// Applies this message template's values to the provided message object,
// interpolating the provided substitutions into the values in the process.
func (mt MessageTemplate) PopulateMessage(msg *message.Message, subs map[string]string) error {
var val string
for field, rawVal := range mt {
val = InterpolateString(rawVal, subs)
switch field {
case "Logger":
msg.SetLogger(val)
case "Type":
msg.SetType(val)
case "Payload":
msg.SetPayload(val)
case "Hostname":
msg.SetHostname(val)
case "Pid":
pid, err := strconv.ParseInt(val, 10, 32)
if err != nil {
return err
}
msg.SetPid(int32(pid))
case "Uuid":
msg.SetUuid([]byte(val))
default:
fi := strings.SplitN(field, "|", 2)
if len(fi) < 2 {
fi = append(fi, "")
}
f, err := message.NewField(fi[0], val, fi[1])
msg.AddField(f)
if err != nil {
return err
}
}
}
return nil
}
// Applies this message template's values to the provided message object,
// interpolating the provided substitutions into the values in the process.
func (mt MessageTemplate) PopulateMessage(msg *message.Message, subs map[string]string) error {
var val string
for field, rawVal := range mt {
if subs == nil {
val = rawVal
} else {
val = InterpolateString(rawVal, subs)
}
switch field {
case "Logger":
msg.SetLogger(val)
case "Type":
msg.SetType(val)
case "Payload":
msg.SetPayload(val)
case "Hostname":
msg.SetHostname(val)
case "Pid":
intPart := strings.Split(val, ".")[0]
pid, err := strconv.ParseInt(intPart, 10, 32)
if err != nil {
return err
}
msg.SetPid(int32(pid))
case "Severity":
severity, err := strconv.ParseInt(val, 10, 32)
if err != nil {
return err
}
msg.SetSeverity(int32(severity))
case "Uuid":
if len(val) == message.UUID_SIZE {
msg.SetUuid([]byte(val))
} else {
if uuidBytes := uuid.Parse(val); uuidBytes == nil {
return errors.New("Invalid UUID string.")
} else {
msg.SetUuid(uuidBytes)
}
}
default:
fi := strings.SplitN(field, "|", 2)
if len(fi) < 2 {
fi = append(fi, "")
}
f, err := message.NewField(fi[0], val, fi[1])
msg.AddField(f)
if err != nil {
return err
}
}
}
return nil
}
func copyMessageHeaders(dst *message.Message, src *message.Message) {
if src == nil || dst == nil || src == dst {
return
}
if cap(src.Uuid) > 0 {
dst.SetUuid(src.Uuid)
} else {
dst.Uuid = nil
}
if src.Timestamp != nil {
dst.SetTimestamp(*src.Timestamp)
} else {
dst.Timestamp = nil
}
if src.Type != nil {
dst.SetType(*src.Type)
} else {
dst.Type = nil
}
if src.Logger != nil {
dst.SetLogger(*src.Logger)
} else {
dst.Logger = nil
}
if src.Severity != nil {
dst.SetSeverity(*src.Severity)
} else {
dst.Severity = nil
}
if src.Pid != nil {
dst.SetPid(*src.Pid)
} else {
dst.Pid = nil
}
if src.Hostname != nil {
dst.SetHostname(*src.Hostname)
} else {
dst.Hostname = nil
}
}
func AMQPPluginSpec(c gs.Context) {
t := &pipeline_ts.SimpleT{}
ctrl := gomock.NewController(t)
defer ctrl.Finish()
