// schema is a high-level framework for easily writing new providers // for Terraform. Usage of schema is recommended over attempting to write // to the low-level plugin interfaces manually. // // schema breaks down provider creation into simple CRUD operations for // resources. The logic of diffing, destroying before creating, updating // or creating, etc. is all handled by the framework. The plugin author // only needs to implement a configuration schema and the CRUD operations and // everything else is meant to just work. // // A good starting point is to view the Provider structure. package schema import ( "fmt" "reflect" "strconv" "strings" "github.com/hashicorp/terraform/terraform" "github.com/mitchellh/mapstructure" ) // ValueType is an enum of the type that can be represented by a schema. type ValueType int const ( TypeInvalid ValueType = iota TypeBool TypeInt TypeString TypeList TypeMap TypeSet ) // Schema is used to describe the structure of a value. // // Read the documentation of the struct elements for important details. type Schema struct { // Type is the type of the value and must be one of the ValueType values. // // This type not only determines what type is expected/valid in configuring // this value, but also what type is returned when ResourceData.Get is // called. The types returned by Get are: // // TypeBool - bool // TypeInt - int // TypeString - string // TypeList - []interface{} // TypeMap - map[string]interface{} // TypeSet - *schema.Set // Type ValueType // If one of these is set, then this item can come from the configuration. // Both cannot be set. If Optional is set, the value is optional. If // Required is set, the value is required. // // One of these must be set if the value is not computed. That is: // value either comes from the config, is computed, or is both. Optional bool Required bool // If this is non-nil, then this will be a default value that is used // when this item is not set in the configuration/state. // // DefaultFunc can be specified if you want a dynamic default value. // Only one of Default or DefaultFunc can be set. // // If Required is true above, then Default cannot be set. DefaultFunc // can be set with Required. If the DefaultFunc returns nil, then there // will no default and the user will be asked to fill it in. Default interface{} DefaultFunc SchemaDefaultFunc // The fields below relate to diffs. // // If Computed is true, then the result of this value is computed // (unless specified by config) on creation. // // If ForceNew is true, then a change in this resource necessitates // the creation of a new resource. // // StateFunc is a function called to change the value of this before // storing it in the state (and likewise before comparing for diffs). // The use for this is for example with large strings, you may want // to simply store the hash of it. Computed bool ForceNew bool StateFunc SchemaStateFunc // The following fields are only set for a TypeList or TypeSet Type. // // Elem must be either a *Schema or a *Resource only if the Type is // TypeList, and represents what the element type is. If it is *Schema, // the element type is just a simple value. If it is *Resource, the // element type is a complex structure, potentially with its own lifecycle. Elem interface{} // The follow fields are only valid for a TypeSet type. // // Set defines a function to determine the unique ID of an item so that // a proper set can be built. Set SchemaSetFunc // ComputedWhen is a set of queries on the configuration. Whenever any // of these things is changed, it will require a recompute (this requires // that Computed is set to true). // // NOTE: This currently does not work. ComputedWhen []string } // SchemaDefaultFunc is a function called to return a default value for // a field. type SchemaDefaultFunc func() (interface{}, error) // SchemaSetFunc is a function that must return a unique ID for the given // element. This unique ID is used to store the element in a hash. type SchemaSetFunc