runner/internal/pkg/report/reporter.go

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// Copyright 2022 The Gitea Authors. All rights reserved.
// SPDX-License-Identifier: MIT
package report
import (
"context"
"fmt"
"regexp"
"strings"
"sync"
"time"
runnerv1 "code.gitea.io/actions-proto-go/runner/v1"
retry "github.com/avast/retry-go/v4"
"github.com/bufbuild/connect-go"
log "github.com/sirupsen/logrus"
"google.golang.org/protobuf/proto"
"google.golang.org/protobuf/types/known/timestamppb"
"gitea.com/gitea/act_runner/internal/pkg/client"
)
type Reporter struct {
ctx context.Context
cancel context.CancelFunc
closed bool
client client.Client
clientM sync.Mutex
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logOffset int
logRows []*runnerv1.LogRow
logReplacer *strings.Replacer
oldnew []string
state *runnerv1.TaskState
stateMu sync.RWMutex
outputs sync.Map
debugOutputEnabled bool
stopCommandEndToken string
}
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func NewReporter(ctx context.Context, cancel context.CancelFunc, client client.Client, task *runnerv1.Task) *Reporter {
var oldnew []string
if v := task.Context.Fields["token"].GetStringValue(); v != "" {
oldnew = append(oldnew, v, "***")
}
if v := task.Context.Fields["gitea_runtime_token"].GetStringValue(); v != "" {
oldnew = append(oldnew, v, "***")
}
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for _, v := range task.Secrets {
oldnew = append(oldnew, v, "***")
}
rv := &Reporter{
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ctx: ctx,
cancel: cancel,
client: client,
oldnew: oldnew,
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logReplacer: strings.NewReplacer(oldnew...),
state: &runnerv1.TaskState{
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Id: task.Id,
},
}
if task.Secrets["ACTIONS_STEP_DEBUG"] == "true" {
rv.debugOutputEnabled = true
}
return rv
}
func (r *Reporter) ResetSteps(l int) {
r.stateMu.Lock()
defer r.stateMu.Unlock()
for i := 0; i < l; i++ {
r.state.Steps = append(r.state.Steps, &runnerv1.StepState{
Id: int64(i),
})
}
}
func (r *Reporter) Levels() []log.Level {
return log.AllLevels
}
func appendIfNotNil[T any](s []*T, v *T) []*T {
if v != nil {
return append(s, v)
}
return s
}
func (r *Reporter) Fire(entry *log.Entry) error {
r.stateMu.Lock()
defer r.stateMu.Unlock()
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log.WithFields(entry.Data).Trace(entry.Message)
timestamp := entry.Time
if r.state.StartedAt == nil {
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r.state.StartedAt = timestamppb.New(timestamp)
}
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stage := entry.Data["stage"]
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if stage != "Main" {
if v, ok := entry.Data["jobResult"]; ok {
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if jobResult, ok := r.parseResult(v); ok {
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r.state.Result = jobResult
r.state.StoppedAt = timestamppb.New(timestamp)
for _, s := range r.state.Steps {
if s.Result == runnerv1.Result_RESULT_UNSPECIFIED {
s.Result = runnerv1.Result_RESULT_CANCELLED
if jobResult == runnerv1.Result_RESULT_SKIPPED {
s.Result = runnerv1.Result_RESULT_SKIPPED
}
}
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}
}
}
if !r.duringSteps() {
r.logRows = appendIfNotNil(r.logRows, r.parseLogRow(entry))
}
return nil
}
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var step *runnerv1.StepState
if v, ok := entry.Data["stepNumber"]; ok {
if v, ok := v.(int); ok && len(r.state.Steps) > v {