config := NewPipelineConfig(nil)
// Our two user/conn waitgroups
ug := new(sync.WaitGroup)
cg := new(sync.WaitGroup)
// Setup the mock channel
mch := NewMockAMQPChannel(ctrl)
// Setup the mock amqpHub with the mock chan return
aqh := NewMockAMQPConnectionHub(ctrl)
aqh.EXPECT().GetChannel("", AMQPDialer{}).Return(mch, ug, cg, nil)
errChan := make(chan error, 1)
c.Specify("An amqp input", func() {
// Setup all the mock calls for Init
mch.EXPECT().ExchangeDeclare("", "", false, true, false, false,
gomock.Any()).Return(nil)
mch.EXPECT().QueueDeclare("", false, true, false, false,
gomock.Any()).Return(amqp.Queue{}, nil)
mch.EXPECT().QueueBind("", "test", "", false, gomock.Any()).Return(nil)
mch.EXPECT().Qos(2, 0, false).Return(nil)
ith := new(plugins_ts.InputTestHelper)
ith.Msg = pipeline_ts.GetTestMessage()
ith.Pack = NewPipelinePack(config.InputRecycleChan())
// set up mock helper, decoder set, and packSupply channel
ith.MockHelper = NewMockPluginHelper(ctrl)
ith.MockInputRunner = NewMockInputRunner(ctrl)
mockDRunner := NewMockDecoderRunner(ctrl)
ith.PackSupply = make(chan *PipelinePack, 1)
ith.DecodeChan = make(chan *PipelinePack)
ith.MockInputRunner.EXPECT().InChan().Return(ith.PackSupply)
amqpInput := new(AMQPInput)
amqpInput.amqpHub = aqh
config := amqpInput.ConfigStruct().(*AMQPInputConfig)
config.URL = ""
config.Exchange = ""
config.ExchangeType = ""
config.RoutingKey = "test"
config.QueueTTL = 300000
c.Specify("with a valid setup and no decoder", func() {
err := amqpInput.Init(config)
c.Assume(err, gs.IsNil)
c.Expect(amqpInput.ch, gs.Equals, mch)
c.Specify("consumes a message", func() {
// Create a channel to send data to the input
// Drop a message on there and close the channel
streamChan := make(chan amqp.Delivery, 1)
ack := plugins_ts.NewMockAcknowledger(ctrl)
ack.EXPECT().Ack(gomock.Any(), false)
streamChan <- amqp.Delivery{
ContentType: "text/plain",
Body: []byte("This is a message"),
Timestamp: time.Now(),
Acknowledger: ack,
}
mch.EXPECT().Consume("", "", false, false, false, false,
gomock.Any()).Return(streamChan, nil)
// Expect the injected packet
ith.MockInputRunner.EXPECT().Inject(gomock.Any())
// Increase the usage since Run decrements it on close
ug.Add(1)
ith.PackSupply <- ith.Pack
go func() {
err := amqpInput.Run(ith.MockInputRunner, ith.MockHelper)
errChan <- err
}()
ith.PackSupply <- ith.Pack
close(streamChan)
err = <-errChan
c.Expect(err, gs.IsNil)
c.Expect(ith.Pack.Message.GetType(), gs.Equals, "amqp")
c.Expect(ith.Pack.Message.GetPayload(), gs.Equals, "This is a message")
})
})
c.Specify("with a valid setup using a decoder", func() {
decoderName := "defaultDecoder"
config.Decoder = decoderName
err := amqpInput.Init(config)
c.Assume(err, gs.IsNil)
c.Expect(amqpInput.ch, gs.Equals, mch)
// Mock up our default decoder runner and decoder.