func(interface{}) int // SchemaStateFunc is a function used to convert some type to a string // to be stored in the state. type SchemaStateFunc func(interface{}) string func (s *Schema) GoString() string { return fmt.Sprintf("*%#v", *s) } func (s *Schema) finalizeDiff( d *terraform.ResourceAttrDiff) *terraform.ResourceAttrDiff { if d == nil { return d } if s.Computed { if d.Old != "" && d.New == "" { // This is a computed value with an old value set already, // just let it go. return nil } if d.New == "" { // Computed attribute without a new value set d.NewComputed = true } } if s.ForceNew { // Force new, set it to true in the diff d.RequiresNew = true } return d } // schemaMap is a wrapper that adds nice functions on top of schemas. type schemaMap map[string]*Schema // Data returns a ResourceData for the given schema, state, and diff. // // The diff is optional. func (m schemaMap) Data( s *terraform.InstanceState, d *terraform.ResourceDiff) (*ResourceData, error) { return &ResourceData{ schema: m, state: s, diff: d, }, nil } // Diff returns the diff for a resource given the schema map, // state, and configuration. func (m schemaMap) Diff( s *terraform.InstanceState, c *terraform.ResourceConfig) (*terraform.ResourceDiff, error) { result := new(terraform.ResourceDiff) result.Attributes = make(map[string]*terraform.ResourceAttrDiff) d := &ResourceData{ schema: m, state: s, config: c, diffing: true, } for k, schema := range m { err := m.diff(k, schema, result, d) if err != nil { return nil, err } } // If the diff requires a new resource, then we recompute the diff // so we have the complete new resource diff, and preserve the // RequiresNew fields where necessary so the user knows exactly what // caused that. if result.RequiresNew() { // Create the new diff result2 := new(terraform.ResourceDiff) result2.Attributes = make(map[string]*terraform.ResourceAttrDiff) // Reset the data to not contain state d.state = nil // Perform the diff again for k, schema := range m { err := m.diff(k, schema, result2, d) if err != nil { return nil, err } } // Force all the fields to not force a new since we know what we // want to force new. for k, attr := range result2.Attributes { if attr == nil { continue } if attr.RequiresNew { attr.RequiresNew = false } if s != nil { attr.Old = s.Attributes[k] } } // Now copy in all the requires new diffs... for k, attr := range result.Attributes { if attr == nil { continue } newAttr, ok := result2.Attributes[k] if !ok { newAttr = attr } if attr.RequiresNew { newAttr.RequiresNew = true } result2.Attributes[k] = newAttr } // And set the diff! result = result2 } // Remove any nil diffs just to keep things clean for k, v := range result.Attributes { if v == nil { delete(result.Attributes, k) } } // Go through and detect all of the ComputedWhens now that we've // finished the diff. // TODO if result.Empty() { // If we don't have any diff elements, just return nil return nil, nil } return result, nil } // Validate validates the configuration against this schema mapping. func (m schemaMap) Validate(c *terraform.ResourceConfig) ([]string, []error) { return m.validateObject("", m, c) } // InternalValidate validates the format of this schema. This should be called // from a unit test (and not in user-path code) to verify that a schema // is properly built. func (m schemaMap) InternalValidate() error { for k, v := range m { if v.Type == TypeInvalid { return fmt.Errorf("%s: Type must be specified", k) } if v.Optional && v.Required { return fmt.Errorf("%s: Optional or Required must be set, not both", k) } if v.Required && v.Computed { return fmt.Errorf("%s: Cannot be both Required and Computed", k) } if !v.Required && !v.Optional && !v.Computed { return fmt.Errorf("%s: One of optional, required, or computed must be set", k) } if v.Computed && v.Default != nil { return fmt.Errorf("%s: Default must be nil if computed", k) } if v.Required && v.Default != nil { return fmt.Errorf("%s: Default cannot be set with Required", k) } if len(v.ComputedWhen) > 0 && !v.Computed { return fmt.Errorf("%s: ComputedWhen can only be set with Computed", k) } if v.Type == TypeList || v.Type == TypeSet { if v.Elem == nil { return fmt.Errorf("%s: Elem must be set for lists", k) } if v.Default != nil { return fmt.Errorf("%s: Default is not valid for lists or sets", k) } if v.Type == TypeList && v.Set != nil { return fmt.Errorf("%s: Set can only be set for TypeSet", k) } else if v.Type == TypeSet && v.Set == nil { return fmt.Errorf("%s: Set must be set", k) } switch t := v.Elem.