open-nomad/api/allocations_exec.go

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0

package api

import (
	"context"
	"encoding/json"
	"errors"
	"fmt"
	"io"
	"strconv"
	"sync"
	"time"

	"github.com/gorilla/websocket"
)

const (
	// heartbeatInterval is the amount of time to wait between sending heartbeats
	// during an exec streaming operation
	heartbeatInterval = 10 * time.Second
)

type execSession struct {
	client  *Client
	alloc   *Allocation
	task    string
	tty     bool
	command []string

	stdin  io.Reader
	stdout io.Writer
	stderr io.Writer

	terminalSizeCh <-chan TerminalSize

	q *QueryOptions
}

func (s *execSession) run(ctx context.Context) (exitCode int, err error) {
	ctx, cancelFn := context.WithCancel(ctx)
	defer cancelFn()

	conn, err := s.startConnection()
	if err != nil {
		return -2, err
	}
	defer conn.Close()

	sendErrCh := s.startTransmit(ctx, conn)
	exitCh, recvErrCh := s.startReceiving(ctx, conn)

	for {
		select {
		case <-ctx.Done():
			return -2, ctx.Err()
		case exitCode := <-exitCh:
			return exitCode, nil
		case recvErr := <-recvErrCh:
			// drop websocket code, not relevant to user
			if wsErr, ok := recvErr.(*websocket.CloseError); ok && wsErr.Text != "" {
				return -2, errors.New(wsErr.Text)
			}

			return -2, recvErr
		case sendErr := <-sendErrCh:
			return -2, fmt.Errorf("failed to send input: %w", sendErr)
		}
	}
}

func (s *execSession) startConnection() (*websocket.Conn, error) {
	// First, attempt to connect to the node directly, but may fail due to network isolation
	// and network errors.  Fallback to using server-side forwarding instead.
	nodeClient, err := s.client.GetNodeClientWithTimeout(s.alloc.NodeID, ClientConnTimeout, s.q)
	if err == NodeDownErr {
		return nil, NodeDownErr
	}

	q := s.q
	if q == nil {
		q = &QueryOptions{}
	}
	if q.Params == nil {
		q.Params = make(map[string]string)
	}

	commandBytes, err := json.Marshal(s.command)
	if err != nil {
		return nil, fmt.Errorf("failed to marshal command: %W", err)
	}

	q.Params["tty"] = strconv.FormatBool(s.tty)
	q.Params["task"] = s.task
	q.Params["command"] = string(commandBytes)

	reqPath := fmt.Sprintf("/v1/client/allocation/%s/exec", s.alloc.ID)

	var conn *websocket.Conn

	if nodeClient != nil {
		conn, _, _ = nodeClient.websocket(reqPath, q)
	}

	if conn == nil {
		conn, _, err = s.client.websocket(reqPath, q)
		if err != nil {
			return nil, err
		}
	}

	return conn, nil
}

func (s *execSession) startTransmit(ctx context.Context, conn *websocket.Conn) <-chan error {

	// FIXME: Handle websocket send errors.
	// Currently, websocket write failures are dropped. As sending and
	// receiving are running concurrently, it's expected that some send
	// requests may fail with connection errors when connection closes.
	// Connection errors should surface in the receive paths already,
	// but I'm unsure about one-sided communication errors.
	var sendLock sync.Mutex
	send := func(v *ExecStreamingInput) {
		sendLock.Lock()
		defer sendLock.Unlock()

		conn.WriteJSON(v)
	}

	errCh := make(chan error, 4)

	// propagate stdin
	go func() {

		bytes := make([]byte, 2048)
		for {
			if ctx.Err() != nil {
				return
			}

			input := ExecStreamingInput{Stdin: &ExecStreamingIOOperation{}}

			n, err := s.stdin.Read(bytes)

			// always send data if we read some
			if n != 0 {
				input.Stdin.Data = bytes[:n]
				send(&input)
			}

			// then handle error
			if err == io.EOF {
				// if n != 0, send data and we'll get n = 0 on next read
				if n == 0 {
					input.Stdin.Close = true
					send(&input)
					return
				}
			} else if err != nil {
				errCh <- err
				return
			}
		}
	}()

