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sfn.go
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sfn.go
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package yomo
import (
"context"
"errors"
"log/slog"
"github.com/robfig/cron/v3"
"github.com/yomorun/yomo/core"
"github.com/yomorun/yomo/core/frame"
"github.com/yomorun/yomo/core/metadata"
"github.com/yomorun/yomo/core/serverless"
"github.com/yomorun/yomo/pkg/id"
"github.com/yomorun/yomo/pkg/trace"
yserverless "github.com/yomorun/yomo/serverless"
"go.opentelemetry.io/otel/attribute"
)
// StreamFunction defines serverless streaming functions.
type StreamFunction interface {
// SetWantedTarget sets target for sfn that to receive data carrying the same target.
// This function is optional and it should be called before Connect().
SetWantedTarget(string)
// SetObserveDataTags set the data tag list that will be observed
SetObserveDataTags(tag ...uint32)
// Init will initialize the stream function
Init(fn func() error) error
// SetHandler set the handler function, which accept the raw bytes data and return the tag & response
SetHandler(fn core.AsyncHandler) error
// SetErrorHandler set the error handler function when server error occurs
SetErrorHandler(fn func(err error))
// SetPipeHandler set the pipe handler function
SetPipeHandler(fn core.PipeHandler) error
// SetCronHandler set the cron handler function.
// Examples:
// sfn.SetCronHandler("0 30 * * * *", func(ctx serverless.CronContext) {})
// sfn.SetCronHandler("@hourly", func(ctx serverless.CronContext) {})
// sfn.SetCronHandler("@every 1h30m", func(ctx serverless.CronContext) {})
// more spec style see: https://pkg.go.dev/github.com/robfig/cron#hdr-Usage
SetCronHandler(spec string, fn core.CronHandler) error
// Connect create a connection to the zipper
Connect() error
// Close will close the connection
Close() error
// Wait waits sfn to finish.
Wait()
}
// NewStreamFunction create a stream function.
func NewStreamFunction(name, zipperAddr string, opts ...SfnOption) StreamFunction {
trace.SetTracerProvider()
clientOpts := make([]core.ClientOption, len(opts))
for k, v := range opts {
clientOpts[k] = core.ClientOption(v)
}
client := core.NewClient(name, zipperAddr, core.ClientTypeStreamFunction, clientOpts...)
client.Logger = client.Logger.With(
"service", "stream-function",
"sfn_id", client.ClientID(),
"sfn_name", client.Name(),
"zipper_addr", zipperAddr,
)
sfn := &streamFunction{
name: name,
zipperAddr: zipperAddr,
client: client,
observeDataTags: make([]uint32, 0),
}
return sfn
}
var _ StreamFunction = &streamFunction{}
// streamFunction implements StreamFunction interface.
type streamFunction struct {
name string
zipperAddr string
client *core.Client
observeDataTags []uint32 // tag list that will be observed
fn core.AsyncHandler // user's function which will be invoked when data arrived
pfn core.PipeHandler
pIn chan []byte
cronSpec string
cronFn core.CronHandler
cron *cron.Cron
pOut chan *frame.DataFrame
}
func (s *streamFunction) SetWantedTarget(target string) {
if target == "" {
return
}
s.client.SetWantedTarget(target)
}
// SetObserveDataTags set the data tag list that will be observed.
func (s *streamFunction) SetObserveDataTags(tag ...uint32) {
s.observeDataTags = tag
s.client.SetObserveDataTags(tag...)
s.client.Logger.Debug("set sfn observe data tasg", "tags", s.observeDataTags)
}
// SetHandler set the handler function, which accept the raw bytes data and return the tag & response.
func (s *streamFunction) SetHandler(fn core.AsyncHandler) error {
s.fn = fn
s.client.Logger.Debug("set async handler")
return nil
}
func (s *streamFunction) SetCronHandler(cronSpec string, fn core.CronHandler) error {
s.cronSpec = cronSpec
s.cronFn = fn
s.client.Logger.Debug("set cron handler")
return nil
}
func (s *streamFunction) SetPipeHandler(fn core.PipeHandler) error {
s.pfn = fn
s.client.Logger.Debug("set pipe handler")
return nil
}
// Connect create a connection to the zipper, when data arrvied, the data will be passed to the
// handler set by SetHandler method.
func (s *streamFunction) Connect() error {
hasCron := s.cronFn != nil && s.cronSpec != ""
if hasCron {
s.cron = cron.New()
s.cron.AddFunc(s.cronSpec, func() {
md := core.NewMetadata(s.client.ClientID(), id.New())
// add trace
tracer := trace.NewTracer("StreamFunction")
span := tracer.Start(md, s.name)
defer tracer.End(md, span, attribute.String("sfn_handler_type", "corn_handler"))
cronCtx := serverless.NewCronContext(s.client, md)
s.cronFn(cronCtx)
})
s.cron.Start()
}
if len(s.observeDataTags) == 0 && !hasCron {
return errors.New("streamFunction cannot observe data because the required tag has not been set")
}
s.client.Logger.Debug("sfn connecting to zipper ...")
