navidrome/core/ffmpeg/ffmpeg.go

package ffmpeg

import (
	"bytes"
	"context"
	"encoding/json"
	"errors"
	"fmt"
	"io"
	"os"
	"os/exec"
	"path/filepath"
	"strconv"
	"strings"
	"sync"

	"github.com/navidrome/navidrome/conf"
	"github.com/navidrome/navidrome/consts"
	"github.com/navidrome/navidrome/log"
)

// TranscodeOptions contains all parameters for a transcoding operation.
type TranscodeOptions struct {
	Command    string // DB command template (used to detect custom vs default)
	Format     string // Target format (mp3, opus, aac, flac)
	FilePath   string
	BitRate    int // kbps, 0 = codec default
	SampleRate int // 0 = no constraint
	Channels   int // 0 = no constraint
	BitDepth   int // 0 = no constraint; valid values: 16, 24, 32
	Offset     int // seconds
}

// AudioProbeResult contains authoritative audio stream properties from ffprobe.
type AudioProbeResult struct {
	Codec      string `json:"codec"`
	Profile    string `json:"profile,omitempty"`
	BitRate    int    `json:"bitRate"`
	SampleRate int    `json:"sampleRate"`
	BitDepth   int    `json:"bitDepth"`
	Channels   int    `json:"channels"`
}

type FFmpeg interface {
	Transcode(ctx context.Context, opts TranscodeOptions) (io.ReadCloser, error)
	ExtractImage(ctx context.Context, path string) (io.ReadCloser, error)
	ConvertAnimatedImage(ctx context.Context, reader io.Reader, maxSize int, quality int) (io.ReadCloser, error)
	Probe(ctx context.Context, files []string) (string, error)
	ProbeAudioStream(ctx context.Context, filePath string) (*AudioProbeResult, error)
	CmdPath() (string, error)
	IsAvailable() bool
	IsProbeAvailable() bool
	Version() string
}

func New() FFmpeg {
	return &ffmpeg{}
}

const (
	extractImageCmd     = "ffmpeg -i %s -map 0:v -map -0:V -vcodec copy -f image2pipe -"
	probeCmd            = "ffmpeg %s -f ffmetadata"
	probeAudioStreamCmd = "ffprobe -v quiet -select_streams a:0 -print_format json -show_streams -show_format %s"
)

type ffmpeg struct{}

func (e *ffmpeg) Transcode(ctx context.Context, opts TranscodeOptions) (io.ReadCloser, error) {
	if _, err := ffmpegCmd(); err != nil {
		return nil, err
	}
	if err := fileExists(opts.FilePath); err != nil {
		return nil, err
	}
	var args []string
	if isDefaultCommand(opts.Format, opts.Command) {
		args = buildDynamicArgs(opts)
	} else {
		args = buildTemplateArgs(opts)
	}
	return e.start(ctx, args)
}

func (e *ffmpeg) ConvertAnimatedImage(ctx context.Context, reader io.Reader, maxSize int, quality int) (io.ReadCloser, error) {
	cmdPath, err := ffmpegCmd()
	if err != nil {
		return nil, err
	}

	args := []string{cmdPath, "-i", "pipe:0"}
	if maxSize > 0 {
		vf := fmt.Sprintf("scale='min(%d,iw)':'min(%d,ih)':force_original_aspect_ratio=decrease", maxSize, maxSize)
		args = append(args, "-vf", vf)
	}
	args = append(args, "-loop", "0", "-c:v", "libwebp_anim",
		"-quality", strconv.Itoa(quality), "-f", "webp", "-")

	return e.start(ctx, args, reader)
}

func (e *ffmpeg) ExtractImage(ctx context.Context, path string) (io.ReadCloser, error) {
	if _, err := ffmpegCmd(); err != nil {
		return nil, err
	}
	if err := fileExists(path); err != nil {
		return nil, err
	}
	args := createFFmpegCommand(extractImageCmd, path, 0, 0)
	return e.start(ctx, args)
}

func fileExists(path string) error {
	s, err := os.Stat(path)
	if err != nil {
		return err
	}
	if s.IsDir() {
		return fmt.Errorf("'%s' is a directory", path)
	}
	return nil
}

func (e *ffmpeg) Probe(ctx context.Context, files []string) (string, error) {
	if _, err := ffmpegCmd(); err != nil {
		return "", err
	}
	args := createProbeCommand(probeCmd, files)
	log.Trace(ctx, "Executing ffmpeg command", "args", args)
	cmd := exec.CommandContext(ctx, args[0], args[1:]...) // #nosec
	output, _ := cmd.CombinedOutput()
	return string(output), nil
}

func (e *ffmpeg) ProbeAudioStream(ctx context.Context, filePath string) (*AudioProbeResult, error) {
	if _, err := ffmpegCmd(); err != nil {
		return nil, err
	}
	if err := fileExists(filePath); err != nil {
		return nil, err
	}
	args := createFFmpegCommand(probeAudioStreamCmd, filePath, 0, 0)
	log.Trace(ctx, "Executing ffprobe command", "args", args)
	cmd := exec.CommandContext(ctx, args[0], args[1:]...) // #nosec
	output, err := cmd.Output()
	if err != nil {
		return nil, fmt.Errorf("running ffprobe on %q: %w", filePath, err)
	}
	return parseProbeOutput(output)
}

type probeOutput struct {
	Streams []probeStream `json:"streams"`
	Format  probeFormat   `json:"format"`
}

