package io import ( "bytes" "encoding/binary" "io" "reflect" ) // BinWriter is a convenient wrapper around an io.Writer and err object. // Used to simplify error handling when writing into an io.Writer // from a struct with many fields. type BinWriter struct { w io.Writer Err error uv [9]byte } // NewBinWriterFromIO makes a BinWriter from io.Writer. func NewBinWriterFromIO(iow io.Writer) *BinWriter { return &BinWriter{w: iow} } // WriteU64LE writes a uint64 value into the underlying io.Writer in // little-endian format. func (w *BinWriter) WriteU64LE(u64 uint64) { binary.LittleEndian.PutUint64(w.uv[:8], u64) w.WriteBytes(w.uv[:8]) } // WriteU32LE writes a uint32 value into the underlying io.Writer in // little-endian format. func (w *BinWriter) WriteU32LE(u32 uint32) { binary.LittleEndian.PutUint32(w.uv[:4], u32) w.WriteBytes(w.uv[:4]) } // WriteU16LE writes a uint16 value into the underlying io.Writer in // little-endian format. func (w *BinWriter) WriteU16LE(u16 uint16) { binary.LittleEndian.PutUint16(w.uv[:2], u16) w.WriteBytes(w.uv[:2]) } // WriteU16BE writes a uint16 value into the underlying io.Writer in // big-endian format. func (w *BinWriter) WriteU16BE(u16 uint16) { binary.BigEndian.PutUint16(w.uv[:2], u16) w.WriteBytes(w.uv[:2]) } // WriteB writes a byte into the underlying io.Writer. func (w *BinWriter) WriteB(u8 byte) { w.uv[0] = u8 w.WriteBytes(w.uv[:1]) } // WriteBool writes a boolean value into the underlying io.Writer encoded as // a byte with values of 0 or 1. func (w *BinWriter) WriteBool(b bool) { var i byte if b { i = 1 } w.WriteB(i) } // WriteArray writes a slice or an array arr into w. Note that nil slices and // empty slices are gonna be treated the same resulting in an equal zero-length // array encoded. func (w *BinWriter) WriteArray(arr interface{}) { switch val := reflect.ValueOf(arr); val.Kind() { case reflect.Slice, reflect.Array: if w.Err != nil { return } typ := val.Type().Elem() w.WriteVarUint(uint64(val.Len())) for i := 0; i < val.Len(); i++ { el, ok := val.Index(i).Interface().(encodable) if !ok { el, ok = val.Index(i).Addr().Interface().(encodable) if !ok { panic(typ.String() + " is not encodable") } } el.EncodeBinary(w) } default: panic("not an array") } } // WriteVarUint writes a uint64 into the underlying writer using variable-length encoding. func (w *BinWriter) WriteVarUint(val uint64) { if w.Err != nil { return } n := PutVarUint(w.uv[:], val) w.WriteBytes(w.uv[:n]) } // PutVarUint puts a val in the varint form to the pre-allocated buffer. func PutVarUint(data []byte, val uint64) int { _ = data[8] if val < 0xfd { data[0] = byte(val) return 1 } if val < 0xFFFF { data[0] = byte(0xfd) binary.LittleEndian.PutUint16(data[1:], uint16(val)) return 3 } if val < 0xFFFFFFFF { data[0] = byte(0xfe) binary.LittleEndian.PutUint32(data[1:], uint32(val)) return 5 } data[0] = byte(0xff) binary.LittleEndian.PutUint64(data[1:], val) return 9 } // WriteBytes writes a variable byte into the underlying io.Writer without prefix. func (w *BinWriter) WriteBytes(b []byte) { if w.Err != nil { return } _, w.Err = w.w.Write(b) } // WriteVarBytes writes a variable length byte array into the underlying io.Writer. func (w *BinWriter) WriteVarBytes(b []byte) { w.WriteVarUint(uint64(len(b))) w.WriteBytes(b) } // WriteString writes a variable length string into the underlying io.Writer. func (w *BinWriter) WriteString(s string) { w.WriteVarUint(uint64(len(s))) if w.Err != nil { return } _, w.Err = io.WriteString(w.w, s) } // Grow tries to increase the underlying buffer capacity so that at least n bytes // can be written without reallocation. If the writer is not a buffer, this is a no-op. func (w *BinWriter) Grow(n int) { if b, ok := w.w.(*bytes.Buffer); ok { b.Grow(n) } }