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168d84b3c4
opentofu/terraform/schemas.go
Martin Atkins 168d84b3c4 core: Make resource type schema versions visible to callers 
Previously we were fetching these from the provider but then immediately
discarding the version numbers because the schema API had nowhere to put
them.

To avoid a late-breaking change to the internal structure of
terraform.ProviderSchema (which is constructed directly all over the
tests) we're retaining the resource type schemas in a new map alongside
the existing one with the same keys, rather than just switching to
using the providers.Schema struct directly there.

The methods that return resource type schemas now return two arguments,
intentionally creating a little API friction here so each new caller can
be reminded to think about whether they need to do something with the
schema version, though it can be ignored by many callers.

Since this was a breaking change to the Schemas API anyway, this also
fixes another API wart where there was a separate method for fetching
managed vs. data resource types and thus every caller ended up having a
switch statement on "mode". Now we just accept mode as an argument and
do the switch statement within the single SchemaForResourceType method.
2018-11-27 15:53:54 -08:00

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package terraform
import (
"fmt"
"log"
"github.com/hashicorp/terraform/addrs"
"github.com/hashicorp/terraform/configs"
"github.com/hashicorp/terraform/configs/configschema"
"github.com/hashicorp/terraform/providers"
"github.com/hashicorp/terraform/states"
"github.com/hashicorp/terraform/tfdiags"
)
// Schemas is a container for various kinds of schema that Terraform needs
// during processing.
type Schemas struct {
Providers map[string]*ProviderSchema
Provisioners map[string]*configschema.Block
}
// ProviderSchema returns the entire ProviderSchema object that was produced
// by the plugin for the given provider, or nil if no such schema is available.
//
// It's usually better to go use the more precise methods offered by type
// Schemas to handle this detail automatically.
func (ss *Schemas) ProviderSchema(typeName string) *ProviderSchema {
if ss.Providers == nil {
return nil
}
return ss.Providers[typeName]
}
// ProviderConfig returns the schema for the provider configuration of the
// given provider type, or nil if no such schema is available.
func (ss *Schemas) ProviderConfig(typeName string) *configschema.Block {
ps := ss.ProviderSchema(typeName)
if ps == nil {
return nil
}
return ps.Provider
}
// ResourceTypeConfig returns the schema for the configuration of a given
// resource type belonging to a given provider type, or nil of no such
// schema is available.
//
// In many cases the provider type is inferrable from the resource type name,
// but this is not always true because users can override the provider for
// a resource using the "provider" meta-argument. Therefore it's important to
// always pass the correct provider name, even though it many cases it feels
// redundant.
func (ss *Schemas) ResourceTypeConfig(providerType string, resourceMode addrs.ResourceMode, resourceType string) (block *configschema.Block, schemaVersion uint64) {
ps := ss.ProviderSchema(providerType)
if ps == nil || ps.ResourceTypes == nil {
return nil, 0
}
return ps.SchemaForResourceType(resourceMode, resourceType)
}
// ProvisionerConfig returns the schema for the configuration of a given
// provisioner, or nil of no such schema is available.
func (ss *Schemas) ProvisionerConfig(name string) *configschema.Block {
return ss.Provisioners[name]
}
// LoadSchemas searches the given configuration, state and plan (any of which
// may be nil) for constructs that have an associated schema, requests the
// necessary schemas from the given component factory (which must _not_ be nil),
// and returns a single object representing all of the necessary schemas.
//
// If an error is returned, it may be a wrapped tfdiags.Diagnostics describing
// errors across multiple separate objects. Errors here will usually indicate
// either misbehavior on the part of one of the providers or of the provider
// protocol itself. When returned with errors, the returned schemas object is
// still valid but may be incomplete.
func LoadSchemas(config *configs.Config, state *states.State, components contextComponentFactory) (*Schemas, error) {
schemas := &Schemas{
Providers: map[string]*ProviderSchema{},
Provisioners: map[string]*configschema.Block{},
}
var diags tfdiags.Diagnostics
newDiags := loadProviderSchemas(schemas.Providers, config, state, components)
diags = diags.Append(newDiags)
newDiags = loadProvisionerSchemas(schemas.Provisioners, config, components)
diags = diags.Append(newDiags)
return schemas, diags.Err()
}
func loadProviderSchemas(schemas map[string]*ProviderSchema, config *configs.Config, state *states.State, components contextComponentFactory) tfdiags.Diagnostics {
