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frame.go
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frame.go
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// Copyright (c) 2012 The gocql Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package gocql
import (
"context"
"errors"
"fmt"
"io"
"io/ioutil"
"net"
"runtime"
"strings"
"time"
)
type unsetColumn struct{}
// UnsetValue represents a value used in a query binding that will be ignored by Cassandra.
//
// By setting a field to the unset value Cassandra will ignore the write completely.
// The main advantage is the ability to keep the same prepared statement even when you don't
// want to update some fields, where before you needed to make another prepared statement.
//
// UnsetValue is only available when using the version 4 of the protocol.
var UnsetValue = unsetColumn{}
type namedValue struct {
name string
value interface{}
}
// NamedValue produce a value which will bind to the named parameter in a query
func NamedValue(name string, value interface{}) interface{} {
return &namedValue{
name: name,
value: value,
}
}
const (
protoDirectionMask = 0x80
protoVersionMask = 0x7F
protoVersion1 = 0x01
protoVersion2 = 0x02
protoVersion3 = 0x03
protoVersion4 = 0x04
protoVersion5 = 0x05
maxFrameSize = 256 * 1024 * 1024
)
type protoVersion byte
func (p protoVersion) request() bool {
return p&protoDirectionMask == 0x00
}
func (p protoVersion) response() bool {
return p&protoDirectionMask == 0x80
}
func (p protoVersion) version() byte {
return byte(p) & protoVersionMask
}
func (p protoVersion) String() string {
dir := "REQ"
if p.response() {
dir = "RESP"
}
return fmt.Sprintf("[version=%d direction=%s]", p.version(), dir)
}
type frameOp byte
const (
// header ops
opError frameOp = 0x00
opStartup frameOp = 0x01
opReady frameOp = 0x02
opAuthenticate frameOp = 0x03
opOptions frameOp = 0x05
opSupported frameOp = 0x06
opQuery frameOp = 0x07
opResult frameOp = 0x08
opPrepare frameOp = 0x09
opExecute frameOp = 0x0A
opRegister frameOp = 0x0B
opEvent frameOp = 0x0C
opBatch frameOp = 0x0D
opAuthChallenge frameOp = 0x0E
opAuthResponse frameOp = 0x0F
opAuthSuccess frameOp = 0x10
)
func (f frameOp) String() string {
switch f {
case opError:
return "ERROR"
case opStartup:
return "STARTUP"
case opReady:
return "READY"
case opAuthenticate:
return "AUTHENTICATE"
case opOptions:
return "OPTIONS"
case opSupported:
return "SUPPORTED"
case opQuery:
return "QUERY"
case opResult:
return "RESULT"
case opPrepare:
return "PREPARE"
case opExecute:
return "EXECUTE"
case opRegister:
return "REGISTER"
case opEvent:
return "EVENT"
case opBatch:
return "BATCH"
case opAuthChallenge:
return "AUTH_CHALLENGE"
case opAuthResponse:
return "AUTH_RESPONSE"
case opAuthSuccess:
return "AUTH_SUCCESS"
default:
return fmt.Sprintf("UNKNOWN_OP_%d", f)
}
}
const (
// result kind
resultKindVoid = 1
resultKindRows = 2
resultKindKeyspace = 3
resultKindPrepared = 4
resultKindSchemaChanged = 5
// rows flags
flagGlobalTableSpec int = 0x01
flagHasMorePages int = 0x02
flagNoMetaData int = 0x04
// query flags
flagValues byte = 0x01
flagSkipMetaData byte = 0x02
flagPageSize byte = 0x04
flagWithPagingState byte = 0x08
flagWithSerialConsistency byte = 0x10
flagDefaultTimestamp byte = 0x20
flagWithNameValues byte = 0x40
flagWithKeyspace byte = 0x80
// prepare flags
flagWithPreparedKeyspace uint32 = 0x01
// header flags
flagCompress byte = 0x01
flagTracing byte = 0x02
flagCustomPayload byte = 0x04
flagWarning byte = 0x08
flagBetaProtocol byte = 0x10
