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session.go
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session.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 (
"bytes"
"encoding/binary"
"errors"
"fmt"
"io"
"log"
"strings"
"sync"
"time"
"unicode"
"github.com/gocql/gocql/internal/lru"
)
// Session is the interface used by users to interact with the database.
//
// It's safe for concurrent use by multiple goroutines and a typical usage
// scenario is to have one global session object to interact with the
// whole Cassandra cluster.
//
// This type extends the Node interface by adding a convinient query builder
// and automatically sets a default consinstency level on all operations
// that do not have a consistency level set.
type Session struct {
pool *policyConnPool
cons Consistency
pageSize int
prefetch float64
routingKeyInfoCache routingKeyInfoLRU
schemaDescriber *schemaDescriber
trace Tracer
hostSource *ringDescriber
mu sync.RWMutex
control *controlConn
cfg ClusterConfig
closeMu sync.RWMutex
isClosed bool
}
// NewSession wraps an existing Node.
func NewSession(cfg ClusterConfig) (*Session, error) {
//Check that hosts in the ClusterConfig is not empty
if len(cfg.Hosts) < 1 {
return nil, ErrNoHosts
}
//Adjust the size of the prepared statements cache to match the latest configuration
stmtsLRU.Lock()
initStmtsLRU(cfg.MaxPreparedStmts)
stmtsLRU.Unlock()
s := &Session{
cons: cfg.Consistency,
prefetch: 0.25,
cfg: cfg,
pageSize: cfg.PageSize,
}
pool, err := cfg.PoolConfig.buildPool(s)
if err != nil {
return nil, err
}
s.pool = pool
// See if there are any connections in the pool
if pool.Size() == 0 {
s.Close()
return nil, ErrNoConnectionsStarted
}
s.routingKeyInfoCache.lru = lru.New(cfg.MaxRoutingKeyInfo)
// I think it might be a good idea to simplify this and make it always discover
// hosts, maybe with more filters.
if cfg.DiscoverHosts {
s.hostSource = &ringDescriber{
session: s,
dcFilter: cfg.Discovery.DcFilter,
rackFilter: cfg.Discovery.RackFilter,
closeChan: make(chan bool),
}
}
if !cfg.disableControlConn {
s.control = createControlConn(s)
s.control.reconnect(false)
// need to setup host source to check for rpc_address in system.local
localHasRPCAddr, err := checkSystemLocal(s.control)
if err != nil {
log.Printf("gocql: unable to verify if system.local table contains rpc_address, falling back to connection address: %v", err)
}
if cfg.DiscoverHosts {
s.hostSource.localHasRpcAddr = localHasRPCAddr
}
}
if cfg.DiscoverHosts {
s.hostSource.refreshRing()
go s.hostSource.run(cfg.Discovery.Sleep)
}
return s, nil
}
// SetConsistency sets the default consistency level for this session. This
// setting can also be changed on a per-query basis and the default value
// is Quorum.
func (s *Session) SetConsistency(cons Consistency) {
s.mu.Lock()
s.cons = cons
s.mu.Unlock()
}
// SetPageSize sets the default page size for this session. A value <= 0 will
// disable paging. This setting can also be changed on a per-query basis.
func (s *Session) SetPageSize(n int) {
s.mu.Lock()
s.pageSize = n
s.mu.Unlock()
}
// SetPrefetch sets the default threshold for pre-fetching new pages. If
// there are only p*pageSize rows remaining, the next page will be requested
// automatically. This value can also be changed on a per-query basis and
// the default value is 0.25.
func (s *Session) SetPrefetch(p float64) {
s.mu.Lock()
s.prefetch = p
s.mu.Unlock()
}
// SetTrace sets the default tracer for this session. This setting can also
// be changed on a per-query basis.
func (s *Session) SetTrace(trace Tracer) {
s.mu.Lock()
s.trace = trace
s.mu.Unlock()
}
// Query generates a new query object for interacting with the database.
