func runExample(client *as.Client) { log.Printf("Scan parallel: namespace=" + *shared.Namespace + " set=" + *shared.Set) recordCount := 0 begin := time.Now() policy := as.NewScanPolicy() recordset, err := client.ScanAll(policy, *shared.Namespace, *shared.Set) shared.PanicOnError(err) L: for { select { case rec := <-recordset.Records: if rec == nil { break L } recordCount++ if (recordCount % 10000) == 0 { log.Println("Records ", recordCount) } case err := <-recordset.Errors: // if there was an error, stop shared.PanicOnError(err) } } end := time.Now() seconds := float64(end.Sub(begin)) / float64(time.Second) log.Println("Total records returned: ", recordCount) log.Println("Elapsed time: ", seconds, " seconds") performance := shared.Round(float64(recordCount)/float64(seconds), 0.5, 0) log.Println("Records/second: ", performance) }
func runExample(client *as.Client) { // Set LuaPath luaPath, _ := os.Getwd() luaPath += "/udf/" as.SetLuaPath(luaPath) filename := "sum_single_bin" regTask, err := client.RegisterUDFFromFile(nil, luaPath+filename+".lua", filename+".lua", as.LUA) shared.PanicOnError(err) // wait until UDF is created shared.PanicOnError(<-regTask.OnComplete()) sum := 0 for i := 1; i <= keyCount; i++ { sum += i key, err := as.NewKey(*shared.Namespace, *shared.Set, i) shared.PanicOnError(err) bin1 := as.NewBin("bin1", i) client.PutBins(nil, key, bin1) } t := time.Now() stm := as.NewStatement(*shared.Namespace, *shared.Set) res, err := client.QueryAggregate(nil, stm, filename, filename, "bin1") shared.PanicOnError(err) for rec := range res.Results() { log.Printf("Result %f should equal %d\n", rec.Record.Bins["SUCCESS"], sum) } log.Println("Map/Reduce took", time.Now().Sub(t)) }
func runExample(client *as.Client) { log.Println("Scan series: namespace=", *shared.Namespace, " set=", *shared.Set) // Use low scan priority. This will take more time, but it will reduce // the load on the server. policy := as.NewScanPolicy() policy.MaxRetries = 1 policy.Priority = as.LOW nodeList := client.GetNodes() begin := time.Now() for _, node := range nodeList { log.Println("Scan node ", node.GetName()) recordset, err := client.ScanNode(policy, node, *shared.Namespace, *shared.Set) shared.PanicOnError(err) L: for { select { case rec := <-recordset.Records: if rec == nil { break L } metrics, exists := setMap[rec.Key.SetName()] if !exists { metrics = Metrics{} } metrics.count++ metrics.total++ setMap[rec.Key.SetName()] = metrics case err := <-recordset.Errors: // if there was an error, stop shared.PanicOnError(err) } } for k, v := range setMap { log.Println("Node ", node, " set ", k, " count: ", v.count) v.count = 0 } } end := time.Now() seconds := float64(end.Sub(begin)) / float64(time.Second) log.Println("Elapsed time: ", seconds, " seconds") total := 0 for k, v := range setMap { log.Println("Total set ", k, " count: ", v.total) total += v.total } log.Println("Grand total: ", total) performance := shared.Round(float64(total)/seconds, 0.5, 0) log.Println("Records/second: ", performance) }
func runExample(client *as.Client) { key, err := as.NewKey(*shared.Namespace, *shared.Set, "addkey") shared.PanicOnError(err) binName := "addbin" // Delete record if it already exists. client.Delete(shared.WritePolicy, key) // Perform some adds and check results. bin := as.NewBin(binName, 10) log.Println("Initial add will create record. Initial value is ", bin.Value, ".") client.AddBins(shared.WritePolicy, key, bin) bin = as.NewBin(binName, 5) log.Println("Add ", bin.Value, " to existing record.") client.AddBins(shared.WritePolicy, key, bin) record, err := client.Get(shared.Policy, key, bin.Name) shared.PanicOnError(err) if record == nil { log.Fatalf( "Failed to get: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) } // The value received from the server is an unsigned byte stream. // Convert to an integer before comparing with expected. received := record.Bins[bin.Name] expected := 15 if received == expected { log.Printf("Add successful: ns=%s set=%s key=%s bin=%s