ith.MockInputRunner.EXPECT().Name().Return("AMQPInput")
decCall := ith.MockHelper.EXPECT().DecoderRunner(decoderName, "AMQPInput-defaultDecoder")
decCall.Return(mockDRunner, true)
mockDecoder := NewMockDecoder(ctrl)
mockDRunner.EXPECT().Decoder().Return(mockDecoder)
c.Specify("consumes a message", func() {
packs := []*PipelinePack{ith.Pack}
mockDecoder.EXPECT().Decode(ith.Pack).Return(packs, nil)
// Create a channel to send data to the input
// Drop a message on there and close the channel
streamChan := make(chan amqp.Delivery, 1)
ack := plugins_ts.NewMockAcknowledger(ctrl)
ack.EXPECT().Ack(gomock.Any(), false)
streamChan <- amqp.Delivery{
ContentType: "text/plain",
Body: []byte("This is a message"),
Timestamp: time.Now(),
Acknowledger: ack,
}
mch.EXPECT().Consume("", "", false, false, false, false,
gomock.Any()).Return(streamChan, nil)
// Expect the injected packet
ith.MockInputRunner.EXPECT().Inject(gomock.Any())
// Increase the usage since Run decrements it on close
ug.Add(1)
ith.PackSupply <- ith.Pack
go func() {
err := amqpInput.Run(ith.MockInputRunner, ith.MockHelper)
errChan <- err
}()
ith.PackSupply <- ith.Pack
close(streamChan)
err = <-errChan
c.Expect(ith.Pack.Message.GetType(), gs.Equals, "amqp")
c.Expect(ith.Pack.Message.GetPayload(), gs.Equals, "This is a message")
})
c.Specify("consumes a serialized message", func() {
encoder := client.NewProtobufEncoder(nil)
streamChan := make(chan amqp.Delivery, 1)
msg := new(message.Message)
msg.SetUuid(uuid.NewRandom())
msg.SetTimestamp(time.Now().UnixNano())
msg.SetType("logfile")
msg.SetLogger("/a/nice/path")
msg.SetSeverity(int32(0))
msg.SetEnvVersion("0.2")
msg.SetPid(0)
msg.SetPayload("This is a message")
msg.SetHostname("TestHost")
msgBody := make([]byte, 0, 500)
_ = encoder.EncodeMessageStream(msg, &msgBody)
ack := plugins_ts.NewMockAcknowledger(ctrl)
ack.EXPECT().Ack(gomock.Any(), false)
streamChan <- amqp.Delivery{
ContentType: "application/hekad",
Body: msgBody,
Timestamp: time.Now(),
Acknowledger: ack,
}
mch.EXPECT().Consume("", "", false, false, false, false,
gomock.Any()).Return(streamChan, nil)
// Expect the decoded pack
mockDRunner.EXPECT().InChan().Return(ith.DecodeChan)
// Increase the usage since Run decrements it on close
ug.Add(1)
ith.PackSupply <- ith.Pack
go func() {
err := amqpInput.Run(ith.MockInputRunner, ith.MockHelper)
errChan <- err
}()
packRef := <-ith.DecodeChan
c.Expect(ith.Pack, gs.Equals, packRef)
// Ignore leading 5 bytes of encoded message as thats the header
c.Expect(string(packRef.MsgBytes), gs.Equals, string(msgBody[5:]))
ith.PackSupply <- ith.Pack
close(streamChan)
err = <-errChan
c.Expect(err, gs.IsNil)
})
})
})
c.Specify("An amqp output", func() {
oth := plugins_ts.NewOutputTestHelper(ctrl)
pConfig := NewPipelineConfig(nil)
amqpOutput := new(AMQPOutput)
amqpOutput.amqpHub = aqh
config := amqpOutput.ConfigStruct().(*AMQPOutputConfig)
config.URL = ""
config.Exchange = ""
config.ExchangeType = ""
config.RoutingKey = "test"
closeChan := make(chan *amqp.Error)
inChan := make(chan *PipelinePack, 1)
mch.EXPECT().NotifyClose(gomock.Any()).Return(closeChan)
mch.EXPECT().ExchangeDeclare("", "", false, true, false, false,
gomock.Any()).Return(nil)