// notify underlying network operations, when data with tag we observed arrived, invoke the func
s.client.SetDataFrameObserver(func(data *frame.DataFrame) {
s.client.Logger.Debug("received data frame")
s.onDataFrame(data)
})
if s.pfn != nil {
s.pIn = make(chan []byte)
s.pOut = make(chan *frame.DataFrame)
// handle user's pipe function
go func() {
s.pfn(s.pIn, s.pOut)
}()
// send user's pipe function outputs to zipper
go func() {
for {
data := <-s.pOut
if data != nil {
s.client.Logger.Debug("pipe fn send", "payload_frame", data)
md, err := metadata.Decode(data.Metadata)
if err != nil {
s.client.Logger.Error("sfn decode metadata error", "err", err)
break
}
// add trace
tracer := trace.NewTracer("StreamFunction")
span := tracer.Start(md, s.name)
defer tracer.End(
md,
span,
attribute.String("sfn_handler_type", "pipe_handler"),
attribute.Int("recv_data_tag", int(data.Tag)),
attribute.Int("recv_data_len", len(data.Payload)),
)
rawMd, err := md.Encode()
if err != nil {
s.client.Logger.Error("sfn encode metadata error", "err", err)
break
}
data.Metadata = rawMd
frame := &frame.DataFrame{
Tag: data.Tag,
Metadata: data.Metadata,
Payload: data.Payload,
}
s.client.WriteFrame(frame)
}
}
}()
}
err := s.client.Connect(context.Background())
return err
}
// Close will close the connection.
func (s *streamFunction) Close() error {
if s.cron != nil {
s.cron.Stop()
}
_ = s.client.Close()
trace.ShutdownTracerProvider()
s.client.Logger.Debug("the sfn is closed")
return nil
}
// Wait waits sfn to finish.
func (s *streamFunction) Wait() {
s.client.Wait()
}
// when DataFrame we observed arrived, invoke the user's function
// func (s *streamFunction) onDataFrame(data []byte, metaFrame *frame.MetaFrame) {
func (s *streamFunction) onDataFrame(dataFrame *frame.DataFrame) {
if s.fn != nil {
go func(dataFrame *frame.DataFrame) {
md, err := metadata.Decode(dataFrame.Metadata)
if err != nil {
s.client.Logger.Error("sfn decode metadata error", "err", err)
return
}
// add trace
tracer := trace.NewTracer("StreamFunction", s.client.DisableOtelTrace())
span := tracer.Start(md, s.name)
defer tracer.End(
md,
span,
attribute.String("sfn_handler_type", "async_handler"),
attribute.Int("recv_data_tag", int(dataFrame.Tag)),
attribute.Int("recv_data_len", len(dataFrame.Payload)),
)
serverlessCtx := serverless.NewContext(s.client, dataFrame.Tag, md, dataFrame.Payload)
s.fn(serverlessCtx)
checkLLMFunctionCall(s.client.Logger, serverlessCtx)
}(dataFrame)
} else if s.pfn != nil {
data := dataFrame.Payload
s.client.Logger.Debug("pipe sfn receive", "data_len", len(data), "data", data)
s.pIn <- data
} else {
s.client.Logger.Warn("sfn does not have a handler")
}
}
// SetErrorHandler set the error handler function when server error occurs
func (s *streamFunction) SetErrorHandler(fn func(err error)) {
s.client.SetErrorHandler(fn)
}
// Init will initialize the stream function
func (s *streamFunction) Init(fn func() error) error {
return fn()
}
func checkLLMFunctionCall(logger *slog.Logger, serverlessCtx yserverless.Context) {
fc, err := serverlessCtx.LLMFunctionCall()
if err != nil {
// it's not a LLM function call ctx
return
}
if !fc.IsOK {
logger.Warn("The function return nothing to LLM, please ensure ctx.WriteLLMResult() has been called and successful in Handler func.")
}
}