package addrs import ( "fmt" "strings" "github.com/hashicorp/terraform/internal/tfdiags" "github.com/zclconf/go-cty/cty" "github.com/hashicorp/hcl/v2" "github.com/hashicorp/hcl/v2/hclsyntax" ) // ProviderConfig is an interface type whose dynamic type can be either // LocalProviderConfig or AbsProviderConfig, in order to represent situations // where a value might either be module-local or absolute but the decision // cannot be made until runtime. // // Where possible, use either LocalProviderConfig or AbsProviderConfig directly // instead, to make intent more clear. ProviderConfig can be used only in // situations where the recipient of the value has some out-of-band way to // determine a "current module" to use if the value turns out to be // a LocalProviderConfig. // // Recipients of non-nil ProviderConfig values that actually need // AbsProviderConfig values should call ResolveAbsProviderAddr on the // *configs.Config value representing the root module configuration, which // handles the translation from local to fully-qualified using mapping tables // defined in the configuration. // // Recipients of a ProviderConfig value can assume it can contain only a // LocalProviderConfig value, an AbsProviderConfigValue, or nil to represent // the absense of a provider config in situations where that is meaningful. type ProviderConfig interface { providerConfig() } // LocalProviderConfig is the address of a provider configuration from the // perspective of references in a particular module. // // Finding the corresponding AbsProviderConfig will require looking up the // LocalName in the providers table in the module's configuration; there is // no syntax-only translation between these types. type LocalProviderConfig struct { LocalName string // If not empty, Alias identifies which non-default (aliased) provider // configuration this address refers to. Alias string } var _ ProviderConfig = LocalProviderConfig{} // NewDefaultLocalProviderConfig returns the address of the default (un-aliased) // configuration for the provider with the given local type name. func NewDefaultLocalProviderConfig(LocalNameName string) LocalProviderConfig { return LocalProviderConfig{ LocalName: LocalNameName, } } // providerConfig Implements addrs.ProviderConfig. func (pc LocalProviderConfig) providerConfig() {} func (pc LocalProviderConfig) String() string { if pc.LocalName == "" { // Should never happen; always indicates a bug return "provider." } if pc.Alias != "" { return fmt.Sprintf("provider.%s.%s", pc.LocalName, pc.Alias) } return "provider." + pc.LocalName } // StringCompact is an alternative to String that returns the form that can // be parsed by ParseProviderConfigCompact, without the "provider." prefix. func (pc LocalProviderConfig) StringCompact() string { if pc.Alias != "" { return fmt.Sprintf("%s.%s", pc.LocalName, pc.Alias) } return pc.LocalName } // AbsProviderConfig is the absolute address of a provider configuration // within a particular module instance. type AbsProviderConfig struct { Module Module Provider Provider Alias string } var _ ProviderConfig = AbsProviderConfig{} // ParseAbsProviderConfig parses the given traversal as an absolute provider // address. The following are examples of traversals that can be successfully // parsed as absolute provider configuration addresses: // // provider["registry.terraform.io/hashicorp/aws"] // provider["registry.terraform.io/hashicorp/aws"].foo // module.bar.provider["registry.terraform.io/hashicorp/aws"] // module.bar.module.baz.provider["registry.terraform.io/hashicorp/aws"].foo // // This type of address is used, for example, to record the relationships // between resources and provider configurations in the state structure. // This type of address is not generally used in the UI, except in error // messages that refer to provider configurations. func ParseAbsProviderConfig(traversal hcl.Traversal) (AbsProviderConfig, tfdiags.Diagnostics) { modInst, remain, diags := parseModuleInstancePrefix(traversal) var ret AbsProviderConfig // Providers cannot resolve within module instances, so verify that there // are no instance keys in the module path before converting to a Module. for _, step := range modInst { if step.InstanceKey != NoKey { diags = diags.Append(&hcl.Diagnostic{ Severity: hcl.DiagError, Summary: "Invalid provider configuration address", Detail: "Provider address cannot contain module indexes", Subject: remain.SourceRange().Ptr(), }) return ret, diags } } ret.Module = modInst.Module() if len(remain) < 2 || remain.RootName() != "provider" { diags = diags.Append(&hcl.Diagnostic{ Severity: hcl.DiagError, Summary: "Invalid provider configuration address", Detail: "Provider address must begin with \"provider.