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57fd4c34d1
The ProviderConfigTransformer was using only the provider FQN to attach a provider configuration to the provider, but what it needs to do is find the local name for the given provider FQN (which may not match the type name) and use that when searching for matching provider configuration. Fixes #26556 This will also be backported to the v0.13 branch.
739 lines
22 KiB
Go
739 lines
22 KiB
Go
package terraform
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import (
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"fmt"
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"log"
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"github.com/hashicorp/hcl/v2"
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"github.com/hashicorp/terraform/addrs"
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"github.com/hashicorp/terraform/configs"
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"github.com/hashicorp/terraform/dag"
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"github.com/hashicorp/terraform/tfdiags"
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)
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func TransformProviders(providers []string, concrete ConcreteProviderNodeFunc, config *configs.Config) GraphTransformer {
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return GraphTransformMulti(
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// Add providers from the config
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&ProviderConfigTransformer{
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Config: config,
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Providers: providers,
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Concrete: concrete,
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},
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// Add any remaining missing providers
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&MissingProviderTransformer{
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Config: config,
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Providers: providers,
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Concrete: concrete,
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},
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// Connect the providers
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&ProviderTransformer{
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Config: config,
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},
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// Remove unused providers and proxies
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&PruneProviderTransformer{},
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// Connect provider to their parent provider nodes
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&ParentProviderTransformer{},
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)
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}
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// GraphNodeProvider is an interface that nodes that can be a provider
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// must implement.
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//
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// ProviderAddr returns the address of the provider configuration this
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// satisfies, which is relative to the path returned by method Path().
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//
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// Name returns the full name of the provider in the config.
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type GraphNodeProvider interface {
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GraphNodeModulePath
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ProviderAddr() addrs.AbsProviderConfig
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Name() string
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}
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// GraphNodeCloseProvider is an interface that nodes that can be a close
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// provider must implement. The CloseProviderName returned is the name of
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// the provider they satisfy.
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type GraphNodeCloseProvider interface {
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GraphNodeModulePath
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CloseProviderAddr() addrs.AbsProviderConfig
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}
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// GraphNodeProviderConsumer is an interface that nodes that require
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// a provider must implement. ProvidedBy must return the address of the provider
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// to use, which will be resolved to a configuration either in the same module
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// or in an ancestor module, with the resulting absolute address passed to
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// SetProvider.
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type GraphNodeProviderConsumer interface {
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GraphNodeModulePath
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// ProvidedBy returns the address of the provider configuration the node
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// refers to, if available. The following value types may be returned:
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//
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// * addrs.LocalProviderConfig: the provider was set in the resource config
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// * addrs.AbsProviderConfig + exact true: the provider configuration was
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// taken from the instance state.
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// * addrs.AbsProviderConfig + exact false: no config or state; the returned
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// value is a default provider configuration address for the resource's
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// Provider
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ProvidedBy() (addr addrs.ProviderConfig, exact bool)
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// Provider() returns the Provider FQN for the node.
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Provider() (provider addrs.Provider)
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// Set the resolved provider address for this resource.
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SetProvider(addrs.AbsProviderConfig)
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}
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// ProviderTransformer is a GraphTransformer that maps resources to providers
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// within the graph. This will error if there are any resources that don't map
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// to proper resources.
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type ProviderTransformer struct {
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Config *configs.Config
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}
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func (t *ProviderTransformer) Transform(g *Graph) error {
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// We need to find a provider configuration address for each resource
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// either directly represented by a node or referenced by a node in
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// the graph, and then create graph edges from provider to provider user
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// so that the providers will get initialized first.
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var diags tfdiags.Diagnostics
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// To start, we'll collect the _requested_ provider addresses for each
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// node, which we'll then resolve (handling provider inheritence, etc) in
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// the next step.
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// Our "requested" map is from graph vertices to string representations of
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// provider config addresses (for deduping) to requests.
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type ProviderRequest struct {
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Addr addrs.AbsProviderConfig
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Exact bool // If true, inheritence from parent modules is not attempted
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}
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requested := map[dag.Vertex]map[string]ProviderRequest{}
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needConfigured := map[string]addrs.AbsProviderConfig{}
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for _, v := range g.Vertices() {
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// Does the vertex _directly_ use a provider?
