json:"id"`
			Timestamp UnixTimestampMillis `json:"timestamp"`
			Message string `json:"message"`
			`}`

			`// UnixTimestampMillis is a time.Time that marshals (unmarshals) to (from) a unix timestamp with millisecond resolution.`
			`type UnixTimestampMillis time.Time`

			`func NewUnixTimestampMillis(ts int64) UnixTimestampMillis {`
			`return UnixTimestampMillis(time.Unix(ts/millisPerSecond,`
			`(ts%millisPerSecond)*nanosPerMillisecond))`
			`}`

			`func (t *UnixTimestampMillis) MarshalJSON() ([]byte, error) {`
			`ts := time.Time(*t).UnixNano()`
			`stamp := fmt.Sprint(ts / nanosPerMillisecond)`

			`return []byte(stamp), nil`
			`}`

			`var millisPerSecond = int64(time.Second / time.Millisecond)`
			`var nanosPerMillisecond = int64(time.Millisecond / time.Nanosecond)`

			`func (t *UnixTimestampMillis) UnmarshalJSON(b []byte) error {`
			`ts, err := strconv.ParseInt(string(b), 10, 64)`
			`if err != nil {`
			`return err`
			`}`
			`*t = NewUnixTimestampMillis(ts)`
			`return nil`
			`}`

			`func (t *UnixTimestampMillis) Time() time.Time {`
			`return time.Time(*t)`
Implemented new consumer interface as well as example consumer: 'batchconsumer' 2017-07-18 02:03:15 +00:00			`}`

			`// LogEventBatch is a batch of multiple log lines, read from a KinesisStream with a CWLogs subscription`
			`type LogEventBatch struct {`
			MessageType string `json:"messageType"`
			Owner string `json:"owner"`
			LogGroup string `json:"logGroup"`
			LogStream string `json:"logStream"`
			SubscriptionFilters []string `json:"subscriptionFilters"`
			LogEvents []LogEvent `json:"logEvents"`
			`}`

			`// IsGzipped returns whether or not a string is Gzipped (determined by looking for a Gzip byte prefix)`
			`func IsGzipped(b []byte) bool {`
			`return b[0] == 0x1f && b[1] == 0x8b`
			`}`

			`// GetMessagesFromGzippedInput takes a gzipped record from a CWLogs Subscription and splits it into`
			`// a slice of messages.`
splitter: don't filter by env Filtering by env was an artifact of the previous way we originally had setup our CWLogs subscriptions, assuming that we could have multiple subscriptions per stream. :( You can't. Let's instead allow any CWLogs subscription's logs to be valid, which is needed for: https://github.com/Clever/kinesis-cwlogs-splitter/pull/1 2017-08-10 21:22:58 +00:00			`func GetMessagesFromGzippedInput(input []byte) ([][]byte, error) {`
Implemented new consumer interface as well as example consumer: 'batchconsumer' 2017-07-18 02:03:15 +00:00			`unpacked, err := unpack(input)`
			`if err != nil {`
			`return [][]byte{}, err`
			`}`
splitter: don't filter by env Filtering by env was an artifact of the previous way we originally had setup our CWLogs subscriptions, assuming that we could have multiple subscriptions per stream. :( You can't. Let's instead allow any CWLogs subscription's logs to be valid, which is needed for: https://github.com/Clever/kinesis-cwlogs-splitter/pull/1 2017-08-10 21:22:58 +00:00			`return Split(unpacked), nil`
Implemented new consumer interface as well as example consumer: 'batchconsumer' 2017-07-18 02:03:15 +00:00			`}`

			`// Unpack expects a gzipped + json-stringified LogEventBatch`
			`func unpack(input []byte) (LogEventBatch, error) {`
			`gzipReader, err := gzip.NewReader(bytes.NewReader(input))`
			`if err != nil {`
			`return LogEventBatch{}, err`
			`}`

			`byt, err := ioutil.ReadAll(gzipReader)`
			`if err != nil {`
			`return LogEventBatch{}, err`
			`}`

