本文整理汇总了Golang中github.com/cockroachdb/cockroach/client.KV类的典型用法代码示例。如果您正苦于以下问题:Golang KV类的具体用法?Golang KV怎么用?Golang KV使用的例子?那么恭喜您, 这里精选的类代码示例或许可以为您提供帮助。
在下文中一共展示了KV类的10个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Golang代码示例。
示例1: incCmd
// incCmd adds one to the value of c.key in the env and writes
// it to the db. If c.key isn't in the db, writes 1.
func incCmd(c *cmd, db *client.KV, t *testing.T) error {
r := &proto.IncrementResponse{}
if err := db.Call(proto.Increment, &proto.IncrementRequest{
RequestHeader: proto.RequestHeader{Key: c.getKey()},
Increment: int64(1),
}, r); err != nil {
return err
}
c.env[c.key] = r.NewValue
c.debug = fmt.Sprintf("[%d ts=%d]", r.NewValue, r.Timestamp.Logical)
return nil
}
示例2: allocateStoreIDs
// allocateStoreIDs increments the store id generator key for the
// specified node to allocate "inc" new, unique store ids. The
// first ID in a contiguous range is returned on success.
func allocateStoreIDs(nodeID proto.NodeID, inc int64, db *client.KV) (proto.StoreID, error) {
iReply := &proto.IncrementResponse{}
if err := db.Call(proto.Increment, &proto.IncrementRequest{
RequestHeader: proto.RequestHeader{
Key: engine.MakeKey(engine.KeyStoreIDGeneratorPrefix, []byte(strconv.Itoa(int(nodeID)))),
User: storage.UserRoot,
},
Increment: inc,
}, iReply); err != nil {
return 0, util.Errorf("unable to allocate %d store IDs for node %d: %v", inc, nodeID, err)
}
return proto.StoreID(iReply.NewValue - inc + 1), nil
}
示例3: allocateNodeID
// allocateNodeID increments the node id generator key to allocate
// a new, unique node id.
func allocateNodeID(db *client.KV) (proto.NodeID, error) {
iReply := &proto.IncrementResponse{}
if err := db.Call(proto.Increment, &proto.IncrementRequest{
RequestHeader: proto.RequestHeader{
Key: engine.KeyNodeIDGenerator,
User: storage.UserRoot,
},
Increment: 1,
}, iReply); err != nil {
return 0, util.Errorf("unable to allocate node ID: %v", err)
}
return proto.NodeID(iReply.NewValue), nil
}
示例4: sumCmd
// sumCmd sums the values of all keys read during the transaction
// and writes the result to the db.
func sumCmd(c *cmd, db *client.KV, t *testing.T) error {
sum := int64(0)
for _, v := range c.env {
sum += v
}
r := &proto.PutResponse{}
err := db.Call(proto.Put, &proto.PutRequest{
RequestHeader: proto.RequestHeader{Key: c.getKey()},
Value: proto.Value{Integer: gogoproto.Int64(sum)},
}, r)
c.debug = fmt.Sprintf("[%d ts=%d]", sum, r.Timestamp.Logical)
return err
}
示例5: readCmd
// readCmd reads a value from the db and stores it in the env.
func readCmd(c *cmd, db *client.KV, t *testing.T) error {
r := &proto.GetResponse{}
if err := db.Call(proto.Get, &proto.GetRequest{
RequestHeader: proto.RequestHeader{Key: c.getKey()},
}, r); err != nil {
return err
}
if r.Value != nil {
c.env[c.key] = r.Value.GetInteger()
c.debug = fmt.Sprintf("[%d ts=%d]", r.Value.GetInteger(), r.Timestamp.Logical)
}
return nil
}
示例6: scanCmd
// scanCmd reads the values from the db from [key, endKey).
func scanCmd(c *cmd, db *client.KV, t *testing.T) error {
r := &proto.ScanResponse{}
if err := db.Call(proto.Scan, &proto.ScanRequest{
RequestHeader: proto.RequestHeader{Key: c.getKey(), EndKey: c.getEndKey()},
}, r); err != nil {
return err
}
var vals []string
keyPrefix := []byte(fmt.Sprintf("%d.", c.historyIdx))
for _, kv := range r.Rows {
key := bytes.TrimPrefix(kv.Key, keyPrefix)
c.env[string(key)] = kv.Value.GetInteger()
vals = append(vals, fmt.Sprintf("%d", kv.Value.GetInteger()))
}
c.debug = fmt.Sprintf("[%s ts=%d]", strings.Join(vals, " "), r.Timestamp.Logical)
return nil
}
示例7: runTxn
func (hv *historyVerifier) runTxn(txnIdx int, priority int32,
isolation proto.IsolationType, cmds []*cmd, db *client.KV, t *testing.T) error {
var retry int
txnName := fmt.Sprintf("txn%d", txnIdx)
txnOpts := &client.TransactionOptions{
Name: txnName,
Isolation: isolation,
}
err := db.RunTransaction(txnOpts, func(txn *client.KV) error {
txn.UserPriority = -priority
env := map[string]int64{}
// TODO(spencer): restarts must create additional histories. They
// look like: given the current partial history and a restart on
// txn txnIdx, re-enumerate a set of all histories containing the
// remaining commands from extant txns and all commands from this
// restarted txn.
