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read_command.go
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read_command.go
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// Copyright 2013-2016 Aerospike, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package aerospike
import (
"errors"
"math"
"reflect"
"strings"
"time"
. "github.com/aerospike/aerospike-client-go/logger"
. "github.com/aerospike/aerospike-client-go/types"
Buffer "github.com/aerospike/aerospike-client-go/utils/buffer"
)
type readCommand struct {
*singleCommand
policy Policy
binNames []string
record *Record
// pointer to the object that's going to be unmarshalled
object interface{}
}
func newReadCommand(cluster *Cluster, policy Policy, key *Key, binNames []string) *readCommand {
return &readCommand{
singleCommand: newSingleCommand(cluster, key),
binNames: binNames,
policy: policy,
}
}
func (cmd *readCommand) getPolicy(ifc command) Policy {
return cmd.policy
}
func (cmd *readCommand) writeBuffer(ifc command) error {
return cmd.setRead(cmd.policy.GetBasePolicy(), cmd.key, cmd.binNames)
}
func (cmd *readCommand) parseResult(ifc command, conn *Connection) error {
// Read header.
_, err := conn.Read(cmd.dataBuffer, int(_MSG_TOTAL_HEADER_SIZE))
if err != nil {
Logger.Warn("parse result error: " + err.Error())
return err
}
// A number of these are commented out because we just don't care enough to read
// that section of the header. If we do care, uncomment and check!
sz := Buffer.BytesToInt64(cmd.dataBuffer, 0)
headerLength := int(cmd.dataBuffer[8])
resultCode := ResultCode(cmd.dataBuffer[13] & 0xFF)
generation := Buffer.BytesToUint32(cmd.dataBuffer, 14)
expiration := TTL(Buffer.BytesToUint32(cmd.dataBuffer, 18))
fieldCount := int(Buffer.BytesToUint16(cmd.dataBuffer, 26)) // almost certainly 0
opCount := int(Buffer.BytesToUint16(cmd.dataBuffer, 28))
receiveSize := int((sz & 0xFFFFFFFFFFFF) - int64(headerLength))
// Read remaining message bytes.
if receiveSize > 0 {
if err = cmd.sizeBufferSz(receiveSize); err != nil {
return err
}
_, err = conn.Read(cmd.dataBuffer, receiveSize)
if err != nil {
Logger.Warn("parse result error: " + err.Error())
return err
}
}
if resultCode != 0 {
if resultCode == KEY_NOT_FOUND_ERROR && cmd.object == nil {
return nil
}
if resultCode == UDF_BAD_RESPONSE {
cmd.record, _ = cmd.parseRecord(opCount, fieldCount, generation, expiration)
err := cmd.handleUdfError(resultCode)
Logger.Warn("UDF execution error: " + err.Error())
return err
}
return NewAerospikeError(resultCode)
}
if cmd.object == nil {
if opCount == 0 {
// data Bin was not returned
cmd.record = newRecord(cmd.node, cmd.key, nil, generation, expiration)
return nil
}
cmd.record, err = cmd.parseRecord(opCount, fieldCount, generation, expiration)
if err != nil {
return err
}
} else {
if err := cmd.parseObject(opCount, fieldCount, generation, expiration); err != nil {
return err
}
}
return nil
}
func (cmd *readCommand) handleUdfError(resultCode ResultCode) error {
if ret, exists := cmd.record.Bins["FAILURE"]; exists {
return NewAerospikeError(resultCode, ret.(string))
}
return NewAerospikeError(resultCode)
}
func (cmd *readCommand) parseRecord(
opCount int,
fieldCount int,
generation uint32,
expiration uint32,
) (*Record, error) {
var bins BinMap
receiveOffset := 0
// There can be fields in the response (setname etc).
// But for now, ignore them. Expose them to the API if needed in the future.