// Increase the usage since Run decrements it on close
ug.Add(1)
// Expect the close and the InChan calls
aqh.EXPECT().Close("", cg)
oth.MockOutputRunner.EXPECT().InChan().Return(inChan)
msg := pipeline_ts.GetTestMessage()
pack := NewPipelinePack(pConfig.InputRecycleChan())
pack.Message = msg
pack.Decoded = true
c.Specify("publishes a plain message", func() {
encoder := new(plugins.PayloadEncoder)
econfig := encoder.ConfigStruct().(*plugins.PayloadEncoderConfig)
econfig.AppendNewlines = false
encoder.Init(econfig)
payloadBytes, err := encoder.Encode(pack)
config.Encoder = "PayloadEncoder"
config.ContentType = "text/plain"
oth.MockOutputRunner.EXPECT().Encoder().Return(encoder)
oth.MockOutputRunner.EXPECT().Encode(pack).Return(payloadBytes, nil)
err = amqpOutput.Init(config)
c.Assume(err, gs.IsNil)
c.Expect(amqpOutput.ch, gs.Equals, mch)
mch.EXPECT().Publish("", "test", false, false, gomock.Any()).Return(nil)
inChan <- pack
close(inChan)
close(closeChan)
go func() {
err := amqpOutput.Run(oth.MockOutputRunner, oth.MockHelper)
errChan <- err
}()
ug.Wait()
err = <-errChan
c.Expect(err, gs.IsNil)
})
c.Specify("publishes a serialized message", func() {
encoder := new(ProtobufEncoder)
encoder.SetPipelineConfig(pConfig)
encoder.Init(nil)
protoBytes, err := encoder.Encode(pack)
c.Expect(err, gs.IsNil)
oth.MockOutputRunner.EXPECT().Encoder().Return(encoder)
oth.MockOutputRunner.EXPECT().Encode(pack).Return(protoBytes, nil)
err = amqpOutput.Init(config)
c.Assume(err, gs.IsNil)
c.Expect(amqpOutput.ch, gs.Equals, mch)
mch.EXPECT().Publish("", "test", false, false, gomock.Any()).Return(nil)
inChan <- pack
close(inChan)
close(closeChan)
go func() {
err := amqpOutput.Run(oth.MockOutputRunner, oth.MockHelper)
errChan <- err
}()
ug.Wait()
err = <-errChan
c.Expect(err, gs.IsNil)
})
})
}
func AMQPPluginSpec(c gs.Context) {
t := &ts.SimpleT{}
ctrl := gomock.NewController(t)
defer ctrl.Finish()
config := NewPipelineConfig(nil)
// Our two user/conn waitgroups
ug := new(sync.WaitGroup)
cg := new(sync.WaitGroup)
// Setup the mock channel
mch := NewMockAMQPChannel(ctrl)
// Setup the mock amqpHub with the mock chan return
aqh := NewMockAMQPConnectionHub(ctrl)
aqh.EXPECT().GetChannel("").Return(mch, ug, cg, nil)
var oldHub AMQPConnectionHub
oldHub = amqpHub
amqpHub = aqh
defer func() {
amqpHub = oldHub
}()
c.Specify("An amqp input", func() {
// Setup all the mock calls for Init
mch.EXPECT().ExchangeDeclare("", "", false, true, false, false,
gomock.Any()).Return(nil)
mch.EXPECT().QueueDeclare("", false, true, false, false,
gomock.Any()).Return(amqp.Queue{}, nil)
mch.EXPECT().QueueBind("", "test", "", false, gomock.Any()).Return(nil)
mch.EXPECT().Qos(2, 0, false).Return(nil)
ith := new(InputTestHelper)
ith.Msg = getTestMessage()
ith.Pack = NewPipelinePack(config.inputRecycleChan)
// set up mock helper, decoder set, and packSupply channel
ith.MockHelper = NewMockPluginHelper(ctrl)
ith.MockInputRunner = NewMockInputRunner(ctrl)
ith.Decoders = make([]DecoderRunner, int(message.Header_JSON+1))
ith.Decoders[message.Header_PROTOCOL_BUFFER] = NewMockDecoderRunner(ctrl)
ith.Decoders[message.Header_JSON] = NewMockDecoderRunner(ctrl)
ith.PackSupply = make(chan *PipelinePack, 1)