)
type Consistency uint16
const (
Any Consistency = 0x00
One Consistency = 0x01
Two Consistency = 0x02
Three Consistency = 0x03
Quorum Consistency = 0x04
All Consistency = 0x05
LocalQuorum Consistency = 0x06
EachQuorum Consistency = 0x07
LocalOne Consistency = 0x0A
)
func (c Consistency) String() string {
switch c {
case Any:
return "ANY"
case One:
return "ONE"
case Two:
return "TWO"
case Three:
return "THREE"
case Quorum:
return "QUORUM"
case All:
return "ALL"
case LocalQuorum:
return "LOCAL_QUORUM"
case EachQuorum:
return "EACH_QUORUM"
case LocalOne:
return "LOCAL_ONE"
default:
return fmt.Sprintf("UNKNOWN_CONS_0x%x", uint16(c))
}
}
func (c Consistency) MarshalText() (text []byte, err error) {
return []byte(c.String()), nil
}
func (c *Consistency) UnmarshalText(text []byte) error {
switch string(text) {
case "ANY":
*c = Any
case "ONE":
*c = One
case "TWO":
*c = Two
case "THREE":
*c = Three
case "QUORUM":
*c = Quorum
case "ALL":
*c = All
case "LOCAL_QUORUM":
*c = LocalQuorum
case "EACH_QUORUM":
*c = EachQuorum
case "LOCAL_ONE":
*c = LocalOne
default:
return fmt.Errorf("invalid consistency %q", string(text))
}
return nil
}
func ParseConsistency(s string) Consistency {
var c Consistency
if err := c.UnmarshalText([]byte(strings.ToUpper(s))); err != nil {
panic(err)
}
return c
}
// ParseConsistencyWrapper wraps gocql.ParseConsistency to provide an err
// return instead of a panic
func ParseConsistencyWrapper(s string) (consistency Consistency, err error) {
err = consistency.UnmarshalText([]byte(strings.ToUpper(s)))
return
}
// MustParseConsistency is the same as ParseConsistency except it returns
// an error (never). It is kept here since breaking changes are not good.
// DEPRECATED: use ParseConsistency if you want a panic on parse error.
func MustParseConsistency(s string) (Consistency, error) {
c, err := ParseConsistencyWrapper(s)
if err != nil {
panic(err)
}
return c, nil
}
type SerialConsistency uint16
const (
Serial SerialConsistency = 0x08
LocalSerial SerialConsistency = 0x09
)
func (s SerialConsistency) String() string {
switch s {
case Serial:
return "SERIAL"
case LocalSerial:
return "LOCAL_SERIAL"
default:
return fmt.Sprintf("UNKNOWN_SERIAL_CONS_0x%x", uint16(s))
}
}
func (s SerialConsistency) MarshalText() (text []byte, err error) {
return []byte(s.String()), nil
}
func (s *SerialConsistency) UnmarshalText(text []byte) error {
switch string(text) {
case "SERIAL":
*s = Serial
case "LOCAL_SERIAL":
*s = LocalSerial
default:
return fmt.Errorf("invalid consistency %q", string(text))
}
return nil
}
const (
apacheCassandraTypePrefix = "org.apache.cassandra.db.marshal."
)
var (
ErrFrameTooBig = errors.New("frame length is bigger than the maximum allowed")
)
const maxFrameHeaderSize = 9
func readInt(p []byte) int32 {
return int32(p[0])<<24 | int32(p[1])<<16 | int32(p[2])<<8 | int32(p[3])
}
type frameHeader struct {
version protoVersion
flags byte
stream int
op frameOp
length int
warnings []string
}
func (f frameHeader) String() string {
return fmt.Sprintf("[header version=%s flags=0x%x stream=%d op=%s length=%d]", f.version, f.flags, f.stream, f.op, f.length)
}
func (f frameHeader) Header() frameHeader {
return f
}
const defaultBufSize = 128
type ObservedFrameHeader struct {
Version protoVersion
Flags byte
Stream int16
Opcode frameOp
Length int32
// StartHeader is the time we started reading the frame header off the network connection.
Start time.Time
// EndHeader is the time we finished reading the frame header off the network connection.