// Further details of the query may be tweaked using the resulting query
// value before the query is executed. Query is automatically prepared
// if it has not previously been executed.
func (s *Session) Query(stmt string, values ...interface{}) *Query {
s.mu.RLock()
qry := &Query{stmt: stmt, values: values, cons: s.cons,
session: s, pageSize: s.pageSize, trace: s.trace,
prefetch: s.prefetch, rt: s.cfg.RetryPolicy, serialCons: s.cfg.SerialConsistency,
defaultTimestamp: s.cfg.DefaultTimestamp,
}
s.mu.RUnlock()
return qry
}
type QueryInfo struct {
Id []byte
Args []ColumnInfo
Rval []ColumnInfo
PKeyColumns []int
}
// Bind generates a new query object based on the query statement passed in.
// The query is automatically prepared if it has not previously been executed.
// The binding callback allows the application to define which query argument
// values will be marshalled as part of the query execution.
// During execution, the meta data of the prepared query will be routed to the
// binding callback, which is responsible for producing the query argument values.
func (s *Session) Bind(stmt string, b func(q *QueryInfo) ([]interface{}, error)) *Query {
s.mu.RLock()
qry := &Query{stmt: stmt, binding: b, cons: s.cons,
session: s, pageSize: s.pageSize, trace: s.trace,
prefetch: s.prefetch, rt: s.cfg.RetryPolicy}
s.mu.RUnlock()
return qry
}
// Close closes all connections. The session is unusable after this
// operation.
func (s *Session) Close() {
s.closeMu.Lock()
defer s.closeMu.Unlock()
if s.isClosed {
return
}
s.isClosed = true
s.pool.Close()
if s.hostSource != nil {
close(s.hostSource.closeChan)
}
if s.control != nil {
s.control.close()
}
}
func (s *Session) Closed() bool {
s.closeMu.RLock()
closed := s.isClosed
s.closeMu.RUnlock()
return closed
}
func (s *Session) executeQuery(qry *Query) *Iter {
// fail fast
if s.Closed() {
return &Iter{err: ErrSessionClosed}
}
var iter *Iter
qry.attempts = 0
qry.totalLatency = 0
for {
host, conn := s.pool.Pick(qry)
//Assign the error unavailable to the iterator
if conn == nil {
if qry.rt == nil || !qry.rt.Attempt(qry) {
iter = &Iter{err: ErrNoConnections}
break
}
continue
}
t := time.Now()
iter = conn.executeQuery(qry)
qry.totalLatency += time.Now().Sub(t).Nanoseconds()
qry.attempts++
//Exit for loop if the query was successful
if iter.err == nil {
host.Mark(iter.err)
break
}
// Mark host as ok
host.Mark(nil)
if qry.rt == nil || !qry.rt.Attempt(qry) {
break
}
}
return iter
}
// KeyspaceMetadata returns the schema metadata for the keyspace specified.
