// Package fshttp contains the common http parts of the config, Transport and Client package fshttp import ( "bytes" "context" "crypto/tls" "net" "net/http" "net/http/httputil" "reflect" "sync" "time" "github.com/ncw/rclone/fs" "golang.org/x/time/rate" ) const ( separatorReq = ">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>" separatorResp = "<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<" ) var ( transport http.RoundTripper noTransport sync.Once tpsBucket *rate.Limiter // for limiting number of http transactions per second ) // StartHTTPTokenBucket starts the token bucket if necessary func StartHTTPTokenBucket() { if fs.Config.TPSLimit > 0 { tpsBurst := fs.Config.TPSLimitBurst if tpsBurst < 1 { tpsBurst = 1 } tpsBucket = rate.NewLimiter(rate.Limit(fs.Config.TPSLimit), tpsBurst) fs.Infof(nil, "Starting HTTP transaction limiter: max %g transactions/s with burst %d", fs.Config.TPSLimit, tpsBurst) } } // A net.Conn that sets a deadline for every Read or Write operation type timeoutConn struct { net.Conn readTimer *time.Timer writeTimer *time.Timer timeout time.Duration off time.Time } // create a timeoutConn using the timeout func newTimeoutConn(conn net.Conn, timeout time.Duration) (c *timeoutConn, err error) { c = &timeoutConn{ Conn: conn, timeout: timeout, } err = c.nudgeDeadline() return } // Nudge the deadline for an idle timeout on by c.timeout if non-zero func (c *timeoutConn) nudgeDeadline() (err error) { if c.timeout == 0 { return nil } when := time.Now().Add(c.timeout) return c.Conn.SetDeadline(when) } // readOrWrite bytes doing idle timeouts func (c *timeoutConn) readOrWrite(f func([]byte) (int, error), b []byte) (n int, err error) { n, err = f(b) // Don't nudge if no bytes or an error if n == 0 || err != nil { return } // Nudge the deadline on successful Read or Write err = c.nudgeDeadline() return } // Read bytes doing idle timeouts func (c *timeoutConn) Read(b []byte) (n int, err error) { return c.readOrWrite(c.Conn.Read, b) } // Write bytes doing idle timeouts func (c *timeoutConn) Write(b []byte) (n int, err error) { return c.readOrWrite(c.Conn.Write, b) } // setDefaults for a from b // // Copy the public members from b to a. We can't just use a struct // copy as Transport contains a private mutex. func setDefaults(a, b interface{}) { pt := reflect.TypeOf(a) t := pt.Elem() va := reflect.ValueOf(a).Elem() vb := reflect.ValueOf(b).Elem() for i := 0; i < t.NumField(); i++ { aField := va.Field(i) // Set a from b if it is public if aField.CanSet() { bField := vb.Field(i) aField.Set(bField) } } } // dial with context and timeouts func dialContextTimeout(ctx context.Context, network, address string, ci *fs.ConfigInfo) (net.Conn, error) { dialer := NewDialer(ci) c, err := dialer.DialContext(ctx, network, address) if err != nil { return c, err } return newTimeoutConn(c, ci.Timeout) } // NewTransport returns an http.RoundTripper with the correct timeouts func NewTransport(ci *fs.ConfigInfo) http.RoundTripper { noTransport.Do(func() { // Start with a sensible set of defaults then override. // This also means we get new stuff when it gets added to go t := new(http.Transport) setDefaults(t, http.DefaultTransport.(*http.Transport)) t.Proxy = http.ProxyFromEnvironment t.MaxIdleConnsPerHost = 2 * (ci.Checkers + ci.Transfers + 1) t.MaxIdleConns = 2 * t.MaxIdleConnsPerHost t.TLSHandshakeTimeout = ci.ConnectTimeout t.ResponseHeaderTimeout = ci.Timeout t.TLSClientConfig = &tls.Config{InsecureSkipVerify: ci.InsecureSkipVerify} t.DisableCompression = ci.NoGzip t.DialContext = func(ctx context.Context, network, addr string) (net.Conn, error) { return dialContextTimeout(ctx, network, addr, ci) } t.IdleConnTimeout = 60 * time.Second t.ExpectContinueTimeout = ci.ConnectTimeout // Wrap that http.Transport in our own transport transport = newTransport(ci, t) }) return transport } // NewClient returns an http.Client with the correct timeouts func NewClient(ci *fs.ConfigInfo) *http.Client { return &http.Client{ Transport: NewTransport(ci), } } // Transport is a our http Transport which wraps an