// Copyright 2023 The Gitea Authors. All rights reserved. // Copyright 2019 nektos // SPDX-License-Identifier: MIT package cmd import ( "context" "fmt" "os" "path/filepath" "strconv" "strings" "time" "github.com/docker/docker/api/types/container" "github.com/joho/godotenv" "github.com/nektos/act/pkg/artifactcache" "github.com/nektos/act/pkg/artifacts" "github.com/nektos/act/pkg/common" "github.com/nektos/act/pkg/model" "github.com/nektos/act/pkg/runner" log "github.com/sirupsen/logrus" "github.com/spf13/cobra" "golang.org/x/term" ) type executeArgs struct { runList bool job string event string workdir string workflowsPath string noWorkflowRecurse bool autodetectEvent bool forcePull bool forceRebuild bool jsonLogger bool envs []string envfile string secrets []string defaultActionsURL string insecureSecrets bool privileged bool usernsMode string containerArchitecture string containerDaemonSocket string useGitIgnore bool containerCapAdd []string containerCapDrop []string containerOptions string artifactServerPath string artifactServerAddr string artifactServerPort string noSkipCheckout bool debug bool dryrun bool image string cacheHandler *artifactcache.Handler network string enableIPv6 bool githubInstance string } // WorkflowsPath returns path to workflow file(s) func (i *executeArgs) WorkflowsPath() string { return i.resolve(i.workflowsPath) } // Envfile returns path to .env func (i *executeArgs) Envfile() string { return i.resolve(i.envfile) } func (i *executeArgs) LoadSecrets() map[string]string { s := make(map[string]string) for _, secretPair := range i.secrets { secretPairParts := strings.SplitN(secretPair, "=", 2) secretPairParts[0] = strings.ToUpper(secretPairParts[0]) if strings.ToUpper(s[secretPairParts[0]]) == secretPairParts[0] { log.Errorf("Secret %s is already defined (secrets are case insensitive)", secretPairParts[0]) } if len(secretPairParts) == 2 { s[secretPairParts[0]] = secretPairParts[1] } else if env, ok := os.LookupEnv(secretPairParts[0]); ok && env != "" { s[secretPairParts[0]] = env } else { fmt.Printf("Provide value for '%s': ", secretPairParts[0]) val, err := term.ReadPassword(int(os.Stdin.Fd())) fmt.Println() if err != nil { log.Errorf("failed to read input: %v", err) os.Exit(1) } s[secretPairParts[0]] = string(val) } } return s } func readEnvs(path string, envs map[string]string) bool { if _, err := os.Stat(path); err == nil { env, err := godotenv.Read(path) if err != nil { log.Fatalf("Error loading from %s: %v", path, err) } for k, v := range env { envs[k] = v } return true } return false } func (i *executeArgs) LoadEnvs() map[string]string { envs := make(map[string]string) if i.envs != nil { for _, envVar := range i.envs { e := strings.SplitN(envVar, `=`, 2) if len(e) == 2 { envs[e[0]] = e[1] } else { envs[e[0]] = "" } } } _ = readEnvs(i.Envfile(), envs) envs["ACTIONS_CACHE_URL"] = i.cacheHandler.ExternalURL() + "/" return envs } // Workdir returns path to workdir func (i *executeArgs) Workdir() string { return i.resolve(".") } func (i *executeArgs) resolve(path string) string { basedir, err := filepath.Abs(i.workdir) if err != nil { log.Fatal(err) } if path == "" { return path } if !filepath.IsAbs(path) { path = filepath.Join(basedir, path) } return path } func printList(plan *model.Plan) error { type lineInfoDef struct { jobID string jobName string stage string wfName string wfFile string events string } lineInfos := []lineInfoDef{} header := lineInfoDef{ jobID: "Job ID", jobName: "Job name", stage: "Stage", wfName: "Workflow name", wfFile: "Workflow file", events: "Events", } jobs := map[string]bool{} duplicateJobIDs := false jobIDMaxWidth := len(header.jobID) jobNameMaxWidth := len(header.jobName) stageMaxWidth := len(header.stage) wfNameMaxWidth := len(header.wfName) wfFileMaxWidth := len(header.wfFile) eventsMaxWidth := len(header.events) for i, stage := range plan.Stages { for _, r := range stage.Runs { jobID := r.JobID line := lineInfoDef{ jobID: jobID, jobName: r.String(), stage: strconv.Itoa(i), wfName: r.Workflow.Name, wfFile: r.Workflow.File, events: strings.Join(r.Workflow.On(), `,`), } if _, ok := jobs[jobID]; ok { duplicateJobIDs = true } else { jobs[jobID] = true } lineInfos = append(lineInfos, line) if jobIDMaxWidth < len(line.jobID) { jobIDMaxWidth = len(line.jobID) } if jobNameMaxWidth < len(line.jobName) { jobNameMaxWidth = len(line.jobName) } if stageMaxWidth < len(line.stage) { stageMaxWidth = len(line.stage) } if wfNameMaxWidth < len(line.wfName) { wfNameMaxWidth = len(line.wfName) } if wfFileMaxWidth < len(line.wfFile) { wfFileMaxWidth = len(line.wfFile) } if eventsMaxWidth < len(line.events) { eventsMaxWidth = len(line.events) } } } jobIDMaxWidth += 2 jobNameMaxWidth += 2 stageMaxWidth += 2 wfNameMaxWidth += 2 wfFileMaxWidth += 2 fmt.Printf("%*s%*s%*s%*s%*s%*s\n", -stageMaxWidth, header.stage, -jobIDMaxWidth, header.jobID, -jobNameMaxWidth, header.jobName, -wfNameMaxWidth, header.wfName, -wfFileMaxWidth, header.wfFile, -eventsMaxWidth, header.events, ) for _, line := range lineInfos { fmt.Printf("%*s%*s%*s%*s%*s%*s\n", -stageMaxWidth, line.stage, -jobIDMaxWidth, line.jobID, -jobNameMaxWidth, line.jobName, -wfNameMaxWidth, line.wfName, -wfFileMaxWidth, line.wfFile, -eventsMaxWidth, line.events, ) } if duplicateJobIDs { fmt.Print("\nDetected multiple jobs with the same job name, use `-W` to specify the path to the specific workflow.\n") } return nil } func runExecList(ctx context.Context, planner model.WorkflowPlanner, execArgs *executeArgs) error { // plan with filtered jobs - to be used for filtering only var filterPlan *model.Plan // Determine the event name to be filtered var filterEventName string if len(execArgs.event) > 0 { log.Infof("Using chosed event for filtering: %s", execArgs.event) filterEventName = execArgs.event } else if execArgs.autodetectEvent { // collect all events from loaded workflows events := planner.GetEvents() // set default event type to first event from many available // this way user dont have to specify the event. log.Infof("Using first detected workflow event for filtering: %s", events[0]) filterEventName = events[0] } var err error if execArgs.job != "" { log.Infof("Preparing plan with a job: %s", execArgs.job) filterPlan, err = planner.PlanJob(execArgs.job) if err != nil { return err } } else if filterEventName != "" { log.Infof("Preparing plan for a event: %s", filterEventName) filterPlan, err = planner.PlanEvent(filterEventName) if err != nil { return err } } else { log.Infof("Preparing plan with all jobs") filterPlan, err = planner.PlanAll() if err != nil { return err } } _ = printList(filterPlan) return nil } func runExec(ctx context.Context, execArgs *executeArgs) func(cmd *cobra.Command, args []string) error { return func(cmd *cobra.Command, args []string) error { planner, err := model.NewWorkflowPlanner(execArgs.WorkflowsPath(), execArgs.noWorkflowRecurse) if err != nil { return err } if execArgs.runList { return runExecList(ctx, planner, execArgs) } // plan with triggered jobs var plan *model.Plan // Determine the event name to be triggered var eventName string // collect all events from loaded workflows events := planner.GetEvents() if len(execArgs.event) > 0 { log.Infof("Using chosed event for filtering: %s", execArgs.event) eventName = execArgs.event } else if len(events) == 1 && len(events[0]) > 0 { log.Infof("Using the only detected workflow event: %s", events[0]) eventName = events[0] } else if execArgs.autodetectEvent && len(events) > 0 && len(events[0]) > 0 { // set default event type to first event from many available // this way user dont have to specify the event. log.Infof("Using first detected workflow event: %s", events[0]) eventName = events[0] } else { log.Infof("Using default workflow event: push") eventName = "push" } // build the plan for this run if execArgs.job != "" { log.Infof("Planning job: %s", execArgs.job) plan, err = planner.PlanJob(execArgs.job) if err != nil { return err } } else { log.Infof("Planning jobs for event: %s", eventName) plan, err = planner.PlanEvent(eventName) if err != nil { return err } } maxLifetime := 3 * time.Hour if deadline, ok := ctx.Deadline(); ok { maxLifetime = time.Until(deadline) } // init a cache server handler, err := artifactcache.StartHandler("", "", 0, log.StandardLogger().WithField("module", "cache_request")) if err != nil { return err } log.Infof("cache handler listens on: %v", handler.ExternalURL()) execArgs.cacheHandler = handler if len(execArgs.artifactServerAddr) == 0 { ip := common.GetOutboundIP() if ip == nil { return fmt.Errorf("unable to determine outbound IP address") } execArgs.artifactServerAddr = ip.String() } if len(execArgs.artifactServerPath) == 0 { tempDir, err := os.MkdirTemp("", "gitea-act-") if err != nil { fmt.Println(err) } defer os.RemoveAll(tempDir) execArgs.artifactServerPath = tempDir } // run the plan config := &runner.Config{ Workdir: execArgs.Workdir(), BindWorkdir: false, ReuseContainers: false, ForcePull: execArgs.forcePull, ForceRebuild: execArgs.forceRebuild, LogOutput: true, JSONLogger: execArgs.jsonLogger, Env: execArgs.LoadEnvs(), Secrets: execArgs.LoadSecrets(), InsecureSecrets: execArgs.insecureSecrets, Privileged: execArgs.privileged, UsernsMode: execArgs.usernsMode, ContainerArchitecture: execArgs.containerArchitecture, ContainerDaemonSocket: execArgs.containerDaemonSocket, UseGitIgnore: execArgs.useGitIgnore, GitHubInstance: execArgs.githubInstance, ContainerCapAdd: execArgs.containerCapAdd, ContainerCapDrop: execArgs.containerCapDrop, ContainerOptions: execArgs.containerOptions, AutoRemove: true, ArtifactServerPath: execArgs.artifactServerPath, ArtifactServerPort: execArgs.artifactServerPort, ArtifactServerAddr: execArgs.artifactServerAddr, NoSkipCheckout: execArgs.noSkipCheckout, // PresetGitHubContext: preset, // EventJSON: string(eventJSON), ContainerNamePrefix: fmt.Sprintf("FORGEJO-ACTIONS-TASK-%s", eventName), ContainerMaxLifetime: maxLifetime, ContainerNetworkMode: container.NetworkMode(execArgs.network), ContainerNetworkEnableIPv6: execArgs.enableIPv6, DefaultActionInstance: execArgs.defaultActionsURL, PlatformPicker: func(_ []string) string { return execArgs.image }, ValidVolumes: []string{"**"}, // All volumes are allowed for `exec` command } config.Env["ACT_EXEC"] = "true" if t := config.Secrets["FORGEJO_TOKEN"]; t != "" { config.Token = t } else if t := config.Secrets["GITEA_TOKEN"]; t != "" { config.Token = t } else if t := config.Secrets["GITHUB_TOKEN"]; t != "" { config.Token = t } if !execArgs.debug { logLevel := log.InfoLevel config.JobLoggerLevel = &logLevel } r, err := runner.New(config) if err != nil { return err } artifactCancel := artifacts.Serve(ctx, execArgs.artifactServerPath, execArgs.artifactServerAddr, execArgs.artifactServerPort) log.Debugf("artifacts server started at %s:%s", execArgs.artifactServerPath, execArgs.artifactServerPort) ctx = common.WithDryrun(ctx, execArgs.dryrun) executor := r.NewPlanExecutor(plan).Finally(func(ctx context.Context) error { artifactCancel() return nil }) return executor(ctx) } } func loadExecCmd(ctx context.Context) *cobra.Command { execArg := executeArgs{} execCmd := &cobra.Command{ Use: "exec", Short: "Run workflow locally.", Args: cobra.MaximumNArgs(20), RunE: runExec(ctx, &execArg), } execCmd.Flags().BoolVarP(&execArg.runList, "list", "l", false, "list workflows") execCmd.Flags().StringVarP(&execArg.job, "job", "j", "", "run a specific job ID") execCmd.Flags().StringVarP(&execArg.event, "event", "E", "", "run a event name") execCmd.PersistentFlags().StringVarP(&execArg.workflowsPath, "workflows", "W", "./.forgejo/workflows/", "path to workflow file(s)") execCmd.PersistentFlags().StringVarP(&execArg.workdir, "directory", "C", ".", "working directory") execCmd.PersistentFlags().BoolVarP(&execArg.noWorkflowRecurse, "no-recurse", "", false, "Flag to disable running workflows from subdirectories of specified path in '--workflows'/'-W' flag") execCmd.Flags().BoolVarP(&execArg.autodetectEvent, "detect-event", "", false, "Use