// Copyright 2011 Google Inc. All rights reserved. // Use of this source code is governed by the Apache 2.0 // license that can be found in the LICENSE file. package internal import ( "bytes" "fmt" "io/ioutil" "log" "net" "net/http" "net/url" "os" "runtime" "strconv" "strings" "sync" "sync/atomic" "time" "github.com/golang/protobuf/proto" basepb "google.golang.org/appengine/internal/base" logpb "google.golang.org/appengine/internal/log" remotepb "google.golang.org/appengine/internal/remote_api" ) const ( apiPath = "/rpc_http" ) var ( // Incoming headers. ticketHeader = http.CanonicalHeaderKey("X-AppEngine-API-Ticket") dapperHeader = http.CanonicalHeaderKey("X-Google-DapperTraceInfo") defNamespaceHeader = http.CanonicalHeaderKey("X-AppEngine-Default-Namespace") curNamespaceHeader = http.CanonicalHeaderKey("X-AppEngine-Current-Namespace") userIPHeader = http.CanonicalHeaderKey("X-AppEngine-User-IP") remoteAddrHeader = http.CanonicalHeaderKey("X-AppEngine-Remote-Addr") // Outgoing headers. apiEndpointHeader = http.CanonicalHeaderKey("X-Google-RPC-Service-Endpoint") apiEndpointHeaderValue = []string{"app-engine-apis"} apiMethodHeader = http.CanonicalHeaderKey("X-Google-RPC-Service-Method") apiMethodHeaderValue = []string{"/VMRemoteAPI.CallRemoteAPI"} apiDeadlineHeader = http.CanonicalHeaderKey("X-Google-RPC-Service-Deadline") apiContentType = http.CanonicalHeaderKey("Content-Type") apiContentTypeValue = []string{"application/octet-stream"} logFlushHeader = http.CanonicalHeaderKey("X-AppEngine-Log-Flush-Count") apiHTTPClient = &http.Client{ Transport: &http.Transport{ Proxy: http.ProxyFromEnvironment, Dial: limitDial, }, } ) func apiHost() string { host, port := "appengine.googleapis.com", "10001" if h := os.Getenv("API_HOST"); h != "" { host = h } if p := os.Getenv("API_PORT"); p != "" { port = p } return host + ":" + port } func handleHTTP(w http.ResponseWriter, r *http.Request) { c := &context{ req: r, outHeader: w.Header(), } stopFlushing := make(chan int) ctxs.Lock() ctxs.m[r] = c ctxs.Unlock() defer func() { ctxs.Lock() delete(ctxs.m, r) ctxs.Unlock() }() // Patch up RemoteAddr so it looks reasonable. if addr := r.Header.Get(userIPHeader); addr != "" { r.RemoteAddr = addr } else if addr = r.Header.Get(remoteAddrHeader); addr != "" { r.RemoteAddr = addr } else { // Should not normally reach here, but pick a sensible default anyway. r.RemoteAddr = "127.0.0.1" } // The address in the headers will most likely be of these forms: // 123.123.123.123 // 2001:db8::1 // net/http.Request.RemoteAddr is specified to be in "IP:port" form. if _, _, err := net.SplitHostPort(r.RemoteAddr); err != nil { // Assume the remote address is only a host; add a default port. r.RemoteAddr = net.JoinHostPort(r.RemoteAddr, "80") } // Start goroutine responsible for flushing app logs. // This is done after adding c to ctx.m (and stopped before removing it) // because flushing logs requires making an API call. go c.logFlusher(stopFlushing) executeRequestSafely(c, r) c.outHeader = nil // make sure header changes aren't respected any more stopFlushing <- 1 // any logging beyond this point will be dropped // Flush any pending logs asynchronously. c.pendingLogs.Lock() flushes := c.pendingLogs.flushes if len(c.pendingLogs.lines) > 0 { flushes++ } c.pendingLogs.Unlock() go c.flushLog(false) w.Header().Set(logFlushHeader, strconv.Itoa(flushes)) // Avoid nil Write call if c.Write is never called. if c.outCode != 0 { w.WriteHeader(c.outCode) } if c.outBody != nil { w.Write(c.outBody) } } func executeRequestSafely(c *context, r *http.Request) { defer func() { if x := recover(); x != nil { c.logf(4, "%s", renderPanic(x)) // 4 == critical } }() http.DefaultServeMux.ServeHTTP(c, r) } func renderPanic(x interface{}) string { buf := make([]byte, 16<<10) // 16 KB should be plenty buf = buf[:runtime.Stack(buf, false)] // Remove the first few stack frames: // this func // the recover closure in the caller // That will root the stack trace at the site of the panic. const ( skipStart = "internal.renderPanic" skipFrames = 2 ) start := bytes.Index(buf, []byte(skipStart)) p := start for i := 0; i < skipFrames*2 && p+1 < len(buf); i++ { p = bytes.IndexByte(buf[p+1:], '\n') + p + 1 if p < 0 { break } } if p >= 0 { // buf[start:p+1] is the block to remove. // Copy buf[p+1:] over buf[start:] and shrink buf. copy(buf[start:], buf[p+1:]) buf = buf[:len(buf)-(p+1-start)] } // Add panic heading. head := fmt.Sprintf("panic: %v\n\n", x) if len(head) > len(buf) { // Extremely unlikely to happen. return head } copy(buf[len(head):], buf) copy(buf, head) return string(buf) } var ctxs = struct { sync.Mutex m map[*http.Request]*context bg *context // background context, lazily initialized }{ m: make(map[*http.Request]*context), } // context represents the context of an in-flight HTTP request. // It implements the appengine.Context and http.ResponseWriter interfaces. type context struct { req *http.Request outCode int outHeader http.Header outBody []byte pendingLogs struct { sync.Mutex lines []*logpb.UserAppLogLine flushes int } } func NewContext(req *http.Request) *context { ctxs.Lock() c := ctxs.m[req] ctxs.Unlock() if c == nil { // Someone passed in an http.Request that is not in-flight. // We panic here rather than panicking at a later point // so that stack traces will be more sensible. log.Panic("appengine: NewContext passed an unknown http.Request") } return c } func BackgroundContext() *context { ctxs.Lock() defer ctxs.Unlock() if ctxs.bg != nil { return ctxs.bg } // Compute background security ticket. appID := partitionlessAppID() escAppID := strings.Replace(strings.Replace(appID, ":", "_", -1), ".", "_", -1) majVersion := VersionID() if i := strings.Index(majVersion, "_"); i >= 0 { majVersion = majVersion[:i] } ticket := fmt.Sprintf("%s/%s.%s.%s", escAppID, ModuleName(), majVersion, InstanceID()) ctxs.bg = &context{ req: &http.Request{ Header: http.Header{ ticketHeader: []string{ticket}, }, }, } // TODO(dsymonds): Wire up the shutdown handler to do a final flush. go ctxs.bg.logFlusher(make(chan int)) return ctxs.bg } var errTimeout = &CallError{ Detail: "Deadline exceeded", Code: int32(remotepb.RpcError_CANCELLED), Timeout: true, } func (c *context) Header() http.Header { return c.outHeader } // Copied from $GOROOT/src/pkg/net/http/transfer.go. Some response status // codes do not permit a response body (nor response entity headers such as // Content-Length, Content-Type, etc). func bodyAllowedForStatus(status int) bool { switch { case status >= 100 && status <= 199: return false case status == 204: return false case status == 304: return false } return true } func (c *context) Write(b []byte) (int, error) { if c.outCode == 0 { c.WriteHeader(http.StatusOK) } if len(b) > 0 && !bodyAllowedForStatus(c.outCode) { return 0, http.ErrBodyNotAllowed } c.outBody = append(c.outBody, b...) return len(b), nil } func (c *context) WriteHeader(code int) { if c.outCode != 0 { c.Errorf("WriteHeader called multiple times on request.") return } c.outCode = code } func (c *context) post(body []byte, timeout time.Duration) (b []byte, err error) { dst := apiHost() hreq := &http.Request{ Method: "POST", URL: &url.URL{ Scheme: "http", Host: dst, Path: apiPath, }, Header: http.Header{ apiEndpointHeader: apiEndpointHeaderValue, apiMethodHeader: apiMethodHeaderValue, apiContentType: apiContentTypeValue, apiDeadlineHeader: []string{strconv.FormatFloat(timeout.Seconds(), 'f', -1, 64)}, }, Body: ioutil.NopCloser(bytes.NewReader(body)), ContentLength: int64(len(body)), Host: dst, } if info := c.req.Header.Get(dapperHeader); info != "" { hreq.Header.Set(dapperHeader, info) } tr := apiHTTPClient.Transport.