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forgejo/vendor/github.com/go-sql-driver/mysql/packets.go
Lunny Xiao d08996c7b9
Upgrade xorm to v1.0.3 (#12210)
Co-authored-by: Lauris BH <lauris@nix.lv>
Co-authored-by: techknowlogick <techknowlogick@gitea.io>
2020-07-11 17:07:52 -04:00

1342 lines
32 KiB
Go
Vendored

// Go MySQL Driver - A MySQL-Driver for Go's database/sql package
//
// Copyright 2012 The Go-MySQL-Driver Authors. All rights reserved.
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this file,
// You can obtain one at http://mozilla.org/MPL/2.0/.
package mysql
import (
"bytes"
"crypto/tls"
"database/sql/driver"
"encoding/binary"
"errors"
"fmt"
"io"
"math"
"time"
)
// Packets documentation:
// http://dev.mysql.com/doc/internals/en/client-server-protocol.html
// Read packet to buffer 'data'
func (mc *mysqlConn) readPacket() ([]byte, error) {
var prevData []byte
for {
// read packet header
data, err := mc.buf.readNext(4)
if err != nil {
if cerr := mc.canceled.Value(); cerr != nil {
return nil, cerr
}
errLog.Print(err)
mc.Close()
return nil, ErrInvalidConn
}
// packet length [24 bit]
pktLen := int(uint32(data[0]) | uint32(data[1])<<8 | uint32(data[2])<<16)
// check packet sync [8 bit]
if data[3] != mc.sequence {
if data[3] > mc.sequence {
return nil, ErrPktSyncMul
}
return nil, ErrPktSync
}
mc.sequence++
// packets with length 0 terminate a previous packet which is a
// multiple of (2^24)-1 bytes long
if pktLen == 0 {
// there was no previous packet
if prevData == nil {
errLog.Print(ErrMalformPkt)
mc.Close()
return nil, ErrInvalidConn
}
return prevData, nil
}
// read packet body [pktLen bytes]
data, err = mc.buf.readNext(pktLen)
if err != nil {
if cerr := mc.canceled.Value(); cerr != nil {
return nil, cerr
}
errLog.Print(err)
mc.Close()
return nil, ErrInvalidConn
}
// return data if this was the last packet
if pktLen < maxPacketSize {
// zero allocations for non-split packets
if prevData == nil {
return data, nil
}
return append(prevData, data...), nil
}
prevData = append(prevData, data...)
}
}
// Write packet buffer 'data'
func (mc *mysqlConn) writePacket(data []byte) error {
pktLen := len(data) - 4
if pktLen > mc.maxAllowedPacket {
return ErrPktTooLarge
}
// Perform a stale connection check. We only perform this check for
// the first query on a connection that has been checked out of the
// connection pool: a fresh connection from the pool is more likely
// to be stale, and it has not performed any previous writes that
// could cause data corruption, so it's safe to return ErrBadConn
// if the check fails.
if mc.reset {
mc.reset = false
conn := mc.netConn
if mc.rawConn != nil {
conn = mc.rawConn
}
var err error
// If this connection has a ReadTimeout which we've been setting on
// reads, reset it to its default value before we attempt a non-blocking
// read, otherwise the scheduler will just time us out before we can read
if mc.cfg.ReadTimeout != 0 {
err = conn.SetReadDeadline(time.Time{})
}
if err == nil && mc.cfg.CheckConnLiveness {
err = connCheck(conn)
}
if err != nil {
errLog.Print("closing bad idle connection: ", err)
mc.Close()
return driver.ErrBadConn
}
}
for {
var size int
if pktLen >= maxPacketSize {
data[0] = 0xff
data[1] = 0xff
data[2] = 0xff
size = maxPacketSize
} else {
data[0] = byte(pktLen)
data[1] = byte(pktLen >> 8)
data[2] = byte(pktLen >> 16)
size = pktLen
}
data[3] = mc.sequence
// Write packet
if mc.writeTimeout > 0 {
if err := mc.netConn.SetWriteDeadline(time.Now().Add(mc.writeTimeout)); err != nil {
return err
}
}
n, err := mc.netConn.Write(data[:4+size])
if err == nil && n == 4+size {
mc.sequence++
if size != maxPacketSize {
return nil
}
pktLen -= size
data = data[size:]
continue
}
// Handle error
if err == nil { // n != len(data)
mc.cleanup()
errLog.Print(ErrMalformPkt)
} else {
if cerr := mc.canceled.Value(); cerr != nil {
return cerr
}
if n == 0 && pktLen == len(data)-4 {
// only for the first loop iteration when nothing was written yet
return errBadConnNoWrite
}
mc.cleanup()
errLog.Print(err)
}
return ErrInvalidConn
}
}
/******************************************************************************
* Initialization Process *
******************************************************************************/
// Handshake Initialization Packet
// http://dev.mysql.com/doc/internals/en/connection-phase-packets.html#packet-Protocol::Handshake
func (mc *mysqlConn) readHandshakePacket() (data []byte, plugin string, err error) {
data, err = mc.readPacket()
if err != nil {
// for init we can rewrite this to ErrBadConn for sql.Driver to retry, since
// in connection initialization we don't risk retrying non-idempotent actions.
