package command // Marshal an object as an hcl value. import ( "bytes" "fmt" "regexp" "github.com/hashicorp/hcl/hcl/printer" ) // This will only work operate on []interface{}, map[string]interface{}, and // primitive types. func encodeHCL(i interface{}) ([]byte, error) { state := &encodeState{} err := state.encode(i) if err != nil { return nil, err } hcl := state.Bytes() if len(hcl) == 0 { return hcl, nil } // the HCL parser requires an assignment. Strip it off again later fakeAssignment := append([]byte("X = "), hcl...) // use the real hcl parser to verify our output, and format it canonically hcl, err = printer.Format(fakeAssignment) if err != nil { return nil, err } // now strip that first assignment off eq := regexp.MustCompile(`=\s+`).FindIndex(hcl) // strip of an extra \n if it's there end := len(hcl) if hcl[end-1] == '\n' { end -= 1 } return hcl[eq[1]:end], nil } type encodeState struct { bytes.Buffer } func (e *encodeState) encode(i interface{}) error { switch v := i.(type) { case []interface{}: return e.encodeList(v) case map[string]interface{}: return e.encodeMap(v) case int, int8, int32, int64, uint8, uint32, uint64: return e.encodeInt(i) case float32, float64: return e.encodeFloat(i) case string: return e.encodeString(v) case nil: return nil default: return fmt.Errorf("invalid type %T", i) } } func (e *encodeState) encodeList(l []interface{}) error { e.WriteString("[") for i, v := range l { err := e.encode(v) if err != nil { return err } if i < len(l)-1 { e.WriteString(", ") } } e.WriteString("]") return nil } func (e *encodeState) encodeMap(m map[string]interface{}) error { e.WriteString("{\n") for i, k := range sortedKeys(m) { v := m[k] e.WriteString(k + " = ") err := e.encode(v) if err != nil { return err } if i < len(m)-1 { e.WriteString("\n") } } e.WriteString("}") return nil } func (e *encodeState) encodeInt(i interface{}) error { _, err := fmt.Fprintf(e, "%d", i) return err } func (e *encodeState) encodeFloat(f interface{}) error { _, err := fmt.Fprintf(e, "%g", f) return err } func (e *encodeState) encodeString(s string) error { e.Write(quoteHCLString(s)) return nil } // Quote an HCL string, which may contain interpolations. // Since the string was already parsed from HCL, we have to assume the // required characters are sanely escaped. All we need to do is escape double // quotes in the string, unless they are in an interpolation block. func quoteHCLString(s string) []byte { out := make([]byte, 0, len(s)) out = append(out, '"') // our parse states var ( outer = 1 // the starting state for the string dollar = 2 // look for '{' in the next character interp = 3 // inside an interpolation block escape = 4 // take the next character and pop back to prev state ) // we could have nested interpolations state := stack{} state.push(outer) for i := 0; i < len(s); i++ { switch state.peek() { case outer: switch s[i] { case '"': out = append(out, '\\') case '$': state.push(dollar) case '\\': state.push(escape) } case dollar: state.pop() switch s[i] { case '{': state.push(interp) case '\\': state.push(escape) } case interp: switch s[i] { case '}': state.pop() } case escape: state.pop() } out = append(out, s[i]) } out = append(out, '"') return out } type stack []int func (s *stack) push(i int) { *s = append(*s, i) } func (s *stack) pop() int { last := len(*s) - 1 i := (*s)[last] *s = (*s)[:last] return i } func (s *stack) peek() int { return (*s)[len(*s)-1] }