value=%s", key.Namespace(), key.SetName(), key.Value(), bin.Name, received) } else { log.Fatalf("Add mismatch: Expected %d. Received %d.", expected, received) } // Demonstrate add and get combined. bin = as.NewBin(binName, 30) log.Println("Add ", bin.Value, " to existing record.") record, err = client.Operate(shared.WritePolicy, key, as.AddOp(bin), as.GetOp()) shared.PanicOnError(err) expected = 45 received = record.Bins[bin.Name] if received == expected { log.Printf("Add successful: ns=%s set=%s key=%s bin=%s value=%s", key.Namespace(), key.SetName(), key.Value(), bin.Name, received) } else { log.Fatalf("Add mismatch: Expected %d. Received %d.", expected, received) } }
func runExample(client *as.Client) { key, _ := as.NewKey(*shared.Namespace, *shared.Set, "touchkey") bin := as.NewBin("touchbin", "touchvalue") log.Printf("Create record with 2 second expiration.") writePolicy := as.NewWritePolicy(0, 2) client.PutBins(writePolicy, key, bin) log.Printf("Touch same record with 5 second expiration.") writePolicy.Expiration = 5 record, err := client.Operate(writePolicy, key, as.TouchOp(), as.GetHeaderOp()) if record == nil { log.Fatalf( "Failed to get: namespace=%s set=%s key=%s bin=%s value=nil", key.Namespace(), key.SetName(), key.Value(), bin.Name) } if record.Expiration == 0 { log.Fatalf( "Failed to get record expiration: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) } log.Printf("Sleep 3 seconds.") time.Sleep(3 * time.Second) record, err = client.Get(shared.Policy, key, bin.Name) shared.PanicOnError(err) if record == nil { log.Fatalf( "Failed to get: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) } log.Printf("Success. Record still exists.") log.Printf("Sleep 4 seconds.") time.Sleep(4 * time.Second) record, err = client.Get(shared.Policy, key, bin.Name) shared.PanicOnError(err) if record == nil { log.Printf("Success. Record expired as expected.") } else { log.Fatalf("Found record when it should have expired.") } }
/** * Write and twice read a non-expiring tuple using the new "NoExpire" value (-1). * This example is most effective when the Default Namespace Time To Live (TTL) * is set to a small value, such as 5 seconds. When we sleep beyond that * time, we show that the NoExpire TTL flag actually works. */ func noExpireExample(client *as.Client) { key, _ := as.NewKey(*shared.Namespace, *shared.Set, "expirekey") bin := as.NewBin("expirebin", "noexpirevalue") log.Printf("Put: namespace=%s set=%s key=%s bin=%s value=%s expiration=NoExpire", key.Namespace(), key.SetName(), key.Value(), bin.Name, bin.Value) // Specify that record NEVER expires. // The "Never Expire" value is -1, or 0xFFFFFFFF. writePolicy := as.NewWritePolicy(0, 2) writePolicy.Expiration = math.MaxUint32 client.PutBins(writePolicy, key, bin) // Read the record, showing it is there. log.Printf("Get: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) record, err := client.Get(shared.Policy, key, bin.Name) shared.PanicOnError(err) if record == nil { log.Fatalf( "Failed to get record: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) } received := record.Bins[bin.Name] expected := bin.Value.String() if received == expected { log.Printf("Get record successful: namespace=%s set=%s key=%s bin=%s value=%s", key.Namespace(), key.SetName(), key.Value(), bin.Name, received) } else { log.Fatalf("Expire record mismatch: Expected %s. Received %s.", expected, received) } // Read this Record after the Default Expiration, showing it is still there. // We should have set the Namespace TTL at 5 sec. log.Printf("Sleeping for 10 seconds ...") time.Sleep(10 * time.Second) record, err = client.Get(shared.Policy, key, bin.Name) shared.PanicOnError(err) if record == nil { log.Fatalf("Record expired and should NOT have.") } else { log.Printf("Found Record (correctly) after default TTL.") } }
