package hcl2template import ( "fmt" "sort" "strings" "github.com/gobwas/glob" "github.com/hashicorp/hcl/v2" "github.com/hashicorp/hcl/v2/hclsyntax" "github.com/hashicorp/packer/packer" "github.com/hashicorp/packer/version" "github.com/zclconf/go-cty/cty" ) // PackerConfig represents a loaded Packer HCL config. It will contain // references to all possible blocks of the allowed configuration. type PackerConfig struct { // Directory where the config files are defined Basedir string // directory Packer was called from Cwd string // Available Source blocks Sources map[SourceRef]SourceBlock // InputVariables and LocalVariables are the list of defined input and // local variables. They are of the same type but are not used in the same // way. Local variables will not be decoded from any config file, env var, // or ect. Like the Input variables will. InputVariables Variables LocalVariables Variables LocalBlocks []*LocalBlock ValidationOptions // Builds is the list of Build blocks defined in the config files. Builds Builds builderSchemas packer.BuilderStore provisionersSchemas packer.ProvisionerStore postProcessorsSchemas packer.PostProcessorStore except []glob.Glob only []glob.Glob parser *Parser files []*hcl.File } type ValidationOptions struct { Strict bool } const ( inputVariablesAccessor = "var" localsAccessor = "local" pathVariablesAccessor = "path" sourcesAccessor = "source" buildAccessor = "build" packerAccessor = "packer" ) // EvalContext returns the *hcl.EvalContext that will be passed to an hcl // decoder in order to tell what is the actual value of a var or a local and // the list of defined functions. func (cfg *PackerConfig) EvalContext(variables map[string]cty.Value) *hcl.EvalContext { inputVariables, _ := cfg.InputVariables.Values() localVariables, _ := cfg.LocalVariables.Values() ectx := &hcl.EvalContext{ Functions: Functions(cfg.Basedir), Variables: map[string]cty.Value{ inputVariablesAccessor: cty.ObjectVal(inputVariables), localsAccessor: cty.ObjectVal(localVariables), sourcesAccessor: cty.ObjectVal(map[string]cty.Value{ "type": cty.UnknownVal(cty.String), "name": cty.UnknownVal(cty.String), }), buildAccessor: cty.UnknownVal(cty.EmptyObject), packerAccessor: cty.ObjectVal(map[string]cty.Value{ "version": cty.StringVal(version.FormattedVersion()), }), pathVariablesAccessor: cty.ObjectVal(map[string]cty.Value{ "cwd": cty.StringVal(strings.ReplaceAll(cfg.Cwd, `\`, `/`)), "root": cty.StringVal(strings.ReplaceAll(cfg.Basedir, `\`, `/`)), }), }, } for k, v := range variables { ectx.Variables[k] = v } return ectx } // decodeInputVariables looks in the found blocks for 'variables' and // 'variable' blocks. It should be called firsthand so that other blocks can // use the variables. func (c *PackerConfig) decodeInputVariables(f *hcl.File) hcl.Diagnostics { var diags hcl.Diagnostics content, moreDiags := f.Body.Content(configSchema) diags = append(diags, moreDiags...) for _, block := range content.Blocks { switch block.Type { case variableLabel: moreDiags := c.InputVariables.decodeVariableBlock(block, nil) diags = append(diags, moreDiags...) case variablesLabel: attrs, moreDiags := block.Body.JustAttributes() diags = append(diags, moreDiags...) for key, attr := range attrs { moreDiags = c.InputVariables.decodeVariable(key, attr, nil) diags = append(diags, moreDiags...) } } } return diags } // parseLocalVariables looks in the found blocks for 'locals' blocks. It // should be called after parsing input variables so that they can be // referenced. func (c *PackerConfig) parseLocalVariables(f *hcl.File) ([]*LocalBlock, hcl.Diagnostics) { var diags hcl.Diagnostics