(*http.Transport) var timedOut int32 // atomic; set to 1 if timed out t := time.AfterFunc(timeout, func() { atomic.StoreInt32(&timedOut, 1) tr.CancelRequest(hreq) }) defer t.Stop() defer func() { // Check if timeout was exceeded. if atomic.LoadInt32(&timedOut) != 0 { err = errTimeout } }() hresp, err := apiHTTPClient.Do(hreq) if err != nil { return nil, &CallError{ Detail: fmt.Sprintf("service bridge HTTP failed: %v", err), Code: int32(remotepb.RpcError_UNKNOWN), } } defer hresp.Body.Close() hrespBody, err := ioutil.ReadAll(hresp.Body) if hresp.StatusCode != 200 { return nil, &CallError{ Detail: fmt.Sprintf("service bridge returned HTTP %d (%q)", hresp.StatusCode, hrespBody), Code: int32(remotepb.RpcError_UNKNOWN), } } if err != nil { return nil, &CallError{ Detail: fmt.Sprintf("service bridge response bad: %v", err), Code: int32(remotepb.RpcError_UNKNOWN), } } return hrespBody, nil } var virtualMethodHeaders = map[string]string{ "GetNamespace": curNamespaceHeader, "GetDefaultNamespace": defNamespaceHeader, "user:Email": http.CanonicalHeaderKey("X-AppEngine-User-Email"), "user:AuthDomain": http.CanonicalHeaderKey("X-AppEngine-Auth-Domain"), "user:ID": http.CanonicalHeaderKey("X-AppEngine-User-Id"), "user:IsAdmin": http.CanonicalHeaderKey("X-AppEngine-User-Is-Admin"), "user:FederatedIdentity": http.CanonicalHeaderKey("X-AppEngine-Federated-Identity"), "user:FederatedProvider": http.CanonicalHeaderKey("X-AppEngine-Federated-Provider"), } func (c *context) Call(service, method string, in, out proto.Message, opts *CallOptions) error { if service == "__go__" { if hdr, ok := virtualMethodHeaders[method]; ok { out.(*basepb.StringProto).Value = proto.String(c.req.Header.Get(hdr)) return nil } } // Default RPC timeout is 5s. timeout := 5 * time.Second if opts != nil && opts.Timeout > 0 { timeout = opts.Timeout } data, err := proto.Marshal(in) if err != nil { return err } ticket := c.req.Header.Get(ticketHeader) req := &remotepb.Request{ ServiceName: &service, Method: &method, Request: data, RequestId: &ticket, } hreqBody, err := proto.Marshal(req) if err != nil { return err } hrespBody, err := c.post(hreqBody, timeout) if err != nil { return err } res := &remotepb.Response{} if err := proto.Unmarshal(hrespBody, res); err != nil { return err } if res.RpcError != nil { ce := &CallError{ Detail: res.RpcError.GetDetail(), Code: *res.RpcError.Code, } switch remotepb.RpcError_ErrorCode(ce.Code) { case remotepb.RpcError_CANCELLED, remotepb.RpcError_DEADLINE_EXCEEDED: ce.Timeout = true } return ce } if res.ApplicationError != nil { return &APIError{ Service: *req.ServiceName, Detail: res.ApplicationError.GetDetail(), Code: *res.ApplicationError.Code, } } if res.Exception != nil || res.JavaException != nil { // This shouldn't happen, but let's be defensive. return &CallError{ Detail: "service bridge returned exception", Code: int32(remotepb.RpcError_UNKNOWN), } } return proto.Unmarshal(res.Response, out) } func (c *context) Request() interface{} { return c.req } func (c *context) addLogLine(ll *logpb.UserAppLogLine) { // Truncate long log lines. // TODO(dsymonds): Check if this is still necessary. const lim = 8 << 10 if len(*ll.Message) > lim { suffix := fmt.Sprintf("...