End time.Time
// Host is Host of the connection the frame header was read from.
Host *HostInfo
}
func (f ObservedFrameHeader) String() string {
return fmt.Sprintf("[observed header version=%s flags=0x%x stream=%d op=%s length=%d]", f.Version, f.Flags, f.Stream, f.Opcode, f.Length)
}
// FrameHeaderObserver is the interface implemented by frame observers / stat collectors.
//
// Experimental, this interface and use may change
type FrameHeaderObserver interface {
// ObserveFrameHeader gets called on every received frame header.
ObserveFrameHeader(context.Context, ObservedFrameHeader)
}
// a framer is responsible for reading, writing and parsing frames on a single stream
type framer struct {
proto byte
// flags are for outgoing flags, enabling compression and tracing etc
flags byte
compres Compressor
headSize int
// if this frame was read then the header will be here
header *frameHeader
// if tracing flag is set this is not nil
traceID []byte
// holds a ref to the whole byte slice for buf so that it can be reset to
// 0 after a read.
readBuffer []byte
buf []byte
customPayload map[string][]byte
}
func newFramer(compressor Compressor, version byte) *framer {
buf := make([]byte, defaultBufSize)
f := &framer{
buf: buf[:0],
readBuffer: buf,
}
var flags byte
if compressor != nil {
flags |= flagCompress
}
if version == protoVersion5 {
flags |= flagBetaProtocol
}
version &= protoVersionMask
headSize := 8
if version > protoVersion2 {
headSize = 9
}
f.compres = compressor
f.proto = version
f.flags = flags
f.headSize = headSize
f.header = nil
f.traceID = nil
return f
}
type frame interface {
Header() frameHeader
}
func readHeader(r io.Reader, p []byte) (head frameHeader, err error) {
_, err = io.ReadFull(r, p[:1])
if err != nil {
return frameHeader{}, err
}
version := p[0] & protoVersionMask
if version < protoVersion1 || version > protoVersion5 {
return frameHeader{}, fmt.Errorf("gocql: unsupported protocol response version: %d", version)
}
headSize := 9
if version < protoVersion3 {
headSize = 8
}
_, err = io.ReadFull(r, p[1:headSize])
if err != nil {
return frameHeader{}, err
}
p = p[:headSize]
head.version = protoVersion(p[0])
head.flags = p[1]
if version > protoVersion2 {
if len(p) != 9 {
return frameHeader{}, fmt.Errorf("not enough bytes to read header require 9 got: %d", len(p))
}
head.stream = int(int16(p[2])<<8 | int16(p[3]))
head.op = frameOp(p[4])
head.length = int(readInt(p[5:]))
} else {
if len(p) != 8 {
return frameHeader{}, fmt.Errorf("not enough bytes to read header require 8 got: %d", len(p))
}
head.stream = int(int8(p[2]))
head.op = frameOp(p[3])
head.length = int(readInt(p[4:]))
}
return head, nil
}
// explicitly enables tracing for the framers outgoing requests
func (f *framer) trace() {
f.flags |= flagTracing
}
// explicitly enables the custom payload flag
func (f *framer) payload() {
f.flags |= flagCustomPayload
}
// reads a frame form the wire into the framers buffer
func (f *framer) readFrame(r io.Reader, head *frameHeader) error {
if head.length < 0 {
return fmt.Errorf("frame body length can not be less than 0: %d", head.length)
} else if head.length > maxFrameSize {
// need to free up the connection to be used again
_, err := io.CopyN(ioutil.Discard, r, int64(head.length))
if err != nil {
return fmt.Errorf("error whilst trying to discard frame with invalid length: %v", err)
}
return ErrFrameTooBig
}
if cap(f.readBuffer) >= head.length {
f.buf = f.readBuffer[:head.length]
} else {
f.readBuffer = make([]byte, head.length)
f.buf = f.readBuffer
}
// assume the underlying reader takes care of timeouts and retries
n, err := io.ReadFull(r, f.buf)
