package packer import ( "context" "fmt" "log" "sync" "github.com/hashicorp/packer/helper/common" ) const ( // This is the key in configurations that is set to the name of the // build. BuildNameConfigKey = "packer_build_name" // This is the key in the configuration that is set to the type // of the builder that is run. This is useful for provisioners and // such who want to make use of this. BuilderTypeConfigKey = "packer_builder_type" // This is the key in configurations that is set to "true" when Packer // debugging is enabled. DebugConfigKey = "packer_debug" // This is the key in configurations that is set to "true" when Packer // force build is enabled. ForceConfigKey = "packer_force" // This key determines what to do when a normal multistep step fails // - "cleanup" - run cleanup steps // - "abort" - exit without cleanup // - "ask" - ask the user OnErrorConfigKey = "packer_on_error" // TemplatePathKey is the path to the template that configured this build TemplatePathKey = "packer_template_path" // This key contains a map[string]string of the user variables for // template processing. UserVariablesConfigKey = "packer_user_variables" ) // A Build represents a single job within Packer that is responsible for // building some machine image artifact. Builds are meant to be parallelized. type Build interface { // Name is the name of the build. This is unique across a single template, // but not absolutely unique. This is meant more to describe to the user // what is being built rather than being a unique identifier. Name() string // Prepare configures the various components of this build and reports // any errors in doing so (such as syntax errors, validation errors, etc.). // It also reports any warnings. Prepare() ([]string, error) // Run runs the actual builder, returning an artifact implementation // of what is built. If anything goes wrong, an error is returned. // Run can be context cancelled. Run(context.Context, Ui) ([]Artifact, error) // SetDebug will enable/disable debug mode. Debug mode is always // enabled by adding the additional key "packer_debug" to boolean // true in the configuration of the various components. This must // be called prior to Prepare. // // When SetDebug is set to true, parallelism between builds is // strictly prohibited. SetDebug(bool) // SetForce will enable/disable forcing a build when artifacts exist. // // When SetForce is set to true, existing artifacts from the build are // deleted prior to the build. SetForce(bool) // SetOnError will determine what to do when a normal multistep step fails // - "cleanup" - run cleanup steps // - "abort" - exit without cleanup // - "ask" - ask the user SetOnError(string) } // A CoreBuild struct represents a single build job, the result of which should // be a single machine image artifact. This artifact may be comprised of // multiple files, of course, but it should be for only a single provider (such // as VirtualBox, EC2, etc.). type CoreBuild struct { BuildName string Type string Builder Builder BuilderConfig interface{} BuilderType string hooks map[string][]Hook Provisioners []CoreBuildProvisioner PostProcessors [][]CoreBuildPostProcessor CleanupProvisioner CoreBuildProvisioner TemplatePath string Variables map[string]string // Indicates whether the build is already initialized before calling Prepare(..) Prepared bool debug bool force bool onError string l sync.Mutex prepareCalled bool } // CoreBuildPostProcessor Keeps track of the post-processor and the // configuration of the post-processor used within a build. type CoreBuildPostProcessor struct { PostProcessor PostProcessor PType string PName string config map[string]interface{} keepInputArtifact *bool } // CoreBuildProvisioner keeps track of the provisioner and the configuration of // the provisioner within the build. type CoreBuildProvisioner struct { PType string PName string Provisioner Provisioner config []interface{} } // Returns the name of the build. func (b *CoreBuild) Name() string { if b.BuildName != "" { return