if err == ErrInvalidConn {
return nil, "", driver.ErrBadConn
}
return
}
if data[0] == iERR {
return nil, "", mc.handleErrorPacket(data)
}
// protocol version [1 byte]
if data[0] < minProtocolVersion {
return nil, "", fmt.Errorf(
"unsupported protocol version %d. Version %d or higher is required",
data[0],
minProtocolVersion,
)
}
// server version [null terminated string]
// connection id [4 bytes]
pos := 1 + bytes.IndexByte(data[1:], 0x00) + 1 + 4
// first part of the password cipher [8 bytes]
authData := data[pos : pos+8]
// (filler) always 0x00 [1 byte]
pos += 8 + 1
// capability flags (lower 2 bytes) [2 bytes]
mc.flags = clientFlag(binary.LittleEndian.Uint16(data[pos : pos+2]))
if mc.flags&clientProtocol41 == 0 {
return nil, "", ErrOldProtocol
}
if mc.flags&clientSSL == 0 && mc.cfg.tls != nil {
if mc.cfg.TLSConfig == "preferred" {
mc.cfg.tls = nil
} else {
return nil, "", ErrNoTLS
}
}
pos += 2
if len(data) > pos {
// character set [1 byte]
// status flags [2 bytes]
// capability flags (upper 2 bytes) [2 bytes]
// length of auth-plugin-data [1 byte]
// reserved (all [00]) [10 bytes]
pos += 1 + 2 + 2 + 1 + 10
// second part of the password cipher [mininum 13 bytes],
// where len=MAX(13, length of auth-plugin-data - 8)
//
// The web documentation is ambiguous about the length. However,
// according to mysql-5.7/sql/auth/sql_authentication.cc line 538,
// the 13th byte is "\0 byte, terminating the second part of
// a scramble". So the second part of the password cipher is
// a NULL terminated string that's at least 13 bytes with the
// last byte being NULL.
//
// The official Python library uses the fixed length 12
// which seems to work but technically could have a hidden bug.
authData = append(authData, data[pos:pos+12]...)
pos += 13
// EOF if version (>= 5.5.7 and < 5.5.10) or (>= 5.6.0 and < 5.6.2)
// \NUL otherwise
if end := bytes.IndexByte(data[pos:], 0x00); end != -1 {
plugin = string(data[pos : pos+end])
} else {
plugin = string(data[pos:])
}
// make a memory safe copy of the cipher slice
var b [20]byte
copy(b[:], authData)
return b[:], plugin, nil
}
// make a memory safe copy of the cipher slice
var b [8]byte
copy(b[:], authData)
return b[:], plugin, nil
}
// Client Authentication Packet
// http://dev.mysql.com/doc/internals/en/connection-phase-packets.html#packet-Protocol::HandshakeResponse
func (mc *mysqlConn) writeHandshakeResponsePacket(authResp []byte, plugin string) error {
// Adjust client flags based on server support
clientFlags := clientProtocol41 |
clientSecureConn |
clientLongPassword |
clientTransactions |
clientLocalFiles |
clientPluginAuth |
clientMultiResults |
mc.flags&clientLongFlag
if mc.cfg.ClientFoundRows {
clientFlags |= clientFoundRows
}
// To enable TLS / SSL
if mc.cfg.tls != nil {
clientFlags |= clientSSL
}
if mc.cfg.MultiStatements {
clientFlags |= clientMultiStatements
}
// encode length of the auth plugin data
var authRespLEIBuf [9]byte
authRespLen := len(authResp)
authRespLEI := appendLengthEncodedInteger(authRespLEIBuf[:0], uint64(authRespLen))
if len(authRespLEI) > 1 {
// if the length can not be written in 1 byte, it must be written as a
// length encoded integer
clientFlags |= clientPluginAuthLenEncClientData
}
pktLen := 4 + 4 + 1 + 23 + len(mc.cfg.User) + 1 + len(authRespLEI) + len(authResp) + 21 + 1
// To specify a db name
if n := len(mc.cfg.DBName); n > 0 {
clientFlags |= clientConnectWithDB
pktLen += n + 1
}
// Calculate packet length and get buffer with that size
data, err := mc.buf.takeSmallBuffer(pktLen + 4)
if err != nil {
// cannot take the buffer. Something must be wrong with the connection
errLog.Print(err)
return errBadConnNoWrite
}
// ClientFlags [32 bit]
data[4] = byte(clientFlags)
data[5] = byte(clientFlags >> 8)
data[6] = byte(clientFlags >> 16)
data[7] = byte(clientFlags >> 24)
// MaxPacketSize [32 bit] (none)
data[8] = 0x00
data[9] = 0x00
data[10] = 0x00
data[11] = 0x00
// Charset [1 byte]
var found bool
data[12], found = collations[mc.cfg.Collation]
if !found {
// Note possibility for false negatives:
// could be triggered although the collation is valid if the
// collations map does not contain entries the server supports.
