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batch_node_list.go
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/
batch_node_list.go
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// Copyright 2014-2022 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 "github.com/aerospike/aerospike-client-go/v7/types"
func newBatchNodeList(cluster *Cluster, policy *BatchPolicy, keys []*Key, records []*BatchRecord, hasWrite bool) ([]*batchNode, Error) {
nodes := cluster.GetNodes()
if len(nodes) == 0 {
return nil, ErrClusterIsEmpty.err()
}
// Create initial key capacity for each node as average + 25%.
keysPerNode := len(keys) / len(nodes)
keysPerNode += keysPerNode / 2
// The minimum key capacity is 10.
if keysPerNode < 10 {
keysPerNode = 10
}
replicaPolicy := policy.ReplicaPolicy
replicaPolicySC := GetReplicaPolicySC(policy.GetBasePolicy())
// Split keys by server node.
batchNodes := make([]*batchNode, 0, len(nodes))
var errs Error
for i := range keys {
var node *Node
var err Error
if hasWrite {
node, err = GetNodeBatchWrite(cluster, keys[i], replicaPolicy, nil, 0)
} else {
node, err = GetNodeBatchRead(cluster, keys[i], replicaPolicy, replicaPolicySC, nil, 0, 0)
}
if err != nil {
if len(records) > 0 {
records[i].Err = chainErrors(err, records[i].Err)
} else {
errs = chainErrors(err, errs)
}
// return nil, err
}
if batchNode := findBatchNode(batchNodes, node); batchNode == nil {
batchNodes = append(batchNodes, newBatchNode(node, keysPerNode, i))
} else {
batchNode.AddKey(i)
}
}
return batchNodes, errs
}
func newBatchNodeListKeys(cluster *Cluster, policy *BatchPolicy, keys []*Key, records []*BatchRecord, sequenceAP, sequenceSC int, batchSeed *batchNode, hasWrite bool) ([]*batchNode, Error) {
nodes := cluster.GetNodes()
if len(nodes) == 0 {
return nil, ErrClusterIsEmpty.err()
}
// Create initial key capacity for each node as average + 25%.
keysPerNode := len(keys) / len(nodes)
keysPerNode += keysPerNode / 2
// The minimum key capacity is 10.
if keysPerNode < 10 {
keysPerNode = 10
}
replicaPolicy := policy.ReplicaPolicy
replicaPolicySC := GetReplicaPolicySC(policy.GetBasePolicy())
// Split keys by server node.
batchNodes := make([]*batchNode, 0, len(nodes))
var errs Error
for _, offset := range batchSeed.offsets {
var node *Node
var err Error
if hasWrite {
node, err = GetNodeBatchWrite(cluster, keys[offset], replicaPolicy, batchSeed.Node, sequenceAP)
} else {
node, err = GetNodeBatchRead(cluster, keys[offset], replicaPolicy, replicaPolicySC, batchSeed.Node, sequenceAP, sequenceSC)
}
if err != nil {
errs = chainErrors(err, errs)
// return nil, err
}
if batchNode := findBatchNode(batchNodes, node); batchNode == nil {
batchNodes = append(batchNodes, newBatchNode(node, keysPerNode, offset))
} else {
batchNode.AddKey(offset)
}
}
return batchNodes, errs
}
func newBatchNodeListRecords(cluster *Cluster, policy *BatchPolicy, records []*BatchRead, sequenceAP, sequenceSC int, batchSeed *batchNode) ([]*batchNode, Error) {
nodes := cluster.GetNodes()
if len(nodes) == 0 {
return nil, ErrClusterIsEmpty.err()
}
// Create initial key capacity for each node as average + 25%.
keysPerNode := len(batchSeed.offsets) / len(nodes)
keysPerNode += keysPerNode / 2
// The minimum key capacity is 10.
if keysPerNode < 10 {
keysPerNode = 10
}
replicaPolicy := policy.ReplicaPolicy
replicaPolicySC := GetReplicaPolicySC(policy.GetBasePolicy())
// Split keys by server node.
batchNodes := make([]*batchNode, 0, len(nodes))
for _, offset := range batchSeed.offsets {
node, err := GetNodeBatchRead(cluster, records[offset].Key, replicaPolicy, replicaPolicySC, batchSeed.Node, sequenceAP, sequenceSC)
if err != nil {
return nil, err
}
if batchNode := findBatchNode(batchNodes, node); batchNode == nil {
batchNodes = append(batchNodes, newBatchNode(node, keysPerNode, offset))
} else {
batchNode.AddKey(offset)
}
}
return batchNodes, nil
}
func newBatchIndexNodeList(cluster *Cluster, policy *BatchPolicy, records []*BatchRead) ([]*batchNode, Error) {
nodes := cluster.GetNodes()
if len(nodes) == 0 {
return nil, ErrClusterIsEmpty.err()
}
// Create initial key capacity for each node as average + 25%.