func (s *Session) KeyspaceMetadata(keyspace string) (*KeyspaceMetadata, error) {
// fail fast
if s.Closed() {
return nil, ErrSessionClosed
}
if keyspace == "" {
return nil, ErrNoKeyspace
}
s.mu.Lock()
// lazy-init schemaDescriber
if s.schemaDescriber == nil {
s.schemaDescriber = newSchemaDescriber(s)
}
s.mu.Unlock()
return s.schemaDescriber.getSchema(keyspace)
}
// returns routing key indexes and type info
func (s *Session) routingKeyInfo(stmt string) (*routingKeyInfo, error) {
s.routingKeyInfoCache.mu.Lock()
entry, cached := s.routingKeyInfoCache.lru.Get(stmt)
if cached {
// done accessing the cache
s.routingKeyInfoCache.mu.Unlock()
// the entry is an inflight struct similiar to that used by
// Conn to prepare statements
inflight := entry.(*inflightCachedEntry)
// wait for any inflight work
inflight.wg.Wait()
if inflight.err != nil {
return nil, inflight.err
}
key, _ := inflight.value.(*routingKeyInfo)
return key, nil
}
// create a new inflight entry while the data is created
inflight := new(inflightCachedEntry)
inflight.wg.Add(1)
defer inflight.wg.Done()
s.routingKeyInfoCache.lru.Add(stmt, inflight)
s.routingKeyInfoCache.mu.Unlock()
var (
info *QueryInfo
partitionKey []*ColumnMetadata
)
// get the query info for the statement
host, conn := s.pool.Pick(nil)
if conn == nil {
// no connections
inflight.err = ErrNoConnections
// don't cache this error
s.routingKeyInfoCache.Remove(stmt)
return nil, inflight.err
}
info, inflight.err = conn.prepareStatement(stmt, nil)
if inflight.err != nil {
// don't cache this error
s.routingKeyInfoCache.Remove(stmt)
host.Mark(inflight.err)
return nil, inflight.err
}
// Mark host as OK
host.Mark(nil)
if len(info.Args) == 0 {
// no arguments, no routing key, and no error
return nil, nil
}
// get the table metadata
table := info.Args[0].Table
var keyspaceMetadata *KeyspaceMetadata
keyspaceMetadata, inflight.err = s.KeyspaceMetadata(s.cfg.Keyspace)
if inflight.err != nil {
// don't cache this error
s.routingKeyInfoCache.Remove(stmt)
return nil, inflight.err
}
tableMetadata, found := keyspaceMetadata.Tables[table]
if !found {
// unlikely that the statement could be prepared and the metadata for
// the table couldn't be found, but this may indicate either a bug
// in the metadata code, or that the table was just dropped.
inflight.err = ErrNoMetadata
// don't cache this error
s.routingKeyInfoCache.Remove(stmt)
return nil, inflight.err
}
partitionKey = tableMetadata.PartitionKey
size := len(partitionKey)
routingKeyInfo := &routingKeyInfo{
indexes: make([]int, size),
types: make([]TypeInfo, size),
}
for keyIndex, keyColumn := range partitionKey {
// set an indicator for checking if the mapping is missing
routingKeyInfo.indexes[keyIndex] = -1
// find the column in the query info
for argIndex, boundColumn := range info.Args {
if keyColumn.Name == boundColumn.Name {
// there may be many such bound columns, pick the first
routingKeyInfo.indexes[keyIndex] = argIndex
routingKeyInfo.types[keyIndex] = boundColumn.TypeInfo
break
}
}
if routingKeyInfo.indexes[keyIndex] == -1 {
// missing a routing key column mapping
// no routing key, and no error
return nil, nil
}
}
// cache this result
inflight.value = routingKeyInfo
return routingKeyInfo, nil
}
func (s *Session) executeBatch(batch *Batch) (*Iter, error) {
// fail fast
if s.Closed() {
return nil, ErrSessionClosed
}
// Prevent the execution of the batch if greater than the limit
// Currently batches have a limit of 65536 queries.
// https://datastax-oss.atlassian.net/browse/JAVA-229
if batch.Size() > BatchSizeMaximum {
return nil, ErrTooManyStmts
}
var err error
var iter *Iter
batch.attempts = 0
batch.totalLatency = 0
for {
host, conn := s.pool.Pick(nil)
//Assign the error unavailable and break loop
if conn == nil {
err = ErrNoConnections
break
}
t := time.Now()
iter, err = conn.executeBatch(batch)
batch.totalLatency += time.Now().Sub(t).Nanoseconds()
batch.attempts++
//Exit loop if operation executed correctly
if err == nil {
host.Mark(err)
return iter, err
}
// Mark host as OK
host.Mark(nil)
if batch.rt == nil || !batch.rt.Attempt(batch) {
break
}
}
return nil, err
}
// ExecuteBatch executes a batch operation and returns nil if successful
// otherwise an error is returned describing the failure.
func (s *Session) ExecuteBatch(batch *Batch) error {
_, err := s.executeBatch(batch)
return err
}
// ExecuteBatchCAS executes a batch operation and returns nil if successful and
// an iterator (to scan aditional rows if more than one conditional statement)
// was sent, otherwise an error is returned describing the failure.
