package tsdb import ( "encoding/binary" "hash" "unsafe" ) // enbuf is a helper type to populate a byte slice with various types. type encbuf struct { b []byte c [binary.MaxVarintLen64]byte } func (e *encbuf) reset() { e.b = e.b[:0] } func (e *encbuf) get() []byte { return e.b } func (e *encbuf) len() int { return len(e.b) } func (e *encbuf) putString(s string) { e.b = append(e.b, s...) } func (e *encbuf) putBytes(b []byte) { e.b = append(e.b, b...) } func (e *encbuf) putByte(c byte) { e.b = append(e.b, c) } func (e *encbuf) putBE32int(x int) { e.putBE32(uint32(x)) } func (e *encbuf) putBE64int(x int) { e.putBE64(uint64(x)) } func (e *encbuf) putBE64int64(x int64) { e.putBE64(uint64(x)) } func (e *encbuf) putUvarint32(x uint32) { e.putUvarint64(uint64(x)) } func (e *encbuf) putUvarint(x int) { e.putUvarint64(uint64(x)) } func (e *encbuf) putBE32(x uint32) { binary.BigEndian.PutUint32(e.c[:], x) e.b = append(e.b, e.c[:4]...) } func (e *encbuf) putBE64(x uint64) { binary.BigEndian.PutUint64(e.c[:], x) e.b = append(e.b, e.c[:8]...) } func (e *encbuf) putUvarint64(x uint64) { n := binary.PutUvarint(e.c[:], x) e.b = append(e.b, e.c[:n]...) } func (e *encbuf) putVarint64(x int64) { n := binary.PutVarint(e.c[:], x) e.b = append(e.b, e.c[:n]...) } // putVarintStr writes a string to the buffer prefixed by its varint length (in bytes!). func (e *encbuf) putUvarintStr(s string) { b := *(*[]byte)(unsafe.Pointer(&s)) e.putUvarint(len(b)) e.putString(s) } // putHash appends a hash over the buffers current contents to the buffer. func (e *encbuf) putHash(h hash.Hash) { h.Reset() _, err := h.Write(e.b) if err != nil { panic(err) // The CRC32 implementation does not error } e.b = h.Sum(e.b) } // decbuf provides safe methods to extract data from a byte slice. It does all // necessary bounds checking and advancing of the byte slice. // Several datums can be extracted without checking for errors. However, before using // any datum, the err() method must be checked. type decbuf struct { b []byte e error } func (d *decbuf) uvarint() int { return int(d.uvarint64()) } func (d *decbuf) uvarint32() uint32 { return uint32(d.uvarint64()) } func (d *decbuf) be32int() int { return int(d.be32()) } func (d *decbuf) be64int64() int64 { return int64(d.be64()) } func (d *decbuf) uvarintStr() string { l := d.uvarint64() if d.e != nil { return "" } if len(d.b) < int(l) { d.e = errInvalidSize return "" } s := string(d.b[:l]) d.b = d.b[l:] return s } func (d *decbuf) varint64() int64 { if d.e != nil { return 0 } x, n := binary.Varint(d.b) if n < 1 { d.e = errInvalidSize return 0 } d.b = d.b[n:] return x } func (d *decbuf) uvarint64() uint64 { if d.e != nil { return 0 } x, n := binary.Uvarint(d.b) if n < 1 { d.e = errInvalidSize return 0 } d.b = d.b[n:] return x } func (d *decbuf) be64() uint64 { if d.e != nil { return 0 } if len(d.b) < 4 { d.e = errInvalidSize return 0 } x := binary.BigEndian.Uint64(d.b) d.b = d.b[8:] return x } func (d *decbuf) be32() uint32 { if d.e != nil { return 0 } if len(d.b) < 4 { d.e = errInvalidSize return 0 } x := binary.BigEndian.Uint32(d.b) d.b = d.b[4:] return x } func (d *decbuf) byte() byte { if d.e != nil { return 0 } if len(d.b) < 1 { d.e = errInvalidSize return 0 } x := d.b[0] d.b = d.b[1:] return x } func (d *decbuf) decbuf(l int) decbuf { if d.e != nil { return decbuf{e: d.e} } if l > len(d.b) { return decbuf{e: errInvalidSize} } r := decbuf{b: d.b[:l]} d.b = d.b[l:] return r } func (d *decbuf) err() error { return d.e } func (d *decbuf) len() int { return len(d.b) } func (d *decbuf) get() []byte { return d.b }