func runExample(client *as.Client) { // Write initial record. key, _ := as.NewKey(*shared.Namespace, *shared.Set, "opkey") bin1 := as.NewBin("optintbin", 7) bin2 := as.NewBin("optstringbin", "string value") log.Printf("Put: namespace=%s set=%s key=%s bin1=%s value1=%s bin2=%s value2=%s", key.Namespace(), key.SetName(), key.Value(), bin1.Name, bin1.Value, bin2.Name, bin2.Value) client.PutBins(shared.WritePolicy, key, bin1, bin2) // Add integer, write new string and read record. bin3 := as.NewBin(bin1.Name, 4) bin4 := as.NewBin(bin2.Name, "new string") log.Println("Add: ", bin3.Value) log.Println("Write: ", bin4.Value) log.Println("Read:") record, err := client.Operate(shared.WritePolicy, key, as.AddOp(bin3), as.PutOp(bin4), as.GetOp()) shared.PanicOnError(err) if record == nil { log.Fatalf( "Failed to get: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) } binExpected := as.NewBin(bin3.Name, 11) shared.ValidateBin(key, binExpected, record) shared.ValidateBin(key, bin4, record) }
/** * Write and twice read an expiration record. */ func expireExample(client *as.Client) { key, _ := as.NewKey(*shared.Namespace, *shared.Set, "expirekey ") bin := as.NewBin("expirebin", "expirevalue") log.Printf("Put: namespace=%s set=%s key=%s bin=%s value=%s expiration=2", key.Namespace(), key.SetName(), key.Value(), bin.Name, bin.Value) // Specify that record expires 2 seconds after it's written. writePolicy := as.NewWritePolicy(0, 2) client.PutBins(writePolicy, key, bin) // Read the record before it expires, showing it is there. log.Printf("Get: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) record, err := client.Get(shared.Policy, key, bin.Name) shared.PanicOnError(err) if record == nil { log.Fatalf( "Failed to get record: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) } received := record.Bins[bin.Name] expected := bin.Value.String() if received == expected { log.Printf("Get record successful: namespace=%s set=%s key=%s bin=%s value=%s", key.Namespace(), key.SetName(), key.Value(), bin.Name, received) } else { log.Fatalf("Expire record mismatch: Expected %s. Received %s.", expected, received) } // Read the record after it expires, showing it's gone. log.Printf("Sleeping for 3 seconds ...") time.Sleep(3 * time.Second) record, err = client.Get(shared.Policy, key, bin.Name) shared.PanicOnError(err) if record == nil { log.Printf("Expiry of record successful. Record not found.") } else { log.Fatalf("Found record when it should have expired.") } }
/** * Write/Read Array/Map combination directly instead of relying on java serializer. */ func testListMapCombined(client *as.Client) { log.Printf("Read/Write Array/Map") key, _ := as.NewKey(*shared.Namespace, *shared.Set, "listmapkey") client.Delete(shared.WritePolicy, key) blob := []byte{3, 52, 125} inner := []interface{}{ "string2", 5, } innerMap := map[interface{}]interface{}{ "a": 1, 2: "b", 3: blob, "list": inner, } list := []interface{}{ "string1", 8, inner, innerMap, } bin := as.NewBin("listmapbin", list) client.PutBins(shared.WritePolicy, key, bin) record, err := client.Get(shared.Policy, key, bin.Name) shared.PanicOnError(err) received := record.Bins[bin.Name].([]interface{}) validateSize(4, len(received)) validate("string1", received[0]) // Server convert numbers to long, so must expect long. validate(8, received[1]) receivedInner := received[2].([]interface{}) validateSize(2, len(receivedInner)) validate("string2", receivedInner[0]) validate(5, receivedInner[1]) receivedMap := received[3].(map[interface{}]interface{}) validateSize(4, len(receivedMap)) validate(1, receivedMap["a"]) validate("b", receivedMap[2]) validateBytes(blob, receivedMap[3].([]byte)) receivedInner2 := receivedMap["list"].([]interface{}) validateSize(2, len(receivedInner2)) validate("string2", receivedInner2[0]) validate(5, receivedInner2[1]) log.Printf("Read/Write Array/Map successful") }