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if pv, ok := v.(GraphNodeProviderConsumer); ok {
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requested[v] = make(map[string]ProviderRequest)
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providerAddr, exact := pv.ProvidedBy()
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var absPc addrs.AbsProviderConfig
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switch p := providerAddr.(type) {
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case addrs.AbsProviderConfig:
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// ProvidedBy() returns an AbsProviderConfig when the provider
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// configuration is set in state, so we do not need to verify
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// the FQN matches.
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absPc = p
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if exact {
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log.Printf("[TRACE] ProviderTransformer: %s is provided by %s exactly", dag.VertexName(v), absPc)
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}
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case addrs.LocalProviderConfig:
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// ProvidedBy() return a LocalProviderConfig when the resource
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// contains a `provider` attribute
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absPc.Provider = pv.Provider()
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modPath := pv.ModulePath()
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if t.Config == nil {
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absPc.Module = modPath
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absPc.Alias = p.Alias
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break
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}
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absPc.Module = modPath
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absPc.Alias = p.Alias
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default:
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// This should never happen; the case statements are meant to be exhaustive
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panic(fmt.Sprintf("%s: provider for %s couldn't be determined", dag.VertexName(v), absPc))
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}
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requested[v][absPc.String()] = ProviderRequest{
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Addr: absPc,
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Exact: exact,
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}
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// Direct references need the provider configured as well as initialized
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needConfigured[absPc.String()] = absPc
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}
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}
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// Now we'll go through all the requested addresses we just collected and
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// figure out which _actual_ config address each belongs to, after resolving
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// for provider inheritance and passing.
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m := providerVertexMap(g)
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for v, reqs := range requested {
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for key, req := range reqs {
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p := req.Addr
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target := m[key]
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_, ok := v.(GraphNodeModulePath)
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if !ok && target == nil {
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// No target and no path to traverse up from
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diags = diags.Append(fmt.Errorf("%s: provider %s couldn't be found", dag.VertexName(v), p))
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continue
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}
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if target != nil {
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log.Printf("[TRACE] ProviderTransformer: exact match for %s serving %s", p, dag.VertexName(v))
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}
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// if we don't have a provider at this level, walk up the path looking for one,
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// unless we were told to be exact.
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if target == nil && !req.Exact {
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for pp, ok := p.Inherited(); ok; pp, ok = pp.Inherited() {
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key := pp.String()
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target = m[key]
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if target != nil {
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log.Printf("[TRACE] ProviderTransformer: %s uses inherited configuration %s", dag.VertexName(v), pp)
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break
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}
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log.Printf("[TRACE] ProviderTransformer: looking for %s to serve %s", pp, dag.VertexName(v))
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}
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}
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// If this provider doesn't need to be configured then we can just
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// stub it out with an init-only provider node, which will just
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// start up the provider and fetch its schema.
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if _, exists := needConfigured[key]; target == nil && !exists {
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stubAddr := addrs.AbsProviderConfig{
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Module: addrs.RootModule,
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Provider: p.Provider,
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}
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stub := &NodeEvalableProvider{
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&NodeAbstractProvider{
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Addr: stubAddr,
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},
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}
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m[stubAddr.String()] = stub
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log.Printf("[TRACE] ProviderTransformer: creating init-only node for %s", stubAddr)
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target = stub
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g.Add(target)
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}
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if target == nil {
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diags = diags.Append(tfdiags.Sourceless(
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tfdiags.Error,
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"Provider configuration not present",
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fmt.Sprintf(
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"To work with %s its original provider configuration at %s is required, but it has been removed. This occurs when a provider configuration is removed while objects created by that provider still exist in the state. Re-add the provider configuration to destroy %s, after which you can remove the provider configuration again.",
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dag.VertexName(v), p, dag.VertexName(v),
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),
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))
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break
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}
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// see if this in an inherited provider
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if p, ok := target.(*graphNodeProxyProvider); ok {
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g.Remove(p)
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target = p.Target()
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key = target.(GraphNodeProvider).ProviderAddr().String()
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}
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log.Printf("[DEBUG] ProviderTransformer: %q (%T) needs %s", dag.VertexName(v), v, dag.VertexName(target))
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if pv, ok := v.(GraphNodeProviderConsumer); ok {
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pv.SetProvider(target.ProviderAddr())
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}
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g.Connect(dag.BasicEdge(v, target))
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}
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}
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return diags.Err()
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}
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// CloseProviderTransformer is a GraphTransformer that adds nodes to the
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// graph that will close open provider connections that aren't needed anymore.