first event type from workflow as event that triggered the workflow") execCmd.Flags().BoolVarP(&execArg.forcePull, "pull", "p", false, "pull docker image(s) even if already present") execCmd.Flags().BoolVarP(&execArg.forceRebuild, "rebuild", "", false, "rebuild local action docker image(s) even if already present") execCmd.PersistentFlags().BoolVar(&execArg.jsonLogger, "json", false, "Output logs in json format") execCmd.Flags().StringArrayVarP(&execArg.envs, "env", "", []string{}, "env to make available to actions with optional value (e.g. --env myenv=foo or --env myenv)") execCmd.PersistentFlags().StringVarP(&execArg.envfile, "env-file", "", ".env", "environment file to read and use as env in the containers") execCmd.Flags().StringArrayVarP(&execArg.secrets, "secret", "s", []string{}, "secret to make available to actions with optional value (e.g. -s mysecret=foo or -s mysecret)") execCmd.PersistentFlags().BoolVarP(&execArg.insecureSecrets, "insecure-secrets", "", false, "NOT RECOMMENDED! Doesn't hide secrets while printing logs.") execCmd.Flags().BoolVar(&execArg.privileged, "privileged", false, "use privileged mode") execCmd.Flags().StringVar(&execArg.usernsMode, "userns", "", "user namespace to use") execCmd.PersistentFlags().StringVarP(&execArg.containerArchitecture, "container-architecture", "", "", "Architecture which should be used to run containers, e.g.: linux/amd64. If not specified, will use host default architecture. Requires Docker server API Version 1.41+. Ignored on earlier Docker server platforms.") execCmd.PersistentFlags().StringVarP(&execArg.containerDaemonSocket, "container-daemon-socket", "", "/var/run/docker.sock", "Path to Docker daemon socket which will be mounted to containers") execCmd.Flags().BoolVar(&execArg.useGitIgnore, "use-gitignore", true, "Controls whether paths specified in .gitignore should be copied into container") execCmd.Flags().StringArrayVarP(&execArg.containerCapAdd, "container-cap-add", "", []string{}, "kernel capabilities to add to the workflow containers (e.g. --container-cap-add SYS_PTRACE)") execCmd.Flags().StringArrayVarP(&execArg.containerCapDrop, "container-cap-drop", "", []string{}, "kernel capabilities to remove from the workflow containers (e.g. --container-cap-drop SYS_PTRACE)") execCmd.Flags().StringVarP(&execArg.containerOptions, "container-opts", "", "", "container options") execCmd.PersistentFlags().StringVarP(&execArg.artifactServerPath, "artifact-server-path", "", ".", "Defines the path where the artifact server stores uploads and retrieves downloads from. If not specified the artifact server will not start.") execCmd.PersistentFlags().StringVarP(&execArg.artifactServerAddr, "artifact-server-addr", "", "", "Defines the address where the artifact server listens") execCmd.PersistentFlags().StringVarP(&execArg.artifactServerPort, "artifact-server-port", "", "34567", "Defines the port where the artifact server listens (will only bind to localhost).") execCmd.PersistentFlags().StringVarP(&execArg.defaultActionsURL, "default-actions-url", "", "https://code.forgejo.org", "Defines the default base url of the action.") execCmd.PersistentFlags().BoolVarP(&execArg.noSkipCheckout, "no-skip-checkout", "", false, "Do not skip actions/checkout") execCmd.PersistentFlags().BoolVarP(&execArg.debug, "debug", "d", false, "enable debug log") execCmd.PersistentFlags().BoolVarP(&execArg.dryrun, "dryrun", "n", false, "dryrun mode") execCmd.PersistentFlags().StringVarP(&execArg.image, "image", "i", "node:20-bullseye", "Docker image to use. Use \"-self-hosted\" to run directly on the host.") execCmd.PersistentFlags().StringVarP(&execArg.network, "network", "", "", "Specify the network to which the container will connect") execCmd.PersistentFlags().BoolVarP(&execArg.enableIPv6, "enable-ipv6", "6", false, "Create network with IPv6 enabled.") execCmd.PersistentFlags().StringVarP(&execArg.githubInstance, "gitea-instance", "", "", "Gitea instance to use.") return execCmd }