package configs import ( "github.com/hashicorp/hcl/v2" ) // LoadConfigFile reads the file at the given path and parses it as a config // file. // // If the file cannot be read -- for example, if it does not exist -- then // a nil *File will be returned along with error diagnostics. Callers may wish // to disregard the returned diagnostics in this case and instead generate // their own error message(s) with additional context. // // If the returned diagnostics has errors when a non-nil map is returned // then the map may be incomplete but should be valid enough for careful // static analysis. // // This method wraps LoadHCLFile, and so it inherits the syntax selection // behaviors documented for that method. func (p *Parser) LoadConfigFile(path string) (*File, hcl.Diagnostics) { return p.loadConfigFile(path, false) } // LoadConfigFileOverride is the same as LoadConfigFile except that it relaxes // certain required attribute constraints in order to interpret the given // file as an overrides file. func (p *Parser) LoadConfigFileOverride(path string) (*File, hcl.Diagnostics) { return p.loadConfigFile(path, true) } func (p *Parser) loadConfigFile(path string, override bool) (*File, hcl.Diagnostics) { body, diags := p.LoadHCLFile(path) if body == nil { return nil, diags } file := &File{} var reqDiags hcl.Diagnostics file.CoreVersionConstraints, reqDiags = sniffCoreVersionRequirements(body) diags = append(diags, reqDiags...) // We'll load the experiments first because other decoding logic in the // loop below might depend on these experiments. var expDiags hcl.Diagnostics file.ActiveExperiments, expDiags = sniffActiveExperiments(body) diags = append(diags, expDiags...) content, contentDiags := body.Content(configFileSchema) diags = append(diags, contentDiags...) for _, block := range content.Blocks { switch block.Type { case "terraform": content, contentDiags := block.Body.Content(terraformBlockSchema) diags = append(diags, contentDiags...) // We ignore the "terraform_version" and "experiments" attributes // here because sniffCoreVersionRequirements and // sniffActiveExperiments already dealt with those above. for _, innerBlock := range content.Blocks { switch innerBlock.Type { case "backend": backendCfg, cfgDiags := decodeBackendBlock(innerBlock) diags = append(diags, cfgDiags...) if backendCfg != nil { file.Backends = append(file.Backends, backendCfg) } case "required_providers": reqs, reqsDiags := decodeRequiredProvidersBlock(innerBlock) diags = append(diags, reqsDiags...) file.RequiredProviders = append(file.RequiredProviders, reqs...) case "provider_meta": providerCfg, cfgDiags := decodeProviderMetaBlock(innerBlock) diags = append(diags, cfgDiags...) if providerCfg != nil { file.ProviderMetas = append(file.ProviderMetas, providerCfg) } default: // Should never happen because the above cases should be exhaustive // for all block type names in our schema. continue } } case "provider": cfg, cfgDiags := decodeProviderBlock(block) diags = append(diags, cfgDiags...) if cfg != nil { file.ProviderConfigs = append(file.ProviderConfigs, cfg) } case "variable": cfg, cfgDiags := decodeVariableBlock(block, override) diags = append(diags, cfgDiags...) if cfg != nil { file.Variables = append(file.Variables, cfg) } case "locals": defs, defsDiags := decodeLocalsBlock(block) diags = append(diags, defsDiags...) file.Locals = append(file.Locals, defs...) case "output": cfg, cfgDiags := decodeOutputBlock(block, override) diags = append(diags, cfgDiags...) if cfg != nil { file.Outputs = append(file.Outputs, cfg) } case "module": cfg, cfgDiags := decodeModuleBlock(block, override) diags = append(diags, cfgDiags...) if cfg != nil { file.ModuleCalls = append(file.ModuleCalls, cfg) } case "resource": cfg, cfgDiags := decodeResourceBlock(block) diags = append(diags, cfgDiags...) if cfg != nil { file.ManagedResources = append(file.ManagedResources, cfg) } case "data": cfg, cfgDiags := decodeDataBlock(block) diags = append(diags, cfgDiags...) if cfg != nil { file.DataResources = append(file.DataResources, cfg) } default: // Should never happen because the above cases should be exhaustive // for all block type names in our schema. continue } } return file, diags } // sniffCoreVersionRequirements does minimal parsing of the given body for // "terraform" blocks with "required_version" attributes, returning the // requirements found. // // This is intended to maximize the chance that we'll be able to read the // requirements (syntax errors notwithstanding) even if the config file contains // constructs that might've been added in future Terraform versions // // This is a "best effort" sort of method which will return constraints it is // able to find, but may return no constraints at all if the given body is // so invalid that it cannot be decoded at all. func sniffCoreVersionRequirements(body hcl.Body) ([]VersionConstraint, hcl.Diagnostics) { rootContent, _, diags := body.PartialContent(configFileTerraformBlockSniffRootSchema) var constraints []VersionConstraint for _, block := range rootContent.Blocks { content, _, blockDiags := block.Body.PartialContent(configFileVersionSniffBlockSchema) diags = append(diags, blockDiags...) attr, exists := content.Attributes["required_version"] if !exists { continue } constraint, constraintDiags := decodeVersionConstraint(attr) diags = append(diags, constraintDiags...) if !constraintDiags.HasErrors() { constraints = append(constraints, constraint) } } return constraints, diags } // configFileSchema is the schema for the top-level of a config file. We use // the low-level HCL API for this level so we can easily deal with each // block type separately with its own decoding logic. var configFileSchema = &hcl.BodySchema{ Blocks: []hcl.BlockHeaderSchema{ { Type: "terraform", }, { Type: "provider", LabelNames: []string{"name"}, }, { Type: "variable", LabelNames: []string{"name"}, }, { Type: "locals", }, { Type: "output", LabelNames: []string{"name"}, }, { Type: "module", LabelNames: []string{"name"}, }, { Type: "resource", LabelNames: []string{"type", "name"}, }, { Type: "data", LabelNames: []string{"type", "name"}, }, }, } // terraformBlockSchema is the schema for a top-level "terraform" block in // a configuration file. var terraformBlockSchema = &hcl.BodySchema{ Attributes: []hcl.AttributeSchema{ {Name: "required_version"}, {Name: "experiments"}, }, Blocks: []hcl.BlockHeaderSchema{ { Type: "backend", LabelNames: []string{"type"}, }, { Type: "required_providers", }, { Type: "provider_meta", LabelNames: []string{"provider"}, }, }, } // configFileTerraformBlockSniffRootSchema is a schema for // sniffCoreVersionRequirements and sniffActiveExperiments. var configFileTerraformBlockSniffRootSchema = &hcl.BodySchema{ Blocks: []hcl.BlockHeaderSchema{ { Type: "terraform", }, }, } // configFileVersionSniffBlockSchema is a schema for sniffCoreVersionRequirements var configFileVersionSniffBlockSchema = &hcl.BodySchema{ Attributes: []hcl.AttributeSchema{ { Name: "required_version", }, }, } // configFileExperimentsSniffBlockSchema is a schema for sniffActiveExperiments, // to decode a single attribute from inside a "terraform" block. var configFileExperimentsSniffBlockSchema = &hcl.BodySchema{ Attributes: []hcl.AttributeSchema{ { Name: "experiments", }, }, }