terraform/configs/parser_config.go

package configs

import (
	"github.com/hashicorp/hcl2/hcl"
)

// 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...)

	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" attribute here because
			// sniffCoreVersionRequirements already dealt with that 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.ProviderRequirements = append(file.ProviderRequirements, reqs...)

				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(configFileVersionSniffRootSchema)

	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",
		},
	},
	Blocks: []hcl.BlockHeaderSchema{
		{
			Type:       "backend",
			LabelNames: []string{"type"},
		},
		{
			Type: "required_providers",
		},
	},
}

// configFileVersionSniffRootSchema is a schema for sniffCoreVersionRequirements
var configFileVersionSniffRootSchema = &hcl.BodySchema{
	Blocks: []hcl.BlockHeaderSchema{
		{
			Type: "terraform",
		},
	},
}

// configFileVersionSniffBlockSchema is a schema for sniffCoreVersionRequirements
var configFileVersionSniffBlockSchema = &hcl.BodySchema{
	Attributes: []hcl.AttributeSchema{
		{
			Name: "required_version",
		},
	},
}
configs: Parser.LoadConfigFile This is a first pass of decoding of the main Terraform configuration file format. It hasn't yet been tested with any real-world configurations, so it will need to be revised further as we test it more thoroughly. 2018-02-03 02:22:25 +01:00			`package configs`

			`import (`
			`"github.com/hashicorp/hcl2/hcl"`
			`)`

			`// 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) {`
configs: allow overrides files to omit args that primary files can't Some of the fields in our config structs are either mandatory in primary files or there is a default value that we apply if absent. Unfortunately override files impose the additional constraint that we be allowed to omit required fields (which have presumably already been set in the primary files) and that we are able to distinguish between a default value and omitting a value entirely. Since most of our fields were already acceptable for override files, here we just add some new fields to deal with the few cases where special handling is required and a helper function to disable the "Required" flag on attributes in a given schema. 2018-02-07 03:05:14 +01:00			`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) {`

configs: Parser.LoadConfigFile This is a first pass of decoding of the main Terraform configuration file format. It hasn't yet been tested with any real-world configurations, so it will need to be revised further as we test it more thoroughly. 2018-02-03 02:22:25 +01:00			`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...)`

			`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" attribute here because`
			`// sniffCoreVersionRequirements already dealt with that 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.ProviderRequirements = append(file.ProviderRequirements, reqs...)`

			`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":`
configs: allow full type constraints for variables Previously we just ported over the simple "string", "list", and "map" type hint keywords from the old loader, which exist primarily as hints to the CLI for whether to treat -var=... arguments and environment variables as literal strings or as HCL expressions. However, we've been requested before to allow more specific constraints here because it's generally better UX for a type error to be detected within an expression in a calling "module" block rather than at some point deep inside a third-party module. To allow for more specific constraints, here we use the type constraint expression syntax defined as an extension within HCL, which uses the variable and function call syntaxes to represent types rather than values, like this: - string - number - bool - list(string) - list(any) - list(map(string)) - object({id=string,name=string}) In native HCL syntax this looks like: variable "foo" { type = map(string) } In JSON, this looks like: { "variable": { "foo": { "type": "map(string)" } } } The selection of literal processing or HCL parsing of CLI-set values is now explicit in the model and separate from the type, though it's still derived from the type constraint and thus not directly controllable in configuration. Since this syntax is more complex than the keywords that replaced it, for now the simpler keywords are still supported and "list" and "map" are interpreted as list(any) and map(any) respectively, mimicking how they were interpreted by Terraform 0.11 and earlier. For the time being our documentation should continue to recommend these shorthand versions until we gain more experience with the more-specific type constraints; most users should just make use of the additional primitive type constraints this enables: bool and number. As a result of these more-complete type constraints, we can now type-check the default value at config load time, which has the nice side-effect of allowing us to produce a tailored error message if an override file produces an invalid situation; previously the result was rather confusing because the error message referred to the original definition of the variable and not the overridden parts. 2018-03-07 02:37:51 +01:00			`cfg, cfgDiags := decodeVariableBlock(block, override)`
configs: Parser.LoadConfigFile This is a first pass of decoding of the main Terraform configuration file format. It hasn't yet been tested with any real-world configurations, so it will need to be revised further as we test it more thoroughly. 2018-02-03 02:22:25 +01:00			`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":`
configs: allow overrides files to omit args that primary files can't Some of the fields in our config structs are either mandatory in primary files or there is a default value that we apply if absent. Unfortunately override files impose the additional constraint that we be allowed to omit required fields (which have presumably already been set in the primary files) and that we are able to distinguish between a default value and omitting a value entirely. Since most of our fields were already acceptable for override files, here we just add some new fields to deal with the few cases where special handling is required and a helper function to disable the "Required" flag on attributes in a given schema. 2018-02-07 03:05:14 +01:00			`cfg, cfgDiags := decodeOutputBlock(block, override)`
configs: Parser.LoadConfigFile This is a first pass of decoding of the main Terraform configuration file format. It hasn't yet been tested with any real-world configurations, so it will need to be revised further as we test it more thoroughly. 2018-02-03 02:22:25 +01:00			`diags = append(diags, cfgDiags...)`
			`if cfg != nil {`
			`file.Outputs = append(file.Outputs, cfg)`
			`}`

			`case "module":`
configs: allow overrides files to omit args that primary files can't Some of the fields in our config structs are either mandatory in primary files or there is a default value that we apply if absent. Unfortunately override files impose the additional constraint that we be allowed to omit required fields (which have presumably already been set in the primary files) and that we are able to distinguish between a default value and omitting a value entirely. Since most of our fields were already acceptable for override files, here we just add some new fields to deal with the few cases where special handling is required and a helper function to disable the "Required" flag on attributes in a given schema. 2018-02-07 03:05:14 +01:00			`cfg, cfgDiags := decodeModuleBlock(block, override)`
configs: Parser.LoadConfigFile This is a first pass of decoding of the main Terraform configuration file format. It hasn't yet been tested with any real-world configurations, so it will need to be revised further as we test it more thoroughly. 2018-02-03 02:22:25 +01:00			`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(configFileVersionSniffRootSchema)`

			`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",`
			`},`
			`},`
			`Blocks: []hcl.BlockHeaderSchema{`
			`{`
			`Type: "backend",`
			`LabelNames: []string{"type"},`
			`},`
			`{`
			`Type: "required_providers",`
			`},`
			`},`
			`}`

			`// configFileVersionSniffRootSchema is a schema for sniffCoreVersionRequirements`
			`var configFileVersionSniffRootSchema = &hcl.BodySchema{`
			`Blocks: []hcl.BlockHeaderSchema{`
			`{`
			`Type: "terraform",`
			`},`
			`},`
			`}`

			`// configFileVersionSniffBlockSchema is a schema for sniffCoreVersionRequirements`
			`var configFileVersionSniffBlockSchema = &hcl.BodySchema{`
			`Attributes: []hcl.AttributeSchema{`
			`{`
			`Name: "required_version",`
			`},`
			`},`
			`}`