keysPerNode := len(records) / len(nodes)
keysPerNode += keysPerNode / 2
// The minimum key capacity is 10.
if keysPerNode < 10 {
keysPerNode = 10
}
replicaPolicy := policy.ReplicaPolicy
replicaPolicySC := GetReplicaPolicySC(policy.GetBasePolicy())
// Split keys by server node.
batchNodes := make([]*batchNode, 0, len(nodes))
for i := range records {
node, err := GetNodeBatchRead(cluster, records[i].Key, replicaPolicy, replicaPolicySC, nil, 0, 0)
if err != nil {
return nil, err
}
if batchNode := findBatchNode(batchNodes, node); batchNode == nil {
batchNodes = append(batchNodes, newBatchNode(node, keysPerNode, i))
} else {
batchNode.AddKey(i)
}
}
return batchNodes, nil
}
func newBatchOperateNodeListIfcRetry(cluster *Cluster, policy *BatchPolicy, records []BatchRecordIfc, sequenceAP, sequenceSC int, batchSeed *batchNode) ([]*batchNode, Error) {
nodes := cluster.GetNodes()
if len(nodes) == 0 {
return nil, ErrClusterIsEmpty.err()
}
// Create initial key capacity for each node as average + 25%.
keysPerNode := len(records) / len(nodes)
keysPerNode += keysPerNode / 2
// The minimum key capacity is 10.
if keysPerNode < 10 {
keysPerNode = 10
}
replicaPolicy := policy.ReplicaPolicy
replicaPolicySC := GetReplicaPolicySC(policy.GetBasePolicy())
// Split keys by server node.
batchNodes := make([]*batchNode, 0, len(nodes))
var errs Error
for _, offset := range batchSeed.offsets {
b := records[offset]
if b.resultCode() != types.NO_RESPONSE {
// Do not retry keys that already have a response.
continue
}
var node *Node
var err Error
if b.isWrite() {
node, err = GetNodeBatchWrite(cluster, b.key(), replicaPolicy, batchSeed.Node, sequenceAP)
} else {
node, err = GetNodeBatchRead(cluster, b.key(), replicaPolicy, replicaPolicySC, batchSeed.Node, sequenceAP, sequenceSC)
}
if err != nil {
errs = chainErrors(err, errs)
// return nil, err
}
if batchNode := findBatchNode(batchNodes, node); batchNode == nil {
batchNodes = append(batchNodes, newBatchNode(node, keysPerNode, offset))
} else {
batchNode.AddKey(offset)
}
}
return batchNodes, errs
}
func newBatchOperateNodeListIfc(cluster *Cluster, policy *BatchPolicy, records []BatchRecordIfc) ([]*batchNode, Error) {
nodes := cluster.GetNodes()
if len(nodes) == 0 {
return nil, ErrClusterIsEmpty.err()
}
// Create initial key capacity for each node as average + 25%.
keysPerNode := len(records) / len(nodes)
keysPerNode += keysPerNode / 2
// The minimum key capacity is 10.
if keysPerNode < 10 {
keysPerNode = 10
}
replicaPolicy := policy.ReplicaPolicy
replicaPolicySC := GetReplicaPolicySC(policy.GetBasePolicy())
// Split keys by server node.
batchNodes := make([]*batchNode, 0, len(nodes))
var errs Error
for i := range records {
b := records[i]
b.prepare()
var node *Node
var err Error
if b.isWrite() {
node, err = GetNodeBatchWrite(cluster, b.key(), replicaPolicy, nil, 0)
} else {
node, err = GetNodeBatchRead(cluster, b.key(), replicaPolicy, replicaPolicySC, nil, 0, 0)
}
if err != nil {
records[i].chainError(err)
records[i].setError(node, err.resultCode(), false)
// Don't interrupt the batch request because of INVALID_NAMESPACE error
// These keys will not be sent to the server
if !err.Matches(types.INVALID_NAMESPACE) {
errs = chainErrors(err, errs)
}
continue
}
if batchNode := findBatchNode(batchNodes, node); batchNode == nil {
batchNodes = append(batchNodes, newBatchNode(node, keysPerNode, i))
} else {
batchNode.AddKey(i)
}
}
return batchNodes, errs
}
func newGrpcBatchOperateListIfc(policy *BatchPolicy, records []BatchRecordIfc) (*batchNode, Error) {
// Split keys by server node.
batchNode := new(batchNode)
for i := range records {
b := records[i]
b.prepare()
batchNode.AddKey(i)
}
return batchNode, nil
}
func findBatchNode(nodes []*batchNode, node *Node) *batchNode {
for i := range nodes {
// Note: using pointer equality for performance.
if nodes[i].Node == node {
return nodes[i]
}
}
return nil
}