return errors.New("unknown collation")
}
// SSL Connection Request Packet
// http://dev.mysql.com/doc/internals/en/connection-phase-packets.html#packet-Protocol::SSLRequest
if mc.cfg.tls != nil {
// Send TLS / SSL request packet
if err := mc.writePacket(data[:(4+4+1+23)+4]); err != nil {
return err
}
// Switch to TLS
tlsConn := tls.Client(mc.netConn, mc.cfg.tls)
if err := tlsConn.Handshake(); err != nil {
return err
}
mc.rawConn = mc.netConn
mc.netConn = tlsConn
mc.buf.nc = tlsConn
}
// Filler [23 bytes] (all 0x00)
pos := 13
for ; pos < 13+23; pos++ {
data[pos] = 0
}
// User [null terminated string]
if len(mc.cfg.User) > 0 {
pos += copy(data[pos:], mc.cfg.User)
}
data[pos] = 0x00
pos++
// Auth Data [length encoded integer]
pos += copy(data[pos:], authRespLEI)
pos += copy(data[pos:], authResp)
// Databasename [null terminated string]
if len(mc.cfg.DBName) > 0 {
pos += copy(data[pos:], mc.cfg.DBName)
data[pos] = 0x00
pos++
}
pos += copy(data[pos:], plugin)
data[pos] = 0x00
pos++
// Send Auth packet
return mc.writePacket(data[:pos])
}
// http://dev.mysql.com/doc/internals/en/connection-phase-packets.html#packet-Protocol::AuthSwitchResponse
func (mc *mysqlConn) writeAuthSwitchPacket(authData []byte) error {
pktLen := 4 + len(authData)
data, err := mc.buf.takeSmallBuffer(pktLen)
if err != nil {
// cannot take the buffer. Something must be wrong with the connection
errLog.Print(err)
return errBadConnNoWrite
}
// Add the auth data [EOF]
copy(data[4:], authData)
return mc.writePacket(data)
}
/******************************************************************************
* Command Packets *
******************************************************************************/
func (mc *mysqlConn) writeCommandPacket(command byte) error {
// Reset Packet Sequence
mc.sequence = 0
data, err := mc.buf.takeSmallBuffer(4 + 1)
if err != nil {
// cannot take the buffer. Something must be wrong with the connection
errLog.Print(err)
return errBadConnNoWrite
}
// Add command byte
data[4] = command
// Send CMD packet
return mc.writePacket(data)
}
func (mc *mysqlConn) writeCommandPacketStr(command byte, arg string) error {
// Reset Packet Sequence
mc.sequence = 0
pktLen := 1 + len(arg)
data, err := mc.buf.takeBuffer(pktLen + 4)
if err != nil {
// cannot take the buffer. Something must be wrong with the connection
errLog.Print(err)
return errBadConnNoWrite
}
// Add command byte
data[4] = command
// Add arg
copy(data[5:], arg)
// Send CMD packet
return mc.writePacket(data)
}
func (mc *mysqlConn) writeCommandPacketUint32(command byte, arg uint32) error {
// Reset Packet Sequence
mc.sequence = 0
data, err := mc.buf.takeSmallBuffer(4 + 1 + 4)
if err != nil {
// cannot take the buffer. Something must be wrong with the connection
errLog.Print(err)
return errBadConnNoWrite
}
// Add command byte
data[4] = command
// Add arg [32 bit]
data[5] = byte(arg)
data[6] = byte(arg >> 8)
data[7] = byte(arg >> 16)
data[8] = byte(arg >> 24)
// Send CMD packet
return mc.writePacket(data)
}
/******************************************************************************
* Result Packets *
******************************************************************************/
func (mc *mysqlConn) readAuthResult() ([]byte, string, error) {
data, err := mc.readPacket()
if err != nil {
return nil, "", err
}
// packet indicator
switch data[0] {
case iOK:
return nil, "", mc.handleOkPacket(data)
case iAuthMoreData:
return data[1:], "", err
case iEOF:
if len(data) == 1 {