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// A provider connection is not needed anymore once all depended resources
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// in the graph are evaluated.
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type CloseProviderTransformer struct{}
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func (t *CloseProviderTransformer) Transform(g *Graph) error {
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pm := providerVertexMap(g)
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cpm := make(map[string]*graphNodeCloseProvider)
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var err error
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for _, v := range pm {
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p := v.(GraphNodeProvider)
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key := p.ProviderAddr().String()
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// get the close provider of this type if we alread created it
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closer := cpm[key]
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if closer == nil {
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// create a closer for this provider type
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closer = &graphNodeCloseProvider{Addr: p.ProviderAddr()}
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g.Add(closer)
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cpm[key] = closer
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}
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// Close node depends on the provider itself
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// this is added unconditionally, so it will connect to all instances
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// of the provider. Extra edges will be removed by transitive
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// reduction.
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g.Connect(dag.BasicEdge(closer, p))
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// connect all the provider's resources to the close node
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for _, s := range g.UpEdges(p) {
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if _, ok := s.(GraphNodeProviderConsumer); ok {
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g.Connect(dag.BasicEdge(closer, s))
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}
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}
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}
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return err
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}
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// MissingProviderTransformer is a GraphTransformer that adds to the graph
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// a node for each default provider configuration that is referenced by another
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// node but not already present in the graph.
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//
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// These "default" nodes are always added to the root module, regardless of
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// where they are requested. This is important because our inheritance
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// resolution behavior in ProviderTransformer will then treat these as a
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// last-ditch fallback after walking up the tree, rather than preferring them
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// as it would if they were placed in the same module as the requester.
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//
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// This transformer may create extra nodes that are not needed in practice,
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// due to overriding provider configurations in child modules.
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// PruneProviderTransformer can then remove these once ProviderTransformer
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// has resolved all of the inheritence, etc.
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type MissingProviderTransformer struct {
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// Providers is the list of providers we support.
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Providers []string
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// MissingProviderTransformer needs the config to rule out _implied_ default providers
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Config *configs.Config
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// Concrete, if set, overrides how the providers are made.
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Concrete ConcreteProviderNodeFunc
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}
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func (t *MissingProviderTransformer) Transform(g *Graph) error {
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// Initialize factory
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if t.Concrete == nil {
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t.Concrete = func(a *NodeAbstractProvider) dag.Vertex {
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return a
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}
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}
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var err error
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m := providerVertexMap(g)
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for _, v := range g.Vertices() {
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pv, ok := v.(GraphNodeProviderConsumer)
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if !ok {
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continue
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}
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// For our work here we actually care only about the provider type and
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// we plan to place all default providers in the root module.
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providerFqn := pv.Provider()
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// We're going to create an implicit _default_ configuration for the
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// referenced provider type in the _root_ module, ignoring all other
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// aspects of the resource's declared provider address.
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defaultAddr := addrs.RootModuleInstance.ProviderConfigDefault(providerFqn)
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key := defaultAddr.String()
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provider := m[key]
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if provider != nil {
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// There's already an explicit default configuration for this
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// provider type in the root module, so we have nothing to do.
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continue
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}
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log.Printf("[DEBUG] adding implicit provider configuration %s, implied first by %s", defaultAddr, dag.VertexName(v))
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// create the missing top-level provider
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provider = t.Concrete(&NodeAbstractProvider{
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Addr: defaultAddr,
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}).(GraphNodeProvider)
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g.Add(provider)
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m[key] = provider
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}
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return err
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}
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// ParentProviderTransformer connects provider nodes to their parents.
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//
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// This works by finding nodes that are both GraphNodeProviders and
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// GraphNodeModuleInstance. It then connects the providers to their parent
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// path. The parent provider is always at the root level.