// Further scans on the interator must also remember to include
// the applied boolean as the first argument to *Iter.Scan
func (s *Session) ExecuteBatchCAS(batch *Batch, dest ...interface{}) (applied bool, iter *Iter, err error) {
if iter, err := s.executeBatch(batch); err == nil {
if err := iter.checkErrAndNotFound(); err != nil {
return false, nil, err
}
if len(iter.Columns()) > 1 {
dest = append([]interface{}{&applied}, dest...)
iter.Scan(dest...)
} else {
iter.Scan(&applied)
}
return applied, iter, nil
} else {
return false, nil, err
}
}
// MapExecuteBatchCAS executes a batch operation much like ExecuteBatchCAS,
// however it accepts a map rather than a list of arguments for the initial
// scan.
func (s *Session) MapExecuteBatchCAS(batch *Batch, dest map[string]interface{}) (applied bool, iter *Iter, err error) {
if iter, err := s.executeBatch(batch); err == nil {
if err := iter.checkErrAndNotFound(); err != nil {
return false, nil, err
}
iter.MapScan(dest)
applied = dest["[applied]"].(bool)
delete(dest, "[applied]")
// we usually close here, but instead of closing, just returin an error
// if MapScan failed. Although Close just returns err, using Close
// here might be confusing as we are not actually closing the iter
return applied, iter, iter.err
} else {
return false, nil, err
}
}
// Query represents a CQL statement that can be executed.
type Query struct {
stmt string
values []interface{}
cons Consistency
pageSize int
routingKey []byte
routingKeyBuffer []byte
pageState []byte
prefetch float64
trace Tracer
session *Session
rt RetryPolicy
binding func(q *QueryInfo) ([]interface{}, error)
attempts int
totalLatency int64
serialCons SerialConsistency
defaultTimestamp bool
disableAutoPage bool
}
// String implements the stringer interface.
func (q Query) String() string {
return fmt.Sprintf("[query statement=%q values=%+v consistency=%s]", q.stmt, q.values, q.cons)
}
//Attempts returns the number of times the query was executed.
func (q *Query) Attempts() int {
return q.attempts
}
//Latency returns the average amount of nanoseconds per attempt of the query.
func (q *Query) Latency() int64 {
if q.attempts > 0 {
return q.totalLatency / int64(q.attempts)
}
return 0
}
// Consistency sets the consistency level for this query. If no consistency
// level have been set, the default consistency level of the cluster
// is used.
func (q *Query) Consistency(c Consistency) *Query {
q.cons = c
return q
}
// GetConsistency returns the currently configured consistency level for
// the query.
func (q *Query) GetConsistency() Consistency {
return q.cons
}
// Trace enables tracing of this query. Look at the documentation of the
// Tracer interface to learn more about tracing.
func (q *Query) Trace(trace Tracer) *Query {
q.trace = trace
return q
}
// PageSize will tell the iterator to fetch the result in pages of size n.
// This is useful for iterating over large result sets, but setting the
// page size to low might decrease the performance. This feature is only
// available in Cassandra 2 and onwards.
func (q *Query) PageSize(n int) *Query {
q.pageSize = n
return q
}
// DefaultTimestamp will enable the with default timestamp flag on the query.
// If enable, this will replace the server side assigned
// timestamp as default timestamp. Note that a timestamp in the query itself
// will still override this timestamp. This is entirely optional.
