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session_test.go
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session_test.go
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//go:build all || cassandra
// +build all cassandra
package gocql
import (
"context"
"fmt"
"net"
"testing"
)
func TestSessionAPI(t *testing.T) {
cfg := &ClusterConfig{}
s := &Session{
cfg: *cfg,
cons: Quorum,
policy: RoundRobinHostPolicy(),
logger: cfg.logger(),
}
s.pool = cfg.PoolConfig.buildPool(s)
s.executor = &queryExecutor{
pool: s.pool,
policy: s.policy,
}
defer s.Close()
s.SetConsistency(All)
if s.cons != All {
t.Fatalf("expected consistency 'All', got '%v'", s.cons)
}
s.SetPageSize(100)
if s.pageSize != 100 {
t.Fatalf("expected pageSize 100, got %v", s.pageSize)
}
s.SetPrefetch(0.75)
if s.prefetch != 0.75 {
t.Fatalf("expceted prefetch 0.75, got %v", s.prefetch)
}
trace := &traceWriter{}
s.SetTrace(trace)
if s.trace != trace {
t.Fatalf("expected traceWriter '%v',got '%v'", trace, s.trace)
}
qry := s.Query("test", 1)
if v, ok := qry.values[0].(int); !ok {
t.Fatalf("expected qry.values[0] to be an int, got %v", qry.values[0])
} else if v != 1 {
t.Fatalf("expceted qry.values[0] to be 1, got %v", v)
} else if qry.stmt != "test" {
t.Fatalf("expected qry.stmt to be 'test', got '%v'", qry.stmt)
}
boundQry := s.Bind("test", func(q *QueryInfo) ([]interface{}, error) {
return nil, nil
})
if boundQry.binding == nil {
t.Fatal("expected qry.binding to be defined, got nil")
} else if boundQry.stmt != "test" {
t.Fatalf("expected qry.stmt to be 'test', got '%v'", boundQry.stmt)
}
itr := s.executeQuery(qry)
if itr.err != ErrNoConnections {
t.Fatalf("expected itr.err to be '%v', got '%v'", ErrNoConnections, itr.err)
}
testBatch := s.NewBatch(LoggedBatch)
testBatch.Query("test")
err := s.ExecuteBatch(testBatch)
if err != ErrNoConnections {
t.Fatalf("expected session.ExecuteBatch to return '%v', got '%v'", ErrNoConnections, err)
}
s.Close()
if !s.Closed() {
t.Fatal("expected s.Closed() to be true, got false")
}
//Should just return cleanly
s.Close()
err = s.ExecuteBatch(testBatch)
if err != ErrSessionClosed {
t.Fatalf("expected session.ExecuteBatch to return '%v', got '%v'", ErrSessionClosed, err)
}
}
type funcQueryObserver func(context.Context, ObservedQuery)
func (f funcQueryObserver) ObserveQuery(ctx context.Context, o ObservedQuery) {
f(ctx, o)
}
func TestQueryBasicAPI(t *testing.T) {
qry := &Query{}
// Initiate host
ip := "127.0.0.1"
qry.metrics = preFilledQueryMetrics(map[string]*hostMetrics{ip: {Attempts: 0, TotalLatency: 0}})
if qry.Latency() != 0 {
t.Fatalf("expected Query.Latency() to return 0, got %v", qry.Latency())
}
qry.metrics = preFilledQueryMetrics(map[string]*hostMetrics{ip: {Attempts: 2, TotalLatency: 4}})
if qry.Attempts() != 2 {
t.Fatalf("expected Query.Attempts() to return 2, got %v", qry.Attempts())
}
if qry.Latency() != 2 {
t.Fatalf("expected Query.Latency() to return 2, got %v", qry.Latency())
}
qry.AddAttempts(2, &HostInfo{hostname: ip, connectAddress: net.ParseIP(ip), port: 9042})
if qry.Attempts() != 4 {
t.Fatalf("expected Query.Attempts() to return 4, got %v", qry.Attempts())
}
qry.Consistency(All)
if qry.GetConsistency() != All {
t.Fatalf("expected Query.GetConsistency to return 'All', got '%s'", qry.GetConsistency())
}
trace := &traceWriter{}
qry.Trace(trace)
if qry.trace != trace {
t.Fatalf("expected Query.Trace to be '%v', got '%v'", trace, qry.trace)
}
observer := funcQueryObserver(func(context.Context, ObservedQuery) {})
qry.Observer(observer)
if qry.observer == nil { // can't compare func to func, checking not nil instead
t.Fatal("expected Query.QueryObserver to be set, got nil")
}
qry.PageSize(10)
if qry.pageSize != 10 {
t.Fatalf("expected Query.PageSize to be 10, got %v", qry.pageSize)
}
qry.Prefetch(0.75)
if qry.prefetch != 0.75 {
t.Fatalf("expected Query.Prefetch to be 0.75, got %v", qry.prefetch)
}
rt := &SimpleRetryPolicy{NumRetries: 3}
if qry.RetryPolicy(rt); qry.rt != rt {
t.Fatalf("expected Query.RetryPolicy to be '%v', got '%v'", rt, qry.rt)
}
qry.Bind(qry)
if qry.values[0] != qry {