if err != nil {
return fmt.Errorf("unable to read frame body: read %d/%d bytes: %v", n, head.length, err)
}
if head.flags&flagCompress == flagCompress {
if f.compres == nil {
return NewErrProtocol("no compressor available with compressed frame body")
}
f.buf, err = f.compres.Decode(f.buf)
if err != nil {
return err
}
}
f.header = head
return nil
}
func (f *framer) parseFrame() (frame frame, err error) {
defer func() {
if r := recover(); r != nil {
if _, ok := r.(runtime.Error); ok {
panic(r)
}
err = r.(error)
}
}()
if f.header.version.request() {
return nil, NewErrProtocol("got a request frame from server: %v", f.header.version)
}
if f.header.flags&flagTracing == flagTracing {
f.readTrace()
}
if f.header.flags&flagWarning == flagWarning {
f.header.warnings = f.readStringList()
}
if f.header.flags&flagCustomPayload == flagCustomPayload {
f.customPayload = f.readBytesMap()
}
// assumes that the frame body has been read into rbuf
switch f.header.op {
case opError:
frame = f.parseErrorFrame()
case opReady:
frame = f.parseReadyFrame()
case opResult:
frame, err = f.parseResultFrame()
case opSupported:
frame = f.parseSupportedFrame()
case opAuthenticate:
frame = f.parseAuthenticateFrame()
case opAuthChallenge:
frame = f.parseAuthChallengeFrame()
case opAuthSuccess:
frame = f.parseAuthSuccessFrame()
case opEvent:
frame = f.parseEventFrame()
default:
return nil, NewErrProtocol("unknown op in frame header: %s", f.header.op)
}
return
}
func (f *framer) parseErrorFrame() frame {
code := f.readInt()
msg := f.readString()
errD := errorFrame{
frameHeader: *f.header,
code: code,
message: msg,
}
switch code {
case ErrCodeUnavailable:
cl := f.readConsistency()
required := f.readInt()
alive := f.readInt()
return &RequestErrUnavailable{
errorFrame: errD,
Consistency: cl,
Required: required,
Alive: alive,
}
case ErrCodeWriteTimeout:
cl := f.readConsistency()
received := f.readInt()
blockfor := f.readInt()
writeType := f.readString()
return &RequestErrWriteTimeout{
errorFrame: errD,
Consistency: cl,
Received: received,
BlockFor: blockfor,
WriteType: writeType,
}
case ErrCodeReadTimeout:
cl := f.readConsistency()
received := f.readInt()
blockfor := f.readInt()
dataPresent := f.readByte()
return &RequestErrReadTimeout{
errorFrame: errD,
Consistency: cl,
Received: received,
BlockFor: blockfor,
DataPresent: dataPresent,
}
case ErrCodeAlreadyExists:
ks := f.readString()
table := f.readString()
return &RequestErrAlreadyExists{
errorFrame: errD,
Keyspace: ks,
Table: table,
}
case ErrCodeUnprepared:
stmtId := f.readShortBytes()
return &RequestErrUnprepared{
errorFrame: errD,
StatementId: copyBytes(stmtId), // defensively copy
}
case ErrCodeReadFailure:
res := &RequestErrReadFailure{
errorFrame: errD,
}
res.Consistency = f.readConsistency()
res.Received = f.readInt()
res.BlockFor = f.readInt()
if f.proto > protoVersion4 {
res.ErrorMap = f.readErrorMap()
res.NumFailures = len(res.ErrorMap)
} else {
res.NumFailures = f.readInt()
}
res.DataPresent = f.readByte() != 0
return res
case ErrCodeWriteFailure:
res := &RequestErrWriteFailure{
errorFrame: errD,
}
res.Consistency = f.readConsistency()
res.Received = f.readInt()
res.BlockFor = f.readInt()
if f.proto > protoVersion4 {
res.ErrorMap = f.readErrorMap()
res.NumFailures = len(res.ErrorMap)
} else {
res.NumFailures = f.readInt()
}
res.WriteType = f.readString()
return res
case ErrCodeFunctionFailure:
res := &RequestErrFunctionFailure{
errorFrame: errD,
}
res.Keyspace = f.readString()
res.Function = f.readString()
res.ArgTypes = f.readStringList()
return res
case ErrCodeCDCWriteFailure:
res := &RequestErrCDCWriteFailure{
errorFrame: errD,