	// propagate terminal sizing updates
	go func() {
		for {
			resizeInput := ExecStreamingInput{}

			select {
			case <-ctx.Done():
				return
			case size, ok := <-s.terminalSizeCh:
				if !ok {
					return
				}
				resizeInput.TTYSize = &size
				send(&resizeInput)
			}

		}
	}()

	// send a heartbeat every 10 seconds
	go func() {
		t := time.NewTimer(heartbeatInterval)
		defer t.Stop()

		for {
			t.Reset(heartbeatInterval)

			select {
			case <-ctx.Done():
				return
			case <-t.C:
				// heartbeat message
				send(&execStreamingInputHeartbeat)
			}
		}
	}()

	return errCh
}

func (s *execSession) startReceiving(ctx context.Context, conn *websocket.Conn) (<-chan int, <-chan error) {
	exitCodeCh := make(chan int, 1)
	errCh := make(chan error, 1)

	go func() {
		for ctx.Err() == nil {

			// Decode the next frame
			var frame ExecStreamingOutput
			err := conn.ReadJSON(&frame)
			if websocket.IsCloseError(err, websocket.CloseNormalClosure) {
				errCh <- fmt.Errorf("websocket closed before receiving exit code: %w", err)
				return
			} else if err != nil {
				errCh <- err
				return
			}

			switch {
			case frame.Stdout != nil:
				if len(frame.Stdout.Data) != 0 {
					s.stdout.Write(frame.Stdout.Data)
				}
				// don't really do anything if stdout is closing
			case frame.Stderr != nil:
				if len(frame.Stderr.Data) != 0 {
					s.stderr.Write(frame.Stderr.Data)
				}
				// don't really do anything if stderr is closing
			case frame.Exited && frame.Result != nil:
				exitCodeCh <- frame.Result.ExitCode
				return
			default:
				// noop - heartbeat
			}

		}

	}()

	return exitCodeCh, errCh
}
[COMPLIANCE] Add Copyright and License Headers 2023-04-10 15:36:59 +00:00			`// Copyright (c) HashiCorp, Inc.`
			`// SPDX-License-Identifier: MPL-2.0`

exec: api: handle closing errors differently refactor the api handling of `nomad exec`, and ensure that we process all received events before handling websocket closing. The exit code should be the last message received, and we ought to ignore any websocket close error we receive afterwards. Previously, we used two channels: one for websocket frames and another for handling errors. This raised the possibility that we processed the error before processing the frames, resulting into an "unexpected EOF" error. 2021-05-24 18:52:00 +00:00			`package api`

			`import (`
			`"context"`
			`"encoding/json"`
			`"errors"`
			`"fmt"`
			`"io"`
			`"strconv"`
			`"sync"`
			`"time"`

			`"github.com/gorilla/websocket"`
			`)`

cleanup: prevent leaks from time.After This PR replaces use of time.After with a safe helper function that creates a time.Timer to use instead. The new function returns both a time.Timer and a Stop function that the caller must handle. Unlike time.NewTimer, the helper function does not panic if the duration set is <= 0. 2022-02-02 16:59:53 +00:00			`const (`
			`// heartbeatInterval is the amount of time to wait between sending heartbeats`
			`// during an exec streaming operation`
			`heartbeatInterval = 10 * time.Second`
			`)`

exec: api: handle closing errors differently refactor the api handling of `nomad exec`, and ensure that we process all received events before handling websocket closing. The exit code should be the last message received, and we ought to ignore any websocket close error we receive afterwards. Previously, we used two channels: one for websocket frames and another for handling errors. This raised the possibility that we processed the error before processing the frames, resulting into an "unexpected EOF" error. 2021-05-24 18:52:00 +00:00			`type execSession struct {`
			`client *Client`
			`alloc *Allocation`
			`task string`
			`tty bool`
			`command []string`

			`stdin io.Reader`
			`stdout io.Writer`
			`stderr io.Writer`

			`terminalSizeCh <-chan TerminalSize`

			`q *QueryOptions`
			`}`

			`func (s *execSession) run(ctx context.Context) (exitCode int, err error) {`
			`ctx, cancelFn := context.WithCancel(ctx)`
			`defer cancelFn()`

			`conn, err := s.startConnection()`
			`if err != nil {`
			`return -2, err`
			`}`
			`defer conn.Close()`