//
// Only available on protocol >= 3
func (q *Query) DefaultTimestamp(enable bool) *Query {
q.defaultTimestamp = enable
return q
}
// RoutingKey sets the routing key to use when a token aware connection
// pool is used to optimize the routing of this query.
func (q *Query) RoutingKey(routingKey []byte) *Query {
q.routingKey = routingKey
return q
}
// GetRoutingKey gets the routing key to use for routing this query. If
// a routing key has not been explicitly set, then the routing key will
// be constructed if possible using the keyspace's schema and the query
// info for this query statement. If the routing key cannot be determined
// then nil will be returned with no error. On any error condition,
// an error description will be returned.
func (q *Query) GetRoutingKey() ([]byte, error) {
if q.routingKey != nil {
return q.routingKey, nil
}
// try to determine the routing key
routingKeyInfo, err := q.session.routingKeyInfo(q.stmt)
if err != nil {
return nil, err
}
if routingKeyInfo == nil {
return nil, nil
}
if len(routingKeyInfo.indexes) == 1 {
// single column routing key
routingKey, err := Marshal(
routingKeyInfo.types[0],
q.values[routingKeyInfo.indexes[0]],
)
if err != nil {
return nil, err
}
return routingKey, nil
}
// We allocate that buffer only once, so that further re-bind/exec of the
// same query don't allocate more memory.
if q.routingKeyBuffer == nil {
q.routingKeyBuffer = make([]byte, 0, 256)
}
// composite routing key
buf := bytes.NewBuffer(q.routingKeyBuffer)
for i := range routingKeyInfo.indexes {
encoded, err := Marshal(
routingKeyInfo.types[i],
q.values[routingKeyInfo.indexes[i]],
)
if err != nil {
return nil, err
}
lenBuf := []byte{0x00, 0x00}
binary.BigEndian.PutUint16(lenBuf, uint16(len(encoded)))
buf.Write(lenBuf)
buf.Write(encoded)
buf.WriteByte(0x00)
}
routingKey := buf.Bytes()
return routingKey, nil
}
func (q *Query) shouldPrepare() bool {
stmt := strings.TrimLeftFunc(strings.TrimRightFunc(q.stmt, func(r rune) bool {
return unicode.IsSpace(r) || r == ';'
}), unicode.IsSpace)
var stmtType string
if n := strings.IndexFunc(stmt, unicode.IsSpace); n >= 0 {
stmtType = strings.ToLower(stmt[:n])
}
if stmtType == "begin" {
if n := strings.LastIndexFunc(stmt, unicode.IsSpace); n >= 0 {
stmtType = strings.ToLower(stmt[n+1:])
}
}
switch stmtType {
case "select", "insert", "update", "delete", "batch":
return true
}
return false
}
// SetPrefetch sets the default threshold for pre-fetching new pages. If
// there are only p*pageSize rows remaining, the next page will be requested
// automatically.
func (q *Query) Prefetch(p float64) *Query {
q.prefetch = p
return q
}
// RetryPolicy sets the policy to use when retrying the query.
func (q *Query) RetryPolicy(r RetryPolicy) *Query {
q.rt = r
return q
}
// Bind sets query arguments of query. This can also be used to rebind new query arguments
// to an existing query instance.
func (q *Query) Bind(v ...interface{}) *Query {
q.values = v
return q
}
// SerialConsistency sets the consistencyc level for the
// serial phase of conditional updates. That consitency can only be
// either SERIAL or LOCAL_SERIAL and if not present, it defaults to
// SERIAL. This option will be ignored for anything else that a
// conditional update/insert.
func (q *Query) SerialConsistency(cons SerialConsistency) *Query {
q.serialCons = cons
return q
}
// PageState sets the paging state for the query to resume paging from a specific
// point in time. Setting this will disable to query paging for this query, and
// must be used for all subsequent pages.
func (q *Query) PageState(state []byte) *Query {
q.pageState = state
q.disableAutoPage = true
return q
}
// Exec executes the query without returning any rows.
func (q *Query) Exec() error {
iter := q.Iter()
return iter.err
}
func isUseStatement(stmt string) bool {
if len(stmt) < 3 {
return false
}
return strings.ToLower(stmt[0:3]) == "use"
}
// Iter executes the query and returns an iterator capable of iterating
// over all results.
