package runner import ( "context" "encoding/json" "errors" "fmt" "os" "path/filepath" "regexp" "runtime" "strings" "github.com/mitchellh/go-homedir" log "github.com/sirupsen/logrus" "github.com/nektos/act/pkg/common" "github.com/nektos/act/pkg/container" "github.com/nektos/act/pkg/model" ) // RunContext contains info about current job type RunContext struct { Name string Config *Config Matrix map[string]interface{} Run *model.Run EventJSON string Env map[string]string ExtraPath []string CurrentStep string StepResults map[string]*stepResult ExprEval ExpressionEvaluator JobContainer container.Container OutputMappings map[MappableOutput]MappableOutput } type MappableOutput struct { StepID string OutputName string } func (rc *RunContext) String() string { return fmt.Sprintf("%s/%s", rc.Run.Workflow.Name, rc.Name) } type stepResult struct { Success bool `json:"success"` Outputs map[string]string `json:"outputs"` } // GetEnv returns the env for the context func (rc *RunContext) GetEnv() map[string]string { if rc.Env == nil { rc.Env = mergeMaps(rc.Config.Env, rc.Run.Workflow.Env, rc.Run.Job().Env) } rc.Env["ACT"] = "true" return rc.Env } func (rc *RunContext) jobContainerName() string { return createContainerName("act", rc.String()) } func (rc *RunContext) startJobContainer() common.Executor { image := rc.platformImage() return func(ctx context.Context) error { rawLogger := common.Logger(ctx).WithField("raw_output", true) logWriter := common.NewLineWriter(rc.commandHandler(ctx), func(s string) bool { if rc.Config.LogOutput { rawLogger.Infof("%s", s) } else { rawLogger.Debugf("%s", s) } return true }) common.Logger(ctx).Infof("\U0001f680 Start image=%s", image) name := rc.jobContainerName() envList := make([]string, 0) bindModifiers := "" if runtime.GOOS == "darwin" { bindModifiers = ":delegated" } envList = append(envList, fmt.Sprintf("%s=%s", "RUNNER_TOOL_CACHE", "/opt/hostedtoolcache")) envList = append(envList, fmt.Sprintf("%s=%s", "RUNNER_OS", "Linux")) envList = append(envList, fmt.Sprintf("%s=%s", "RUNNER_TEMP", "/tmp")) binds := []string{ fmt.Sprintf("%s:%s", "/var/run/docker.sock", "/var/run/docker.sock"), } if rc.Config.BindWorkdir { binds = append(binds, fmt.Sprintf("%s:%s%s", rc.Config.Workdir, rc.Config.Workdir, bindModifiers)) } if rc.Config.ContainerArchitecture == "" { rc.Config.ContainerArchitecture = fmt.Sprintf("%s/%s", "linux", runtime.GOARCH) } rc.JobContainer = container.NewContainer(&container.NewContainerInput{ Cmd: nil, Entrypoint: []string{"/usr/bin/tail", "-f", "/dev/null"}, WorkingDir: rc.Config.Workdir, Image: image, Name: name, Env: envList, Mounts: map[string]string{ name: filepath.Dir(rc.Config.Workdir), "act-toolcache": "/toolcache", "act-actions": "/actions", }, NetworkMode: "host", Binds: binds, Stdout: logWriter, Stderr: logWriter, Privileged: rc.Config.Privileged, UsernsMode: rc.Config.UsernsMode, Platform: rc.Config.ContainerArchitecture, }) var copyWorkspace bool var copyToPath string if !rc.Config.BindWorkdir { copyToPath, copyWorkspace = rc.localCheckoutPath() copyToPath = filepath.Join(rc.Config.Workdir, copyToPath) } return common.NewPipelineExecutor( rc.JobContainer.Pull(rc.Config.ForcePull), rc.stopJobContainer(), rc.JobContainer.Create(), rc.JobContainer.Start(false), rc.JobContainer.CopyDir(copyToPath, rc.Config.Workdir+string(filepath.Separator)+".").IfBool(copyWorkspace), rc.JobContainer.Copy(filepath.Dir(rc.Config.Workdir), &container.FileEntry{ Name: "workflow/event.json", Mode: 0644, Body: rc.EventJSON, }, &container.FileEntry{ Name: "workflow/envs.txt", Mode: 0644, Body: "", }, &container.FileEntry{ Name: "home/.act", Mode: 0644, Body: "", }), )(ctx) } } func (rc *RunContext) execJobContainer(cmd []string, env map[string]string) common.Executor { return func(ctx context.Context) error { return rc.JobContainer.Exec(cmd, env)(ctx) } } // stopJobContainer removes the job container (if it exists) and its volume (if it exists) if !rc.Config.ReuseContainers func (rc *RunContext) stopJobContainer() common.Executor { return func(ctx context.Context) error { if rc.JobContainer != nil && !rc.Config.ReuseContainers { return rc.JobContainer.Remove(). Then(container.NewDockerVolumeRemoveExecutor(rc.jobContainerName(), false))(ctx) } return nil } } // ActionCacheDir is for rc func (rc *RunContext) ActionCacheDir() string { var xdgCache string var ok bool if xdgCache, ok = os.LookupEnv("XDG_CACHE_HOME"); !ok || xdgCache == "" { if home, err := homedir.Dir(); err == nil { xdgCache = filepath.Join(home, ".cache") } else if xdgCache, err = filepath.Abs("."); err != nil { log.Fatal(err) } } return filepath.Join(xdgCache, "act") } // Executor returns a pipeline executor for all the steps in the job func (rc *RunContext) Executor() common.Executor { steps := make([]common.Executor, 0) steps = append(steps, func(ctx context.Context) error { if len(rc.Matrix) > 0 { common.Logger(ctx).Infof("\U0001F9EA Matrix: %v", rc.Matrix) } return nil }) steps = append(steps, rc.startJobContainer()) for i, step := range rc.Run.Job().Steps { if step.ID == "" { step.ID = fmt.Sprintf("%d", i) } steps = append(steps, rc.newStepExecutor(step)) } steps = append(steps, rc.stopJobContainer()) return common.NewPipelineExecutor(steps...).If(rc.isEnabled) } func (rc *RunContext) newStepExecutor(step *model.Step) common.Executor { sc := &StepContext{ RunContext: rc, Step: step, } return func(ctx context.Context) error { rc.CurrentStep = sc.Step.ID rc.StepResults[rc.CurrentStep] = &stepResult{ Success: true, Outputs: make(map[string]string), } exprEval, err := sc.setupEnv(ctx) if err != nil { return err } rc.ExprEval = exprEval runStep, err := rc.EvalBool(sc.Step.If) if err != nil { common.Logger(ctx).Errorf(" \u274C Error in if: expression - %s", sc.Step) rc.StepResults[rc.CurrentStep].Success = false return err } if !runStep { log.Debugf("Skipping step '%s' due to '%s'", sc.Step.String(), sc.Step.If) return nil } common.Logger(ctx).Infof("\u2B50 Run %s", sc.Step) err = sc.Executor()(ctx) if err == nil { common.Logger(ctx).Infof(" \u2705 Success - %s", sc.Step) } else { common.Logger(ctx).Errorf(" \u274C Failure - %s", sc.Step) if sc.Step.ContinueOnError { common.Logger(ctx).Infof("Failed but continue next step") err = nil rc.StepResults[rc.CurrentStep].Success = true } else { rc.StepResults[rc.CurrentStep].Success = false } } return err } } func (rc *RunContext) platformImage() string { job := rc.Run.Job() c := job.Container() if c != nil { return rc.ExprEval.Interpolate(c.Image) } if job.RunsOn() == nil { log.Errorf("'runs-on' key not defined in %s", rc.String()) } for _, runnerLabel := range job.RunsOn() { platformName := rc.ExprEval.Interpolate(runnerLabel) image := rc.Config.Platforms[strings.ToLower(platformName)] if image != "" { return image } } return "" } func (rc *RunContext) isEnabled(ctx context.Context) bool { job := rc.Run.Job() l := common.Logger(ctx) runJob, err := rc.EvalBool(job.If) if err != nil { common.Logger(ctx).Errorf(" \u274C Error in if: expression - %s", job.Name) return false } if !runJob { l.Debugf("Skipping job '%s' due to '%s'", job.Name, job.If) return false } img := rc.platformImage() if img == "" { if job.RunsOn() == nil { log.Errorf("'runs-on' key not defined in %s", rc.String()) } for _, runnerLabel := range job.RunsOn() { platformName := rc.ExprEval.Interpolate(runnerLabel) l.Infof("\U0001F6A7 Skipping unsupported platform '%+v'", platformName) } return false } return true } var splitPattern *regexp.Regexp // EvalBool evaluates an expression against current run context func (rc *RunContext) EvalBool(expr string) (bool, error) { if splitPattern == nil { splitPattern = regexp.MustCompile(fmt.Sprintf(`%s|%s|\S+`, expressionPattern.String(), operatorPattern.String())) } if strings.HasPrefix(strings.TrimSpace(expr), "!") { return false, errors.New("expressions starting with ! must be wrapped in ${{ }}") } if expr != "" { parts := splitPattern.FindAllString(expr, -1) var evaluatedParts []string for i, part := range parts { if operatorPattern.MatchString(part) { evaluatedParts = append(evaluatedParts, part) continue } interpolatedPart, isString := rc.ExprEval.InterpolateWithStringCheck(part) // This peculiar transformation has to be done because