// https://dev.mysql.com/doc/internals/en/connection-phase-packets.html#packet-Protocol::OldAuthSwitchRequest
return nil, "mysql_old_password", nil
}
pluginEndIndex := bytes.IndexByte(data, 0x00)
if pluginEndIndex < 0 {
return nil, "", ErrMalformPkt
}
plugin := string(data[1:pluginEndIndex])
authData := data[pluginEndIndex+1:]
return authData, plugin, nil
default: // Error otherwise
return nil, "", mc.handleErrorPacket(data)
}
}
// Returns error if Packet is not an 'Result OK'-Packet
func (mc *mysqlConn) readResultOK() error {
data, err := mc.readPacket()
if err != nil {
return err
}
if data[0] == iOK {
return mc.handleOkPacket(data)
}
return mc.handleErrorPacket(data)
}
// Result Set Header Packet
// http://dev.mysql.com/doc/internals/en/com-query-response.html#packet-ProtocolText::Resultset
func (mc *mysqlConn) readResultSetHeaderPacket() (int, error) {
data, err := mc.readPacket()
if err == nil {
switch data[0] {
case iOK:
return 0, mc.handleOkPacket(data)
case iERR:
return 0, mc.handleErrorPacket(data)
case iLocalInFile:
return 0, mc.handleInFileRequest(string(data[1:]))
}
// column count
num, _, n := readLengthEncodedInteger(data)
if n-len(data) == 0 {
return int(num), nil
}
return 0, ErrMalformPkt
}
return 0, err
}
// Error Packet
// http://dev.mysql.com/doc/internals/en/generic-response-packets.html#packet-ERR_Packet
func (mc *mysqlConn) handleErrorPacket(data []byte) error {
if data[0] != iERR {
return ErrMalformPkt
}
// 0xff [1 byte]
// Error Number [16 bit uint]
errno := binary.LittleEndian.Uint16(data[1:3])
// 1792: ER_CANT_EXECUTE_IN_READ_ONLY_TRANSACTION
// 1290: ER_OPTION_PREVENTS_STATEMENT (returned by Aurora during failover)
if (errno == 1792 || errno == 1290) && mc.cfg.RejectReadOnly {
// Oops; we are connected to a read-only connection, and won't be able
// to issue any write statements. Since RejectReadOnly is configured,
// we throw away this connection hoping this one would have write
// permission. This is specifically for a possible race condition
// during failover (e.g. on AWS Aurora). See README.md for more.
//
// We explicitly close the connection before returning
// driver.ErrBadConn to ensure that `database/sql` purges this
// connection and initiates a new one for next statement next time.
mc.Close()
return driver.ErrBadConn
}
pos := 3
// SQL State [optional: # + 5bytes string]
if data[3] == 0x23 {
//sqlstate := string(data[4 : 4+5])
pos = 9
}
// Error Message [string]
return &MySQLError{
Number: errno,
Message: string(data[pos:]),
}
}
func readStatus(b []byte) statusFlag {
return statusFlag(b[0]) | statusFlag(b[1])<<8
}
// Ok Packet
// http://dev.mysql.com/doc/internals/en/generic-response-packets.html#packet-OK_Packet
func (mc *mysqlConn) handleOkPacket(data []byte) error {
var n, m int
// 0x00 [1 byte]
// Affected rows [Length Coded Binary]
mc.affectedRows, _, n = readLengthEncodedInteger(data[1:])
// Insert id [Length Coded Binary]
mc.insertId, _, m = readLengthEncodedInteger(data[1+n:])
// server_status [2 bytes]
mc.status = readStatus(data[1+n+m : 1+n+m+2])
if mc.status&statusMoreResultsExists != 0 {
return nil
}
// warning count [2 bytes]
return nil
}
// Read Packets as Field Packets until EOF-Packet or an Error appears
// http://dev.mysql.com/doc/internals/en/com-query-response.html#packet-Protocol::ColumnDefinition41
func (mc *mysqlConn) readColumns(count int) ([]mysqlField, error) {
columns := make([]mysqlField, count)
for i := 0; ; i++ {
data, err := mc.readPacket()
if err != nil {