func (q *Query) Iter() *Iter {
if isUseStatement(q.stmt) {
return &Iter{err: ErrUseStmt}
}
return q.session.executeQuery(q)
}
// MapScan executes the query, copies the columns of the first selected
// row into the map pointed at by m and discards the rest. If no rows
// were selected, ErrNotFound is returned.
func (q *Query) MapScan(m map[string]interface{}) error {
iter := q.Iter()
if err := iter.checkErrAndNotFound(); err != nil {
return err
}
iter.MapScan(m)
return iter.Close()
}
// Scan executes the query, copies the columns of the first selected
// row into the values pointed at by dest and discards the rest. If no rows
// were selected, ErrNotFound is returned.
func (q *Query) Scan(dest ...interface{}) error {
iter := q.Iter()
if err := iter.checkErrAndNotFound(); err != nil {
return err
}
iter.Scan(dest...)
return iter.Close()
}
// ScanCAS executes a lightweight transaction (i.e. an UPDATE or INSERT
// statement containing an IF clause). If the transaction fails because
// the existing values did not match, the previous values will be stored
// in dest.
func (q *Query) ScanCAS(dest ...interface{}) (applied bool, err error) {
iter := q.Iter()
if err := iter.checkErrAndNotFound(); err != nil {
return false, err
}
if len(iter.Columns()) > 1 {
dest = append([]interface{}{&applied}, dest...)
iter.Scan(dest...)
} else {
iter.Scan(&applied)
}
return applied, iter.Close()
}
// MapScanCAS executes a lightweight transaction (i.e. an UPDATE or INSERT
// statement containing an IF clause). If the transaction fails because
// the existing values did not match, the previous values will be stored
// in dest map.
//
// As for INSERT .. IF NOT EXISTS, previous values will be returned as if
// SELECT * FROM. So using ScanCAS with INSERT is inherently prone to
// column mismatching. MapScanCAS is added to capture them safely.
func (q *Query) MapScanCAS(dest map[string]interface{}) (applied bool, err error) {
iter := q.Iter()
if err := iter.checkErrAndNotFound(); err != nil {
return false, err
}
iter.MapScan(dest)
applied = dest["[applied]"].(bool)
delete(dest, "[applied]")
return applied, iter.Close()
}
// Iter represents an iterator that can be used to iterate over all rows that
// were returned by a query. The iterator might send additional queries to the
// database during the iteration if paging was enabled.
type Iter struct {
err error
pos int
rows [][][]byte
meta resultMetadata
next *nextIter
framer *framer
once sync.Once
}
// Columns returns the name and type of the selected columns.
func (iter *Iter) Columns() []ColumnInfo {
return iter.meta.columns
}
// Scan consumes the next row of the iterator and copies the columns of the
// current row into the values pointed at by dest. Use nil as a dest value
// to skip the corresponding column. Scan might send additional queries
// to the database to retrieve the next set of rows if paging was enabled.
//
// Scan returns true if the row was successfully unmarshaled or false if the
// end of the result set was reached or if an error occurred. Close should
// be called afterwards to retrieve any potential errors.
func (iter *Iter) Scan(dest ...interface{}) bool {
if iter.err != nil {
return false
}
if iter.pos >= len(iter.rows) {
if iter.next != nil {
*iter = *iter.next.fetch()
return iter.Scan(dest...)
}
return false
}
if iter.next != nil && iter.pos == iter.next.pos {
go iter.next.fetch()
}
// currently only support scanning into an expand tuple, such that its the same
// as scanning in more values from a single column
if len(dest) != iter.meta.actualColCount {
iter.err = errors.New("count mismatch")
return false
}
// i is the current position in dest, could posible replace it and just use
// slices of dest
i := 0
for c, col := range iter.meta.columns {
if dest[i] == nil {
i++
continue
}
switch col.TypeInfo.Type() {
case TypeTuple:
// this will panic, actually a bug, please report
tuple := col.TypeInfo.(TupleTypeInfo)
count := len(tuple.Elems)
// here we pass in a slice of the struct which has the number number of
// values as elements in the tuple
iter.err = Unmarshal(col.TypeInfo, iter.rows[iter.pos][c], dest[i:i+count])
i += count
default:
iter.err = Unmarshal(col.TypeInfo, iter.rows[iter.pos][c], dest[i])
i++
}
if iter.err != nil {
return false
}
}
iter.pos++
return true
}
// Close closes the iterator and returns any errors that happened during
// the query or the iteration.
