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8e1c00f841
* cmd/k8s-operator,k8s-operator/sessonrecording: ensure CastHeader contains terminal size For tsrecorder to be able to play session recordings, the recording's CastHeader must have '.Width' and '.Height' fields set to non-zero. Kubectl (or whoever is the client that initiates the 'kubectl exec' session recording) sends the terminal dimensions in a resize message that the API server proxy can intercept, however that races with the first server message that we need to record. This PR ensures we wait for the terminal dimensions to be processed from the first resize message before any other data is sent, so that for all sessions with terminal attached, the header of the session recording contains the terminal dimensions and the recording can be played by tsrecorder. Updates tailscale/tailscale#19821 Signed-off-by: Irbe Krumina <irbe@tailscale.com>
257 lines
9.0 KiB
Go
257 lines
9.0 KiB
Go
// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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//go:build !plan9
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// Package spdy contains functionality for parsing SPDY streaming sessions. This
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// is used for 'kubectl exec' session recording.
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package spdy
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import (
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"bytes"
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"encoding/binary"
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"encoding/json"
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"fmt"
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"net"
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"net/http"
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"sync"
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"sync/atomic"
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"go.uber.org/zap"
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corev1 "k8s.io/api/core/v1"
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"tailscale.com/k8s-operator/sessionrecording/tsrecorder"
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"tailscale.com/sessionrecording"
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)
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// New wraps the provided network connection and returns a connection whose reads and writes will get triggered as data is received on the hijacked connection.
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// The connection must be a hijacked connection for a 'kubectl exec' session using SPDY.
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// The hijacked connection is used to transmit SPDY streams between Kubernetes client ('kubectl') and the destination container.
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// Data read from the underlying network connection is data sent via one of the SPDY streams from the client to the container.
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// Data written to the underlying connection is data sent from the container to the client.
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// We parse the data and send everything for the stdout/stderr streams to the configured tsrecorder as an asciinema recording with the provided header.
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// https://github.com/kubernetes/enhancements/tree/master/keps/sig-api-machinery/4006-transition-spdy-to-websockets#background-remotecommand-subprotocol
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func New(nc net.Conn, rec *tsrecorder.Client, ch sessionrecording.CastHeader, hasTerm bool, log *zap.SugaredLogger) net.Conn {
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return &conn{
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Conn: nc,
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rec: rec,
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ch: ch,
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log: log,
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hasTerm: hasTerm,
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initialTermSizeSet: make(chan struct{}),
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}
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}
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// conn is a wrapper around net.Conn. It reads the bytestream for a 'kubectl
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// exec' session streamed using SPDY protocol, sends session recording data to
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// the configured recorder and forwards the raw bytes to the original
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// destination.
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type conn struct {
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net.Conn
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// rec knows how to send data written to it to a tsrecorder instance.
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rec *tsrecorder.Client
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stdoutStreamID atomic.Uint32
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stderrStreamID atomic.Uint32
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resizeStreamID atomic.Uint32
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wmu sync.Mutex // sequences writes
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closed bool
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rmu sync.Mutex // sequences reads
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// The following fields are related to sending asciinema CastHeader.
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// CastHeader must be sent before any payload. If the session has a
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// terminal attached, the CastHeader must have '.Width' and '.Height'
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// fields set for the tsrecorder UI to be able to play the recording.
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// For 'kubectl exec' sessions, terminal width and height are sent as a
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// resize message on resize stream from the client when the session
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// starts as well as at any time the client detects a terminal change.
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// We can intercept the resize message on Read calls. As there is no
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// guarantee that the resize message from client will be intercepted
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// before server writes stdout messages that we must record, we need to
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// ensure that parsing stdout/stderr messages written to the connection
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// waits till a resize message has been received and a CastHeader with
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// correct terminal dimensions can be written.
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// ch is the asciinema CastHeader for the current session.
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// https://docs.asciinema.org/manual/asciicast/v2/#header
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ch sessionrecording.CastHeader
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// writeCastHeaderOnce is used to ensure CastHeader gets sent to tsrecorder once.
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writeCastHeaderOnce sync.Once
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hasTerm bool // whether the session had TTY attached
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// initialTermSizeSet channel gets sent a value once, when the Read has
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// received a resize message and set the initial terminal size. It must
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// be set to a buffered channel to prevent Reads being blocked on the
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// first stdout/stderr write reading from the channel.
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initialTermSizeSet chan struct{}
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// sendInitialTermSizeSetOnce is used to ensure that a value is sent to
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// initialTermSizeSet channel only once, when the initial resize message
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// is received.
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sendinitialTermSizeSetOnce sync.Once
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zlibReqReader zlibReader
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// writeBuf is used to store data written to the connection that has not
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// yet been parsed as SPDY frames.
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writeBuf bytes.Buffer
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// readBuf is used to store data read from the connection that has not
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// yet been parsed as SPDY frames.
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readBuf bytes.Buffer
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log *zap.SugaredLogger
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}
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// Read reads bytes from the original connection and parses them as SPDY frames.
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// If the frame is a data frame for resize stream, sends resize message to the
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// recorder. If the frame is a SYN_STREAM control frame that starts stdout,
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// stderr or resize stream, store the stream ID.