return nil, err
}
// EOF Packet
if data[0] == iEOF && (len(data) == 5 || len(data) == 1) {
if i == count {
return columns, nil
}
return nil, fmt.Errorf("column count mismatch n:%d len:%d", count, len(columns))
}
// Catalog
pos, err := skipLengthEncodedString(data)
if err != nil {
return nil, err
}
// Database [len coded string]
n, err := skipLengthEncodedString(data[pos:])
if err != nil {
return nil, err
}
pos += n
// Table [len coded string]
if mc.cfg.ColumnsWithAlias {
tableName, _, n, err := readLengthEncodedString(data[pos:])
if err != nil {
return nil, err
}
pos += n
columns[i].tableName = string(tableName)
} else {
n, err = skipLengthEncodedString(data[pos:])
if err != nil {
return nil, err
}
pos += n
}
// Original table [len coded string]
n, err = skipLengthEncodedString(data[pos:])
if err != nil {
return nil, err
}
pos += n
// Name [len coded string]
name, _, n, err := readLengthEncodedString(data[pos:])
if err != nil {
return nil, err
}
columns[i].name = string(name)
pos += n
// Original name [len coded string]
n, err = skipLengthEncodedString(data[pos:])
if err != nil {
return nil, err
}
pos += n
// Filler [uint8]
pos++
// Charset [charset, collation uint8]
columns[i].charSet = data[pos]
pos += 2
// Length [uint32]
columns[i].length = binary.LittleEndian.Uint32(data[pos : pos+4])
pos += 4
// Field type [uint8]
columns[i].fieldType = fieldType(data[pos])
pos++
// Flags [uint16]
columns[i].flags = fieldFlag(binary.LittleEndian.Uint16(data[pos : pos+2]))
pos += 2
// Decimals [uint8]
columns[i].decimals = data[pos]
//pos++
// Default value [len coded binary]
//if pos < len(data) {
// defaultVal, _, err = bytesToLengthCodedBinary(data[pos:])
//}
}
}
// Read Packets as Field Packets until EOF-Packet or an Error appears
// http://dev.mysql.com/doc/internals/en/com-query-response.html#packet-ProtocolText::ResultsetRow
func (rows *textRows) readRow(dest []driver.Value) error {
mc := rows.mc
if rows.rs.done {
return io.EOF
}
data, err := mc.readPacket()
if err != nil {
return err
}
// EOF Packet
if data[0] == iEOF && len(data) == 5 {
// server_status [2 bytes]
rows.mc.status = readStatus(data[3:])
rows.rs.done = true
if !rows.HasNextResultSet() {
rows.mc = nil
}
return io.EOF
}
if data[0] == iERR {
rows.mc = nil
return mc.handleErrorPacket(data)
}
// RowSet Packet
var n int
var isNull bool
pos := 0
for i := range dest {
// Read bytes and convert to string
dest[i], isNull, n, err = readLengthEncodedString(data[pos:])
pos += n
if err == nil {
if !isNull {
if !mc.parseTime {
continue
} else {
switch rows.rs.columns[i].fieldType {
case fieldTypeTimestamp, fieldTypeDateTime,
fieldTypeDate, fieldTypeNewDate:
dest[i], err = parseDateTime(
string(dest[i].([]byte)),
mc.cfg.Loc,
)
if err == nil {
continue
}
default:
continue
}
}
} else {
dest[i] = nil
continue
}
}
return err // err != nil
}
return nil
}
// Reads Packets until EOF-Packet or an Error appears. Returns count of Packets read
func (mc *mysqlConn) readUntilEOF() error {
for {
data, err := mc.readPacket()
if err != nil {
return err
}
switch data[0] {
case iERR:
return mc.handleErrorPacket(data)
case iEOF:
if len(data) == 5 {
mc.status = readStatus(data[3:])
}
return nil
}
}
}
/******************************************************************************
* Prepared Statements *
******************************************************************************/
// Prepare Result Packets
// http://dev.mysql.com/doc/internals/en/com-stmt-prepare-response.html