			`var dat LogEventBatch`
			`if err := json.Unmarshal(byt, &dat); err != nil {`
			`return LogEventBatch{}, err`
			`}`

			`return dat, nil`
			`}`

			`// RFC3339Micro is the RFC3339 format in microseconds`
			`const RFC3339Micro = "2006-01-02T15:04:05.999999-07:00"`

splitter: update log stream parsing AWS changed the format of the log stream for AWS Batch logs. This reflects that change. --- http://docs.aws.amazon.com/batch/latest/userguide/job_states.html Logs for RUNNING jobs are available in CloudWatch Logs; the log group is /aws/batch/job, and the log stream name format is jobDefinitionName/default/ecs_task_id (this format may change in the future). After a job reaches the RUNNING status, you can programmatically retrieve its log stream name with the DescribeJobs API operation. For more information, see View Log Data Sent to CloudWatch Logs in the Amazon CloudWatch Logs User Guide. By default, these logs are set to never expire, but you can modify the retention period. For more information, see Change Log Data Retention in CloudWatch Logs in the Amazon CloudWatch Logs User Guide. 2017-09-20 21:18:35 +00:00			`// http://docs.aws.amazon.com/batch/latest/userguide/job_states.html`
			`// "log stream name format is jobDefinitionName/default/ecs_task_id (this format may change in the future)."`
handle logs coming in from lambda functions 2018-01-25 01:23:03 +00:00			const awsBatchTaskMeta = `([a-z0-9-]+)--([a-z0-9-]+)\/` + // env--app
splitter: update log stream parsing AWS changed the format of the log stream for AWS Batch logs. This reflects that change. --- http://docs.aws.amazon.com/batch/latest/userguide/job_states.html Logs for RUNNING jobs are available in CloudWatch Logs; the log group is /aws/batch/job, and the log stream name format is jobDefinitionName/default/ecs_task_id (this format may change in the future). After a job reaches the RUNNING status, you can programmatically retrieve its log stream name with the DescribeJobs API operation. For more information, see View Log Data Sent to CloudWatch Logs in the Amazon CloudWatch Logs User Guide. By default, these logs are set to never expire, but you can modify the retention period. For more information, see Change Log Data Retention in CloudWatch Logs in the Amazon CloudWatch Logs User Guide. 2017-09-20 21:18:35 +00:00			`default\/` +
			`([0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12})` // task-id
handle logs coming in from lambda functions 2018-01-25 01:23:03 +00:00			`var awsBatchTaskRegex = regexp.MustCompile(awsBatchTaskMeta)`
Implemented new consumer interface as well as example consumer: 'batchconsumer' 2017-07-18 02:03:15 +00:00
handle logs coming in from lambda functions 2018-01-25 01:23:03 +00:00			`// lambda log groups are of the form /aws/lambda/<env>--<app>`
			var awsLambdaLogGroupRegex = regexp.MustCompile(`^/aws/lambda/([a-z0-9-]+)--([a-z0-9-]+)$`)
			var awsLambdaRequestIDRegex = regexp.MustCompile(`[0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12}`)

			`// arn cruft to satisfy parsing later on: https://github.com/Clever/amazon-kinesis-client-go/blob/94aacdf8339bd2cc8400d3bcb323dc1bce2c8422/decode/decode.go#L421-L425`
			const arnCruft = `/arn%3Aaws%3Aecs%3Aus-east-1%3A999988887777%3Atask%2F`

			`type RSysLogMessage struct {`
			`Timestamp time.Time`
			`Hostname string`
			`ProgramName string`
			`PID int`
			`Message string`
			`}`

			`func (r RSysLogMessage) String() string {`
			// Adding an extra Microsecond forces `Format` to include all 6 digits within the micorsecond format.
			`// Otherwise, time.Format omits trailing zeroes. (https://github.com/golang/go/issues/12472)`
			return fmt.Sprintf(`%s %s %s[%d]: %s`,
			`r.Timestamp.Add(time.Microsecond).Format(RFC3339Micro),`
			`r.Hostname, r.ProgramName, r.PID, r.Message)`
			`}`