\", followed by a provider type name.", Subject: remain.SourceRange().Ptr(), }) return ret, diags } if len(remain) > 3 { diags = diags.Append(&hcl.Diagnostic{ Severity: hcl.DiagError, Summary: "Invalid provider configuration address", Detail: "Extraneous operators after provider configuration alias.", Subject: hcl.Traversal(remain[3:]).SourceRange().Ptr(), }) return ret, diags } if tt, ok := remain[1].(hcl.TraverseIndex); ok { if !tt.Key.Type().Equals(cty.String) { diags = diags.Append(&hcl.Diagnostic{ Severity: hcl.DiagError, Summary: "Invalid provider configuration address", Detail: "The prefix \"provider.\" must be followed by a provider type name.", Subject: remain[1].SourceRange().Ptr(), }) return ret, diags } p, sourceDiags := ParseProviderSourceString(tt.Key.AsString()) ret.Provider = p if sourceDiags.HasErrors() { diags = diags.Append(sourceDiags) return ret, diags } } else { diags = diags.Append(&hcl.Diagnostic{ Severity: hcl.DiagError, Summary: "Invalid provider configuration address", Detail: "The prefix \"provider.\" must be followed by a provider type name.", Subject: remain[1].SourceRange().Ptr(), }) return ret, diags } if len(remain) == 3 { if tt, ok := remain[2].(hcl.TraverseAttr); ok { ret.Alias = tt.Name } else { diags = diags.Append(&hcl.Diagnostic{ Severity: hcl.DiagError, Summary: "Invalid provider configuration address", Detail: "Provider type name must be followed by a configuration alias name.", Subject: remain[2].SourceRange().Ptr(), }) return ret, diags } } return ret, diags } // ParseAbsProviderConfigStr is a helper wrapper around ParseAbsProviderConfig // that takes a string and parses it with the HCL native syntax traversal parser // before interpreting it. // // This should be used only in specialized situations since it will cause the // created references to not have any meaningful source location information. // If a reference string is coming from a source that should be identified in // error messages then the caller should instead parse it directly using a // suitable function from the HCL API and pass the traversal itself to // ParseAbsProviderConfig. // // Error diagnostics are returned if either the parsing fails or the analysis // of the traversal fails. There is no way for the caller to distinguish the // two kinds of diagnostics programmatically. If error diagnostics are returned // the returned address is invalid. func ParseAbsProviderConfigStr(str string) (AbsProviderConfig, tfdiags.Diagnostics) { var diags tfdiags.Diagnostics traversal, parseDiags := hclsyntax.ParseTraversalAbs([]byte(str), "", hcl.Pos{Line: 1, Column: 1}) diags = diags.Append(parseDiags) if parseDiags.HasErrors() { return AbsProviderConfig{}, diags } addr, addrDiags := ParseAbsProviderConfig(traversal) diags = diags.Append(addrDiags) return addr, diags } func ParseLegacyAbsProviderConfigStr(str string) (AbsProviderConfig, tfdiags.Diagnostics) { var diags tfdiags.Diagnostics traversal, parseDiags := hclsyntax.ParseTraversalAbs([]byte(str), "", hcl.Pos{Line: 1, Column: 1}) diags = diags.Append(parseDiags) if parseDiags.HasErrors() { return AbsProviderConfig{}, diags } addr, addrDiags := ParseLegacyAbsProviderConfig(traversal) diags = diags.Append(addrDiags) return addr, diags } // ParseLegacyAbsProviderConfig parses the given traversal as an absolute // provider address. The following are examples of traversals that can be // successfully parsed as legacy absolute provider configuration addresses: // // provider.aws // provider.aws.foo // module.bar.provider.aws // module.bar.module.baz.provider.aws.foo // // This type of address is used in legacy state and may appear in state v4 if // the provider config addresses have not been normalized to include provider // FQN. func ParseLegacyAbsProviderConfig(traversal hcl.Traversal) (AbsProviderConfig, tfdiags.Diagnostics) { modInst, remain, diags := parseModuleInstancePrefix(traversal) var ret AbsProviderConfig // Providers cannot resolve within module instances, so verify that there // are no instance keys in the module path before converting to a Module. for _, step := range modInst { if step.InstanceKey != NoKey { diags = diags.Append(&hcl.Diagnostic{ Severity: hcl.DiagError, Summary: "Invalid provider configuration address", Detail: "Provider address cannot contain module indexes", Subject: remain.SourceRange().Ptr(), }) return ret, diags } } ret.Module = modInst.Module() if len(remain) < 2 || remain.RootName() != "provider" { diags = diags.Append(&hcl.Diagnostic{ Severity: hcl.DiagError, Summary: "Invalid provider configuration address", Detail: "Provider address must begin with \"provider.