package agent import ( "context" "errors" "fmt" "io" "mime" "net/http" "strings" "time" "go.opencensus.io/trace" "github.com/fnproject/fn/api/agent/drivers" "github.com/fnproject/fn/api/common" "github.com/fnproject/fn/api/id" "github.com/fnproject/fn/api/models" "github.com/go-openapi/strfmt" "github.com/sirupsen/logrus" ) type Call interface { // Model will return the underlying models.Call configuration for this call. // TODO we could respond to async correctly from agent but layering, this // is only because the front end has different responses based on call type. // try to discourage use elsewhere until this gets pushed down more... Model() *models.Call // Start will be called before this call is executed, it may be used to // guarantee mutual exclusion, check docker permissions, update timestamps, // etc. // TODO Start and End can likely be unexported as they are only used in the agent, // and on a type which is constructed in a specific agent. meh. Start(ctx context.Context) error // End will be called immediately after attempting a call execution, // regardless of whether the execution failed or not. An error will be passed // to End, which if nil indicates a successful execution. Any error returned // from End will be returned as the error from Submit. End(ctx context.Context, err error) error } // TODO build w/o closures... lazy type CallOpt func(c *call) error type Param struct { Key string Value string } type Params []Param const ( ceMimeType = "application/cloudevents+json" ) func FromRequest(a Agent, app *models.App, path string, req *http.Request) CallOpt { return func(c *call) error { ctx := req.Context() route, err := a.GetRoute(ctx, app.ID, path) if err != nil { return err } log := common.Logger(ctx) // Check whether this is a CloudEvent, if coming in via HTTP router (only way currently), then we'll look for a special header // Content-Type header: https://github.com/cloudevents/spec/blob/master/http-transport-binding.md#32-structured-content-mode // Expected Content-Type for a CloudEvent: application/cloudevents+json; charset=UTF-8 contentType := req.Header.Get("Content-Type") t, _, err := mime.ParseMediaType(contentType) if err != nil { // won't fail here, but log log.Debugf("Could not parse Content-Type header: %v", err) } else { if t == ceMimeType { c.IsCloudEvent = true route.Format = models.FormatCloudEvent } } if route.Format == "" { route.Format = models.FormatDefault } id := id.New().String() // TODO this relies on ordering of opts, but tests make sure it works, probably re-plumb/destroy headers // TODO async should probably supply an http.ResponseWriter that records the logs, to attach response headers to if rw, ok := c.w.(http.ResponseWriter); ok { rw.Header().Add("FN_CALL_ID", id) for k, vs := range route.Headers { for _, v := range vs { // pre-write in these headers to response rw.Header().Add(k, v) } } } // this ensures that there is an image, path, timeouts, memory, etc are valid. // NOTE: this means assign any changes above into route's fields err = route.Validate() if err != nil { return err } c.Call = &models.Call{ ID: id, Path: route.Path, Image: route.Image, // Delay: 0, Type: route.Type, Format: route.Format, // Payload: TODO, Priority: new(int32), // TODO this is crucial, apparently Timeout: route.Timeout, IdleTimeout: route.IdleTimeout, Memory: route.Memory, CPUs: route.CPUs, Config: buildConfig(app, route), Annotations: buildAnnotations(app, route), Headers: req.Header, CreatedAt: strfmt.DateTime(time.Now()), URL: reqURL(req), Method: req.Method, AppID: app.ID, } c.req = req return nil } } func buildConfig(app *models.App, route *models.Route) models.Config { conf := make(models.Config, 8+len(app.Config)+len(route.Config)) for k, v := range app.Config { conf[k] = v } for k, v := range route.Config { conf[k] = v } conf["FN_FORMAT"] = route.Format conf["FN_APP_NAME"] = app.Name conf["FN_PATH"] = route.Path // TODO: might be a good idea to pass in: "FN_BASE_PATH" = fmt.Sprintf("/r/%s", appName) || "/" if using DNS entries per app conf["FN_MEMORY"] = fmt.Sprintf("%d", route.Memory) conf["FN_TYPE"] = route.Type CPUs := route.CPUs.String() if CPUs != "" { conf["FN_CPUS"] = CPUs } return conf } func buildAnnotations(app *models.App, route *models.Route) models.Annotations { ann := make(models.Annotations, len(app.Annotations)+len(route.Annotations)) for k, v := range app.Annotations { ann[k] = v } for k, v := range route.Annotations { ann[k] = v } return ann } func reqURL(req *http.Request) string { if req.URL.Scheme == "" { if req.TLS == nil { req.URL.Scheme = "http" } else { req.URL.Scheme = "https" } } if req.URL.Host == "" { req.URL.Host = req.Host } return req.URL.String() } // TODO this currently relies on FromRequest having happened before to create the model // here, to be a fully qualified model. We probably should double check but having a way // to bypass will likely be what's used anyway unless forced. func FromModel(mCall *models.Call) CallOpt { return func(c *call) error { c.Call = mCall req, err := http.NewRequest(c.Method, c.URL, strings.NewReader(c.Payload)) if