ith.DecodeChan = make(chan *PipelinePack)
ith.MockDecoderSet = NewMockDecoderSet(ctrl)
ith.MockInputRunner.EXPECT().InChan().Return(ith.PackSupply)
ith.MockHelper.EXPECT().DecoderSet().Times(2).Return(ith.MockDecoderSet)
encCall := ith.MockDecoderSet.EXPECT().ByEncodings()
encCall.Return(ith.Decoders, nil)
c.Specify("with a valid setup and no decoders", func() {
amqpInput := new(AMQPInput)
defaultConfig := amqpInput.ConfigStruct().(*AMQPInputConfig)
defaultConfig.URL = ""
defaultConfig.Exchange = ""
defaultConfig.ExchangeType = ""
defaultConfig.RoutingKey = "test"
err := amqpInput.Init(defaultConfig)
c.Assume(err, gs.IsNil)
c.Expect(amqpInput.ch, gs.Equals, mch)
c.Specify("consumes a message", func() {
// Create a channel to send data to the input
// Drop a message on there and close the channel
streamChan := make(chan amqp.Delivery, 1)
ack := ts.NewMockAcknowledger(ctrl)
ack.EXPECT().Ack(gomock.Any(), false)
streamChan <- amqp.Delivery{
ContentType: "text/plain",
Body: []byte("This is a message"),
Timestamp: time.Now(),
Acknowledger: ack,
}
mch.EXPECT().Consume("", "", false, false, false, false,
gomock.Any()).Return(streamChan, nil)
// Expect the injected packet
ith.MockInputRunner.EXPECT().Inject(gomock.Any())
// Increase the usage since Run decrements it on close
ug.Add(1)
ith.PackSupply <- ith.Pack
go func() {
amqpInput.Run(ith.MockInputRunner, ith.MockHelper)
}()
ith.PackSupply <- ith.Pack
c.Expect(ith.Pack.Message.GetType(), gs.Equals, "amqp")
c.Expect(ith.Pack.Message.GetPayload(), gs.Equals, "This is a message")
close(streamChan)
})
c.Specify("consumes a serialized message", func() {
encoder := client.NewProtobufEncoder(nil)
streamChan := make(chan amqp.Delivery, 1)
msg := new(message.Message)
msg.SetUuid(uuid.NewRandom())
msg.SetTimestamp(time.Now().UnixNano())
msg.SetType("logfile")
msg.SetLogger("/a/nice/path")
msg.SetSeverity(int32(0))
msg.SetEnvVersion("0.2")
msg.SetPid(0)
msg.SetPayload("This is a message")
msg.SetHostname("TestHost")
msgBody := make([]byte, 0, 500)
_ = encoder.EncodeMessageStream(msg, &msgBody)
ack := ts.NewMockAcknowledger(ctrl)
ack.EXPECT().Ack(gomock.Any(), false)
streamChan <- amqp.Delivery{
ContentType: "application/hekad",
Body: msgBody,
Timestamp: time.Now(),
Acknowledger: ack,
}
mch.EXPECT().Consume("", "", false, false, false, false,
gomock.Any()).Return(streamChan, nil)
// Expect the decoded pack
mockDecoderRunner := ith.Decoders[message.Header_PROTOCOL_BUFFER].(*MockDecoderRunner)
mockDecoderRunner.EXPECT().InChan().Return(ith.DecodeChan)
// Increase the usage since Run decrements it on close
ug.Add(1)
ith.PackSupply <- ith.Pack
go func() {
amqpInput.Run(ith.MockInputRunner, ith.MockHelper)
}()
packRef := <-ith.DecodeChan
c.Expect(ith.Pack, gs.Equals, packRef)
// Ignore leading 5 bytes of encoded message as thats the header
c.Expect(string(packRef.MsgBytes), gs.Equals, string(msgBody[5:]))
ith.PackSupply <- ith.Pack
close(streamChan)
})
})
c.Specify("with a valid setup using decoders", func() {
amqpInput := new(AMQPInput)
defaultConfig := amqpInput.ConfigStruct().(*AMQPInputConfig)
defaultConfig.URL = ""
defaultConfig.Exchange = ""
defaultConfig.ExchangeType = ""
defaultConfig.RoutingKey = "test"