			`sendErrCh := s.startTransmit(ctx, conn)`
			`exitCh, recvErrCh := s.startReceiving(ctx, conn)`

			`for {`
			`select {`
			`case <-ctx.Done():`
			`return -2, ctx.Err()`
			`case exitCode := <-exitCh:`
			`return exitCode, nil`
			`case recvErr := <-recvErrCh:`
			`// drop websocket code, not relevant to user`
			`if wsErr, ok := recvErr.(*websocket.CloseError); ok && wsErr.Text != "" {`
			`return -2, errors.New(wsErr.Text)`
			`}`

			`return -2, recvErr`
			`case sendErr := <-sendErrCh:`
			`return -2, fmt.Errorf("failed to send input: %w", sendErr)`
			`}`
			`}`
			`}`

			`func (s execSession) startConnection() (websocket.Conn, error) {`
add a note about node connection failure and fallback 2021-05-25 18:24:24 +00:00			`// First, attempt to connect to the node directly, but may fail due to network isolation`
			`// and network errors. Fallback to using server-side forwarding instead.`
			`nodeClient, err := s.client.GetNodeClientWithTimeout(s.alloc.NodeID, ClientConnTimeout, s.q)`
			`if err == NodeDownErr {`
			`return nil, NodeDownErr`
			`}`
exec: api: handle closing errors differently refactor the api handling of `nomad exec`, and ensure that we process all received events before handling websocket closing. The exit code should be the last message received, and we ought to ignore any websocket close error we receive afterwards. Previously, we used two channels: one for websocket frames and another for handling errors. This raised the possibility that we processed the error before processing the frames, resulting into an "unexpected EOF" error. 2021-05-24 18:52:00 +00:00
			`q := s.q`
			`if q == nil {`
			`q = &QueryOptions{}`
			`}`
			`if q.Params == nil {`
			`q.Params = make(map[string]string)`
			`}`

			`commandBytes, err := json.Marshal(s.command)`
			`if err != nil {`
			`return nil, fmt.Errorf("failed to marshal command: %W", err)`
			`}`

			`q.Params["tty"] = strconv.FormatBool(s.tty)`
			`q.Params["task"] = s.task`
			`q.Params["command"] = string(commandBytes)`

			`reqPath := fmt.Sprintf("/v1/client/allocation/%s/exec", s.alloc.ID)`

			`var conn *websocket.Conn`

			`if nodeClient != nil {`
			`conn, _, _ = nodeClient.websocket(reqPath, q)`
			`}`

			`if conn == nil {`
			`conn, _, err = s.client.websocket(reqPath, q)`
			`if err != nil {`
			`return nil, err`
			`}`
			`}`

			`return conn, nil`
			`}`

			`func (s execSession) startTransmit(ctx context.Context, conn websocket.Conn) <-chan error {`

			`// FIXME: Handle websocket send errors.`
			`// Currently, websocket write failures are dropped. As sending and`
			`// receiving are running concurrently, it's expected that some send`
			`// requests may fail with connection errors when connection closes.`
			`// Connection errors should surface in the receive paths already,`
			`// but I'm unsure about one-sided communication errors.`
			`var sendLock sync.Mutex`
			`send := func(v *ExecStreamingInput) {`
			`sendLock.Lock()`
			`defer sendLock.Unlock()`

			`conn.WriteJSON(v)`
			`}`

			`errCh := make(chan error, 4)`

			`// propagate stdin`
			`go func() {`

			`bytes := make([]byte, 2048)`
			`for {`
			`if ctx.Err() != nil {`
			`return`
			`}`

			`input := ExecStreamingInput{Stdin: &ExecStreamingIOOperation{}}`

			`n, err := s.stdin.Read(bytes)`

			`// always send data if we read some`
			`if n != 0 {`
			`input.Stdin.Data = bytes[:n]`
			`send(&input)`
			`}`

			`// then handle error`
			`if err == io.EOF {`
			`// if n != 0, send data and we'll get n = 0 on next read`
			`if n == 0 {`
			`input.Stdin.Close = true`
			`send(&input)`
			`return`
			`}`
			`} else if err != nil {`
			`errCh <- err`
			`return`
			`}`
			`}`
			`}()`

			`// propagate terminal sizing updates`
			`go func() {`
			`for {`
			`resizeInput := ExecStreamingInput{}`