content, moreDiags := f.Body.Content(configSchema) diags = append(diags, moreDiags...) var locals []*LocalBlock for _, block := range content.Blocks { switch block.Type { case localsLabel: attrs, moreDiags := block.Body.JustAttributes() diags = append(diags, moreDiags...) for name, attr := range attrs { if _, found := c.LocalVariables[name]; found { diags = append(diags, &hcl.Diagnostic{ Severity: hcl.DiagError, Summary: "Duplicate value in " + localsLabel, Detail: "Duplicate " + name + " definition found.", Subject: attr.NameRange.Ptr(), Context: block.DefRange.Ptr(), }) return nil, diags } locals = append(locals, &LocalBlock{ Name: name, Expr: attr.Expr, }) } } } return locals, diags } func (c *PackerConfig) evaluateLocalVariables(locals []*LocalBlock) hcl.Diagnostics { var diags hcl.Diagnostics if len(locals) > 0 && c.LocalVariables == nil { c.LocalVariables = Variables{} } var retry, previousL int for len(locals) > 0 { local := locals[0] moreDiags := c.evaluateLocalVariable(local) if moreDiags.HasErrors() { if len(locals) == 1 { // If this is the only local left there's no need // to try evaluating again return append(diags, moreDiags...) } if previousL == len(locals) { if retry == 100 { // To get to this point, locals must have a circle dependency return append(diags, moreDiags...) } retry++ } previousL = len(locals) // If local uses another local that has not been evaluated yet this could be the reason of errors // Push local to the end of slice to be evaluated later locals = append(locals, local) } else { retry = 0 diags = append(diags, moreDiags...) } // Remove local from slice locals = append(locals[:0], locals[1:]...) } return diags } func (c *PackerConfig) evaluateLocalVariable(local *LocalBlock) hcl.Diagnostics { var diags hcl.Diagnostics value, moreDiags := local.Expr.Value(c.EvalContext(nil)) diags = append(diags, moreDiags...) if moreDiags.HasErrors() { return diags } c.LocalVariables[local.Name] = &Variable{ Name: local.Name, DefaultValue: value, Type: value.Type(), } return diags } // getCoreBuildProvisioners takes a list of provisioner block, starts according // provisioners and sends parsed HCL2 over to it. func (cfg *PackerConfig) getCoreBuildProvisioners(source SourceBlock, blocks []*ProvisionerBlock, ectx *hcl.EvalContext) ([]packer.CoreBuildProvisioner, hcl.Diagnostics) { var diags hcl.Diagnostics res := []packer.CoreBuildProvisioner{} for _, pb := range blocks { if pb.OnlyExcept.Skip(source.String()) { continue } provisioner, moreDiags := cfg.startProvisioner(source, pb, ectx) diags = append(diags, moreDiags...) if moreDiags.HasErrors() { continue } // If we're pausing, we wrap the provisioner in a special pauser. if pb.PauseBefore != 0 { provisioner = &packer.PausedProvisioner{ PauseBefore: pb.PauseBefore, Provisioner: provisioner, } } else if pb.Timeout != 0 { provisioner = &packer.TimeoutProvisioner{ Timeout: pb.Timeout, Provisioner: provisioner, } } if pb.MaxRetries != 0 { provisioner = &packer.RetriedProvisioner{ MaxRetries: pb.MaxRetries, Provisioner: provisioner, } } res = append(res, packer.CoreBuildProvisioner{ PType: pb.PType, PName: pb.PName, Provisioner: provisioner, }) } return res, diags } // getCoreBuildProvisioners takes a list of post processor block, starts // according provisioners and sends parsed HCL2 over to it. func (cfg *PackerConfig) getCoreBuildPostProcessors(source SourceBlock, blocksList [][]*PostProcessorBlock, ectx *hcl.EvalContext) ([][]packer.CoreBuildPostProcessor, hcl.Diagnostics) { var diags hcl.Diagnostics res := [][]packer.CoreBuildPostProcessor{} for _, blocks := range blocksList { pps := []packer.CoreBuildPostProcessor{} for _, ppb := range blocks { if ppb.OnlyExcept.Skip(source.String()) { continue } name := ppb.PName if name == "" { name = ppb.PType } // -except exclude := false for _, exceptGlob := range cfg.except { if exceptGlob.Match(name) { exclude = true break } } if exclude { break } postProcessor, moreDiags := cfg.startPostProcessor(source, ppb, ectx) diags = append(diags, moreDiags...) if moreDiags.HasErrors() { continue } pps = append(pps, packer.CoreBuildPostProcessor{ PostProcessor: postProcessor, PName: ppb.PName, PType: ppb.PType, KeepInputArtifact: ppb.KeepInputArtifact, }) } if len(pps) > 0 { res = append(res, pps) } } return res, diags } // GetBuilds returns a list of packer Build based on the HCL2 parsed build // blocks. All Builders, Provisioners and Post Processors will be started and // configured. func (cfg *PackerConfig) GetBuilds(opts packer.GetBuildsOptions) ([]packer.Build, hcl.Diagnostics) { res := []packer.Build{} var diags hcl.Diagnostics for _, build := range cfg.Builds { for _, from := range build.Sources { src, found := cfg.Sources[from.Ref()] if !found { diags = append(diags, &hcl.Diagnostic{ Summary: "Unknown " + sourceLabel + " " + from.String(), Subject: build.HCL2Ref.DefRange.Ptr(), Severity: hcl.DiagError, Detail: fmt.Sprintf("Known: %v", cfg.Sources), }) continue } src.addition = from.addition src.LocalName = from.LocalName pcb := &packer.CoreBuild{ BuildName: build.Name, Type: src.String(), } // Apply the -only and -except command-line options to exclude matching builds. buildName := pcb.Name() // -only if len(opts.Only) > 0 { onlyGlobs, diags := convertFilterOption(opts.Only, "only") if diags.HasErrors() { return nil, diags } cfg.only = onlyGlobs include := false for _, onlyGlob := range onlyGlobs { if onlyGlob.Match(buildName) { include = true break } } if !include { continue } } // -except if len(opts.Except) > 0 { exceptGlobs, diags := convertFilterOption(opts.Except, "except") if diags.HasErrors() { return nil, diags } cfg.except = exceptGlobs exclude := false for _, exceptGlob := range exceptGlobs { if exceptGlob.Match(buildName) { exclude = true break } } if exclude { continue } } builder, moreDiags, generatedVars := cfg.startBuilder(src, cfg.EvalContext(nil), opts) diags = append(diags, moreDiags...) if moreDiags.HasErrors() { continue } // 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. Otherwise, // only pass the default variables, using the basic placeholder data. unknownBuildValues := map[string]cty.Value{} for _, k := range append(packer.BuilderDataCommonKeys, generatedVars...) { unknownBuildValues[k] = cty.StringVal("") } unknownBuildValues["name"] = cty.StringVal(build.Name) variables := map[string]cty.Value{ sourcesAccessor: cty.ObjectVal(src.ctyValues()), buildAccessor: cty.ObjectVal(unknownBuildValues), } provisioners, moreDiags := cfg.getCoreBuildProvisioners(src, build.ProvisionerBlocks, cfg.EvalContext(variables)) diags = append(diags, moreDiags...) if moreDiags.HasErrors() { continue } pps, moreDiags := cfg.getCoreBuildPostProcessors(src, build.PostProcessorsLists, cfg.EvalContext(variables)) diags = append(diags, moreDiags...) if moreDiags.HasErrors() { continue } pcb.Builder = builder pcb.Provisioners = provisioners pcb.PostProcessors = pps pcb.Prepared = true // Prepare just sets the "prepareCalled" flag on CoreBuild, since // we did all the prep here. _, err := pcb.Prepare() if err != nil { diags = append(diags, &hcl.Diagnostic{ Severity: hcl.DiagError, Summary: fmt.Sprintf("Preparing packer core build %s failed", src.Ref().String()), Detail: err.Error(), Subject: build.HCL2Ref.DefRange.Ptr(), }) continue } res = append(res, pcb) } } return res, diags } var PackerConsoleHelp = strings.TrimSpace(` Packer console HCL2 Mode. The Packer console allows you to experiment with Packer interpolations. You may access variables and functions in the Packer config you called the console with. Type in the interpolation to test and hit to see the result. "upper(var.foo.id)" would evaluate to the ID of "foo" and uppercase is, if it exists in your config file. "variables" will dump all available variables and their values. To exit the console, type "exit" and hit , or use Control-C. /!\ It is not possible to use go templating interpolation like "{{timestamp}}" with in HCL2 mode. `) func (p *PackerConfig) EvaluateExpression(line string) (out string, exit bool, diags hcl.Diagnostics) { switch { case line == "": return "", false, nil case line == "exit": return "", true, nil case line == "help": return PackerConsoleHelp, false, nil case line == "variables": return p.printVariables(), false, nil default: return p.handleEval(line) } } func (p *PackerConfig) printVariables() string { out := &strings.Builder{} out.WriteString("> input-variables:\n\n") keys := p.InputVariables.Keys() sort.Strings(keys) for _, key := range keys { v := p.InputVariables[key] val, _ := v.Value() fmt.Fprintf(out, "var.%s: %q\n", v.Name, PrintableCtyValue(val)) } out.WriteString("\n> local-variables:\n\n") keys = p.LocalVariables.Keys() sort.Strings(keys) for _, key := range keys { v := p.LocalVariables[key] val, _ := v.Value() fmt.Fprintf(out, "local.%s: %q\n", v.Name, PrintableCtyValue(val)) } return out.String() } func (p *PackerConfig) printBuilds() string { out := &strings.Builder{} out.WriteString("> builds:\n") for i, build := range p.Builds { name := build.Name if name == "" { name = fmt.Sprintf("", i) } fmt.Fprintf(out, "\n > %s:\n", name) if build.Description != "" { fmt.Fprintf(out, "\n > Description: %s\n", build.Description) } fmt.Fprintf(out, "\n sources:\n") if len(build.Sources) == 0 { fmt.Fprintf(out, "\n \n") } for _, source := range build.Sources { fmt.Fprintf(out, "\n %s\n", source) } fmt.Fprintf(out, "\n provisioners:\n\n") if len(build.ProvisionerBlocks) == 0 { fmt.Fprintf(out, " \n") } for _, prov := range build.ProvisionerBlocks { str := prov.PType if prov.PName != "" { str = strings.Join([]string{prov.PType, prov.PName}, ".") } fmt.Fprintf(out, " %s\n", str) } fmt.Fprintf(out, "\n post-processors:\n") if len(build.PostProcessorsLists) == 0 { fmt.Fprintf(out, "\n \n") } for i, ppList := range build.PostProcessorsLists { fmt.Fprintf(out, "\n %d:\n", i) for _, pp := range ppList { str := pp.PType if pp.PName != "" { str = strings.Join([]string{pp.PType, pp.PName}, ".") } fmt.Fprintf(out, " %s\n", str) } } } return out.String() } func (p *PackerConfig) handleEval(line string) (out string, exit bool, diags hcl.Diagnostics) { // Parse the given line as an expression expr, parseDiags := hclsyntax.ParseExpression([]byte(line), "", hcl.Pos{Line: 1, Column: 1}) diags = append(diags, parseDiags...) if parseDiags.HasErrors() { return "", false, diags } val, valueDiags := expr.Value(p.EvalContext(nil)) diags = append(diags, valueDiags...) if valueDiags.HasErrors() { return "", false, diags } return PrintableCtyValue(val), false, diags } func (p *PackerConfig) FixConfig(_ packer.FixConfigOptions) (diags hcl.Diagnostics) { // No Fixers exist for HCL2 configs so there is nothing to do here for now. return } func (p *PackerConfig) InspectConfig(opts packer.InspectConfigOptions) int { ui := opts.Ui ui.Say("Packer Inspect: HCL2 mode\n") ui.Say(p.printVariables()) ui.Say(p.printBuilds()) return 0 }