func (stmt *mysqlStmt) readPrepareResultPacket() (uint16, error) {
data, err := stmt.mc.readPacket()
if err == nil {
// packet indicator [1 byte]
if data[0] != iOK {
return 0, stmt.mc.handleErrorPacket(data)
}
// statement id [4 bytes]
stmt.id = binary.LittleEndian.Uint32(data[1:5])
// Column count [16 bit uint]
columnCount := binary.LittleEndian.Uint16(data[5:7])
// Param count [16 bit uint]
stmt.paramCount = int(binary.LittleEndian.Uint16(data[7:9]))
// Reserved [8 bit]
// Warning count [16 bit uint]
return columnCount, nil
}
return 0, err
}
// http://dev.mysql.com/doc/internals/en/com-stmt-send-long-data.html
func (stmt *mysqlStmt) writeCommandLongData(paramID int, arg []byte) error {
maxLen := stmt.mc.maxAllowedPacket - 1
pktLen := maxLen
// After the header (bytes 0-3) follows before the data:
// 1 byte command
// 4 bytes stmtID
// 2 bytes paramID
const dataOffset = 1 + 4 + 2
// Cannot use the write buffer since
// a) the buffer is too small
// b) it is in use
data := make([]byte, 4+1+4+2+len(arg))
copy(data[4+dataOffset:], arg)
for argLen := len(arg); argLen > 0; argLen -= pktLen - dataOffset {
if dataOffset+argLen < maxLen {
pktLen = dataOffset + argLen
}
stmt.mc.sequence = 0
// Add command byte [1 byte]
data[4] = comStmtSendLongData
// Add stmtID [32 bit]
data[5] = byte(stmt.id)
data[6] = byte(stmt.id >> 8)
data[7] = byte(stmt.id >> 16)
data[8] = byte(stmt.id >> 24)
// Add paramID [16 bit]
data[9] = byte(paramID)
data[10] = byte(paramID >> 8)
// Send CMD packet
err := stmt.mc.writePacket(data[:4+pktLen])
if err == nil {
data = data[pktLen-dataOffset:]
continue
}
return err
}
// Reset Packet Sequence
stmt.mc.sequence = 0
return nil
}
// Execute Prepared Statement
// http://dev.mysql.com/doc/internals/en/com-stmt-execute.html
func (stmt *mysqlStmt) writeExecutePacket(args []driver.Value) error {
if len(args) != stmt.paramCount {
return fmt.Errorf(
"argument count mismatch (got: %d; has: %d)",
len(args),
stmt.paramCount,
)
}
const minPktLen = 4 + 1 + 4 + 1 + 4
mc := stmt.mc
// Determine threshold dynamically to avoid packet size shortage.
longDataSize := mc.maxAllowedPacket / (stmt.paramCount + 1)
if longDataSize < 64 {
longDataSize = 64
}
// Reset packet-sequence
mc.sequence = 0
var data []byte
var err error
if len(args) == 0 {
data, err = mc.buf.takeBuffer(minPktLen)
} else {
data, err = mc.buf.takeCompleteBuffer()
// In this case the len(data) == cap(data) which is used to optimise the flow below.
}
if err != nil {
// cannot take the buffer. Something must be wrong with the connection
errLog.Print(err)
return errBadConnNoWrite
}
// command [1 byte]
data[4] = comStmtExecute
// statement_id [4 bytes]
data[5] = byte(stmt.id)
data[6] = byte(stmt.id >> 8)
data[7] = byte(stmt.id >> 16)
data[8] = byte(stmt.id >> 24)
// flags (0: CURSOR_TYPE_NO_CURSOR) [1 byte]
data[9] = 0x00
// iteration_count (uint32(1)) [4 bytes]
data[10] = 0x01
data[11] = 0x00
data[12] = 0x00
data[13] = 0x00
if len(args) > 0 {
pos := minPktLen
var nullMask []byte
if maskLen, typesLen := (len(args)+7)/8, 1+2*len(args); pos+maskLen+typesLen >= cap(data) {
// buffer has to be extended but we don't know by how much so
// we depend on append after all data with known sizes fit.
// We stop at that because we deal with a lot of columns here
// which makes the required allocation size hard to guess.
tmp := make([]byte, pos+maskLen+typesLen)
copy(tmp[:pos], data[:pos])
data = tmp
nullMask = data[pos : pos+maskLen]
// No need to clean nullMask as make ensures that.