(length %d)", len(*ll.Message)) ll.Message = proto.String((*ll.Message)[:lim-len(suffix)] + suffix) } c.pendingLogs.Lock() c.pendingLogs.lines = append(c.pendingLogs.lines, ll) c.pendingLogs.Unlock() } var logLevelName = map[int64]string{ 0: "DEBUG", 1: "INFO", 2: "WARNING", 3: "ERROR", 4: "CRITICAL", } func (c *context) logf(level int64, format string, args ...interface{}) { s := fmt.Sprintf(format, args...) s = strings.TrimRight(s, "\n") // Remove any trailing newline characters. c.addLogLine(&logpb.UserAppLogLine{ TimestampUsec: proto.Int64(time.Now().UnixNano() / 1e3), Level: &level, Message: &s, }) log.Print(logLevelName[level] + ": " + s) } func (c *context) Debugf(format string, args ...interface{}) { c.logf(0, format, args...) } func (c *context) Infof(format string, args ...interface{}) { c.logf(1, format, args...) } func (c *context) Warningf(format string, args ...interface{}) { c.logf(2, format, args...) } func (c *context) Errorf(format string, args ...interface{}) { c.logf(3, format, args...) } func (c *context) Criticalf(format string, args ...interface{}) { c.logf(4, format, args...) } // FullyQualifiedAppID returns the fully-qualified application ID. // This may contain a partition prefix (e.g. "s~" for High Replication apps), // or a domain prefix (e.g. "example.com:"). func (c *context) FullyQualifiedAppID() string { return fullyQualifiedAppID() } // flushLog attempts to flush any pending logs to the appserver. // It should not be called concurrently. func (c *context) flushLog(force bool) (flushed bool) { c.pendingLogs.Lock() // Grab up to 30 MB. We can get away with up to 32 MB, but let's be cautious. n, rem := 0, 30<<20 for ; n < len(c.pendingLogs.lines); n++ { ll := c.pendingLogs.lines[n] // Each log line will require about 3 bytes of overhead. nb := proto.Size(ll) + 3 if nb > rem { break } rem -= nb } lines := c.pendingLogs.lines[:n] c.pendingLogs.lines = c.pendingLogs.lines[n:] c.pendingLogs.Unlock() if len(lines) == 0 && !force { // Nothing to flush. return false } rescueLogs := false defer func() { if rescueLogs { c.pendingLogs.Lock() c.pendingLogs.lines = append(lines, c.pendingLogs.lines...) c.pendingLogs.Unlock() } }() buf, err := proto.Marshal(&logpb.UserAppLogGroup{ LogLine: lines, }) if err != nil { log.Printf("internal.flushLog: marshaling UserAppLogGroup: %v", err) rescueLogs = true return false } req := &logpb.FlushRequest{ Logs: buf, } res := &basepb.VoidProto{} c.pendingLogs.Lock() c.pendingLogs.flushes++ c.pendingLogs.Unlock() if err := c.Call("logservice", "Flush", req, res, nil); err != nil { log.Printf("internal.flushLog: Flush RPC: %v", err) rescueLogs = true return false } return true } const ( // Log flushing parameters. flushInterval = 1 * time.Second forceFlushInterval = 60 * time.Second ) func (c *context) logFlusher(stop <-chan int) { lastFlush := time.Now() tick := time.NewTicker(flushInterval) for { select { case <-stop: // Request finished. tick.Stop() return case <-tick.C: force := time.Now().Sub(lastFlush) > forceFlushInterval if c.flushLog(force) { lastFlush = time.Now() } } } } func ContextForTesting(req *http.Request) *context { return &context{req: req} } // caller is a subset of appengine.Context. type caller interface { Call(service, method string, in, out proto.Message, opts *CallOptions) error } var virtualOpts = &CallOptions{ // Virtual API calls should happen nearly instantaneously. Timeout: 1 * time.Millisecond, } // VirtAPI invokes a virtual API call for the __go__ service. // It is for methods that accept a VoidProto and return a StringProto. // It returns an empty string if the call fails. func VirtAPI(c caller, method string) string { s := &basepb.StringProto{} if err := c.Call("__go__", method, &basepb.VoidProto{}, s, virtualOpts); err != nil { log.Printf("/__go__.%s failed: %v", method, err) } return s.GetValue() }