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type ParentProviderTransformer struct{}
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func (t *ParentProviderTransformer) Transform(g *Graph) error {
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pm := providerVertexMap(g)
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for _, v := range g.Vertices() {
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// Only care about providers
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pn, ok := v.(GraphNodeProvider)
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if !ok {
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continue
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}
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// Also require non-empty path, since otherwise we're in the root
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// module and so cannot have a parent.
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if len(pn.ModulePath()) <= 1 {
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continue
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}
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// this provider may be disabled, but we can only get it's name from
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// the ProviderName string
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addr := pn.ProviderAddr()
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parentAddr, ok := addr.Inherited()
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if ok {
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parent := pm[parentAddr.String()]
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if parent != nil {
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g.Connect(dag.BasicEdge(v, parent))
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}
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}
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}
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return nil
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}
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// PruneProviderTransformer removes any providers that are not actually used by
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// anything, and provider proxies. This avoids the provider being initialized
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// and configured. This both saves resources but also avoids errors since
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// configuration may imply initialization which may require auth.
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type PruneProviderTransformer struct{}
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func (t *PruneProviderTransformer) Transform(g *Graph) error {
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for _, v := range g.Vertices() {
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// We only care about providers
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_, ok := v.(GraphNodeProvider)
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if !ok {
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continue
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}
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// ProxyProviders will have up edges, but we're now done with them in the graph
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if _, ok := v.(*graphNodeProxyProvider); ok {
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log.Printf("[DEBUG] pruning proxy %s", dag.VertexName(v))
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g.Remove(v)
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}
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// Remove providers with no dependencies.
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if g.UpEdges(v).Len() == 0 {
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log.Printf("[DEBUG] pruning unused %s", dag.VertexName(v))
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g.Remove(v)
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}
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}
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return nil
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}
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func providerVertexMap(g *Graph) map[string]GraphNodeProvider {
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m := make(map[string]GraphNodeProvider)
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for _, v := range g.Vertices() {
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if pv, ok := v.(GraphNodeProvider); ok {
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addr := pv.ProviderAddr()
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m[addr.String()] = pv
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}
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}
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return m
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}
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func closeProviderVertexMap(g *Graph) map[string]GraphNodeCloseProvider {
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m := make(map[string]GraphNodeCloseProvider)
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for _, v := range g.Vertices() {
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if pv, ok := v.(GraphNodeCloseProvider); ok {
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addr := pv.CloseProviderAddr()
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m[addr.String()] = pv
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}
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}
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return m
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}
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type graphNodeCloseProvider struct {
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Addr addrs.AbsProviderConfig
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}
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var (
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_ GraphNodeCloseProvider = (*graphNodeCloseProvider)(nil)
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)
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func (n *graphNodeCloseProvider) Name() string {
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return n.Addr.String() + " (close)"
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}
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// GraphNodeModulePath
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func (n *graphNodeCloseProvider) ModulePath() addrs.Module {
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return n.Addr.Module
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}
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// GraphNodeExecutable impl.
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func (n *graphNodeCloseProvider) Execute(ctx EvalContext, op walkOperation) error {
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return ctx.CloseProvider(n.Addr)
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}
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// GraphNodeDependable impl.
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func (n *graphNodeCloseProvider) DependableName() []string {
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return []string{n.Name()}
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}
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func (n *graphNodeCloseProvider) CloseProviderAddr() addrs.AbsProviderConfig {
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return n.Addr
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}
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// GraphNodeDotter impl.
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func (n *graphNodeCloseProvider) DotNode(name string, opts *dag.DotOpts) *dag.DotNode {
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if !opts.Verbose {
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return nil
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}
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return &dag.DotNode{
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Name: name,
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Attrs: map[string]string{
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"label": n.Name(),
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"shape": "diamond",
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},
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}
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}
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|
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// graphNodeProxyProvider is a GraphNodeProvider implementation that is used to
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// store the name and value of a provider node for inheritance between modules.
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// These nodes are only used to store the data while loading the provider
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// configurations, and are removed after all the resources have been connected
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// to their providers.