err != nil { return err } req.Header = c.Headers c.req = req // TODO anything else really? return nil } } func FromModelAndInput(mCall *models.Call, in io.ReadCloser) CallOpt { return func(c *call) error { c.Call = mCall req, err := http.NewRequest(c.Method, c.URL, in) if err != nil { return err } req.Header = c.Headers c.req = req // TODO anything else really? return nil } } // TODO this should be required func WithWriter(w io.Writer) CallOpt { return func(c *call) error { c.w = w return nil } } func WithContext(ctx context.Context) CallOpt { return func(c *call) error { c.req = c.req.WithContext(ctx) return nil } } // GetCall builds a Call that can be used to submit jobs to the agent. // // TODO where to put this? async and sync both call this func (a *agent) GetCall(opts ...CallOpt) (Call, error) { var c call for _, o := range opts { err := o(&c) if err != nil { return nil, err } } // TODO typed errors to test if c.req == nil || c.Call == nil { return nil, errors.New("no model or request provided for call") } if !a.resources.IsResourcePossible(c.Memory, uint64(c.CPUs), c.Type == models.TypeAsync) { // if we're not going to be able to run this call on this machine, bail here. return nil, models.ErrCallTimeoutServerBusy } c.da = a.da c.ct = a ctx, _ := common.LoggerWithFields(c.req.Context(), logrus.Fields{"id": c.ID, "app_id": c.AppID, "route": c.Path}) c.req = c.req.WithContext(ctx) // setup stderr logger separate (don't inherit ctx vars) logger := logrus.WithFields(logrus.Fields{"user_log": true, "app_id": c.AppID, "path": c.Path, "image": c.Image, "call_id": c.ID}) c.stderr = setupLogger(logger, a.cfg.MaxLogSize) if c.w == nil { // send STDOUT to logs if no writer given (async...) // TODO we could/should probably make this explicit to GetCall, ala 'WithLogger', but it's dupe code (who cares?) c.w = c.stderr } now := time.Now() slotDeadline := now.Add(time.Duration(c.Call.Timeout) * time.Second / 2) execDeadline := now.Add(time.Duration(c.Call.Timeout) * time.Second) c.slotDeadline = slotDeadline c.execDeadline = execDeadline return &c, nil } type call struct { *models.Call // IsCloudEvent flag whether this was ingested as a cloud event. This may become the default or only way. IsCloudEvent bool `json:"is_cloud_event"` da DataAccess w io.Writer req *http.Request stderr io.ReadWriteCloser ct callTrigger slots *slotQueue slotDeadline time.Time lbDeadline time.Time execDeadline time.Time requestState RequestState containerState ContainerState } func (c *call) LbDeadline() time.Time { return c.lbDeadline } func (c *call) RequestBody() io.ReadCloser { return c.req.Body } func (c *call) ResponseWriter() http.ResponseWriter { return c.w.(http.ResponseWriter) } func (c *call) StdErr() io.ReadWriteCloser { return c.stderr } func (c *call) Model() *models.Call { return c.Call } func (c *call) Start(ctx context.Context) error { ctx, span := trace.StartSpan(ctx, "agent_call_start") defer span.End() // Check context timeouts, errors if ctx.Err() != nil { return ctx.Err() } c.StartedAt = strfmt.DateTime(time.Now()) c.Status = "running" // Do not write this header if lb-agent if c.lbDeadline.IsZero() { if rw, ok := c.w.(http.ResponseWriter); ok { // TODO need to figure out better way to wire response headers in rw.Header().Set("XXX-FXLB-WAIT", time.Time(c.StartedAt).Sub(time.Time(c.CreatedAt)).String()) } } if c.Type == models.TypeAsync { // XXX (reed): make sure MQ reservation is lengthy. to skirt MQ semantics, // we could add a new message to MQ w/ delay of call.Timeout and delete the // old one (in that order), after marking the call as running in the db // (see below) // XXX (reed): should we store the updated started_at + status? we could // use this so that if we pick up a call from mq and find its status is // running to avoid running the call twice and potentially mark it as // errored (built in long running task detector, so to speak...) err := c.da.Start(ctx, c.Model()) if err != nil { return err // let another thread try this } } err := c.ct.fireBeforeCall(ctx, c.Model()) if err != nil { return fmt.Errorf("BeforeCall: %v", err) } return nil } func (c *call) End(ctx context.Context, errIn error) error { ctx, span := trace.StartSpan(ctx, "agent_call_end") defer span.End() c.CompletedAt = strfmt.DateTime(time.Now()) switch errIn { case nil: c.Status = "success" case context.DeadlineExceeded: c.Status = "timeout" default: c.Status = "error" c.Error = errIn.Error() } // ensure stats histogram is reasonably bounded c.Call.Stats = drivers.Decimate(240, c.Call.Stats) if err := c.da.Finish(ctx, c.Model(), c.stderr, c.Type == models.TypeAsync); err != nil { common.Logger(ctx).WithError(err).Error("error finalizing call on datastore/mq") // note: Not returning err here since the job could have already finished successfully. } // NOTE call this after InsertLog or the buffer will get reset c.stderr.Close() if err := c.ct.fireAfterCall(ctx, c.Model()); err != nil { return fmt.Errorf("AfterCall: %v", err) } return errIn // original error, important for use in sync call returns }