// Logger.Debug("field count: %d, databuffer: %v", fieldCount, cmd.dataBuffer)
if fieldCount > 0 {
// Just skip over all the fields
for i := 0; i < fieldCount; i++ {
// Logger.Debug("%d", receiveOffset)
fieldSize := int(Buffer.BytesToUint32(cmd.dataBuffer, receiveOffset))
receiveOffset += (4 + fieldSize)
}
}
if opCount > 0 {
bins = make(BinMap, opCount)
}
for i := 0; i < opCount; i++ {
opSize := int(Buffer.BytesToUint32(cmd.dataBuffer, receiveOffset))
particleType := int(cmd.dataBuffer[receiveOffset+5])
nameSize := int(cmd.dataBuffer[receiveOffset+7])
name := string(cmd.dataBuffer[receiveOffset+8 : receiveOffset+8+nameSize])
receiveOffset += 4 + 4 + nameSize
particleBytesSize := int(opSize - (4 + nameSize))
value, _ := bytesToParticle(particleType, cmd.dataBuffer, receiveOffset, particleBytesSize)
receiveOffset += particleBytesSize
if bins == nil {
bins = make(BinMap, opCount)
}
// for operate list command results
if prev, exists := bins[name]; exists {
if res, ok := prev.([]interface{}); ok {
// List already exists. Add to it.
bins[name] = append(res, value)
} else {
// Make a list to store all values.
bins[name] = []interface{}{prev, value}
}
} else {
bins[name] = value
}
}
return newRecord(cmd.node, cmd.key, bins, generation, expiration), nil
}
func (cmd *readCommand) parseObject(
opCount int,
fieldCount int,
generation uint32,
expiration uint32,
) error {
receiveOffset := 0
// There can be fields in the response (setname etc).
// But for now, ignore them. Expose them to the API if needed in the future.
// Logger.Debug("field count: %d, databuffer: %v", fieldCount, cmd.dataBuffer)
if fieldCount > 0 {
// Just skip over all the fields
for i := 0; i < fieldCount; i++ {
// Logger.Debug("%d", receiveOffset)
fieldSize := int(Buffer.BytesToUint32(cmd.dataBuffer, receiveOffset))
receiveOffset += (4 + fieldSize)
}
}
var rv reflect.Value
if opCount > 0 {
rv = reflect.ValueOf(cmd.object)
if rv.Kind() != reflect.Ptr {
return errors.New("Invalid type for result object. It should be of type Struct Pointer.")
}
rv = rv.Elem()
if !rv.CanAddr() {
return errors.New("Invalid type for object. It should be addressable (a pointer)")
}
if rv.Kind() != reflect.Struct {
return errors.New("Invalid type for object. It should be a pointer to a struct.")
}
// map tags
cacheObjectTags(rv)
}
// find the name based on tag mapping
iobj := indirect(rv)
mappings := objectMappings.getMapping(iobj.Type())
if err := setObjectMetaFields(iobj, TTL(expiration), generation); err != nil {
return err
}
for i := 0; i < opCount; i++ {
opSize := int(Buffer.BytesToUint32(cmd.dataBuffer, receiveOffset))
particleType := int(cmd.dataBuffer[receiveOffset+5])
nameSize := int(cmd.dataBuffer[receiveOffset+7])
name := string(cmd.dataBuffer[receiveOffset+8 : receiveOffset+8+nameSize])
receiveOffset += 4 + 4 + nameSize
particleBytesSize := int(opSize - (4 + nameSize))
value, _ := bytesToParticle(particleType, cmd.dataBuffer, receiveOffset, particleBytesSize)
if err := setObjectField(mappings, iobj, name, value); err != nil {
return err
}
receiveOffset += particleBytesSize
}
return nil
}
func (cmd *readCommand) GetRecord() *Record {
return cmd.record
}
func (cmd *readCommand) Execute() error {
return cmd.execute(cmd)
}
func setObjectMetaFields(obj reflect.Value, ttl, gen uint32) error {
// find the name based on tag mapping
iobj := indirect(obj)
ttlMap, genMap := objectMappings.getMetaMappings(iobj)
if ttlMap != nil {
for i := range ttlMap {
f := iobj.FieldByName(ttlMap[i])
if err := setValue(f, ttl); err != nil {
return err
}
}
}