t.Fatalf("expected Query.Values[0] to be '%v', got '%v'", qry, qry.values[0])
}
}
func TestQueryShouldPrepare(t *testing.T) {
toPrepare := []string{"select * ", "INSERT INTO", "update table", "delete from", "begin batch"}
cantPrepare := []string{"create table", "USE table", "LIST keyspaces", "alter table", "drop table", "grant user", "revoke user"}
q := &Query{}
for i := 0; i < len(toPrepare); i++ {
q.stmt = toPrepare[i]
if !q.shouldPrepare() {
t.Fatalf("expected Query.shouldPrepare to return true, got false for statement '%v'", toPrepare[i])
}
}
for i := 0; i < len(cantPrepare); i++ {
q.stmt = cantPrepare[i]
if q.shouldPrepare() {
t.Fatalf("expected Query.shouldPrepare to return false, got true for statement '%v'", cantPrepare[i])
}
}
}
func TestBatchBasicAPI(t *testing.T) {
cfg := &ClusterConfig{RetryPolicy: &SimpleRetryPolicy{NumRetries: 2}}
s := &Session{
cfg: *cfg,
cons: Quorum,
logger: cfg.logger(),
}
defer s.Close()
s.pool = cfg.PoolConfig.buildPool(s)
// Test UnloggedBatch
b := s.NewBatch(UnloggedBatch)
if b.Type != UnloggedBatch {
t.Fatalf("expceted batch.Type to be '%v', got '%v'", UnloggedBatch, b.Type)
} else if b.rt != cfg.RetryPolicy {
t.Fatalf("expceted batch.RetryPolicy to be '%v', got '%v'", cfg.RetryPolicy, b.rt)
}
// Test LoggedBatch
b = s.NewBatch(LoggedBatch)
if b.Type != LoggedBatch {
t.Fatalf("expected batch.Type to be '%v', got '%v'", LoggedBatch, b.Type)
}
ip := "127.0.0.1"
// Test attempts
b.metrics = preFilledQueryMetrics(map[string]*hostMetrics{ip: {Attempts: 1}})
if b.Attempts() != 1 {
t.Fatalf("expected batch.Attempts() to return %v, got %v", 1, b.Attempts())
}
b.AddAttempts(2, &HostInfo{hostname: ip, connectAddress: net.ParseIP(ip), port: 9042})
if b.Attempts() != 3 {
t.Fatalf("expected batch.Attempts() to return %v, got %v", 3, b.Attempts())
}
// Test latency
if b.Latency() != 0 {
t.Fatalf("expected batch.Latency() to be 0, got %v", b.Latency())
}
b.metrics = preFilledQueryMetrics(map[string]*hostMetrics{ip: {Attempts: 1, TotalLatency: 4}})
if b.Latency() != 4 {
t.Fatalf("expected batch.Latency() to return %v, got %v", 4, b.Latency())
}
// Test Consistency
b.Cons = One
if b.GetConsistency() != One {
t.Fatalf("expected batch.GetConsistency() to return 'One', got '%s'", b.GetConsistency())
}
trace := &traceWriter{}
b.Trace(trace)
if b.trace != trace {
t.Fatalf("expected batch.Trace to be '%v', got '%v'", trace, b.trace)
}
// Test batch.Query()
b.Query("test", 1)
if b.Entries[0].Stmt != "test" {
t.Fatalf("expected batch.Entries[0].Statement to be 'test', got '%v'", b.Entries[0].Stmt)
} else if b.Entries[0].Args[0].(int) != 1 {
t.Fatalf("expected batch.Entries[0].Args[0] to be 1, got %v", b.Entries[0].Args[0])
}
b.Bind("test2", func(q *QueryInfo) ([]interface{}, error) {
return nil, nil
})
if b.Entries[1].Stmt != "test2" {
t.Fatalf("expected batch.Entries[1].Statement to be 'test2', got '%v'", b.Entries[1].Stmt)
} else if b.Entries[1].binding == nil {
t.Fatal("expected batch.Entries[1].binding to be defined, got nil")
}
// Test RetryPolicy
r := &SimpleRetryPolicy{NumRetries: 4}
b.RetryPolicy(r)
if b.rt != r {
t.Fatalf("expected batch.RetryPolicy to be '%v', got '%v'", r, b.rt)
}
if b.Size() != 2 {
t.Fatalf("expected batch.Size() to return 2, got %v", b.Size())
}
}
func TestConsistencyNames(t *testing.T) {
names := map[fmt.Stringer]string{
Any: "ANY",
One: "ONE",
Two: "TWO",
Three: "THREE",
Quorum: "QUORUM",
All: "ALL",
LocalQuorum: "LOCAL_QUORUM",
EachQuorum: "EACH_QUORUM",
Serial: "SERIAL",
LocalSerial: "LOCAL_SERIAL",
LocalOne: "LOCAL_ONE",
}
for k, v := range names {
if k.String() != v {
t.Fatalf("expected '%v', got '%v'", v, k.String())
}
}
}
func TestIsUseStatement(t *testing.T) {
testCases := []struct {
input string
exp bool
}{
{"USE foo", true},
{"USe foo", true},
{"UsE foo", true},
{"Use foo", true},
{"uSE foo", true},
{"uSe foo", true},
{"usE foo", true},
{"use foo", true},
{"SELECT ", false},
{"UPDATE ", false},
{"INSERT ", false},
{"", false},
}
for _, tc := range testCases {
v := isUseStatement(tc.input)
if v != tc.exp {
t.Fatalf("expected %v but got %v for statement %q", tc.exp, v, tc.input)
}
}
}