package configs import ( "fmt" "sort" version "github.com/hashicorp/go-version" "github.com/hashicorp/hcl/v2" "github.com/hashicorp/terraform/addrs" "github.com/hashicorp/terraform/internal/getproviders" ) // A Config is a node in the tree of modules within a configuration. // // The module tree is constructed by following ModuleCall instances recursively // through the root module transitively into descendent modules. // // A module tree described in *this* package represents the static tree // represented by configuration. During evaluation a static ModuleNode may // expand into zero or more module instances depending on the use of count and // for_each configuration attributes within each call. type Config struct { // RootModule points to the Config for the root module within the same // module tree as this module. If this module _is_ the root module then // this is self-referential. Root *Config // ParentModule points to the Config for the module that directly calls // this module. If this is the root module then this field is nil. Parent *Config // Path is a sequence of module logical names that traverse from the root // module to this config. Path is empty for the root module. // // This should only be used to display paths to the end-user in rare cases // where we are talking about the static module tree, before module calls // have been resolved. In most cases, an addrs.ModuleInstance describing // a node in the dynamic module tree is better, since it will then include // any keys resulting from evaluating "count" and "for_each" arguments. Path addrs.Module // ChildModules points to the Config for each of the direct child modules // called from this module. The keys in this map match the keys in // Module.ModuleCalls. Children map[string]*Config // Module points to the object describing the configuration for the // various elements (variables, resources, etc) defined by this module. Module *Module // CallRange is the source range for the header of the module block that // requested this module. // // This field is meaningless for the root module, where its contents are undefined. CallRange hcl.Range // SourceAddr is the source address that the referenced module was requested // from, as specified in configuration. // // This field is meaningless for the root module, where its contents are undefined. SourceAddr string // SourceAddrRange is the location in the configuration source where the // SourceAddr value was set, for use in diagnostic messages. // // This field is meaningless for the root module, where its contents are undefined. SourceAddrRange hcl.Range // Version is the specific version that was selected for this module, // based on version constraints given in configuration. // // This field is nil if the module was loaded from a non-registry source, // since versions are not supported for other sources. // // This field is meaningless for the root module, where it will always // be nil. Version *version.Version } // NewEmptyConfig constructs a single-node configuration tree with an empty // root module. This is generally a pretty useless thing to do, so most callers // should instead use BuildConfig. func NewEmptyConfig() *Config { ret := &Config{} ret.Root = ret ret.Children = make(map[string]*Config) ret.Module = &Module{} return ret } // Depth returns the number of "hops" the receiver is from the root of its // module tree, with the root module having a depth of zero. func (c *Config) Depth() int { ret := 0 this := c for this.Parent != nil { ret++ this = this.Parent } return ret } // DeepEach calls the given function once for each module in the tree, starting // with the receiver. // // A parent is always called before its children and children of a particular // node are visited in lexicographic order by their names. func (c *Config) DeepEach(cb func(c *Config)) { cb(c) names := make([]string, 0, len(c.Children)) for name := range c.Children { names = append(names, name) } for _, name := range names { c.Children[name].DeepEach(cb) } } // AllModules returns a slice of all the receiver and all of its descendent // nodes in the module tree, in the same order they would be visited by // DeepEach. func (c *Config) AllModules() []*Config { var ret []*Config c.DeepEach(func(c *Config) { ret = append(ret, c) }) return ret } // Descendent returns the descendent config that has the given path beneath // the receiver, or nil if there is no such module. // // The path traverses the static module tree, prior to any expansion to handle // count and for_each arguments. // // An empty path will just return the receiver, and is therefore pointless. func (c *Config) Descendent(path addrs.Module) *Config { current := c for _, name := range path { current = current.Children[name] if current == nil { return nil } } return current } // DescendentForInstance is like Descendent except that it accepts a path // to a particular module instance in the dynamic module graph, returning // the node from the static module graph that corresponds to it. // // All instances created by a particular module call share the same // configuration, so the keys within the given path are disregarded. func (c *Config) DescendentForInstance(path addrs.ModuleInstance) *Config { current := c for _, step := range path { current = current.Children[step.Name] if current == nil { return nil } } return current } // ProviderRequirements searches the full tree of modules under the receiver // for both explicit and implicit dependencies on providers. // // The result is a full manifest of all of the providers that must be available // in order to work with the receiving configuration. // // If the returned diagnostics includes errors then the resulting Requirements // may be incomplete. func (c *Config) ProviderRequirements() (getproviders.Requirements, hcl.Diagnostics) { reqs := make(getproviders.Requirements) diags := c.addProviderRequirements(reqs) return reqs, diags } // addProviderRequirements is the main part of the ProviderRequirements // implementation, gradually mutating a shared requirements object to // eventually return. func (c *Config) addProviderRequirements(reqs getproviders.Requirements) hcl.Diagnostics { var diags hcl.Diagnostics // First we'll deal with the requirements directly in _our_ module... for _, providerReqs := range c.Module.ProviderRequirements.RequiredProviders { fqn := providerReqs.Type if _, ok := reqs[fqn]; !ok { // We'll at least have an unconstrained dependency then, but might // add to this in the loop below. reqs[fqn] = nil } // The model of version constraints in this package is still the // old one using a different upstream module to represent versions, // so we'll need to shim that out here for now. We assume this // will always succeed because these constraints already succeeded // parsing with the other constraint parser, which uses the same // syntax. constraints := getproviders.MustParseVersionConstraints(providerReqs.Requirement.Required.String()) reqs[fqn] = append(reqs[fqn], constraints...) } // Each resource in the configuration creates an *implicit* provider // dependency, though we'll only record it if there isn't already // an explicit dependency on the same provider. for _, rc := range c.Module.ManagedResources { fqn := rc.Provider if _, exists := reqs[fqn]; exists { // Explicit dependency already present continue } reqs[fqn] = nil } for _, rc := range c.Module.DataResources { fqn := rc.Provider if _, exists := reqs[fqn]; exists { // Explicit dependency already present continue } reqs[fqn] = nil } // "provider" block can also contain version constraints for _, provider := range c.Module.ProviderConfigs { fqn := c.Module.ProviderForLocalConfig(addrs.LocalProviderConfig{LocalName: provider.Name}) if _, ok := reqs[fqn]; !ok { // We'll at least have an unconstrained dependency then, but might // add to this in the loop below. reqs[fqn] = nil } if provider.Version.Required != nil { constraints := getproviders.MustParseVersionConstraints(provider.Version.Required.String()) reqs[fqn] = append(reqs[fqn], constraints...) } } // ...and now we'll recursively visit all of the child modules to merge // in their requirements too. for _, childConfig := range c.Children { moreDiags := childConfig.addProviderRequirements(reqs) diags = append(diags, moreDiags...) } return diags } // ProviderTypes returns the FQNs of each distinct provider type referenced // in the receiving configuration. // // This is a helper for easily determining which provider types are required // to fully interpret the configuration, though it does not include version // information and so callers are expected to have already dealt with // provider version selection in an earlier step and have identified suitable // versions for each provider. func (c *Config) ProviderTypes() []addrs.Provider { m := make(map[addrs.Provider]struct{}) c.gatherProviderTypes(m) ret := make([]addrs.Provider, 0, len(m)) for k := range m { ret = append(ret, k) } sort.Slice(ret, func(i, j int) bool { return ret[i].String() < ret[j].String() }) return ret } func (c *Config) gatherProviderTypes(m map[addrs.Provider]struct{}) { if c == nil { return } for _, pc := range c.Module.ProviderConfigs { fqn := c.Module.ProviderForLocalConfig(addrs.LocalProviderConfig{LocalName: pc.Name}) m[fqn] = struct{}{} } for _, rc := range c.Module.ManagedResources { providerAddr := rc.ProviderConfigAddr() fqn := c.Module.ProviderForLocalConfig(providerAddr) m[fqn] = struct{}{} } for _, rc := range c.Module.DataResources { providerAddr := rc.ProviderConfigAddr() fqn := c.Module.ProviderForLocalConfig(providerAddr) m[fqn] = struct{}{} } // Must also visit our child modules, recursively. for _, cc := range c.Children { cc.gatherProviderTypes(m) } } // ResolveAbsProviderAddr returns the AbsProviderConfig represented by the given // ProviderConfig address, which must not be nil or this method will panic. // // If the given address is already an AbsProviderConfig then this method returns // it verbatim, and will always succeed. If it's a LocalProviderConfig then // it will consult the local-to-FQN mapping table for the given module // to find the absolute address corresponding to the given local one. // // The module address to resolve local addresses in must be given in the second // argument, and must refer to a module that exists under the receiver or // else this method will panic. func (c *Config) ResolveAbsProviderAddr(addr addrs.ProviderConfig, inModule addrs.Module) addrs.AbsProviderConfig { switch addr := addr.(type) { case addrs.AbsProviderConfig: return addr case addrs.LocalProviderConfig: // Find the descendent Config that contains the module that this // local config belongs to. mc := c.Descendent(inModule) if mc == nil { panic(fmt.Sprintf("ResolveAbsProviderAddr with non-existent module %s", inModule.String())) } var provider addrs.Provider if providerReq, exists := c.Module.ProviderRequirements.RequiredProviders[addr.LocalName]; exists { provider = providerReq.Type } else { provider = addrs.ImpliedProviderForUnqualifiedType(addr.LocalName) } return addrs.AbsProviderConfig{ Module: inModule, Provider: provider, Alias: addr.Alias, } default: panic(fmt.Sprintf("cannot ResolveAbsProviderAddr(%v, ...)", addr)) } } // ProviderForConfigAddr returns the FQN for a given addrs.ProviderConfig, first // by checking for the provider in module.ProviderRequirements and falling // back to addrs.NewDefaultProvider if it is not found. func (c *Config) ProviderForConfigAddr(addr addrs.LocalProviderConfig) addrs.Provider { if provider, exists := c.Module.ProviderRequirements.RequiredProviders[addr.LocalName]; exists { return provider.Type } return c.ResolveAbsProviderAddr(addr, addrs.RootModule).Provider }