package schema import ( "context" "errors" "fmt" "sync" "github.com/hashicorp/go-multierror" "github.com/hashicorp/terraform/configs/configschema" "github.com/hashicorp/terraform/internal/legacy/terraform" ) // Provisioner represents a resource provisioner in Terraform and properly // implements all of the ResourceProvisioner API. // // This higher level structure makes it much easier to implement a new or // custom provisioner for Terraform. // // The function callbacks for this structure are all passed a context object. // This context object has a number of pre-defined values that can be accessed // via the global functions defined in context.go. type Provisioner struct { // ConnSchema is the schema for the connection settings for this // provisioner. // // The keys of this map are the configuration keys, and the value is // the schema describing the value of the configuration. // // NOTE: The value of connection keys can only be strings for now. ConnSchema map[string]*Schema // Schema is the schema for the usage of this provisioner. // // The keys of this map are the configuration keys, and the value is // the schema describing the value of the configuration. Schema map[string]*Schema // ApplyFunc is the function for executing the provisioner. This is required. // It is given a context. See the Provisioner struct docs for more // information. ApplyFunc func(ctx context.Context) error // ValidateFunc is a function for extended validation. This is optional // and should be used when individual field validation is not enough. ValidateFunc func(*terraform.ResourceConfig) ([]string, []error) stopCtx context.Context stopCtxCancel context.CancelFunc stopOnce sync.Once } // Keys that can be used to access data in the context parameters for // Provisioners. var ( connDataInvalid = contextKey("data invalid") // This returns a *ResourceData for the connection information. // Guaranteed to never be nil. ProvConnDataKey = contextKey("provider conn data") // This returns a *ResourceData for the config information. // Guaranteed to never be nil. ProvConfigDataKey = contextKey("provider config data") // This returns a terraform.UIOutput. Guaranteed to never be nil. ProvOutputKey = contextKey("provider output") // This returns the raw InstanceState passed to Apply. Guaranteed to // be set, but may be nil. ProvRawStateKey = contextKey("provider raw state") ) // InternalValidate should be called to validate the structure // of the provisioner. // // This should be called in a unit test to verify before release that this // structure is properly configured for use. func (p *Provisioner) InternalValidate() error { if p == nil { return errors.New("provisioner is nil") } var validationErrors error { sm := schemaMap(p.ConnSchema) if err := sm.InternalValidate(sm); err != nil { validationErrors = multierror.Append(validationErrors, err) } } { sm := schemaMap(p.Schema) if err := sm.InternalValidate(sm); err != nil { validationErrors = multierror.Append(validationErrors, err) } } if p.ApplyFunc == nil { validationErrors = multierror.Append(validationErrors, fmt.Errorf( "ApplyFunc must not be nil")) } return validationErrors } // StopContext returns a context that checks whether a provisioner is stopped. func (p *Provisioner) StopContext() context.Context { p.stopOnce.Do(p.stopInit) return p.stopCtx } func (p *Provisioner) stopInit() { p.stopCtx, p.stopCtxCancel = context.WithCancel(context.Background()) } // Stop implementation of terraform.ResourceProvisioner interface. func (p *Provisioner) Stop() error { p.stopOnce.Do(p.stopInit) p.stopCtxCancel() return nil } // GetConfigSchema implementation of terraform.ResourceProvisioner interface. func (p *Provisioner) GetConfigSchema() (*configschema.Block, error) { return schemaMap(p.Schema).CoreConfigSchema(), nil } // Apply implementation of terraform.ResourceProvisioner interface. func (p *Provisioner) Apply( o terraform.UIOutput, s *terraform.InstanceState, c *terraform.ResourceConfig) error { var connData, configData *ResourceData { // We first need to turn the connection information into a // terraform.ResourceConfig so that we can use that type to more // easily build a ResourceData structure. We do this by simply treating // the conn info as configuration input. raw := make(map[string]interface{}) if s != nil { for k, v := range s.Ephemeral.ConnInfo { raw[k] = v } } c := terraform.NewResourceConfigRaw(raw) sm := schemaMap(p.ConnSchema) diff, err := sm.Diff(nil, c, nil, nil, true) if err != nil { return err } connData, err = sm.Data(nil, diff) if err != nil { return err } } { // Build the configuration data. Doing this requires making a "diff" // even though that's never used. We use that just to get the correct types. configMap := schemaMap(p.Schema) diff, err := configMap.Diff(nil, c, nil, nil, true) if err != nil { return err } configData, err = configMap.Data(nil, diff) if err != nil { return err } } // Build the context and call the function ctx := p.StopContext() ctx = context.WithValue(ctx, ProvConnDataKey, connData) ctx = context.WithValue(ctx, ProvConfigDataKey, configData) ctx = context.WithValue(ctx, ProvOutputKey, o) ctx = context.WithValue(ctx, ProvRawStateKey, s) return p.ApplyFunc(ctx) } // Validate implements the terraform.ResourceProvisioner interface. func (p *Provisioner) Validate(c *terraform.ResourceConfig) (ws []string, es []error) { if err := p.InternalValidate(); err != nil { return nil, []error{fmt.Errorf( "Internal validation of the provisioner failed! This is always a bug\n"+ "with the provisioner itself, and not a user issue. Please report\n"+ "this bug:\n\n%s", err)} } if p.Schema != nil { w, e := schemaMap(p.Schema).Validate(c) ws = append(ws, w...) es = append(es, e...) } if p.ValidateFunc != nil { w, e := p.ValidateFunc(c) ws = append(ws, w...) es = append(es, e...) } return ws, es }