			`select {`
			`case <-ctx.Done():`
			`return`
			`case size, ok := <-s.terminalSizeCh:`
			`if !ok {`
			`return`
			`}`
			`resizeInput.TTYSize = &size`
			`send(&resizeInput)`
			`}`

			`}`
			`}()`

			`// send a heartbeat every 10 seconds`
			`go func() {`
cleanup: prevent leaks from time.After This PR replaces use of time.After with a safe helper function that creates a time.Timer to use instead. The new function returns both a time.Timer and a Stop function that the caller must handle. Unlike time.NewTimer, the helper function does not panic if the duration set is <= 0. 2022-02-02 16:59:53 +00:00			`t := time.NewTimer(heartbeatInterval)`
			`defer t.Stop()`

exec: api: handle closing errors differently refactor the api handling of `nomad exec`, and ensure that we process all received events before handling websocket closing. The exit code should be the last message received, and we ought to ignore any websocket close error we receive afterwards. Previously, we used two channels: one for websocket frames and another for handling errors. This raised the possibility that we processed the error before processing the frames, resulting into an "unexpected EOF" error. 2021-05-24 18:52:00 +00:00			`for {`
cleanup: prevent leaks from time.After This PR replaces use of time.After with a safe helper function that creates a time.Timer to use instead. The new function returns both a time.Timer and a Stop function that the caller must handle. Unlike time.NewTimer, the helper function does not panic if the duration set is <= 0. 2022-02-02 16:59:53 +00:00			`t.Reset(heartbeatInterval)`

exec: api: handle closing errors differently refactor the api handling of `nomad exec`, and ensure that we process all received events before handling websocket closing. The exit code should be the last message received, and we ought to ignore any websocket close error we receive afterwards. Previously, we used two channels: one for websocket frames and another for handling errors. This raised the possibility that we processed the error before processing the frames, resulting into an "unexpected EOF" error. 2021-05-24 18:52:00 +00:00			`select {`
			`case <-ctx.Done():`
			`return`
cleanup: prevent leaks from time.After This PR replaces use of time.After with a safe helper function that creates a time.Timer to use instead. The new function returns both a time.Timer and a Stop function that the caller must handle. Unlike time.NewTimer, the helper function does not panic if the duration set is <= 0. 2022-02-02 16:59:53 +00:00			`case <-t.C:`
			`// heartbeat message`
exec: api: handle closing errors differently refactor the api handling of `nomad exec`, and ensure that we process all received events before handling websocket closing. The exit code should be the last message received, and we ought to ignore any websocket close error we receive afterwards. Previously, we used two channels: one for websocket frames and another for handling errors. This raised the possibility that we processed the error before processing the frames, resulting into an "unexpected EOF" error. 2021-05-24 18:52:00 +00:00			`send(&execStreamingInputHeartbeat)`
			`}`
			`}`
			`}()`

			`return errCh`
			`}`

			`func (s execSession) startReceiving(ctx context.Context, conn websocket.Conn) (<-chan int, <-chan error) {`
			`exitCodeCh := make(chan int, 1)`
			`errCh := make(chan error, 1)`

			`go func() {`
			`for ctx.Err() == nil {`

			`// Decode the next frame`
			`var frame ExecStreamingOutput`
			`err := conn.ReadJSON(&frame)`
			`if websocket.IsCloseError(err, websocket.CloseNormalClosure) {`
			`errCh <- fmt.Errorf("websocket closed before receiving exit code: %w", err)`
			`return`
			`} else if err != nil {`
			`errCh <- err`
			`return`
			`}`

			`switch {`
			`case frame.Stdout != nil:`
			`if len(frame.Stdout.Data) != 0 {`
			`s.stdout.Write(frame.Stdout.Data)`
			`}`
			`// don't really do anything if stdout is closing`
			`case frame.Stderr != nil:`
			`if len(frame.Stderr.Data) != 0 {`
			`s.stderr.Write(frame.Stderr.Data)`
			`}`
			`// don't really do anything if stderr is closing`
			`case frame.Exited && frame.Result != nil:`
			`exitCodeCh <- frame.Result.ExitCode`
			`return`
			`default:`
			`// noop - heartbeat`
			`}`

			`}`

			`}()`

			`return exitCodeCh, errCh`
			`}`