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type graphNodeProxyProvider struct {
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addr addrs.AbsProviderConfig
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target GraphNodeProvider
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}
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var (
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_ GraphNodeModulePath = (*graphNodeProxyProvider)(nil)
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_ GraphNodeProvider = (*graphNodeProxyProvider)(nil)
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)
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func (n *graphNodeProxyProvider) ProviderAddr() addrs.AbsProviderConfig {
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return n.addr
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}
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func (n *graphNodeProxyProvider) ModulePath() addrs.Module {
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return n.addr.Module
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}
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func (n *graphNodeProxyProvider) Name() string {
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return n.addr.String() + " (proxy)"
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}
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// find the concrete provider instance
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func (n *graphNodeProxyProvider) Target() GraphNodeProvider {
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switch t := n.target.(type) {
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case *graphNodeProxyProvider:
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return t.Target()
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default:
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return n.target
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}
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}
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|
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// ProviderConfigTransformer adds all provider nodes from the configuration and
|
|
// attaches the configs.
|
|
type ProviderConfigTransformer struct {
|
|
Providers []string
|
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Concrete ConcreteProviderNodeFunc
|
|
|
|
// each provider node is stored here so that the proxy nodes can look up
|
|
// their targets by name.
|
|
providers map[string]GraphNodeProvider
|
|
// record providers that can be overriden with a proxy
|
|
proxiable map[string]bool
|
|
|
|
// Config is the root node of the configuration tree to add providers from.
|
|
Config *configs.Config
|
|
}
|
|
|
|
func (t *ProviderConfigTransformer) Transform(g *Graph) error {
|
|
// If no configuration is given, we don't do anything
|
|
if t.Config == nil {
|
|
return nil
|
|
}
|
|
|
|
t.providers = make(map[string]GraphNodeProvider)
|
|
t.proxiable = make(map[string]bool)
|
|
|
|
// Start the transformation process
|
|
if err := t.transform(g, t.Config); err != nil {
|
|
return err
|
|
}
|
|
|
|
// finally attach the configs to the new nodes
|
|
return t.attachProviderConfigs(g)
|
|
}
|
|
|
|
func (t *ProviderConfigTransformer) transform(g *Graph, c *configs.Config) error {
|
|
// If no config, do nothing
|
|
if c == nil {
|
|
return nil
|
|
}
|
|
|
|
// Add our resources
|
|
if err := t.transformSingle(g, c); err != nil {
|
|
return err
|
|
}
|
|
|
|
// Transform all the children.
|
|
for _, cc := range c.Children {
|
|
if err := t.transform(g, cc); err != nil {
|
|
return err
|
|
}
|
|
}
|
|
return nil
|
|
}
|
|
|
|
func (t *ProviderConfigTransformer) transformSingle(g *Graph, c *configs.Config) error {
|
|
// Get the module associated with this configuration tree node
|
|
mod := c.Module
|
|
path := c.Path
|
|
|
|
// add all providers from the configuration
|
|
for _, p := range mod.ProviderConfigs {
|
|
fqn := mod.ProviderForLocalConfig(p.Addr())
|
|
addr := addrs.AbsProviderConfig{
|
|
Provider: fqn,
|
|
Alias: p.Alias,
|
|
Module: path,
|
|
}
|
|
|
|
abstract := &NodeAbstractProvider{
|
|
Addr: addr,
|
|
}
|
|
var v dag.Vertex
|
|
if t.Concrete != nil {
|
|
v = t.Concrete(abstract)
|
|
} else {
|
|
v = abstract
|
|
}
|
|
|
|
// Add it to the graph
|
|
g.Add(v)
|
|
key := addr.String()
|
|
t.providers[key] = v.(GraphNodeProvider)
|
|
|
|
// A provider configuration is "proxyable" if its configuration is
|
|
// entirely empty. This means it's standing in for a provider
|
|
// configuration that must be passed in from the parent module.
|
|
// We decide this by evaluating the config with an empty schema;
|
|
// if this succeeds, then we know there's nothing in the body.
|
|
_, diags := p.Config.Content(&hcl.BodySchema{})
|
|
t.proxiable[key] = !diags.HasErrors()
|
|
}
|
|
|
|
// Now replace the provider nodes with proxy nodes if a provider was being
|
|
// passed in, and create implicit proxies if there was no config. Any extra
|
|
// proxies will be removed in the prune step.