b.BuildName + "." + b.Type } return b.Type } // Prepare prepares the build by doing some initialization for the builder // and any hooks. This _must_ be called prior to Run. The parameter is the // overrides for the variables within the template (if any). func (b *CoreBuild) Prepare() (warn []string, err error) { // For HCL2 templates, the builder and hooks are initialized when the // template is parsed. Calling Prepare(...) is not necessary if b.Prepared { b.prepareCalled = true return } b.l.Lock() defer b.l.Unlock() if b.prepareCalled { panic("prepare already called") } // Templates loaded from HCL2 will never get here. TODO: move this code into // a custom json area instead of just aborting early for HCL. b.prepareCalled = true packerConfig := map[string]interface{}{ BuildNameConfigKey: b.Type, BuilderTypeConfigKey: b.BuilderType, DebugConfigKey: b.debug, ForceConfigKey: b.force, OnErrorConfigKey: b.onError, TemplatePathKey: b.TemplatePath, UserVariablesConfigKey: b.Variables, } // Prepare the builder generatedVars, warn, err := b.Builder.Prepare(b.BuilderConfig, packerConfig) if err != nil { log.Printf("Build '%s' prepare failure: %s\n", b.Type, err) return } // If the builder has provided a list of to-be-generated variables that // should be made accessible to provisioners, pass that list into // the provisioner prepare() so that the provisioner can appropriately // validate user input against what will become available. generatedPlaceholderMap := BasicPlaceholderData() if generatedVars != nil { for _, k := range generatedVars { generatedPlaceholderMap[k] = fmt.Sprintf("Build_%s. "+ common.PlaceholderMsg, k) } } // Prepare the provisioners for _, coreProv := range b.Provisioners { configs := make([]interface{}, len(coreProv.config), len(coreProv.config)+1) copy(configs, coreProv.config) configs = append(configs, packerConfig) configs = append(configs, generatedPlaceholderMap) if err = coreProv.Provisioner.Prepare(configs...); err != nil { return } } // Prepare the on-error-cleanup provisioner if b.CleanupProvisioner.PType != "" { configs := make([]interface{}, len(b.CleanupProvisioner.config), len(b.CleanupProvisioner.config)+1) copy(configs, b.CleanupProvisioner.config) configs = append(configs, packerConfig) configs = append(configs, generatedPlaceholderMap) err = b.CleanupProvisioner.Provisioner.Prepare(configs...) if err != nil { return } } // Prepare the post-processors for _, ppSeq := range b.PostProcessors { for _, corePP := range ppSeq { err = corePP.PostProcessor.Configure(corePP.config, packerConfig, generatedPlaceholderMap) if err != nil { return } } } return } // Runs the actual build. Prepare must be called prior to running this. func (b *CoreBuild) Run(ctx context.Context, originalUi Ui) ([]Artifact, error) { if !b.prepareCalled { panic("Prepare must be called first") } // Copy the hooks hooks := make(map[string][]Hook) for hookName, hookList := range b.hooks { hooks[hookName] = make([]Hook, len(hookList)) copy(hooks[hookName], hookList) } // Add a hook for the provisioners if we have provisioners if len(b.Provisioners) > 0 { hookedProvisioners := make([]*HookedProvisioner, len(b.Provisioners)) for i, p := range b.Provisioners { var pConfig interface{} if len(p.config) > 0 { pConfig = p.config[0] } if b.debug { hookedProvisioners[i] = &HookedProvisioner{ &DebuggedProvisioner{Provisioner: p.Provisioner}, pConfig, p.PType, } } else { hookedProvisioners[i] = &HookedProvisioner{ p.Provisioner, pConfig, p.PType, } } } if _, ok := hooks[HookProvision]; !ok { hooks[HookProvision] = make([]Hook, 0, 1) } hooks[HookProvision] = append(hooks[HookProvision], &ProvisionHook{ Provisioners: hookedProvisioners, }) } if b.CleanupProvisioner.PType != "" { hookedCleanupProvisioner := &HookedProvisioner{ b.CleanupProvisioner.Provisioner, b.CleanupProvisioner.config, b.CleanupProvisioner.PType, } hooks[HookCleanupProvision] = []Hook{&ProvisionHook{ Provisioners: []*HookedProvisioner{hookedCleanupProvisioner}, }} } hook := &DispatchHook{Mapping: hooks} artifacts := make([]Artifact, 0, 1) // The builder just has a normal Ui, but targeted builderUi := &TargetedUI{ Target: b.Name(), Ui: originalUi, } log.Printf("Running builder: %s", b.BuilderType) ts := CheckpointReporter.AddSpan(b.BuilderType, "builder", b.BuilderConfig) builderArtifact, err := b.Builder.Run(ctx, builderUi, hook) ts.End(err) if err != nil { return nil, err } // If there was no result, don't worry about running post-processors // because there is nothing they can do, just return. if builderArtifact == nil { return nil, nil } errors := make([]error, 0) keepOriginalArtifact := len(b.PostProcessors) == 0 // Run the post-processors PostProcessorRunSeqLoop: for _, ppSeq := range b.PostProcessors { priorArtifact := builderArtifact for i, corePP := range ppSeq { ppUi := &TargetedUI{ Target: fmt.Sprintf("%s (%s)", b.Name(), corePP.PType), Ui: originalUi, } if corePP.PName == corePP.PType { builderUi.Say(fmt.Sprintf("Running post-processor: %s", corePP.PType)) } else { builderUi.Say(fmt.Sprintf("Running post-processor: %s (type %s)", corePP.PName, corePP.PType)) } ts := CheckpointReporter.AddSpan(corePP.PType, "post-processor", corePP.config) artifact, defaultKeep, forceOverride, err := corePP.PostProcessor.PostProcess(ctx, ppUi, priorArtifact) ts.End(err) if err != nil { errors = append(errors, fmt.Errorf("Post-processor failed: %s", err)) continue PostProcessorRunSeqLoop } if artifact == nil { log.Println("Nil artifact, halting post-processor chain.") continue PostProcessorRunSeqLoop } keep := defaultKeep // When user has not set keep_input_artifact // corePP.keepInputArtifact is nil. // In this case, use the keepDefault provided by the postprocessor. // When user _has_ set keep_input_artifact, go with that instead. // Exception: for postprocessors that will fail/become // useless if keep isn't true, heed forceOverride and keep the // input artifact regardless of user preference. if corePP.keepInputArtifact != nil { if defaultKeep && *corePP.keepInputArtifact == false && forceOverride { log.Printf("The %s post-processor forces "+ "keep_input_artifact=true to preserve integrity of the"+ "build chain. User-set keep_input_artifact=false will be"+ "ignored.", corePP.PType) } else { // User overrides default. keep = *corePP.keepInputArtifact } } if i == 0 { // This is the first post-processor. We handle deleting // previous artifacts a bit different because multiple // post-processors may be using the original and need it. if !keepOriginalArtifact && keep { log.Printf( "Flagging to keep original artifact from post-processor '%s'", corePP.PType) keepOriginalArtifact = true } } else { // We have a prior artifact. If we want to keep it, we append // it to the results list. Otherwise, we destroy it. if keep { artifacts = append(artifacts, priorArtifact) } else { log.Printf("Deleting prior artifact from post-processor '%s'", corePP.PType) if err := priorArtifact.Destroy(); err != nil { log.Printf("Error is %#v", err) errors = append(errors, fmt.Errorf("Failed cleaning up prior artifact: %s; pp is %s", err, corePP.PType)) } } } priorArtifact = artifact } // Add on the last artifact to the results if priorArtifact != nil { artifacts = append(artifacts, priorArtifact) } } if keepOriginalArtifact { artifacts = append(artifacts, nil) copy(artifacts[1:], artifacts) artifacts[0] = builderArtifact } else { log.Printf("Deleting original artifact for build '%s'", b.Type) if err := builderArtifact.Destroy(); err != nil { errors = append(errors, fmt.Errorf("Error destroying builder artifact: %s; bad artifact: %#v", err, builderArtifact.Files())) } } if len(errors) > 0 { err = &MultiError{errors} } return artifacts, err } func (b *CoreBuild) SetDebug(val bool) { if b.prepareCalled { panic("prepare has already been called") } b.debug = val } func (b *CoreBuild) SetForce(val bool) { if b.prepareCalled { panic("prepare has already been called") } b.force = val } func (b *CoreBuild) SetOnError(val string) { if b.prepareCalled { panic("prepare has already been called") } b.onError = val }