var diags tfdiags.Diagnostics
ensure := func(typeName string) {
if _, exists := schemas[typeName]; exists {
return
}
log.Printf("[TRACE] LoadSchemas: retrieving schema for provider type %q", typeName)
provider, err := components.ResourceProvider(typeName, "early/"+typeName)
if err != nil {
// We'll put a stub in the map so we won't re-attempt this on
// future calls.
schemas[typeName] = &ProviderSchema{}
diags = diags.Append(
fmt.Errorf("Failed to instantiate provider %q to obtain schema: %s", typeName, err),
)
return
}
defer func() {
provider.Close()
}()
resp := provider.GetSchema()
if resp.Diagnostics.HasErrors() {
// We'll put a stub in the map so we won't re-attempt this on
// future calls.
schemas[typeName] = &ProviderSchema{}
diags = diags.Append(
fmt.Errorf("Failed to retrieve schema from provider %q: %s", typeName, resp.Diagnostics.Err()),
)
return
}
s := &ProviderSchema{
Provider: resp.Provider.Block,
ResourceTypes: make(map[string]*configschema.Block),
DataSources: make(map[string]*configschema.Block),
ResourceTypeSchemaVersions: make(map[string]uint64),
}
for t, r := range resp.ResourceTypes {
s.ResourceTypes[t] = r.Block
s.ResourceTypeSchemaVersions[t] = r.Version
}
for t, d := range resp.DataSources {
s.DataSources[t] = d.Block
}
schemas[typeName] = s
}
if config != nil {
for _, typeName := range config.ProviderTypes() {
ensure(typeName)
}
}
if state != nil {
needed := providers.AddressedTypesAbs(state.ProviderAddrs())
for _, typeName := range needed {
ensure(typeName)
}
}
return diags
}
func loadProvisionerSchemas(schemas map[string]*configschema.Block, config *configs.Config, components contextComponentFactory) tfdiags.Diagnostics {
var diags tfdiags.Diagnostics
ensure := func(name string) {
if _, exists := schemas[name]; exists {
return
}
log.Printf("[TRACE] LoadSchemas: retrieving schema for provisioner %q", name)
provisioner, err := components.ResourceProvisioner(name, "early/"+name)
if err != nil {
// We'll put a stub in the map so we won't re-attempt this on
// future calls.
schemas[name] = &configschema.Block{}
diags = diags.Append(
fmt.Errorf("Failed to instantiate provisioner %q to obtain schema: %s", name, err),
)
return
}
defer func() {
if closer, ok := provisioner.(ResourceProvisionerCloser); ok {
closer.Close()
}
}()
resp := provisioner.GetSchema()
if resp.Diagnostics.HasErrors() {
// We'll put a stub in the map so we won't re-attempt this on
// future calls.
schemas[name] = &configschema.Block{}
diags = diags.Append(
fmt.Errorf("Failed to retrieve schema from provisioner %q: %s", name, resp.Diagnostics.Err()),
)
return
}
schemas[name] = resp.Provisioner
}
if config != nil {
for _, rc := range config.Module.ManagedResources {
for _, pc := range rc.Managed.Provisioners {
ensure(pc.Type)
}
}
// Must also visit our child modules, recursively.
for _, cc := range config.Children {
childDiags := loadProvisionerSchemas(schemas, cc, components)
diags = diags.Append(childDiags)
}
}
return diags
}
// ProviderSchema represents the schema for a provider's own configuration
// and the configuration for some or all of its resources and data sources.
//
// The completeness of this structure depends on how it was constructed.
// When constructed for a configuration, it will generally include only
// resource types and data sources used by that configuration.
type ProviderSchema struct {
Provider *configschema.Block
ResourceTypes map[string]*configschema.Block
DataSources map[string]*configschema.Block
ResourceTypeSchemaVersions map[string]uint64
}
// SchemaForResourceType attempts to find a schema for the given mode and type.
// Returns nil if no such schema is available.
func (ps *ProviderSchema) SchemaForResourceType(mode addrs.ResourceMode, typeName string) (schema *configschema.Block, version uint64) {
var m map[string]providers.Schema
switch mode {
case addrs.ManagedResourceMode:
return ps.ResourceTypes[typeName], ps.ResourceTypeSchemaVersions[typeName]
case addrs.DataResourceMode:
// Data resources don't have schema versions right now, since state is discarded for each refresh
return ps.DataSources[typeName], 0
default:
// Shouldn't happen, because the above cases are comprehensive.
return nil, 0
}
s := m[typeName]
return s.Block, s.Version
}
// SchemaForResourceAddr attempts to find a schema for the mode and type from
// the given resource address. Returns nil if no such schema is available.
func (ps *ProviderSchema) SchemaForResourceAddr(addr addrs.Resource) (schema *configschema.Block, version uint64) {
return ps.SchemaForResourceType(addr.Mode, addr.Type)
}
// ProviderSchemaRequest is used to describe to a ResourceProvider which
// aspects of schema are required, when calling the GetSchema method.
type ProviderSchemaRequest struct {
ResourceTypes []string
DataSources []string
}
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