}
return res
case ErrCodeCASWriteUnknown:
res := &RequestErrCASWriteUnknown{
errorFrame: errD,
}
res.Consistency = f.readConsistency()
res.Received = f.readInt()
res.BlockFor = f.readInt()
return res
case ErrCodeInvalid, ErrCodeBootstrapping, ErrCodeConfig, ErrCodeCredentials, ErrCodeOverloaded,
ErrCodeProtocol, ErrCodeServer, ErrCodeSyntax, ErrCodeTruncate, ErrCodeUnauthorized:
// TODO(zariel): we should have some distinct types for these errors
return errD
default:
panic(fmt.Errorf("unknown error code: 0x%x", errD.code))
}
}
func (f *framer) readErrorMap() (errMap ErrorMap) {
errMap = make(ErrorMap)
numErrs := f.readInt()
for i := 0; i < numErrs; i++ {
ip := f.readInetAdressOnly().String()
errMap[ip] = f.readShort()
}
return
}
func (f *framer) writeHeader(flags byte, op frameOp, stream int) {
f.buf = f.buf[:0]
f.buf = append(f.buf,
f.proto,
flags,
)
if f.proto > protoVersion2 {
f.buf = append(f.buf,
byte(stream>>8),
byte(stream),
)
} else {
f.buf = append(f.buf,
byte(stream),
)
}
// pad out length
f.buf = append(f.buf,
byte(op),
0,
0,
0,
0,
)
}
func (f *framer) setLength(length int) {
p := 4
if f.proto > protoVersion2 {
p = 5
}
f.buf[p+0] = byte(length >> 24)
f.buf[p+1] = byte(length >> 16)
f.buf[p+2] = byte(length >> 8)
f.buf[p+3] = byte(length)
}
func (f *framer) finish() error {
if len(f.buf) > maxFrameSize {
// huge app frame, lets remove it so it doesn't bloat the heap
f.buf = make([]byte, defaultBufSize)
return ErrFrameTooBig
}
if f.buf[1]&flagCompress == flagCompress {
if f.compres == nil {
panic("compress flag set with no compressor")
}
// TODO: only compress frames which are big enough
compressed, err := f.compres.Encode(f.buf[f.headSize:])
if err != nil {
return err
}
f.buf = append(f.buf[:f.headSize], compressed...)
}
length := len(f.buf) - f.headSize
f.setLength(length)
return nil
}
func (f *framer) writeTo(w io.Writer) error {
_, err := w.Write(f.buf)
return err
}
func (f *framer) readTrace() {
f.traceID = f.readUUID().Bytes()
}
type readyFrame struct {
frameHeader
}
func (f *framer) parseReadyFrame() frame {
return &readyFrame{
frameHeader: *f.header,
}
}
type supportedFrame struct {
frameHeader
supported map[string][]string
}
// TODO: if we move the body buffer onto the frameHeader then we only need a single
// framer, and can move the methods onto the header.
func (f *framer) parseSupportedFrame() frame {
return &supportedFrame{
frameHeader: *f.header,
supported: f.readStringMultiMap(),
}
}
type writeStartupFrame struct {
opts map[string]string
}
func (w writeStartupFrame) String() string {
return fmt.Sprintf("[startup opts=%+v]", w.opts)
}
func (w *writeStartupFrame) buildFrame(f *framer, streamID int) error {
f.writeHeader(f.flags&^flagCompress, opStartup, streamID)
f.writeStringMap(w.opts)
return f.finish()
}
type writePrepareFrame struct {
statement string
keyspace string
customPayload map[string][]byte
}
func (w *writePrepareFrame) buildFrame(f *framer, streamID int) error {
if len(w.customPayload) > 0 {
f.payload()
}
f.writeHeader(f.flags, opPrepare, streamID)
f.writeCustomPayload(&w.customPayload)
f.writeLongString(w.statement)
var flags uint32 = 0
if w.keyspace != "" {
if f.proto > protoVersion4 {
flags |= flagWithPreparedKeyspace
} else {
panic(fmt.Errorf("the keyspace can only be set with protocol 5 or higher"))
}
}
if f.proto > protoVersion4 {
f.writeUint(flags)
}
if w.keyspace != "" {
f.writeString(w.keyspace)
}
return f.finish()
}
func (f *framer) readTypeInfo() TypeInfo {
// TODO: factor this out so the same code paths can be used to parse custom
// types and other types, as much of the logic will be duplicated.