the GitHub parser // treats false returned from contexts as a string, not a boolean. // Hence env.SOMETHING will be evaluated to true in an if: expression // regardless if SOMETHING is set to false, true or any other string. // It also handles some other weirdness that I found by trial and error. if (expressionPattern.MatchString(part) && // it is an expression !strings.Contains(part, "!")) && // but it's not negated interpolatedPart == "false" && // and the interpolated string is false (isString || previousOrNextPartIsAnOperator(i, parts)) { // and it's of type string or has an logical operator before or after interpolatedPart = fmt.Sprintf("'%s'", interpolatedPart) // then we have to quote the false expression } evaluatedParts = append(evaluatedParts, interpolatedPart) } joined := strings.Join(evaluatedParts, " ") v, _, err := rc.ExprEval.Evaluate(fmt.Sprintf("Boolean(%s)", joined)) if err != nil { return false, err } log.Debugf("expression '%s' evaluated to '%s'", expr, v) return v == "true", nil } return true, nil } func previousOrNextPartIsAnOperator(i int, parts []string) bool { operator := false if i > 0 { operator = operatorPattern.MatchString(parts[i-1]) } if i+1 < len(parts) { operator = operator || operatorPattern.MatchString(parts[i+1]) } return operator } func mergeMaps(maps ...map[string]string) map[string]string { rtnMap := make(map[string]string) for _, m := range maps { for k, v := range m { rtnMap[k] = v } } return rtnMap } func createContainerName(parts ...string) string { name := make([]string, 0) pattern := regexp.MustCompile("[^a-zA-Z0-9]") partLen := (30 / len(parts)) - 1 for i, part := range parts { if i == len(parts)-1 { name = append(name, pattern.ReplaceAllString(part, "-")) } else { // If any part has a '-' on the end it is likely part of a matrix job. // Let's preserve the number to prevent clashes in container names. re := regexp.MustCompile("-[0-9]+$") num := re.FindStringSubmatch(part) if len(num) > 0 { name = append(name, trimToLen(pattern.ReplaceAllString(part, "-"), partLen-len(num[0]))) name = append(name, num[0]) } else { name = append(name, trimToLen(pattern.ReplaceAllString(part, "-"), partLen)) } } } return strings.ReplaceAll(strings.Trim(strings.Join(name, "-"), "-"), "--", "-") } func trimToLen(s string, l int) string { if l < 0 { l = 0 } if len(s) > l { return s[:l] } return s } type jobContext struct { Status string `json:"status"` Container struct { ID string `json:"id"` Network string `json:"network"` } `json:"container"` Services map[string]struct { ID string `json:"id"` } `json:"services"` } func (rc *RunContext) getJobContext() *jobContext { jobStatus := "success" for _, stepStatus := range rc.StepResults { if !stepStatus.Success { jobStatus = "failure" break } } return &jobContext{ Status: jobStatus, } } func (rc *RunContext) getStepsContext() map[string]*stepResult { return rc.StepResults } type githubContext struct { Event map[string]interface{} `json:"event"` EventPath string `json:"event_path"` Workflow string `json:"workflow"` RunID string `json:"run_id"` RunNumber string `json:"run_number"` Actor string `json:"actor"` Repository string `json:"repository"` EventName string `json:"event_name"` Sha string `json:"sha"` Ref string `json:"ref"` HeadRef string `json:"head_ref"` BaseRef string `json:"base_ref"` Token string `json:"token"` Workspace string `json:"workspace"` Action string `json:"action"` } func (rc *RunContext) getGithubContext() *githubContext { token, ok := rc.Config.Secrets["GITHUB_TOKEN"] if !ok { token = os.Getenv("GITHUB_TOKEN") } runID := rc.Config.Env["GITHUB_RUN_ID"] if runID == "" { runID = "1" } runNumber := rc.Config.Env["GITHUB_RUN_NUMBER"] if runNumber == "" { runNumber = "1" } ghc := &githubContext{ Event: make(map[string]interface{}), EventPath: fmt.Sprintf("%s/%s", filepath.Dir(rc.Config.Workdir), "workflow/event.json"), Workflow: rc.Run.Workflow.Name, RunID: runID, RunNumber: runNumber, Actor: rc.Config.Actor, EventName: rc.Config.EventName, Token: token, Workspace: rc.Config.Workdir, Action: rc.CurrentStep, } // Backwards compatibility for configs that require // a default rather than being run as a cmd if ghc.Actor == "" { ghc.Actor = "nektos/act" } repoPath := rc.Config.Workdir repo, err := common.FindGithubRepo(repoPath) if err != nil { log.Warningf("unable to get git repo: %v", err) } else { ghc.Repository = repo } _, sha, err := common.FindGitRevision(repoPath) if err != nil { log.Warningf("unable to get git revision: %v", err) } else { ghc.Sha = sha } ref, err := common.FindGitRef(repoPath) if err != nil { log.Warningf("unable to get git ref: %v", err) } else { log.Debugf("using github ref: %s", ref) ghc.Ref = ref } if rc.EventJSON != "" { err = json.Unmarshal([]byte(rc.EventJSON), &ghc.Event) if err != nil { log.Errorf("Unable to Unmarshal event '%s': %v", rc.EventJSON, err) } } // set the branch in the event data if rc.Config.DefaultBranch != "" { ghc.Event = withDefaultBranch(rc.Config.DefaultBranch, ghc.Event) } else { ghc.Event = withDefaultBranch("master", ghc.Event) } if ghc.EventName == "pull_request" { ghc.BaseRef = asString(nestedMapLookup(ghc.Event, "pull_request", "base", "ref")) ghc.HeadRef = asString(nestedMapLookup(ghc.Event, "pull_request", "head", "ref")) } return ghc } func (ghc *githubContext) isLocalCheckout(step *model.Step) bool { if step.Type() != model.StepTypeUsesActionRemote { return false } remoteAction := newRemoteAction(step.Uses) if !remoteAction.IsCheckout() { return false } if repository, ok := step.With["repository"]; ok && repository != ghc.Repository { return false } if repository, ok := step.With["ref"]; ok && repository != ghc.Ref { return false } return true } func asString(v interface{}) string { if v == nil { return "" } else if s, ok := v.(string); ok { return s } return "" } func nestedMapLookup(m map[string]interface{}, ks ...string) (rval interface{}) { var ok bool if len(ks) == 0 { // degenerate input return nil } if rval, ok = m[ks[0]]; !ok { return nil } else if len(ks) == 1 { // we've reached the final key return rval } else if m, ok = rval.(map[string]interface{}); !ok { return nil } else { // 1+ more keys return nestedMapLookup(m, ks[1:]...) } } func withDefaultBranch(b string, event map[string]interface{}) map[string]interface{} { repoI, ok := event["repository"] if !ok { repoI = make(map[string]interface{}) } repo, ok := repoI.(map[string]interface{}) if !ok { log.Warnf("unable to set default branch to %v", b) return event } // if the branch is already there return with no changes if _, ok = repo["default_branch"]; ok { return event } repo["default_branch"] = b event["repository"] = repo return event } func (rc *RunContext) withGithubEnv(env map[string]string) map[string]string { github := rc.getGithubContext() env["CI"] = "true" env["GITHUB_ENV"] = fmt.Sprintf("%s/%s", filepath.Dir(rc.Config.Workdir), "workflow/envs.txt") env["GITHUB_WORKFLOW"] = github.Workflow env["GITHUB_RUN_ID"] = github.RunID env["GITHUB_RUN_NUMBER"] = github.RunNumber env["GITHUB_ACTION"] = github.Action env["GITHUB_ACTIONS"] = "true" env["GITHUB_ACTOR"] = github.Actor env["GITHUB_REPOSITORY"] = github.Repository env["GITHUB_EVENT_NAME"] = github.EventName env["GITHUB_EVENT_PATH"] = github.EventPath env["GITHUB_WORKSPACE"] = github.Workspace env["GITHUB_SHA"] = github.Sha env["GITHUB_REF"] = github.Ref env["GITHUB_TOKEN"] = github.Token env["GITHUB_SERVER_URL"] = "https://github.com" env["GITHUB_API_URL"] = "https://api.github.com" env["GITHUB_GRAPHQL_URL"] = "https://api.github.com/graphql" job := rc.Run.Job() if job.RunsOn() != nil { for _, runnerLabel := range job.RunsOn() { platformName := rc.ExprEval.Interpolate(runnerLabel) if platformName != "" { if platformName == "ubuntu-latest" { // hardcode current ubuntu-latest since we have no way to check that 'on the fly' env["ImageOS"] = "ubuntu20" } else { platformName = strings.SplitN(strings.Replace(platformName, `-`, ``, 1), `.`, 1)[0] env["ImageOS"] = platformName } } } } return env } func (rc *RunContext) localCheckoutPath() (string, bool) { ghContext := rc.getGithubContext() for _, step := range rc.Run.Job().Steps { if ghContext.isLocalCheckout(step) { return step.With["path"], true } } return "", false }