defaultConfig.Decoders = []string{"defaultDecode"}
err := amqpInput.Init(defaultConfig)
c.Assume(err, gs.IsNil)
c.Expect(amqpInput.ch, gs.Equals, mch)
c.Specify("consumes a message", func() {
// Create a channel to send data to the input
// Drop a message on there and close the channel
streamChan := make(chan amqp.Delivery, 1)
ack := ts.NewMockAcknowledger(ctrl)
ack.EXPECT().Ack(gomock.Any(), false)
streamChan <- amqp.Delivery{
ContentType: "text/plain",
Body: []byte("This is a message"),
Timestamp: time.Now(),
Acknowledger: ack,
}
mch.EXPECT().Consume("", "", false, false, false, false,
gomock.Any()).Return(streamChan, nil)
// Make the mock decoder runner and decoder for the 'defaultDecode'
dmr := NewMockDecoderRunner(ctrl)
mdec := NewMockDecoder(ctrl)
ith.MockDecoderSet.EXPECT().ByName("defaultDecode").Return(dmr, true)
dmr.EXPECT().Decoder().Return(mdec)
mdec.EXPECT().Decode(ith.Pack).Return(nil)
// Expect the injected packet
ith.MockInputRunner.EXPECT().Inject(gomock.Any())
// Increase the usage since Run decrements it on close
ug.Add(1)
ith.PackSupply <- ith.Pack
go func() {
amqpInput.Run(ith.MockInputRunner, ith.MockHelper)
}()
ith.PackSupply <- ith.Pack
c.Expect(ith.Pack.Message.GetType(), gs.Equals, "amqp")
c.Expect(ith.Pack.Message.GetPayload(), gs.Equals, "This is a message")
close(streamChan)
})
})
})
c.Specify("An amqp output", func() {
oth := NewOutputTestHelper(ctrl)
pConfig := NewPipelineConfig(nil)
amqpOutput := new(AMQPOutput)
defaultConfig := amqpOutput.ConfigStruct().(*AMQPOutputConfig)
defaultConfig.URL = ""
defaultConfig.Exchange = ""
defaultConfig.ExchangeType = ""
defaultConfig.RoutingKey = "test"
closeChan := make(chan *amqp.Error)
inChan := make(chan *PipelinePack, 1)
mch.EXPECT().NotifyClose(gomock.Any()).Return(closeChan)
mch.EXPECT().ExchangeDeclare("", "", false, true, false, false,
gomock.Any()).Return(nil)
// Increase the usage since Run decrements it on close
ug.Add(1)
// Expect the close and the InChan calls
aqh.EXPECT().Close("", cg)
oth.MockOutputRunner.EXPECT().InChan().Return(inChan)
msg := getTestMessage()
pack := NewPipelinePack(pConfig.inputRecycleChan)
pack.Message = msg
pack.Decoded = true
c.Specify("publishes a plain message", func() {
defaultConfig.Serialize = false
err := amqpOutput.Init(defaultConfig)
c.Assume(err, gs.IsNil)
c.Expect(amqpOutput.ch, gs.Equals, mch)
mch.EXPECT().Publish("", "test", false, false, gomock.Any()).Return(nil)
inChan <- pack
close(inChan)
go func() {
amqpOutput.Run(oth.MockOutputRunner, oth.MockHelper)
}()
ug.Wait()
})
c.Specify("publishes a serialized message", func() {
err := amqpOutput.Init(defaultConfig)
c.Assume(err, gs.IsNil)
c.Expect(amqpOutput.ch, gs.Equals, mch)
mch.EXPECT().Publish("", "test", false, false, gomock.Any()).Return(nil)
inChan <- pack
close(inChan)
go func() {
amqpOutput.Run(oth.MockOutputRunner, oth.MockHelper)
}()
ug.Wait()
})
})
}
func AMQPPluginSpec(c gs.Context) {
t := &pipeline_ts.SimpleT{}
ctrl := gomock.NewController(t)
defer ctrl.Finish()
config := NewPipelineConfig(nil)
// Our two user/conn waitgroups.
ug := new(sync.WaitGroup)
cg := new(sync.WaitGroup)
// Setup the mock channel.
mch := NewMockAMQPChannel(ctrl)
// Setup the mock amqpHub with the mock chan return.