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step = r.state.Steps[v]
}
}
if step == nil {
if !r.duringSteps() {
r.logRows = appendIfNotNil(r.logRows, r.parseLogRow(entry))
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}
return nil
}
if step.StartedAt == nil {
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step.StartedAt = timestamppb.New(timestamp)
}
if v, ok := entry.Data["raw_output"]; ok {
if rawOutput, ok := v.(bool); ok && rawOutput {
if row := r.parseLogRow(entry); row != nil {
if step.LogLength == 0 {
step.LogIndex = int64(r.logOffset + len(r.logRows))
}
step.LogLength++
r.logRows = append(r.logRows, row)
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}
}
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} else if !r.duringSteps() {
r.logRows = appendIfNotNil(r.logRows, r.parseLogRow(entry))
}
if v, ok := entry.Data["stepResult"]; ok {
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if stepResult, ok := r.parseResult(v); ok {
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if step.LogLength == 0 {
step.LogIndex = int64(r.logOffset + len(r.logRows))
}
step.Result = stepResult
step.StoppedAt = timestamppb.New(timestamp)
}
}
return nil
}
func (r *Reporter) RunDaemon() {
if r.closed {
return
}
if r.ctx.Err() != nil {
return
}
_ = r.ReportLog(false)
_ = r.ReportState()
time.AfterFunc(time.Second, r.RunDaemon)
}
func (r *Reporter) Logf(format string, a ...interface{}) {
r.stateMu.Lock()
defer r.stateMu.Unlock()
r.logf(format, a...)
}
func (r *Reporter) logf(format string, a ...interface{}) {
if !r.duringSteps() {
r.logRows = append(r.logRows, &runnerv1.LogRow{
Time: timestamppb.Now(),
Content: fmt.Sprintf(format, a...),
})
}
}
func (r *Reporter) SetOutputs(outputs map[string]string) {
r.stateMu.Lock()
defer r.stateMu.Unlock()
for k, v := range outputs {
if len(k) > 255 {
r.logf("ignore output because the key is too long: %q", k)
continue
}
if l := len(v); l > 1024*1024 {
log.Println("ignore output because the value is too long:", k, l)
r.logf("ignore output because the value %q is too long: %d", k, l)
}
if _, ok := r.outputs.Load(k); ok {
continue
}
r.outputs.Store(k, v)
}
}
func (r *Reporter) Close(lastWords string) error {
r.closed = true
r.stateMu.Lock()
if r.state.Result == runnerv1.Result_RESULT_UNSPECIFIED {
if lastWords == "" {
lastWords = "Early termination"
}
for _, v := range r.state.Steps {
if v.Result == runnerv1.Result_RESULT_UNSPECIFIED {
v.Result = runnerv1.Result_RESULT_CANCELLED
}
}
r.state.Result = runnerv1.Result_RESULT_FAILURE
r.logRows = append(r.logRows, &runnerv1.LogRow{
Time: timestamppb.Now(),
Content: lastWords,
})
r.state.StoppedAt = timestamppb.Now()
} else if lastWords != "" {
r.logRows = append(r.logRows, &runnerv1.LogRow{
Time: timestamppb.Now(),
Content: lastWords,
})
}
r.stateMu.Unlock()
return retry.Do(func() error {
if err := r.ReportLog(true); err != nil {
return err
}
return r.ReportState()
}, retry.Context(r.ctx))
}
func (r *Reporter) ReportLog(noMore bool) error {
r.clientM.Lock()
defer r.clientM.Unlock()
r.stateMu.RLock()
rows := r.logRows
r.stateMu.RUnlock()
resp, err := r.client.UpdateLog(r.ctx, connect.NewRequest(&runnerv1.UpdateLogRequest{
TaskId: r.state.Id,
Index: int64(r.logOffset),
Rows: rows,
NoMore: noMore,
}))
if err != nil {
return err
}
ack := int(resp.Msg.AckIndex)
if ack < r.logOffset {
return fmt.Errorf("submitted logs are lost")
}
r.stateMu.Lock()
r.logRows = r.logRows[ack-r.logOffset:]
r.logOffset = ack
r.stateMu.Unlock()
if noMore && ack < r.logOffset+len(rows) {
return fmt.Errorf("not all logs are submitted")