func (iter *Iter) Close() error {
iter.once.Do(func() {
if iter.framer != nil {
framerPool.Put(iter.framer)
iter.framer = nil
}
})
return iter.err
}
// WillSwitchPage detects if iterator reached end of current page
// and the next page is available.
func (iter *Iter) WillSwitchPage() bool {
return iter.pos >= len(iter.rows) && iter.next != nil
}
// checkErrAndNotFound handle error and NotFound in one method.
func (iter *Iter) checkErrAndNotFound() error {
if iter.err != nil {
return iter.err
} else if len(iter.rows) == 0 {
return ErrNotFound
}
return nil
}
// PageState return the current paging state for a query which can be used for
// subsequent quries to resume paging this point.
func (iter *Iter) PageState() []byte {
return iter.meta.pagingState
}
type nextIter struct {
qry Query
pos int
once sync.Once
next *Iter
}
func (n *nextIter) fetch() *Iter {
n.once.Do(func() {
n.next = n.qry.session.executeQuery(&n.qry)
})
return n.next
}
type Batch struct {
Type BatchType
Entries []BatchEntry
Cons Consistency
rt RetryPolicy
attempts int
totalLatency int64
serialCons SerialConsistency
defaultTimestamp bool
}
// NewBatch creates a new batch operation without defaults from the cluster
func NewBatch(typ BatchType) *Batch {
return &Batch{Type: typ}
}
// NewBatch creates a new batch operation using defaults defined in the cluster
func (s *Session) NewBatch(typ BatchType) *Batch {
s.mu.RLock()
batch := &Batch{Type: typ, rt: s.cfg.RetryPolicy, serialCons: s.cfg.SerialConsistency,
Cons: s.cons, defaultTimestamp: s.cfg.DefaultTimestamp}
s.mu.RUnlock()
return batch
}
// Attempts returns the number of attempts made to execute the batch.
func (b *Batch) Attempts() int {
return b.attempts
}
//Latency returns the average number of nanoseconds to execute a single attempt of the batch.
func (b *Batch) Latency() int64 {
if b.attempts > 0 {
return b.totalLatency / int64(b.attempts)
}
return 0
}
// GetConsistency returns the currently configured consistency level for the batch
// operation.
func (b *Batch) GetConsistency() Consistency {
return b.Cons
}
// Query adds the query to the batch operation
func (b *Batch) Query(stmt string, args ...interface{}) {
b.Entries = append(b.Entries, BatchEntry{Stmt: stmt, Args: args})
}
// Bind adds the query to the batch operation and correlates it with a binding callback
// that will be invoked when the batch is executed. The binding callback allows the application
// to define which query argument values will be marshalled as part of the batch execution.
func (b *Batch) Bind(stmt string, bind func(q *QueryInfo) ([]interface{}, error)) {
b.Entries = append(b.Entries, BatchEntry{Stmt: stmt, binding: bind})
}
// RetryPolicy sets the retry policy to use when executing the batch operation
func (b *Batch) RetryPolicy(r RetryPolicy) *Batch {
b.rt = r
return b
}
// Size returns the number of batch statements to be executed by the batch operation.
func (b *Batch) Size() int {
return len(b.Entries)
}
// SerialConsistency sets the consistencyc level for the
// serial phase of conditional updates. That consitency can only be
// either SERIAL or LOCAL_SERIAL and if not present, it defaults to
// SERIAL. This option will be ignored for anything else that a
// conditional update/insert.
//
// Only available for protocol 3 and above
func (b *Batch) SerialConsistency(cons SerialConsistency) *Batch {
b.serialCons = cons
return b
}