			`func splitAWSBatch(b LogEventBatch) ([]RSysLogMessage, bool) {`
			`matches := awsBatchTaskRegex.FindAllStringSubmatch(b.LogStream, 1)`
			`if len(matches) != 1 {`
			`return nil, false`
			`}`
			`env := matches[0][1]`
			`app := matches[0][2]`
			`task := matches[0][3]`

			`out := []RSysLogMessage{}`
			`for _, event := range b.LogEvents {`
			`out = append(out, RSysLogMessage{`
			`Timestamp: event.Timestamp.Time(),`
			`ProgramName: env + "--" + app + arnCruft + task,`
			`PID: 1,`
			`Hostname: "aws-batch",`
			`Message: event.Message,`
			`})`
			`}`
			`return out, true`
			`}`

			`func splitAWSLambda(b LogEventBatch) ([]RSysLogMessage, bool) {`
			`matches := awsLambdaLogGroupRegex.FindAllStringSubmatch(b.LogGroup, 1)`
			`if len(matches) != 1 {`
			`return nil, false`
			`}`
			`env := matches[0][1]`
			`app := matches[0][2]`

			`out := []RSysLogMessage{}`
			`for _, event := range b.LogEvents {`
			`// find the request ID, e.g. 1f7fcc25-015f-11e8-a728-a1b6168ab9aa, set it as task`
			`var task string`
			`if matches := awsLambdaRequestIDRegex.FindAllString(event.Message, 1); len(matches) == 1 {`
			`task = matches[0]`
			`}`
			`out = append(out, RSysLogMessage{`
			`Timestamp: event.Timestamp.Time(),`
			`ProgramName: env + "--" + app + arnCruft + task,`
			`PID: 1,`
			`Hostname: "aws-lambda",`
			`Message: event.Message,`
			`})`
			`}`
			`return out, true`
			`}`

			`func splitDefault(b LogEventBatch) []RSysLogMessage {`
			`out := []RSysLogMessage{}`
			`for _, event := range b.LogEvents {`
			`out = append(out, RSysLogMessage{`
			`Timestamp: event.Timestamp.Time(),`
			`Hostname: "unknown",`
			`ProgramName: "unknown",`
			`PID: 1,`
			`Message: event.Message,`
			`})`
			`}`
			`return out`
			`}`
Implemented new consumer interface as well as example consumer: 'batchconsumer' 2017-07-18 02:03:15 +00:00
			`// Split takes a LogEventBatch and separates into a slice of enriched log lines`
			`// Lines are enhanced by adding an Rsyslog prefix, which should be handled correctly by`
			`// the subsequent decoding logic.`
splitter: don't filter by env Filtering by env was an artifact of the previous way we originally had setup our CWLogs subscriptions, assuming that we could have multiple subscriptions per stream. :( You can't. Let's instead allow any CWLogs subscription's logs to be valid, which is needed for: https://github.com/Clever/kinesis-cwlogs-splitter/pull/1 2017-08-10 21:22:58 +00:00			`func Split(b LogEventBatch) [][]byte {`
handle logs coming in from lambda functions 2018-01-25 01:23:03 +00:00			`var rsyslogMsgs []RSysLogMessage`
			`var ok bool`
			`if rsyslogMsgs, ok = splitAWSLambda(b); !ok {`
			`rsyslogMsgs, ok = splitAWSBatch(b)`
			`if !ok {`
			`rsyslogMsgs = splitDefault(b)`
			`}`
Implemented new consumer interface as well as example consumer: 'batchconsumer' 2017-07-18 02:03:15 +00:00			`}`

			`out := [][]byte{}`
handle logs coming in from lambda functions 2018-01-25 01:23:03 +00:00			`for _, rsyslogMsg := range rsyslogMsgs {`
			`out = append(out, []byte(rsyslogMsg.String()))`
Implemented new consumer interface as well as example consumer: 'batchconsumer' 2017-07-18 02:03:15 +00:00			`}`

			`return out`
			`}`