if genMap != nil {
for i := range genMap {
f := iobj.FieldByName(genMap[i])
if err := setValue(f, gen); err != nil {
return err
}
}
}
return nil
}
func setObjectField(mappings map[string]string, obj reflect.Value, fieldName string, value interface{}) error {
if value == nil {
return nil
}
if name, exists := mappings[fieldName]; exists {
fieldName = name
}
f := obj.FieldByName(fieldName)
return setValue(f, value)
}
func setValue(f reflect.Value, value interface{}) error {
// find the name based on tag mapping
if f.CanSet() {
switch f.Kind() {
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
f.SetInt(int64(value.(int)))
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
switch v := value.(type) {
case uint8:
f.SetUint(uint64(v))
case uint16:
f.SetUint(uint64(v))
case uint32:
f.SetUint(uint64(v))
case uint64:
f.SetUint(uint64(v))
case uint:
f.SetUint(uint64(v))
default:
f.SetUint(uint64(value.(int)))
}
case reflect.Float64, reflect.Float32:
// if value has returned as a float
if fv, ok := value.(float64); ok {
f.SetFloat(fv)
} else {
// otherwise it is an old float64<->int64 marshalling type cast which needs to be set as int
f.SetFloat(float64(math.Float64frombits(uint64(value.(int)))))
}
case reflect.String:
rv := reflect.ValueOf(value.(string))
if rv.Type() != f.Type() {
rv = rv.Convert(f.Type())
}
f.Set(rv)
case reflect.Bool:
f.SetBool(value.(int) == 1)
case reflect.Interface:
if value != nil {
f.Set(reflect.ValueOf(value))
}
case reflect.Ptr:
switch f.Type().Elem().Kind() {
case reflect.Int:
tempV := int(value.(int))
rv := reflect.ValueOf(&tempV)
if rv.Type() != f.Type() {
rv = rv.Convert(f.Type())
}
f.Set(rv)
case reflect.Uint:
tempV := uint(value.(int))
rv := reflect.ValueOf(&tempV)
if rv.Type() != f.Type() {
rv = rv.Convert(f.Type())
}
f.Set(rv)
case reflect.String:
tempV := string(value.(string))
rv := reflect.ValueOf(&tempV)
if rv.Type() != f.Type() {
rv = rv.Convert(f.Type())
}
f.Set(rv)
case reflect.Int8:
tempV := int8(value.(int))
rv := reflect.ValueOf(&tempV)
if rv.Type() != f.Type() {
rv = rv.Convert(f.Type())
}
f.Set(rv)
case reflect.Uint8:
tempV := uint8(value.(int))
rv := reflect.ValueOf(&tempV)
if rv.Type() != f.Type() {
rv = rv.Convert(f.Type())
}
f.Set(rv)
case reflect.Int16:
tempV := int16(value.(int))
rv := reflect.ValueOf(&tempV)
if rv.Type() != f.Type() {
rv = rv.Convert(f.Type())
}
f.Set(rv)
case reflect.Uint16:
tempV := uint16(value.(int))
rv := reflect.ValueOf(&tempV)
if rv.Type() != f.Type() {
rv = rv.Convert(f.Type())
}
f.Set(rv)
case reflect.Int32:
tempV := int32(value.(int))
rv := reflect.ValueOf(&tempV)
if rv.Type() != f.Type() {
rv = rv.Convert(f.Type())
}
f.Set(rv)
case reflect.Uint32:
tempV := uint32(value.(int))
rv := reflect.ValueOf(&tempV)
if rv.Type() != f.Type() {
rv = rv.Convert(f.Type())
}
f.Set(rv)
case reflect.Int64:
tempV := int64(value.(int))
rv := reflect.ValueOf(&tempV)
if rv.Type() != f.Type() {
rv = rv.Convert(f.Type())
}
f.Set(rv)
case reflect.Uint64:
tempV := uint64(value.(int))
rv := reflect.ValueOf(&tempV)
if rv.Type() != f.Type() {
rv = rv.Convert(f.Type())
}
f.Set(rv)
case reflect.Float64:
// it is possible that the value is an integer set in the field
// via the old float<->int64 type cast
var tempV float64
if fv, ok := value.(float64); ok {
tempV = fv
} else {
tempV = math.Float64frombits(uint64(value.(int)))
}
rv := reflect.ValueOf(&tempV)
if rv.Type() != f.Type() {
rv = rv.Convert(f.Type())
}
f.Set(rv)
case reflect.Bool:
tempV := bool(value.(int) == 1)
rv := reflect.ValueOf(&tempV)
if rv.Type() != f.Type() {
rv = rv.Convert(f.Type())