// If this is attempt > 1, reset cmds so no waits.
if retry++; retry == 2 {
for _, c := range cmds {
c.done()
}
}
log.V(1).Infof("%s, retry=%d", txnName, retry)
for i := range cmds {
cmds[i].env = env
if err := hv.runCmd(txn, txnIdx, retry, i, cmds, t); err != nil {
return err
}
}
return nil
})
hv.wg.Done()
return err
}
示例8: concurrentIncrements
// concurrentIncrements starts two Goroutines in parallel, both of which
// read the integers stored at the other's key and add it onto their own.
// It is checked that the outcome is serializable, i.e. exactly one of the
// two Goroutines (the later write) sees the previous write by the other.
func concurrentIncrements(kvClient *client.KV, t *testing.T) {
// wgStart waits for all transactions to line up, wgEnd has the main
// function wait for them to finish.
var wgStart, wgEnd sync.WaitGroup
wgStart.Add(2 + 1)
wgEnd.Add(2)
for i := 0; i < 2; i++ {
go func(i int) {
// Read the other key, write key i.
readKey := []byte(fmt.Sprintf("value-%d", (i+1)%2))
writeKey := []byte(fmt.Sprintf("value-%d", i))
defer wgEnd.Done()
wgStart.Done()
// Wait until the other goroutines are running.
wgStart.Wait()
txnOpts := &client.TransactionOptions{
Name: fmt.Sprintf("test-%d", i),
}
if err := kvClient.RunTransaction(txnOpts, func(txn *client.KV) error {
// Retrieve the other key.
gr := &proto.GetResponse{}
if err := txn.Call(proto.Get, proto.GetArgs(readKey), gr); err != nil {
return err
}
otherValue := int64(0)
if gr.Value != nil && gr.Value.Integer != nil {
otherValue = *gr.Value.Integer
}
pr := &proto.IncrementResponse{}
pa := proto.IncrementArgs(writeKey, 1+otherValue)
if err := txn.Call(proto.Increment, pa, pr); err != nil {
return err
}
return nil
}); err != nil {
t.Error(err)
}
}(i)
}
// Kick the goroutines loose.
wgStart.Done()
// Wait for the goroutines to finish.
wgEnd.Wait()
// Verify that both keys contain something and, more importantly, that
// one key actually contains the value of the first writer and not only
// its own.
total := int64(0)
results := []int64(nil)
for i := 0; i < 2; i++ {
readKey := []byte(fmt.Sprintf("value-%d", i))
gr := &proto.GetResponse{}
if err := kvClient.Call(proto.Get, proto.GetArgs(readKey), gr); err != nil {
log.Fatal(err)
}
if gr.Value == nil || gr.Value.Integer == nil {
t.Fatalf("unexpected empty key: %v=%v", readKey, gr.Value)
}
total += *gr.Value.Integer
results = append(results, *gr.Value.Integer)
}
// First writer should have 1, second one 2
if total != 3 {
t.Fatalf("got unserializable values %v", results)
}
}
示例9: commitCmd
// commitCmd commits the transaction.
func commitCmd(c *cmd, db *client.KV, t *testing.T) error {
r := &proto.EndTransactionResponse{}
err := db.Call(proto.EndTransaction, &proto.EndTransactionRequest{Commit: true}, r)
c.debug = fmt.Sprintf("[ts=%d]", r.Timestamp.Logical)
return err
}
示例10: deleteRngCmd
// deleteRngCmd deletes the range of values from the db from [key, endKey).
func deleteRngCmd(c *cmd, db *client.KV, t *testing.T) error {
return db.Call(proto.DeleteRange, &proto.DeleteRangeRequest{
RequestHeader: proto.RequestHeader{Key: c.getKey(), EndKey: c.getEndKey()},
}, &proto.DeleteRangeResponse{})
}