aqh := NewMockAMQPConnectionHub(ctrl)
aqh.EXPECT().GetChannel("", AMQPDialer{}).Return(mch, ug, cg, nil)
errChan := make(chan error, 1)
bytesChan := make(chan []byte, 1)
c.Specify("An amqp input", func() {
// Setup all the mock calls for Init.
mch.EXPECT().ExchangeDeclare("", "", false, true, false, false,
gomock.Any()).Return(nil)
mch.EXPECT().QueueDeclare("", false, true, false, false,
gomock.Any()).Return(amqp.Queue{}, nil)
mch.EXPECT().QueueBind("", "test", "", false, gomock.Any()).Return(nil)
mch.EXPECT().Qos(2, 0, false).Return(nil)
ith := new(plugins_ts.InputTestHelper)
ith.Msg = pipeline_ts.GetTestMessage()
ith.Pack = NewPipelinePack(config.InputRecycleChan())
// Set up relevant mocks.
ith.MockHelper = NewMockPluginHelper(ctrl)
ith.MockInputRunner = NewMockInputRunner(ctrl)
ith.MockSplitterRunner = NewMockSplitterRunner(ctrl)
ith.PackSupply = make(chan *PipelinePack, 1)
ith.MockInputRunner.EXPECT().NewSplitterRunner("").Return(ith.MockSplitterRunner)
amqpInput := new(AMQPInput)
amqpInput.amqpHub = aqh
config := amqpInput.ConfigStruct().(*AMQPInputConfig)
config.URL = ""
config.Exchange = ""
config.ExchangeType = ""
config.RoutingKey = "test"
config.QueueTTL = 300000
err := amqpInput.Init(config)
c.Assume(err, gs.IsNil)
c.Expect(amqpInput.ch, gs.Equals, mch)
c.Specify("consumes a text message", func() {
// Create a channel to send data to the input. Drop a message on
// there and close the channel.
streamChan := make(chan amqp.Delivery, 1)
ack := plugins_ts.NewMockAcknowledger(ctrl)
ack.EXPECT().Ack(gomock.Any(), false)
streamChan <- amqp.Delivery{
ContentType: "text/plain",
Body: []byte("This is a message"),
Timestamp: time.Now(),
Acknowledger: ack,
}
mch.EXPECT().Consume("", "", false, false, false, false,
gomock.Any()).Return(streamChan, nil)
// Increase the usage since Run decrements it on close.
ug.Add(1)
splitCall := ith.MockSplitterRunner.EXPECT().SplitBytes(gomock.Any(),
nil)
splitCall.Do(func(recd []byte, del Deliverer) {
bytesChan <- recd
})
ith.MockSplitterRunner.EXPECT().UseMsgBytes().Return(false)
ith.MockSplitterRunner.EXPECT().SetPackDecorator(gomock.Any())
go func() {
err := amqpInput.Run(ith.MockInputRunner, ith.MockHelper)
errChan <- err
}()
msgBytes := <-bytesChan
c.Expect(string(msgBytes), gs.Equals, "This is a message")
close(streamChan)
err = <-errChan
})
c.Specify("consumes a protobuf encoded message", func() {
encoder := client.NewProtobufEncoder(nil)
streamChan := make(chan amqp.Delivery, 1)
msg := new(message.Message)
msg.SetUuid(uuid.NewRandom())
msg.SetTimestamp(time.Now().UnixNano())
msg.SetType("logfile")
msg.SetLogger("/a/nice/path")
msg.SetSeverity(int32(0))
msg.SetEnvVersion("0.2")
msg.SetPid(0)
msg.SetPayload("This is a message")
msg.SetHostname("TestHost")
msgBody := make([]byte, 0, 500)
_ = encoder.EncodeMessageStream(msg, &msgBody)
ack := plugins_ts.NewMockAcknowledger(ctrl)
ack.EXPECT().Ack(gomock.Any(), false)
streamChan <- amqp.Delivery{
ContentType: "application/hekad",
Body: msgBody,
Timestamp: time.Now(),
Acknowledger: ack,
}
mch.EXPECT().Consume("", "", false, false, false, false,
gomock.Any()).Return(streamChan, nil)
// Increase the usage since Run decrements it on close.