pos += maskLen
} else {
nullMask = data[pos : pos+maskLen]
for i := range nullMask {
nullMask[i] = 0
}
pos += maskLen
}
// newParameterBoundFlag 1 [1 byte]
data[pos] = 0x01
pos++
// type of each parameter [len(args)*2 bytes]
paramTypes := data[pos:]
pos += len(args) * 2
// value of each parameter [n bytes]
paramValues := data[pos:pos]
valuesCap := cap(paramValues)
for i, arg := range args {
// build NULL-bitmap
if arg == nil {
nullMask[i/8] |= 1 << (uint(i) & 7)
paramTypes[i+i] = byte(fieldTypeNULL)
paramTypes[i+i+1] = 0x00
continue
}
// cache types and values
switch v := arg.(type) {
case int64:
paramTypes[i+i] = byte(fieldTypeLongLong)
paramTypes[i+i+1] = 0x00
if cap(paramValues)-len(paramValues)-8 >= 0 {
paramValues = paramValues[:len(paramValues)+8]
binary.LittleEndian.PutUint64(
paramValues[len(paramValues)-8:],
uint64(v),
)
} else {
paramValues = append(paramValues,
uint64ToBytes(uint64(v))...,
)
}
case uint64:
paramTypes[i+i] = byte(fieldTypeLongLong)
paramTypes[i+i+1] = 0x80 // type is unsigned
if cap(paramValues)-len(paramValues)-8 >= 0 {
paramValues = paramValues[:len(paramValues)+8]
binary.LittleEndian.PutUint64(
paramValues[len(paramValues)-8:],
uint64(v),
)
} else {
paramValues = append(paramValues,
uint64ToBytes(uint64(v))...,
)
}
case float64:
paramTypes[i+i] = byte(fieldTypeDouble)
paramTypes[i+i+1] = 0x00
if cap(paramValues)-len(paramValues)-8 >= 0 {
paramValues = paramValues[:len(paramValues)+8]
binary.LittleEndian.PutUint64(
paramValues[len(paramValues)-8:],
math.Float64bits(v),
)
} else {
paramValues = append(paramValues,
uint64ToBytes(math.Float64bits(v))...,
)
}
case bool:
paramTypes[i+i] = byte(fieldTypeTiny)
paramTypes[i+i+1] = 0x00
if v {
paramValues = append(paramValues, 0x01)
} else {
paramValues = append(paramValues, 0x00)
}
case []byte:
// Common case (non-nil value) first
if v != nil {
paramTypes[i+i] = byte(fieldTypeString)
paramTypes[i+i+1] = 0x00
if len(v) < longDataSize {
paramValues = appendLengthEncodedInteger(paramValues,
uint64(len(v)),
)
paramValues = append(paramValues, v...)
} else {
if err := stmt.writeCommandLongData(i, v); err != nil {
return err
}
}
continue
}
// Handle []byte(nil) as a NULL value
nullMask[i/8] |= 1 << (uint(i) & 7)
paramTypes[i+i] = byte(fieldTypeNULL)
paramTypes[i+i+1] = 0x00
case string:
paramTypes[i+i] = byte(fieldTypeString)
paramTypes[i+i+1] = 0x00
if len(v) < longDataSize {
paramValues = appendLengthEncodedInteger(paramValues,
uint64(len(v)),
)
paramValues = append(paramValues, v...)
} else {
if err := stmt.writeCommandLongData(i, []byte(v)); err != nil {
return err
}
}
case time.Time:
paramTypes[i+i] = byte(fieldTypeString)
paramTypes[i+i+1] = 0x00
var a [64]byte
var b = a[:0]
if v.IsZero() {
b = append(b, "0000-00-00"...)
} else {
b = v.In(mc.cfg.Loc).AppendFormat(b, timeFormat)
}
paramValues = appendLengthEncodedInteger(paramValues,
uint64(len(b)),
)
paramValues = append(paramValues, b...)
default:
return fmt.Errorf("cannot convert type: %T", arg)
}
}
// Check if param values exceeded the available buffer
// In that case we must build the data packet with the new values buffer
if valuesCap != cap(paramValues) {
data = append(data[:pos], paramValues...)
if err = mc.buf.store(data); err != nil {
errLog.Print(err)
return errBadConnNoWrite
}
}
pos += len(paramValues)
data = data[:pos]
}
return mc.writePacket(data)
}
func (mc *mysqlConn) discardResults() error {
for mc.status&statusMoreResultsExists != 0 {
resLen, err := mc.readResultSetHeaderPacket()
if err != nil {
return err
}
if resLen > 0 {
// columns
if err := mc.readUntilEOF(); err != nil {
return err
}
// rows
if err := mc.readUntilEOF(); err != nil {
return err
}
}
}
return nil
}
// http://dev.mysql.com/doc/internals/en/binary-protocol-resultset-row.html
func (rows *binaryRows) readRow(dest []driver.Value) error {
data, err := rows.mc.readPacket()