func runReplaceExample(client *as.Client) { key, err := as.NewKey(*shared.Namespace, *shared.Set, "replacekey") shared.PanicOnError(err) bin1 := as.NewBin("bin1", "value1") bin2 := as.NewBin("bin2", "value2") bin3 := as.NewBin("bin3", "value3") log.Printf("Put: namespace=%s set=%s key=%s bin1=%s value1=%s bin2=%s value2=%s", key.Namespace(), key.SetName(), key.Value(), bin1.Name, bin1.Value, bin2.Name, bin2.Value) client.PutBins(shared.WritePolicy, key, bin1, bin2) log.Printf("Replace with: namespace=%s set=%s key=%s bin=%s value=%s", key.Namespace(), key.SetName(), key.Value(), bin3.Name, bin3.Value) wpolicy := as.NewWritePolicy(0, 0) wpolicy.RecordExistsAction = as.REPLACE client.PutBins(wpolicy, key, bin3) log.Printf("Get: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) record, err := client.Get(shared.Policy, key) shared.PanicOnError(err) if record == nil { log.Fatalf( "Failed to get: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) } if record.Bins[bin1.Name] == nil { log.Printf(bin1.Name + " was deleted as expected.") } else { log.Fatalln(bin1.Name + " found when it should have been deleted.") } if record.Bins[bin2.Name] == nil { log.Printf(bin2.Name + " was deleted as expected.") } else { log.Fatalln(bin2.Name + " found when it should have been deleted.") } shared.ValidateBin(key, bin3, record) }
func writeIfNotExists(client *as.Client) { key, _ := as.NewKey(*shared.Namespace, *shared.Set, "udfkey3") binName := "udfbin3" // Delete record if it already exists. client.Delete(shared.WritePolicy, key) // Write record only if not already exists. This should succeed. client.Execute(shared.WritePolicy, key, "record_example", "writeUnique", as.NewValue(binName), as.NewValue("first")) // Verify record written. record, err := client.Get(shared.Policy, key, binName) shared.PanicOnError(err) expected := "first" received := record.Bins[binName].(string) if received == expected { log.Printf("Record written: namespace=%s set=%s key=%s bin=%s value=%s", key.Namespace(), key.SetName(), key.Value(), binName, received) } else { log.Printf("Data mismatch: Expected %s. Received %s.", expected, received) } // Write record second time. This should fail. log.Printf("Attempt second write.") client.Execute(shared.WritePolicy, key, "record_example", "writeUnique", as.NewValue(binName), as.NewValue("second")) // Verify record not written. record, err = client.Get(shared.Policy, key, binName) shared.PanicOnError(err) received = record.Bins[binName].(string) if received == expected { log.Printf("Success. Record remained unchanged: namespace=%s set=%s key=%s bin=%s value=%s", key.Namespace(), key.SetName(), key.Value(), binName, received) } else { log.Printf("Data mismatch: Expected %s. Received %s.", expected, received) } }
func runExample(client *as.Client) { key, err := as.NewKey(*shared.Namespace, *shared.Set, "prependkey") shared.PanicOnError(err) binName := "prependbin" // Delete record if it already exists. client.Delete(shared.WritePolicy, key) bin := as.NewBin(binName, "World") log.Println("Initial prepend will create record. Initial value is ", bin.Value, ".") client.PrependBins(shared.WritePolicy, key, bin) bin = as.NewBin(binName, "Hello ") log.Println("Prepend \"", bin.Value, "\" to existing record.") client.PrependBins(shared.WritePolicy, key, bin) record, err := client.Get(shared.Policy, key, bin.Name) shared.PanicOnError(err) if record == nil { log.Fatalf( "Failed to get: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) } // The value received from the server is an unsigned byte stream. // Convert to an integer before comparing with expected. received := record.Bins[bin.Name] expected := "Hello World" if received == expected { log.Printf("Prepend successful: ns=%s set=%s key=%s bin=%s value=%s", key.Namespace(), key.SetName(), key.Value(), bin.Name, received) } else { log.Fatalf("Prepend mismatch: Expected %s. Received %s.", expected, received) } }
func writeIfGenerationNotChanged(client *as.Client) { key, _ := as.NewKey(*shared.Namespace, *shared.Set, "udfkey2") bin := as.NewBin("udfbin2", "string value") // Seed record. client.PutBins(shared.WritePolicy, key, bin) // Get record generation. gen, err := client.Execute(shared.WritePolicy, key, "record_example", "getGeneration") shared.PanicOnError(err) // Write record if generation has not changed. client.Execute(shared.WritePolicy, key, "record_example", "writeIfGenerationNotChanged", as.NewValue(bin.Name), bin.Value, as.NewValue(gen)) log.Printf("Record written.") }