}
f.Set(rv)
case reflect.Float32:
// it is possible that the value is an integer set in the field
// via the old float<->int64 type cast
var tempV64 float64
if fv, ok := value.(float64); ok {
tempV64 = fv
} else {
tempV64 = math.Float64frombits(uint64(value.(int)))
}
tempV := float32(tempV64)
rv := reflect.ValueOf(&tempV)
if rv.Type() != f.Type() {
rv = rv.Convert(f.Type())
}
f.Set(rv)
case reflect.Interface:
f.Set(reflect.ValueOf(&value))
case reflect.Struct:
// support time.Time
if f.Type().Elem().PkgPath() == "time" && f.Type().Elem().Name() == "Time" {
tm := time.Unix(0, int64(value.(int)))
f.Set(reflect.ValueOf(&tm))
break
} else {
valMap := value.(map[interface{}]interface{})
// iteraste over struct fields and recursively fill them up
if valMap != nil {
newObjPtr := f
if f.IsNil() {
newObjPtr = reflect.New(f.Type().Elem())
}
theStruct := newObjPtr.Elem().Type()
numFields := newObjPtr.Elem().NumField()
for i := 0; i < numFields; i++ {
// skip unexported fields
fld := theStruct.Field(i)
if fld.PkgPath != "" {
continue
}
alias := fld.Name
tag := strings.Trim(fld.Tag.Get(aerospikeTag), " ")
if tag != "" {
alias = tag
}
if valMap[alias] != nil {
if err := setValue(reflect.Indirect(newObjPtr).FieldByName(fld.Name), valMap[alias]); err != nil {
return err
}
}
}
// set the field
f.Set(newObjPtr)
}
}
} // switch ptr
case reflect.Slice, reflect.Array:
// BLOBs come back as []byte
theArray := reflect.ValueOf(value)
if f.Kind() == reflect.Slice {
if f.IsNil() {
f.Set(reflect.MakeSlice(reflect.SliceOf(f.Type().Elem()), theArray.Len(), theArray.Len()))
} else if f.Len() < theArray.Len() {
count := theArray.Len() - f.Len()
f = reflect.AppendSlice(f, reflect.MakeSlice(reflect.SliceOf(f.Type().Elem()), count, count))
}
}
for i := 0; i < theArray.Len(); i++ {
if err := setValue(f.Index(i), theArray.Index(i).Interface()); err != nil {
return err
}
}
case reflect.Map:
emptyStruct := reflect.ValueOf(struct{}{})
theMap := value.(map[interface{}]interface{})
if theMap != nil {
newMap := reflect.MakeMap(f.Type())
var newKey, newVal reflect.Value
for key, elem := range theMap {
if key != nil {
newKey = reflect.ValueOf(key)
} else {
newKey = reflect.Zero(f.Type().Key())
}
if newKey.Type() != f.Type().Key() {
newKey = newKey.Convert(f.Type().Key())
}
if elem != nil {
newVal = reflect.ValueOf(elem)
} else {
newVal = reflect.Zero(f.Type().Elem())
}
if newVal.Type() != f.Type().Elem() {
newVal = newVal.Convert(f.Type().Elem())
}
if newVal.Kind() == reflect.Map && newVal.Len() == 0 && newMap.Type().Elem().Kind() == emptyStruct.Type().Kind() {
if newMap.Type().Elem().NumField() == 0 {
newMap.SetMapIndex(newKey, emptyStruct)
} else {
return errors.New("Map value type is struct{}, but data returned from database is a non-empty map[interface{}]interface{}")
}
} else {
newMap.SetMapIndex(newKey, newVal)
}
}
f.Set(newMap)
}
case reflect.Struct:
// support time.Time
if f.Type().PkgPath() == "time" && f.Type().Name() == "Time" {
f.Set(reflect.ValueOf(time.Unix(0, int64(value.(int)))))
break
}
valMap := value.(map[interface{}]interface{})
// iteraste over struct fields and recursively fill them up
typeOfT := f.Type()
numFields := f.NumField()
for i := 0; i < numFields; i++ {
fld := typeOfT.Field(i)
// skip unexported fields
if fld.PkgPath != "" {
continue
}
alias := fld.Name
tag := strings.Trim(fld.Tag.Get(aerospikeTag), " ")
if tag != "" {
alias = tag
}
if valMap[alias] != nil {
if err := setValue(f.FieldByName(fld.Name), valMap[alias]); err != nil {
return err
}
}
}
// set the field
f.Set(f)
}
}
return nil
}