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func (c *conn) Read(b []byte) (int, error) {
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c.rmu.Lock()
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defer c.rmu.Unlock()
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n, err := c.Conn.Read(b)
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if err != nil {
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return n, fmt.Errorf("error reading from connection: %w", err)
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}
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c.readBuf.Write(b[:n])
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var sf spdyFrame
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ok, err := sf.Parse(c.readBuf.Bytes(), c.log)
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if err != nil {
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return 0, fmt.Errorf("error parsing data read from connection: %w", err)
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}
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if !ok {
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// The parsed data in the buffer will be processed together with
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// the new data on the next call to Read.
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return n, nil
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}
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c.readBuf.Next(len(sf.Raw)) // advance buffer past the parsed frame
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if !sf.Ctrl { // data frame
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switch sf.StreamID {
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case c.resizeStreamID.Load():
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var msg spdyResizeMsg
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if err = json.Unmarshal(sf.Payload, &msg); err != nil {
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return 0, fmt.Errorf("error umarshalling resize msg: %w", err)
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}
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c.ch.Width = msg.Width
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c.ch.Height = msg.Height
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// If this is initial resize message, the width and
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// height will be sent in the CastHeader. If this is a
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// subsequent resize message, we need to send asciinema
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// resize message.
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var isInitialResize bool
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c.sendinitialTermSizeSetOnce.Do(func() {
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isInitialResize = true
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close(c.initialTermSizeSet) // unblock sending of CastHeader
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})
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if !isInitialResize {
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if err := c.rec.WriteResize(c.ch.Height, c.ch.Width); err != nil {
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return 0, fmt.Errorf("error writing resize message: %w", err)
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}
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}
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}
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return n, nil
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}
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// We always want to parse the headers, even if we don't care about the
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// frame, as we need to advance the zlib reader otherwise we will get
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// garbage.
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header, err := sf.parseHeaders(&c.zlibReqReader, c.log)
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if err != nil {
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return 0, fmt.Errorf("error parsing frame headers: %w", err)
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}
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if sf.Type == SYN_STREAM {
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c.storeStreamID(sf, header)
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}
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return n, nil
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}
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// Write forwards the raw data of the latest parsed SPDY frame to the original
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// destination. If the frame is an SPDY data frame, it also sends the payload to
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// the connected session recorder.
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func (c *conn) Write(b []byte) (int, error) {
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c.wmu.Lock()
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defer c.wmu.Unlock()
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c.writeBuf.Write(b)
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var sf spdyFrame
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ok, err := sf.Parse(c.writeBuf.Bytes(), c.log)
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if err != nil {
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return 0, fmt.Errorf("error parsing data: %w", err)
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}
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if !ok {
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// The parsed data in the buffer will be processed together with
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// the new data on the next call to Write.
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return len(b), nil
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}
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c.writeBuf.Next(len(sf.Raw)) // advance buffer past the parsed frame
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// If this is a stdout or stderr data frame, send its payload to the
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// session recorder.
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if !sf.Ctrl {
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switch sf.StreamID {
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case c.stdoutStreamID.Load(), c.stderrStreamID.Load():
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var err error
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c.writeCastHeaderOnce.Do(func() {
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// If this is a session with a terminal attached,
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// we must wait for the terminal width and
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// height to be parsed from a resize message
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// before sending CastHeader, else tsrecorder
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// will not be able to play this recording.
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if c.hasTerm {
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c.log.Debugf("write: waiting for the initial terminal size to be set before proceeding with sending the first payload")
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<-c.initialTermSizeSet
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}
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err = c.rec.WriteCastHeader(c.ch)
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})
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if err != nil {
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return 0, fmt.Errorf("error writing CastHeader: %w", err)
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}
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if err := c.rec.WriteOutput(sf.Payload); err != nil {
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return 0, fmt.Errorf("error sending payload to session recorder: %w", err)
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}
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}
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}
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// Forward the whole frame to the original destination.
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_, err = c.Conn.Write(sf.Raw) // send to net.Conn
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return len(b), err
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}
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func (c *conn) Close() error {
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c.wmu.Lock()
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defer c.wmu.Unlock()
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if c.closed {
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return nil
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}
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c.writeBuf.Reset()
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c.closed = true
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err := c.Conn.Close()
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c.rec.Close()
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return err
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}
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// storeStreamID parses SYN_STREAM SPDY control frame and updates
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// conn to store the newly created stream's ID if it is one of
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// the stream types we care about. Storing stream_id:stream_type mapping allows
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// us to parse received data frames (that have stream IDs) differently depening
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// on which stream they belong to (i.e send data frame payload for stdout stream
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// to session recorder).
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func (c *conn) storeStreamID(sf spdyFrame, header http.Header) {
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const (
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streamTypeHeaderKey = "Streamtype"
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)
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id := binary.BigEndian.Uint32(sf.Payload[0:4])
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switch header.Get(streamTypeHeaderKey) {
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case corev1.StreamTypeStdout:
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c.stdoutStreamID.Store(id)
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case corev1.StreamTypeStderr:
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c.stderrStreamID.Store(id)
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case corev1.StreamTypeResize:
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c.resizeStreamID.Store(id)
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}
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}
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type spdyResizeMsg struct {
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Width int `json:"width"`
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Height int `json:"height"`
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}
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