(type) { case *Resource: if err := t.InternalValidate(); err != nil { return err } case *Schema: bad := t.Computed || t.Optional || t.Required if bad { return fmt.Errorf( "%s: Elem must have only Type set", k) } } } } return nil } func (m schemaMap) diff( k string, schema *Schema, diff *terraform.ResourceDiff, d *ResourceData) error { var err error switch schema.Type { case TypeBool: fallthrough case TypeInt: fallthrough case TypeString: err = m.diffString(k, schema, diff, d) case TypeList: err = m.diffList(k, schema, diff, d) case TypeMap: err = m.diffMap(k, schema, diff, d) case TypeSet: err = m.diffSet(k, schema, diff, d) default: err = fmt.Errorf("%s: unknown type %#v", k, schema.Type) } return err } func (m schemaMap) diffList( k string, schema *Schema, diff *terraform.ResourceDiff, d *ResourceData) error { o, n, _ := d.diffChange(k) // If we have an old value, but no new value set but we're computed, // then nothing has changed. if o != nil && n == nil && schema.Computed { return nil } if o == nil { o = []interface{}{} } if n == nil { n = []interface{}{} } if s, ok := o.(*Set); ok { o = s.List() } if s, ok := n.(*Set); ok { n = s.List() } os := o.([]interface{}) vs := n.([]interface{}) // Get the counts oldLen := len(os) newLen := len(vs) // If the counts are not the same, then record that diff changed := oldLen != newLen computed := oldLen == 0 && newLen == 0 && schema.Computed if changed || computed { countSchema := &Schema{ Type: TypeInt, Computed: schema.Computed, ForceNew: schema.ForceNew, } oldStr := "" newStr := "" if !computed { oldStr = strconv.FormatInt(int64(oldLen), 10) newStr = strconv.FormatInt(int64(newLen), 10) } diff.Attributes[k+".#"] = countSchema.finalizeDiff(&terraform.ResourceAttrDiff{ Old: oldStr, New: newStr, }) } // Figure out the maximum maxLen := oldLen if newLen > maxLen { maxLen = newLen } switch t := schema.Elem.(type) { case *Schema: // Copy the schema so that we can set Computed/ForceNew from // the parent schema (the TypeList). t2 := *t t2.ForceNew = schema.ForceNew // This is just a primitive element, so go through each and // just diff each. for i := 0; i < maxLen; i++ { subK := fmt.Sprintf("%s.%d", k, i) err := m.diff(subK, &t2, diff, d) if err != nil { return err } } case *Resource: // This is a complex resource for i := 0; i < maxLen; i++ { for k2, schema := range t.Schema { subK := fmt.Sprintf("%s.%d.%s", k, i, k2) err := m.diff(subK, schema, diff, d) if err != nil { return err } } } default: return fmt.Errorf("%s: unknown element type (internal)", k) } return nil } func (m schemaMap) diffMap( k string, schema *Schema, diff *terraform.ResourceDiff, d *ResourceData) error { //elemSchema := &Schema{Type: TypeString} prefix := k + "." // First get all the values from the state var stateMap, configMap map[string]string o, n, _ := d.diffChange(k) if err := mapstructure.WeakDecode(o, &stateMap); err != nil { return fmt.Errorf("%s: %s", k, err) } if err := mapstructure.WeakDecode(n, &configMap); err != nil { return fmt.Errorf("%s: %s", k, err) } // Now we compare, preferring values from the config map for k, v := range configMap { old := stateMap[k] delete(stateMap, k) if old == v { continue } diff.Attributes[prefix+k] = schema.finalizeDiff(&terraform.ResourceAttrDiff{ Old: old, New: v, }) } for k, v := range stateMap { diff.Attributes[prefix+k] = schema.finalizeDiff(&terraform.ResourceAttrDiff{ Old: v, NewRemoved: true, }) } return nil } func (m schemaMap) diffSet( k