func writeUsingUdf(client *as.Client) { key, _ := as.NewKey(*shared.Namespace, *shared.Set, "udfkey1") bin := as.NewBin("udfbin1", "string value") client.Execute(shared.WritePolicy, key, "record_example", "writeBin", as.NewValue(bin.Name), bin.Value) record, err := client.Get(shared.Policy, key, bin.Name) shared.PanicOnError(err) expected := bin.Value.String() received := record.Bins[bin.Name].(string) if received == expected { log.Printf("Data matched: namespace=%s set=%s key=%s bin=%s value=%s", key.Namespace(), key.SetName(), key.Value(), bin.Name, received) } else { log.Printf("Data mismatch: Expected %s. Received %s.", expected, received) } }
// Read record header data. func runGetHeaderExample(client *as.Client) { key, _ := as.NewKey(*shared.Namespace, *shared.Set, "putgetkey") log.Printf("Get record header: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) record, err := client.GetHeader(shared.Policy, key) shared.PanicOnError(err) if record == nil { panic(errors.New(fmt.Sprintf( "Failed to get: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()))) } // Generation should be greater than zero. Make sure it's populated. if record.Generation == 0 { panic(errors.New(fmt.Sprintf( "Invalid record header: generation=%d expiration=%d", record.Generation, record.Expiration))) } log.Printf("Received: generation=%d expiration=%d (%s)\n", record.Generation, record.Expiration, time.Duration(record.Expiration)*time.Second) }
/** * Write/Read map[interface{}]interface{} directly instead of relying on java serializer. */ func testMapComplex(client *as.Client) { log.Printf("Read/Write map[interface{}]interface{}") key, _ := as.NewKey(*shared.Namespace, *shared.Set, "mapkey2") client.Delete(shared.WritePolicy, key) blob := []byte{3, 52, 125} list := []int{ 100034, 12384955, 3, 512, } amap := map[interface{}]interface{}{ "key1": "string1", "key2": 2, "key3": blob, "key4": list, } bin := as.NewBin("mapbin2", amap) client.PutBins(shared.WritePolicy, key, bin) record, err := client.Get(shared.Policy, key, bin.Name) shared.PanicOnError(err) receivedMap := record.Bins[bin.Name].(map[interface{}]interface{}) validateSize(4, len(receivedMap)) validate("string1", receivedMap["key1"]) // Server convert numbers to long, so must expect long. validate(2, receivedMap["key2"]) validateBytes(blob, receivedMap["key3"].([]byte)) receivedInner := receivedMap["key4"].([]interface{}) validateSize(4, len(receivedInner)) validate(100034, receivedInner[0]) validate(12384955, receivedInner[1]) validate(3, receivedInner[2]) validate(512, receivedInner[3]) log.Printf("Read/Write map[interface{}]interface{} successful") }
func runReplaceOnlyExample(client *as.Client) { key, err := as.NewKey(*shared.Namespace, *shared.Set, "replaceonlykey") shared.PanicOnError(err) bin := as.NewBin("bin", "value") // Delete record if it already exists. client.Delete(shared.WritePolicy, key) log.Printf("Replace record requiring that it exists: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) wpolicy := as.NewWritePolicy(0, 0) wpolicy.RecordExistsAction = as.REPLACE_ONLY err = client.PutBins(wpolicy, key, bin) if ae, ok := err.(ast.AerospikeError); ok && ae.ResultCode() == ast.KEY_NOT_FOUND_ERROR { log.Printf("Success. `Not found` error returned as expected.") } else { log.Fatalln("Failure. This command should have resulted in an error.") } }
/** * Write/Read []string directly instead of relying on java serializer. */ func testListStrings(client *as.Client) { log.Printf("Read/Write []string") key, _ := as.NewKey(*shared.Namespace, *shared.Set, "listkey1") client.Delete(shared.WritePolicy, key) list := []string{"string1", "string2", "string3"} bin := as.NewBin("listbin1", list) client.PutBins(shared.WritePolicy, key, bin) record, err := client.Get(shared.Policy, key, bin.Name) shared.PanicOnError(err) receivedList := record.Bins[bin.Name].([]interface{}) validateSize(3, len(receivedList)) validate("string1", receivedList[0]) validate("string2", receivedList[1]) validate("string3", receivedList[2]) log.Printf("Read/Write []string successful.") }