}
return nil
}
func (r *Reporter) ReportState() error {
r.clientM.Lock()
defer r.clientM.Unlock()
r.stateMu.RLock()
state := proto.Clone(r.state).(*runnerv1.TaskState)
r.stateMu.RUnlock()
outputs := make(map[string]string)
r.outputs.Range(func(k, v interface{}) bool {
if val, ok := v.(string); ok {
outputs[k.(string)] = val
}
return true
})
resp, err := r.client.UpdateTask(r.ctx, connect.NewRequest(&runnerv1.UpdateTaskRequest{
State: state,
Outputs: outputs,
}))
if err != nil {
return err
}
for _, k := range resp.Msg.SentOutputs {
r.outputs.Store(k, struct{}{})
}
if resp.Msg.State != nil && resp.Msg.State.Result == runnerv1.Result_RESULT_CANCELLED {
r.cancel()
}
var noSent []string
r.outputs.Range(func(k, v interface{}) bool {
if _, ok := v.(string); ok {
noSent = append(noSent, k.(string))
}
return true
})
if len(noSent) > 0 {
return fmt.Errorf("there are still outputs that have not been sent: %v", noSent)
}
return nil
}
func (r *Reporter) duringSteps() bool {
if steps := r.state.Steps; len(steps) == 0 {
return false
} else if first := steps[0]; first.Result == runnerv1.Result_RESULT_UNSPECIFIED && first.LogLength == 0 {
return false
} else if last := steps[len(steps)-1]; last.Result != runnerv1.Result_RESULT_UNSPECIFIED {
return false
}
return true
}
var stringToResult = map[string]runnerv1.Result{
"success": runnerv1.Result_RESULT_SUCCESS,
"failure": runnerv1.Result_RESULT_FAILURE,
"skipped": runnerv1.Result_RESULT_SKIPPED,
"cancelled": runnerv1.Result_RESULT_CANCELLED,
}
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func (r *Reporter) parseResult(result interface{}) (runnerv1.Result, bool) {
str := ""
if v, ok := result.(string); ok { // for jobResult
str = v
} else if v, ok := result.(fmt.Stringer); ok { // for stepResult
str = v.String()
}
ret, ok := stringToResult[str]
return ret, ok
}
var cmdRegex = regexp.MustCompile(`^::([^ :]+)( .*)?::(.*)$`)
func (r *Reporter) handleCommand(originalContent, command, parameters, value string) *string {
if r.stopCommandEndToken != "" && command != r.stopCommandEndToken {
return &originalContent
}
switch command {
case "add-mask":
r.addMask(value)
return nil
case "debug":
if r.debugOutputEnabled {
return &value
}
return nil
case "notice":
// Not implemented yet, so just return the original content.
return &originalContent
case "warning":
// Not implemented yet, so just return the original content.
return &originalContent
case "error":
// Not implemented yet, so just return the original content.
return &originalContent
case "group":
// Rewriting into ##[] syntax which the frontend understands
content := "##[group]" + value
return &content
case "endgroup":
// Ditto
content := "##[endgroup]"
return &content
case "stop-commands":
r.stopCommandEndToken = value
return nil
case r.stopCommandEndToken:
r.stopCommandEndToken = ""
return nil
}
return &originalContent
}
func (r *Reporter) parseLogRow(entry *log.Entry) *runnerv1.LogRow {
content := strings.TrimRightFunc(entry.Message, func(r rune) bool { return r == '\r' || r == '\n' })
matches := cmdRegex.FindStringSubmatch(content)
if matches != nil {
if output := r.handleCommand(content, matches[1], matches[2], matches[3]); output != nil {
content = *output
} else {
return nil
}
}
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content = r.logReplacer.Replace(content)
return &runnerv1.LogRow{
Time: timestamppb.New(entry.Time),
Content: strings.ToValidUTF8(content, "?"),
}
}
func (r *Reporter) addMask(msg string) {
r.oldnew = append(r.oldnew, msg, "***")
r.logReplacer = strings.NewReplacer(r.oldnew...)
}