id := f.readShort()
simple := NativeType{
proto: f.proto,
typ: Type(id),
}
if simple.typ == TypeCustom {
simple.custom = f.readString()
if cassType := getApacheCassandraType(simple.custom); cassType != TypeCustom {
simple.typ = cassType
}
}
switch simple.typ {
case TypeTuple:
n := f.readShort()
tuple := TupleTypeInfo{
NativeType: simple,
Elems: make([]TypeInfo, n),
}
for i := 0; i < int(n); i++ {
tuple.Elems[i] = f.readTypeInfo()
}
return tuple
case TypeUDT:
udt := UDTTypeInfo{
NativeType: simple,
}
udt.KeySpace = f.readString()
udt.Name = f.readString()
n := f.readShort()
udt.Elements = make([]UDTField, n)
for i := 0; i < int(n); i++ {
field := &udt.Elements[i]
field.Name = f.readString()
field.Type = f.readTypeInfo()
}
return udt
case TypeMap, TypeList, TypeSet:
collection := CollectionType{
NativeType: simple,
}
if simple.typ == TypeMap {
collection.Key = f.readTypeInfo()
}
collection.Elem = f.readTypeInfo()
return collection
}
return simple
}
type preparedMetadata struct {
resultMetadata
// proto v4+
pkeyColumns []int
keyspace string
table string
}
func (r preparedMetadata) String() string {
return fmt.Sprintf("[prepared flags=0x%x pkey=%v paging_state=% X columns=%v col_count=%d actual_col_count=%d]", r.flags, r.pkeyColumns, r.pagingState, r.columns, r.colCount, r.actualColCount)
}
func (f *framer) parsePreparedMetadata() preparedMetadata {
// TODO: deduplicate this from parseMetadata
meta := preparedMetadata{}
meta.flags = f.readInt()
meta.colCount = f.readInt()
if meta.colCount < 0 {
panic(fmt.Errorf("received negative column count: %d", meta.colCount))
}
meta.actualColCount = meta.colCount
if f.proto >= protoVersion4 {
pkeyCount := f.readInt()
pkeys := make([]int, pkeyCount)
for i := 0; i < pkeyCount; i++ {
pkeys[i] = int(f.readShort())
}
meta.pkeyColumns = pkeys
}
if meta.flags&flagHasMorePages == flagHasMorePages {
meta.pagingState = copyBytes(f.readBytes())
}
if meta.flags&flagNoMetaData == flagNoMetaData {
return meta
}
globalSpec := meta.flags&flagGlobalTableSpec == flagGlobalTableSpec
if globalSpec {
meta.keyspace = f.readString()
meta.table = f.readString()
}
var cols []ColumnInfo
if meta.colCount < 1000 {
// preallocate columninfo to avoid excess copying
cols = make([]ColumnInfo, meta.colCount)
for i := 0; i < meta.colCount; i++ {
f.readCol(&cols[i], &meta.resultMetadata, globalSpec, meta.keyspace, meta.table)
}
} else {
// use append, huge number of columns usually indicates a corrupt frame or
// just a huge row.
for i := 0; i < meta.colCount; i++ {
var col ColumnInfo
f.readCol(&col, &meta.resultMetadata, globalSpec, meta.keyspace, meta.table)
cols = append(cols, col)
}
}
meta.columns = cols
return meta
}
type resultMetadata struct {
flags int
// only if flagPageState
pagingState []byte
columns []ColumnInfo
colCount int
// this is a count of the total number of columns which can be scanned,
// it is at minimum len(columns) but may be larger, for instance when a column
// is a UDT or tuple.
actualColCount int
}