if err != nil {
return err
}
// packet indicator [1 byte]
if data[0] != iOK {
// EOF Packet
if data[0] == iEOF && len(data) == 5 {
rows.mc.status = readStatus(data[3:])
rows.rs.done = true
if !rows.HasNextResultSet() {
rows.mc = nil
}
return io.EOF
}
mc := rows.mc
rows.mc = nil
// Error otherwise
return mc.handleErrorPacket(data)
}
// NULL-bitmap, [(column-count + 7 + 2) / 8 bytes]
pos := 1 + (len(dest)+7+2)>>3
nullMask := data[1:pos]
for i := range dest {
// Field is NULL
// (byte >> bit-pos) % 2 == 1
if ((nullMask[(i+2)>>3] >> uint((i+2)&7)) & 1) == 1 {
dest[i] = nil
continue
}
// Convert to byte-coded string
switch rows.rs.columns[i].fieldType {
case fieldTypeNULL:
dest[i] = nil
continue
// Numeric Types
case fieldTypeTiny:
if rows.rs.columns[i].flags&flagUnsigned != 0 {
dest[i] = int64(data[pos])
} else {
dest[i] = int64(int8(data[pos]))
}
pos++
continue
case fieldTypeShort, fieldTypeYear:
if rows.rs.columns[i].flags&flagUnsigned != 0 {
dest[i] = int64(binary.LittleEndian.Uint16(data[pos : pos+2]))
} else {
dest[i] = int64(int16(binary.LittleEndian.Uint16(data[pos : pos+2])))
}
pos += 2
continue
case fieldTypeInt24, fieldTypeLong:
if rows.rs.columns[i].flags&flagUnsigned != 0 {
dest[i] = int64(binary.LittleEndian.Uint32(data[pos : pos+4]))
} else {
dest[i] = int64(int32(binary.LittleEndian.Uint32(data[pos : pos+4])))
}
pos += 4
continue
case fieldTypeLongLong:
if rows.rs.columns[i].flags&flagUnsigned != 0 {
val := binary.LittleEndian.Uint64(data[pos : pos+8])
if val > math.MaxInt64 {
dest[i] = uint64ToString(val)
} else {
dest[i] = int64(val)
}
} else {
dest[i] = int64(binary.LittleEndian.Uint64(data[pos : pos+8]))
}
pos += 8
continue
case fieldTypeFloat:
dest[i] = math.Float32frombits(binary.LittleEndian.Uint32(data[pos : pos+4]))
pos += 4
continue
case fieldTypeDouble:
dest[i] = math.Float64frombits(binary.LittleEndian.Uint64(data[pos : pos+8]))
pos += 8
continue
// Length coded Binary Strings
case fieldTypeDecimal, fieldTypeNewDecimal, fieldTypeVarChar,
fieldTypeBit, fieldTypeEnum, fieldTypeSet, fieldTypeTinyBLOB,
fieldTypeMediumBLOB, fieldTypeLongBLOB, fieldTypeBLOB,
fieldTypeVarString, fieldTypeString, fieldTypeGeometry, fieldTypeJSON:
var isNull bool
var n int
dest[i], isNull, n, err = readLengthEncodedString(data[pos:])
pos += n
if err == nil {
if !isNull {
continue
} else {
dest[i] = nil
continue
}
}
return err
case
fieldTypeDate, fieldTypeNewDate, // Date YYYY-MM-DD
fieldTypeTime, // Time [-][H]HH:MM:SS[.fractal]
fieldTypeTimestamp, fieldTypeDateTime: // Timestamp YYYY-MM-DD HH:MM:SS[.fractal]
num, isNull, n := readLengthEncodedInteger(data[pos:])
pos += n
switch {
case isNull:
dest[i] = nil
continue
case rows.rs.columns[i].fieldType == fieldTypeTime:
// database/sql does not support an equivalent to TIME, return a string
var dstlen uint8
switch decimals := rows.rs.columns[i].decimals; decimals {
case 0x00, 0x1f:
dstlen = 8
case 1, 2, 3, 4, 5, 6:
dstlen = 8 + 1 + decimals
default:
return fmt.Errorf(
"protocol error, illegal decimals value %d",
rows.rs.columns[i].decimals,
)
}
dest[i], err = formatBinaryTime(data[pos:pos+int(num)], dstlen)
case rows.mc.parseTime:
dest[i], err = parseBinaryDateTime(num, data[pos:], rows.mc.cfg.Loc)
default:
var dstlen uint8
if rows.rs.columns[i].fieldType == fieldTypeDate {
dstlen = 10
} else {
switch decimals := rows.rs.columns[i].decimals; decimals {
case 0x00, 0x1f:
dstlen = 19
case 1, 2, 3, 4, 5, 6:
dstlen = 19 + 1 + decimals
default:
return fmt.Errorf(
"protocol error, illegal decimals value %d",
rows.rs.columns[i].decimals,
)
}
}
dest[i], err = formatBinaryDateTime(data[pos:pos+int(num)], dstlen)
}
if err == nil {
pos += int(num)
continue
} else {
return err
}
// Please report if this happens!
default:
return fmt.Errorf("unknown field type %d", rows.rs.columns[i].fieldType)
}
}
return nil
}