string, schema *Schema, diff *terraform.ResourceDiff, d *ResourceData) error { return m.diffList(k, schema, diff, d) } func (m schemaMap) diffString( k string, schema *Schema, diff *terraform.ResourceDiff, d *ResourceData) error { var originalN interface{} var os, ns string o, n, _ := d.diffChange(k) if n == nil { n = schema.Default if schema.DefaultFunc != nil { var err error n, err = schema.DefaultFunc() if err != nil { return fmt.Errorf("%s, error loading default: %s", err) } } } if schema.StateFunc != nil { originalN = n n = schema.StateFunc(n) } if err := mapstructure.WeakDecode(o, &os); err != nil { return fmt.Errorf("%s: %s", k, err) } if err := mapstructure.WeakDecode(n, &ns); err != nil { return fmt.Errorf("%s: %s", k, err) } if os == ns { // They're the same value. If there old value is not blank or we // have an ID, then return right away since we're already setup. if os != "" || d.Id() != "" { return nil } // Otherwise, only continue if we're computed if !schema.Computed { return nil } } removed := false if o != nil && n == nil { removed = true } diff.Attributes[k] = schema.finalizeDiff(&terraform.ResourceAttrDiff{ Old: os, New: ns, NewExtra: originalN, NewRemoved: removed, }) return nil } func (m schemaMap) validate( k string, schema *Schema, c *terraform.ResourceConfig) ([]string, []error) { raw, ok := c.Get(k) if !ok && schema.DefaultFunc != nil { // We have a dynamic default. Check if we have a value. var err error raw, err = schema.DefaultFunc() if err != nil { return nil, []error{fmt.Errorf( "%s, error loading default: %s", k, err)} } // We're okay as long as we had a value set ok = raw != nil } if !ok { if schema.Required { return nil, []error{fmt.Errorf( "%s: required field is not set", k)} } return nil, nil } if !schema.Required && !schema.Optional { // This is a computed-only field return nil, []error{fmt.Errorf( "%s: this field cannot be set", k)} } return m.validatePrimitive(k, raw, schema, c) } func (m schemaMap) validateList( k string, raw interface{}, schema *Schema, c *terraform.ResourceConfig) ([]string, []error) { // We use reflection to verify the slice because you can't // case to []interface{} unless the slice is exactly that type. rawV := reflect.ValueOf(raw) if rawV.Kind() != reflect.Slice { return nil, []error{fmt.Errorf( "%s: should be a list", k)} } // Now build the []interface{} raws := make([]interface{}, rawV.Len()) for i, _ := range raws { raws[i] = rawV.Index(i).Interface() } var ws []string var es []error for i, raw := range raws { key := fmt.Sprintf("%s.%d", k, i) var ws2 []string var es2 []error switch t := schema.Elem.(type) { case *Resource: // This is a sub-resource ws2, es2 = m.validateObject(key, t.Schema, c) case *Schema: // This is some sort of primitive ws2, es2 = m.validatePrimitive(key, raw, t, c) } if len(ws2) > 0 { ws = append(ws, ws2...) } if len(es2) > 0 { es = append(es, es2...) } } return ws, es } func (m schemaMap) validateObject( k string, schema map[string]*Schema, c *terraform.ResourceConfig) ([]string, []error) { var ws []string var es []error for subK, s := range schema { key := subK if k != "" { key = fmt.Sprintf("%s.%s", k, subK) } ws2, es2 := m.validate(key, s, c) if len(ws2) > 0 { ws = append(ws, ws2...) } if len(es2) > 0 { es = append(es, es2...) } } // Detect any extra/unknown keys and report those as errors. prefix := k + "." for configK, _ := range c.Raw { if k != "" { if !strings.HasPrefix(configK, prefix) { continue } configK = configK[len(prefix):] } if _, ok := schema[configK]; !ok { es = append(es, fmt.Errorf( "%s: invalid or unknown key: %s", k, configK)) } } return ws, es } func (m schemaMap) validatePrimitive( k string, raw interface{}, schema *Schema, c *terraform.ResourceConfig) ([]string, []error) { switch schema.Type { case TypeList: return m.validateList(k, raw, schema, c) case TypeInt: // Verify that we can parse this as an int var n int if err := mapstructure.WeakDecode(raw, &n); err != nil { return nil, []error{err} } } return nil, nil }