http.Transport // * Sets the User Agent // * Does logging type Transport struct { *http.Transport dump fs.DumpFlags filterRequest func(req *http.Request) userAgent string } // newTransport wraps the http.Transport passed in and logs all // roundtrips including the body if logBody is set. func newTransport(ci *fs.ConfigInfo, transport *http.Transport) *Transport { return &Transport{ Transport: transport, dump: ci.Dump, userAgent: ci.UserAgent, } } // SetRequestFilter sets a filter to be used on each request func (t *Transport) SetRequestFilter(f func(req *http.Request)) { t.filterRequest = f } // A mutex to protect this map var checkedHostMu sync.RWMutex // A map of servers we have checked for time var checkedHost = make(map[string]struct{}, 1) // Check the server time is the same as ours, once for each server func checkServerTime(req *http.Request, resp *http.Response) { host := req.URL.Host if req.Host != "" { host = req.Host } checkedHostMu.RLock() _, ok := checkedHost[host] checkedHostMu.RUnlock() if ok { return } dateString := resp.Header.Get("Date") if dateString == "" { return } date, err := http.ParseTime(dateString) if err != nil { fs.Debugf(nil, "Couldn't parse Date: from server %s: %q: %v", host, dateString, err) return } dt := time.Since(date) const window = 5 * 60 * time.Second if dt > window || dt < -window { fs.Logf(nil, "Time may be set wrong - time from %q is %v different from this computer", host, dt) } checkedHostMu.Lock() checkedHost[host] = struct{}{} checkedHostMu.Unlock() } // cleanAuth gets rid of one authBuf header within the first 4k func cleanAuth(buf, authBuf []byte) []byte { // Find how much buffer to check n := 4096 if len(buf) < n { n = len(buf) } // See if there is an Authorization: header i := bytes.Index(buf[:n], authBuf) if i < 0 { return buf } i += len(authBuf) // Overwrite the next 4 chars with 'X' for j := 0; i < len(buf) && j < 4; j++ { if buf[i] == '\n' { break } buf[i] = 'X' i++ } // Snip out to the next '\n' j := bytes.IndexByte(buf[i:], '\n') if j < 0 { return buf[:i] } n = copy(buf[i:], buf[i+j:]) return buf[:i+n] } var authBufs = [][]byte{ []byte("Authorization: "), []byte("X-Auth-Token: "), } // cleanAuths gets rid of all the possible Auth headers func cleanAuths(buf []byte) []byte { for _, authBuf := range authBufs { buf = cleanAuth(buf, authBuf) } return buf } // RoundTrip implements the RoundTripper interface. func (t *Transport) RoundTrip(req *http.Request) (resp *http.Response, err error) { // Get transactions per second token first if limiting if tpsBucket != nil { tbErr := tpsBucket.Wait(req.Context()) if tbErr != nil { fs.Errorf(nil, "HTTP token bucket error: %v", err) } } // Force user agent req.Header.Set("User-Agent", t.userAgent) // Filter the request if required if t.filterRequest != nil { t.filterRequest(req) } // Logf request if t.dump&(fs.DumpHeaders|fs.DumpBodies|fs.DumpAuth|fs.DumpRequests|fs.DumpResponses) != 0 { buf, _ := httputil.DumpRequestOut(req, t.dump&(fs.DumpBodies|fs.DumpRequests) != 0) if t.dump&fs.DumpAuth == 0 { buf = cleanAuths(buf) } fs.Debugf(nil, "%s", separatorReq) fs.Debugf(nil, "%s (req %p)", "HTTP REQUEST", req) fs.Debugf(nil, "%s", string(buf)) fs.Debugf(nil, "%s", separatorReq) } // Do round trip resp, err = t.Transport.RoundTrip(req) // Logf response if t.dump&(fs.DumpHeaders|fs.DumpBodies|fs.DumpAuth|fs.DumpRequests|fs.DumpResponses) != 0 { fs.Debugf(nil, "%s", separatorResp) fs.Debugf(nil, "%s (req %p)", "HTTP RESPONSE", req) if err != nil { fs.Debugf(nil, "Error: %v", err) } else { buf, _ := httputil.DumpResponse(resp, t.dump&(fs.DumpBodies|fs.DumpResponses) != 0) fs.Debugf(nil, "%s", string(buf)) } fs.Debugf(nil, "%s", separatorResp) } if err == nil { checkServerTime(req, resp) } return resp, err } // NewDialer creates a net.Dialer structure with Timeout, Keepalive // and LocalAddr set from rclone flags. func NewDialer(ci *fs.ConfigInfo) *net.Dialer { dialer := &net.Dialer{ Timeout: ci.ConnectTimeout, KeepAlive: 30 * time.Second, } if ci.BindAddr != nil { dialer.LocalAddr = &net.TCPAddr{IP: ci.BindAddr} } return dialer }