ug.Add(1)
splitCall := ith.MockSplitterRunner.EXPECT().SplitBytes(gomock.Any(),
nil)
splitCall.Do(func(recd []byte, del Deliverer) {
bytesChan <- recd
})
ith.MockSplitterRunner.EXPECT().UseMsgBytes().Return(true)
go func() {
err := amqpInput.Run(ith.MockInputRunner, ith.MockHelper)
errChan <- err
}()
msgBytes := <-bytesChan
c.Expect(string(msgBytes), gs.Equals, string(msgBody))
close(streamChan)
err = <-errChan
c.Expect(err, gs.IsNil)
})
})
c.Specify("An amqp output", func() {
oth := plugins_ts.NewOutputTestHelper(ctrl)
pConfig := NewPipelineConfig(nil)
amqpOutput := new(AMQPOutput)
amqpOutput.amqpHub = aqh
config := amqpOutput.ConfigStruct().(*AMQPOutputConfig)
config.URL = ""
config.Exchange = ""
config.ExchangeType = ""
config.RoutingKey = "test"
closeChan := make(chan *amqp.Error)
inChan := make(chan *PipelinePack, 1)
mch.EXPECT().NotifyClose(gomock.Any()).Return(closeChan)
mch.EXPECT().ExchangeDeclare("", "", false, true, false, false,
gomock.Any()).Return(nil)
// Increase the usage since Run decrements it on close.
ug.Add(1)
// Expect the close and the InChan calls.
aqh.EXPECT().Close("", cg)
oth.MockOutputRunner.EXPECT().InChan().Return(inChan)
msg := pipeline_ts.GetTestMessage()
pack := NewPipelinePack(pConfig.InputRecycleChan())
pack.Message = msg
pack.Decoded = true
c.Specify("publishes a plain message", func() {
encoder := new(plugins.PayloadEncoder)
econfig := encoder.ConfigStruct().(*plugins.PayloadEncoderConfig)
econfig.AppendNewlines = false
encoder.Init(econfig)
payloadBytes, err := encoder.Encode(pack)
config.Encoder = "PayloadEncoder"
config.ContentType = "text/plain"
oth.MockOutputRunner.EXPECT().Encoder().Return(encoder)
oth.MockOutputRunner.EXPECT().Encode(pack).Return(payloadBytes, nil)
err = amqpOutput.Init(config)
c.Assume(err, gs.IsNil)
c.Expect(amqpOutput.ch, gs.Equals, mch)
mch.EXPECT().Publish("", "test", false, false, gomock.Any()).Return(nil)
inChan <- pack
close(inChan)
close(closeChan)
go func() {
err := amqpOutput.Run(oth.MockOutputRunner, oth.MockHelper)
errChan <- err
}()
ug.Wait()
err = <-errChan
c.Expect(err, gs.IsNil)
})
c.Specify("publishes a serialized message", func() {
encoder := new(ProtobufEncoder)
encoder.SetPipelineConfig(pConfig)
encoder.Init(nil)
protoBytes, err := encoder.Encode(pack)
c.Expect(err, gs.IsNil)
oth.MockOutputRunner.EXPECT().Encoder().Return(encoder)
oth.MockOutputRunner.EXPECT().Encode(pack).Return(protoBytes, nil)
err = amqpOutput.Init(config)
c.Assume(err, gs.IsNil)
c.Expect(amqpOutput.ch, gs.Equals, mch)
mch.EXPECT().Publish("", "test", false, false, gomock.Any()).Return(nil)
inChan <- pack
close(inChan)
close(closeChan)
go func() {
err := amqpOutput.Run(oth.MockOutputRunner, oth.MockHelper)
errChan <- err
}()
ug.Wait()
err = <-errChan
c.Expect(err, gs.IsNil)
})
})
}