\", followed by a provider type name.", Subject: remain.SourceRange().Ptr(), }) return ret, diags } if len(remain) > 3 { diags = diags.Append(&hcl.Diagnostic{ Severity: hcl.DiagError, Summary: "Invalid provider configuration address", Detail: "Extraneous operators after provider configuration alias.", Subject: hcl.Traversal(remain[3:]).SourceRange().Ptr(), }) return ret, diags } // We always assume legacy-style providers in legacy state ... if tt, ok := remain[1].(hcl.TraverseAttr); ok { // ... unless it's the builtin "terraform" provider, a special case. if tt.Name == "terraform" { ret.Provider = NewBuiltInProvider(tt.Name) } else { ret.Provider = NewLegacyProvider(tt.Name) } } else { diags = diags.Append(&hcl.Diagnostic{ Severity: hcl.DiagError, Summary: "Invalid provider configuration address", Detail: "The prefix \"provider.\" must be followed by a provider type name.", Subject: remain[1].SourceRange().Ptr(), }) return ret, diags } if len(remain) == 3 { if tt, ok := remain[2].(hcl.TraverseAttr); ok { ret.Alias = tt.Name } else { diags = diags.Append(&hcl.Diagnostic{ Severity: hcl.DiagError, Summary: "Invalid provider configuration address", Detail: "Provider type name must be followed by a configuration alias name.", Subject: remain[2].SourceRange().Ptr(), }) return ret, diags } } return ret, diags } // ProviderConfigDefault returns the address of the default provider config of // the given type inside the recieving module instance. func (m ModuleInstance) ProviderConfigDefault(provider Provider) AbsProviderConfig { return AbsProviderConfig{ Module: m.Module(), Provider: provider, } } // ProviderConfigAliased returns the address of an aliased provider config of // the given type and alias inside the recieving module instance. func (m ModuleInstance) ProviderConfigAliased(provider Provider, alias string) AbsProviderConfig { return AbsProviderConfig{ Module: m.Module(), Provider: provider, Alias: alias, } } // providerConfig Implements addrs.ProviderConfig. func (pc AbsProviderConfig) providerConfig() {} // Inherited returns an address that the receiving configuration address might // inherit from in a parent module. The second bool return value indicates if // such inheritance is possible, and thus whether the returned address is valid. // // Inheritance is possible only for default (un-aliased) providers in modules // other than the root module. Even if a valid address is returned, inheritence // may not be performed for other reasons, such as if the calling module // provided explicit provider configurations within the call for this module. // The ProviderTransformer graph transform in the main terraform module has the // authoritative logic for provider inheritance, and this method is here mainly // just for its benefit. func (pc AbsProviderConfig) Inherited() (AbsProviderConfig, bool) { // Can't inherit if we're already in the root. if len(pc.Module) == 0 { return AbsProviderConfig{}, false } // Can't inherit if we have an alias. if pc.Alias != "" { return AbsProviderConfig{}, false } // Otherwise, we might inherit from a configuration with the same // provider type in the parent module instance. parentMod := pc.Module.Parent() return AbsProviderConfig{ Module: parentMod, Provider: pc.Provider, }, true } // LegacyString() returns a legacy-style AbsProviderConfig string and should only be used for legacy state shimming. func (pc AbsProviderConfig) LegacyString() string { if pc.Alias != "" { if len(pc.Module) == 0 { return fmt.Sprintf("%s.%s.%s", "provider", pc.Provider.LegacyString(), pc.Alias) } else { return fmt.Sprintf("%s.%s.%s.%s", pc.Module.String(), "provider", pc.Provider.LegacyString(), pc.Alias) } } if len(pc.Module) == 0 { return fmt.Sprintf("%s.%s", "provider", pc.Provider.LegacyString()) } return fmt.Sprintf("%s.%s.%s", pc.Module.String(), "provider", pc.Provider.LegacyString()) } // String() returns a string representation of an AbsProviderConfig in the following format: // // provider["example.com/namespace/name"] // provider["example.com/namespace/name"].alias // module.module-name.provider["example.com/namespace/name"] // module.module-name.provider["example.com/namespace/name"].alias func (pc AbsProviderConfig) String() string { var parts []string if len(pc.Module) > 0 { parts = append(parts, pc.Module.String()) } parts = append(parts, fmt.Sprintf("provider[%q]", pc.Provider)) if pc.Alias != "" { parts = append(parts, pc.Alias) } return strings.Join(parts, ".") }