// Execute put and get on a server configured as single-bin. func runSingleBinExample(client *as.Client) { key, _ := as.NewKey(*shared.Namespace, *shared.Set, "putgetkey") bin := as.NewBin("", "value") log.Printf("Single Put: namespace=%s set=%s key=%s value=%s", key.Namespace(), key.SetName(), key.Value(), bin.Value) client.PutBins(shared.WritePolicy, key, bin) log.Printf("Single Get: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) record, err := client.Get(shared.Policy, key) shared.PanicOnError(err) if record == nil { panic(errors.New(fmt.Sprintf( "Failed to get: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()))) } shared.ValidateBin(key, bin, record) }
func writeBlobUsingUdf(client *as.Client) { key, _ := as.NewKey(*shared.Namespace, *shared.Set, "udfkey6") binName := "udfbin6" // Create packed blob using standard java tools. dos := bytes.Buffer{} // dos.Write(9845) dos.WriteString("Hello world.") blob := dos.Bytes() client.Execute(shared.WritePolicy, key, "record_example", "writeBin", as.NewValue(binName), as.NewValue(blob)) received, err := client.Execute(shared.WritePolicy, key, "record_example", "readBin", as.NewValue(binName)) shared.PanicOnError(err) if bytes.Equal(blob, received.([]byte)) { log.Printf("Blob data matched: namespace=%s set=%s key=%s bin=%v value=%v", key.Namespace(), key.SetName(), key.Value(), binName, received) } else { log.Fatalf( "Mismatch: expected=%v received=%v", blob, received) } }
/** * Write/Read []interface{} directly instead of relying on java serializer. */ func testListComplex(client *as.Client) { log.Printf("Read/Write []interface{}") key, _ := as.NewKey(*shared.Namespace, *shared.Set, "listkey2") client.Delete(shared.WritePolicy, key) blob := []byte{3, 52, 125} list := []interface{}{"string1", 2, blob} bin := as.NewBin("listbin2", list) client.PutBins(shared.WritePolicy, key, bin) record, err := client.Get(shared.Policy, key, bin.Name) shared.PanicOnError(err) receivedList := record.Bins[bin.Name].([]interface{}) validateSize(3, len(receivedList)) validate("string1", receivedList[0]) // Server convert numbers to long, so must expect long. validate(2, receivedList[1]) validateBytes(blob, receivedList[2].([]byte)) log.Printf("Read/Write []interface{} successful.") }
/** * Write/Read map[string]string directly instead of relying on java serializer. */ func testMapStrings(client *as.Client) { log.Printf("Read/Write map[string]string") key, _ := as.NewKey(*shared.Namespace, *shared.Set, "mapkey1") client.Delete(shared.WritePolicy, key) amap := map[string]string{"key1": "string1", "key2": "string2", "key3": "string3", } bin := as.NewBin("mapbin1", amap) client.PutBins(shared.WritePolicy, key, bin) record, err := client.Get(shared.Policy, key, bin.Name) shared.PanicOnError(err) receivedMap := record.Bins[bin.Name].(map[interface{}]interface{}) validateSize(3, len(receivedMap)) validate("string1", receivedMap["key1"]) validate("string2", receivedMap["key2"]) validate("string3", receivedMap["key3"]) log.Printf("Read/Write map[string]string successful") }
// Execute put and get on a server configured as multi-bin. This is the server default. func runMultiBinExample(client *as.Client) { key, _ := as.NewKey(*shared.Namespace, *shared.Set, "putgetkey") bin1 := as.NewBin("bin1", "value1") bin2 := as.NewBin("bin2", "value2") log.Printf("Put: namespace=%s set=%s key=%s bin1=%s value1=%s bin2=%s value2=%s", key.Namespace(), key.SetName(), key.Value(), bin1.Name, bin1.Value, bin2.Name, bin2.Value) client.PutBins(shared.WritePolicy, key, bin1, bin2) log.Printf("Get: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) record, err := client.Get(shared.Policy, key) shared.PanicOnError(err) if record == nil { panic(errors.New(fmt.Sprintf( "Failed to get: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()))) } shared.ValidateBin(key, bin1, record) shared.ValidateBin(key, bin2, record) }