|
|
return t.addProxyProviders(g, c)
|
|
}
|
|
|
|
func (t *ProviderConfigTransformer) addProxyProviders(g *Graph, c *configs.Config) error {
|
|
path := c.Path
|
|
|
|
// can't add proxies at the root
|
|
if len(path) == 0 {
|
|
return nil
|
|
}
|
|
|
|
parentPath, callAddr := path.Call()
|
|
parent := c.Parent
|
|
if parent == nil {
|
|
return nil
|
|
}
|
|
|
|
callName := callAddr.Name
|
|
var parentCfg *configs.ModuleCall
|
|
for name, mod := range parent.Module.ModuleCalls {
|
|
if name == callName {
|
|
parentCfg = mod
|
|
break
|
|
}
|
|
}
|
|
|
|
if parentCfg == nil {
|
|
// this can't really happen during normal execution.
|
|
return fmt.Errorf("parent module config not found for %s", c.Path.String())
|
|
}
|
|
|
|
// Go through all the providers the parent is passing in, and add proxies to
|
|
// the parent provider nodes.
|
|
for _, pair := range parentCfg.Providers {
|
|
fqn := c.Module.ProviderForLocalConfig(pair.InChild.Addr())
|
|
fullAddr := addrs.AbsProviderConfig{
|
|
Provider: fqn,
|
|
Module: path,
|
|
Alias: pair.InChild.Addr().Alias,
|
|
}
|
|
|
|
fullParentAddr := addrs.AbsProviderConfig{
|
|
Provider: fqn,
|
|
Module: parentPath,
|
|
Alias: pair.InParent.Addr().Alias,
|
|
}
|
|
|
|
fullName := fullAddr.String()
|
|
fullParentName := fullParentAddr.String()
|
|
|
|
parentProvider := t.providers[fullParentName]
|
|
|
|
if parentProvider == nil {
|
|
return fmt.Errorf("missing provider %s", fullParentName)
|
|
}
|
|
|
|
proxy := &graphNodeProxyProvider{
|
|
addr: fullAddr,
|
|
target: parentProvider,
|
|
}
|
|
|
|
concreteProvider := t.providers[fullName]
|
|
|
|
// replace the concrete node with the provider passed in
|
|
if concreteProvider != nil && t.proxiable[fullName] {
|
|
g.Replace(concreteProvider, proxy)
|
|
t.providers[fullName] = proxy
|
|
continue
|
|
}
|
|
|
|
// aliased configurations can't be implicitly passed in
|
|
if fullAddr.Alias != "" {
|
|
continue
|
|
}
|
|
|
|
// There was no concrete provider, so add this as an implicit provider.
|
|
// The extra proxy will be pruned later if it's unused.
|
|
g.Add(proxy)
|
|
t.providers[fullName] = proxy
|
|
}
|
|
return nil
|
|
}
|
|
|
|
func (t *ProviderConfigTransformer) attachProviderConfigs(g *Graph) error {
|
|
for _, v := range g.Vertices() {
|
|
// Only care about GraphNodeAttachProvider implementations
|
|
apn, ok := v.(GraphNodeAttachProvider)
|
|
if !ok {
|
|
continue
|
|
}
|
|
|
|
// Determine what we're looking for
|
|
addr := apn.ProviderAddr()
|
|
|
|
// Get the configuration.
|
|
mc := t.Config.Descendent(addr.Module)
|
|
if mc == nil {
|
|
log.Printf("[TRACE] ProviderConfigTransformer: no configuration available for %s", addr.String())
|
|
continue
|
|
}
|
|
|
|
// Find the localName for the provider fqn
|
|
localName := mc.Module.LocalNameForProvider(addr.Provider)
|
|
|
|
// Go through the provider configs to find the matching config
|
|
for _, p := range mc.Module.ProviderConfigs {
|
|
if p.Name == localName && p.Alias == addr.Alias {
|
|
log.Printf("[TRACE] ProviderConfigTransformer: attaching to %q provider configuration from %s", dag.VertexName(v), p.DeclRange)
|
|
apn.AttachProvider(p)
|
|
break
|
|
}
|
|
}
|
|
}
|
|
|
|
return nil
|
|
}
|