package hcl2template import ( "crypto/sha256" "fmt" "log" "runtime" "github.com/hashicorp/hcl/v2" "github.com/hashicorp/hcl/v2/ext/dynblock" pluginsdk "github.com/hashicorp/packer-plugin-sdk/plugin" plugingetter "github.com/hashicorp/packer/packer/plugin-getter" ) // PluginRequirements returns a sorted list of plugin requirements. func (cfg *PackerConfig) PluginRequirements() (plugingetter.Requirements, hcl.Diagnostics) { var diags hcl.Diagnostics var reqs plugingetter.Requirements reqPluginsBlocks := cfg.Packer.RequiredPlugins // Take all required plugins, make sure there are no conflicting blocks // and append them to the list. uniq := map[string]*RequiredPlugin{} for _, requiredPluginsBlock := range reqPluginsBlocks { for name, block := range requiredPluginsBlock.RequiredPlugins { if previouslySeenBlock, found := uniq[name]; found { diags = append(diags, &hcl.Diagnostic{ Severity: hcl.DiagError, Summary: fmt.Sprintf("Duplicate required_plugin.%q block", name), Detail: fmt.Sprintf("Block previously seen at %s is already named %q.\n", previouslySeenBlock.DeclRange, name) + "Names at the left hand side of required_plugins are made available to use in your HCL2 configurations.\n" + "To allow to calling to their features correctly two plugins have to have different accessors.", Context: &block.DeclRange, }) continue } reqs = append(reqs, &plugingetter.Requirement{ Accessor: name, Identifier: block.Type, VersionConstraints: block.Requirement.Required, Implicit: block.PluginDependencyReason == PluginDependencyImplicit, }) uniq[name] = block } } return reqs, diags } func (cfg *PackerConfig) detectPluginBinaries() hcl.Diagnostics { opts := plugingetter.ListInstallationsOptions{ FromFolders: cfg.parser.PluginConfig.KnownPluginFolders, BinaryInstallationOptions: plugingetter.BinaryInstallationOptions{ OS: runtime.GOOS, ARCH: runtime.GOARCH, APIVersionMajor: pluginsdk.APIVersionMajor, APIVersionMinor: pluginsdk.APIVersionMinor, Checksummers: []plugingetter.Checksummer{ {Type: "sha256", Hash: sha256.New()}, }, }, } if runtime.GOOS == "windows" && opts.Ext == "" { opts.BinaryInstallationOptions.Ext = ".exe" } pluginReqs, diags := cfg.PluginRequirements() if diags.HasErrors() { return diags } for _, pluginRequirement := range pluginReqs { sortedInstalls, err := pluginRequirement.ListInstallations(opts) if err != nil { diags = append(diags, &hcl.Diagnostic{ Severity: hcl.DiagError, Summary: fmt.Sprintf("Failed to list installation for %s", pluginRequirement.Identifier), Detail: err.Error(), }) continue } if len(sortedInstalls) == 0 { diags = append(diags, &hcl.Diagnostic{ Severity: hcl.DiagError, Summary: fmt.Sprintf("no plugin installed for %s %v", pluginRequirement.Identifier, pluginRequirement.VersionConstraints.String()), Detail: "Did you run packer init for this project ?", }) continue } log.Printf("[TRACE] Found the following %q installations: %v", pluginRequirement.Identifier, sortedInstalls) install := sortedInstalls[len(sortedInstalls)-1] err = cfg.parser.PluginConfig.DiscoverMultiPlugin(pluginRequirement.Accessor, install.BinaryPath) if err != nil { diags = append(diags, &hcl.Diagnostic{ Severity: hcl.DiagError, Summary: fmt.Sprintf("Error discovering plugin %s", pluginRequirement.Identifier), Detail: err.Error(), }) continue } } return diags } func (cfg *PackerConfig) initializeBlocks() hcl.Diagnostics { // verify that all used plugins do exist and expand dynamic bodies var diags hcl.Diagnostics for _, build := range cfg.Builds { for i := range build.Sources { // here we grab a pointer to the source usage because we will set // its body. srcUsage := &(build.Sources[i]) if !cfg.parser.PluginConfig.Builders.Has(srcUsage.Type) { diags = append(diags, &hcl.Diagnostic{ Summary: "Unknown " + buildSourceLabel + " type " + srcUsage.Type, Subject: &build.HCL2Ref.DefRange, Detail: fmt.Sprintf("known builders: %v", cfg.parser.PluginConfig.Builders.List()), Severity: hcl.DiagError, }) continue } sourceDefinition, found := cfg.Sources[srcUsage.SourceRef] if !found { diags = append(diags, &hcl.Diagnostic{ Summary: "Unknown " + sourceLabel + " " + srcUsage.String(), Subject: build.HCL2Ref.DefRange.Ptr(), Severity: hcl.DiagError, Detail: fmt.Sprintf("Known: %v", cfg.Sources), // TODO: show known sources as a string slice here ^. }) continue } body := sourceDefinition.block.Body if srcUsage.Body != nil { // merge additions into source definition to get a new body. body = hcl.MergeBodies([]hcl.Body{body, srcUsage.Body}) } // expand any dynamic block. body = dynblock.Expand(body, cfg.EvalContext(BuildContext, nil)) srcUsage.Body = body } for _, provBlock := range build.ProvisionerBlocks { if !cfg.parser.PluginConfig.Provisioners.Has(provBlock.PType) { diags = append(diags, &hcl.Diagnostic{ Summary: fmt.Sprintf("Unknown "+buildProvisionerLabel+" type %q", provBlock.PType), Subject: provBlock.HCL2Ref.TypeRange.Ptr(), Detail: fmt.Sprintf("known "+buildProvisionerLabel+"s: %v", cfg.parser.PluginConfig.Provisioners.List()), Severity: hcl.DiagError, }) } // Allow rest of the body to have dynamic blocks provBlock.HCL2Ref.Rest = dynblock.Expand(provBlock.HCL2Ref.Rest, cfg.EvalContext(BuildContext, nil)) } if build.ErrorCleanupProvisionerBlock != nil { if !cfg.parser.PluginConfig.Provisioners.Has(build.ErrorCleanupProvisionerBlock.PType) { diags = append(diags, &hcl.Diagnostic{ Summary: fmt.Sprintf("Unknown "+buildErrorCleanupProvisionerLabel+" type %q", build.ErrorCleanupProvisionerBlock.PType), Subject: build.ErrorCleanupProvisionerBlock.HCL2Ref.TypeRange.Ptr(), Detail: fmt.Sprintf("known "+buildErrorCleanupProvisionerLabel+"s: %v", cfg.parser.PluginConfig.Provisioners.List()), Severity: hcl.DiagError, }) } // Allow rest of the body to have dynamic blocks build.ErrorCleanupProvisionerBlock.HCL2Ref.Rest = dynblock.Expand(build.ErrorCleanupProvisionerBlock.HCL2Ref.Rest, cfg.EvalContext(BuildContext, nil)) } for _, ppList := range build.PostProcessorsLists { for _, ppBlock := range ppList { if !cfg.parser.PluginConfig.PostProcessors.Has(ppBlock.PType) { diags = append(diags, &hcl.Diagnostic{ Summary: fmt.Sprintf("Unknown "+buildPostProcessorLabel+" type %q", ppBlock.PType), Subject: ppBlock.HCL2Ref.TypeRange.Ptr(), Detail: fmt.Sprintf("known "+buildPostProcessorLabel+"s: %v", cfg.parser.PluginConfig.PostProcessors.List()), Severity: hcl.DiagError, }) } // Allow the rest of the body to have dynamic blocks ppBlock.HCL2Ref.Rest = dynblock.Expand(ppBlock.HCL2Ref.Rest, cfg.EvalContext(BuildContext, nil)) } } } return diags }