func writeListMapUsingUdf(client *as.Client) { key, _ := as.NewKey(*shared.Namespace, *shared.Set, "udfkey5") inner := []interface{}{"string2", int64(8)} innerMap := map[interface{}]interface{}{"a": int64(1), int64(2): "b", "list": inner} list := []interface{}{"string1", int64(4), inner, innerMap} binName := "udfbin5" client.Execute(shared.WritePolicy, key, "record_example", "writeBin", as.NewValue(binName), as.NewValue(list)) received, err := client.Execute(shared.WritePolicy, key, "record_example", "readBin", as.NewValue(binName)) shared.PanicOnError(err) if testEq(received.([]interface{}), list) { log.Printf("UDF data matched: namespace=%s set=%s key=%s bin=%s value=%s", key.Namespace(), key.SetName(), key.Value(), binName, received) } else { log.Println("UDF data mismatch") log.Println("Expected ", list) log.Println("Received ", received) } }
func runExample(client *as.Client) { key, _ := as.NewKey(*shared.Namespace, *shared.Set, "genkey") binName := "genbin" // Delete record if it already exists. client.Delete(shared.WritePolicy, key) // Set some values for the same record. bin := as.NewBin(binName, "genvalue1") log.Printf("Put: namespace=%s set=%s key=%s bin=%s value=%s", key.Namespace(), key.SetName(), key.Value(), bin.Name, bin.Value) client.PutBins(shared.WritePolicy, key, bin) bin = as.NewBin(binName, "genvalue2") log.Printf("Put: namespace=%s set=%s key=%s bin=%s value=%s", key.Namespace(), key.SetName(), key.Value(), bin.Name, bin.Value) client.PutBins(shared.WritePolicy, key, bin) // Retrieve record and its generation count. record, err := client.Get(shared.Policy, key, bin.Name) if record == nil { log.Fatalf( "Failed to get: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) } received := record.Bins[bin.Name] expected := bin.Value.String() if received == expected { log.Printf("Get successful: namespace=%s set=%s key=%s bin=%s value=%s generation=%d", key.Namespace(), key.SetName(), key.Value(), bin.Name, received, record.Generation) } else { log.Fatalf("Get mismatch: Expected %s. Received %s.", expected, received) } // Set record and fail if it's not the expected generation. bin = as.NewBin(binName, "genvalue3") log.Printf("Put: namespace=%s set=%s key=%s bin=%s value=%s expected generation=%d", key.Namespace(), key.SetName(), key.Value(), bin.Name, bin.Value, record.Generation) writePolicy := as.NewWritePolicy(0, 2) writePolicy.GenerationPolicy = as.EXPECT_GEN_EQUAL writePolicy.Generation = record.Generation client.PutBins(writePolicy, key, bin) // Set record with invalid generation and check results . bin = as.NewBin(binName, "genvalue4") writePolicy.Generation = 9999 log.Printf("Put: namespace=%s set=%s key=%s bin=%s value=%s expected generation=%d", key.Namespace(), key.SetName(), key.Value(), bin.Name, bin.Value, writePolicy.Generation) err = client.PutBins(writePolicy, key, bin) if err != nil { if ae, ok := err.(ast.AerospikeError); ok && ae.ResultCode() == ast.GENERATION_ERROR { shared.PanicOnError(errors.New("Should have received generation error instead of success.")) } log.Printf("Success: Generation error returned as expected.") } else { log.Fatalf( "Unexpected set return code: namespace=%s set=%s key=%s bin=%s value=%s code=%s", key.Namespace(), key.SetName(), key.Value(), bin.Name, bin.Value, err) } // Verify results. record, err = client.Get(shared.Policy, key, bin.Name) shared.PanicOnError(err) if record == nil { log.Fatalf( "Failed to get: namespace=%s set=%s key=%s", key.Namespace(), key.SetName(), key.Value()) } received = record.Bins[bin.Name] expected = "genvalue3" if received == expected { log.Printf("Get successful: namespace=%s set=%s key=%s bin=%s value=%s generation=%d", key.Namespace(), key.SetName(), key.Value(), bin.Name, received, record.Generation) } else { log.Fatalf("Get mismatch: Expected %s. Received %s.", expected, received) } }
func register(client *as.Client) { task, err := client.RegisterUDF(shared.WritePolicy, []byte(udf), "record_example.lua", as.LUA) shared.PanicOnError(err) <-task.OnComplete() }