type probeFormat struct {
	BitRate string `json:"bit_rate"`
}

type probeStream struct {
	CodecName        string `json:"codec_name"`
	CodecType        string `json:"codec_type"`
	Profile          string `json:"profile"`
	SampleRate       string `json:"sample_rate"`
	BitRate          string `json:"bit_rate"`
	Channels         int    `json:"channels"`
	BitsPerSample    int    `json:"bits_per_sample"`
	BitsPerRawSample string `json:"bits_per_raw_sample"`
}

func parseProbeOutput(data []byte) (*AudioProbeResult, error) {
	var output probeOutput
	if err := json.Unmarshal(data, &output); err != nil {
		return nil, fmt.Errorf("parsing ffprobe output: %w", err)
	}

	for _, s := range output.Streams {
		if s.CodecType != "audio" {
			continue
		}
		bitDepth := s.BitsPerSample
		if bitDepth == 0 && s.BitsPerRawSample != "" {
			bitDepth, _ = strconv.Atoi(s.BitsPerRawSample)
		}
		result := &AudioProbeResult{
			Codec:    s.CodecName,
			Channels: s.Channels,
			BitDepth: bitDepth,
		}

		// Profile: "unknown" → empty
		if s.Profile != "" && !strings.EqualFold(s.Profile, "unknown") {
			result.Profile = s.Profile
		}

		// Sample rate: string → int
		if s.SampleRate != "" {
			result.SampleRate, _ = strconv.Atoi(s.SampleRate)
		}

		// Bit rate: bps string → kbps int
		if s.BitRate != "" {
			bps, _ := strconv.Atoi(s.BitRate)
			result.BitRate = bps / 1000
		}

		// Fallback to format-level bit_rate (needed for FLAC, Opus, etc.)
		if result.BitRate == 0 && output.Format.BitRate != "" {
			bps, _ := strconv.Atoi(output.Format.BitRate)
			result.BitRate = bps / 1000
		}

		return result, nil
	}

	return nil, fmt.Errorf("no audio stream found in ffprobe output")
}

func (e *ffmpeg) CmdPath() (string, error) {
	return ffmpegCmd()
}

func (e *ffmpeg) IsAvailable() bool {
	_, err := ffmpegCmd()
	return err == nil
}

func (e *ffmpeg) IsProbeAvailable() bool {
	if _, err := ffmpegCmd(); err != nil {
		return false
	}
	probeOnce.Do(func() {
		probePath := ffprobePath(ffmpegPath)
		if _, err := exec.LookPath(probePath); err == nil {
			probeAvail = true
		}
	})
	return probeAvail
}

// Version executes ffmpeg -version and extracts the version from the output.
// Sample output: ffmpeg version 6.0 Copyright (c) 2000-2023 the FFmpeg developers
func (e *ffmpeg) Version() string {
	cmd, err := ffmpegCmd()
	if err != nil {
		return "N/A"
	}
	out, err := exec.Command(cmd, "-version").CombinedOutput() // #nosec
	if err != nil {
		return "N/A"
	}
	parts := strings.Split(string(out), " ")
	if len(parts) < 3 {
		return "N/A"
	}
	return parts[2]
}

func (e *ffmpeg) start(ctx context.Context, args []string, input ...io.Reader) (io.ReadCloser, error) {
	log.Trace(ctx, "Executing ffmpeg command", "cmd", args)
	j := &ffCmd{args: args}
	if len(input) > 0 {
		j.input = input[0]
	}
	j.PipeReader, j.out = io.Pipe()
	err := j.start(ctx)
	if err != nil {
		return nil, err
	}
	go j.wait()
	return j, nil
}

type ffCmd struct {
	*io.PipeReader
	out    *io.PipeWriter
	args   []string
	cmd    *exec.Cmd
	input  io.Reader // optional stdin source
	stderr *bytes.Buffer
}

func (j *ffCmd) start(ctx context.Context) error {
	cmd := exec.CommandContext(ctx, j.args[0], j.args[1:]...) // #nosec
	cmd.Stdout = j.out
	if j.input != nil {
		cmd.Stdin = j.input
	}
	j.stderr = &bytes.Buffer{}
	stderrWriter := &limitedWriter{buf: j.stderr, limit: 4096}
	if log.IsGreaterOrEqualTo(log.LevelTrace) {
		cmd.Stderr = io.MultiWriter(os.Stderr, stderrWriter)
	} else {
		cmd.Stderr = stderrWriter
	}
	j.cmd = cmd

	if err := cmd.Start(); err != nil {
		return fmt.Errorf("starting cmd: %w", err)
	}
	return nil
}

func (j *ffCmd) wait() {
	if err := j.cmd.Wait(); err != nil {
		var exitErr *exec.ExitError
		if errors.As(err, &exitErr) {
			errMsg := fmt.Sprintf("%s exited with non-zero status code: %d", j.args[0], exitErr.ExitCode())
			if stderrOutput := strings.TrimSpace(j.stderr.String()); stderrOutput != "" {
				errMsg += ": " + stderrOutput
			}
			_ = j.out.CloseWithError(errors.New(errMsg))
		} else {
			_ = j.out.CloseWithError(fmt.Errorf("waiting %s cmd: %w", j.args[0], err))
		}
		return
	}
	_ = j.out.Close()
}

// limitedWriter wraps a bytes.Buffer and stops writing once the limit is reached.
// Writes that would exceed the limit are silently discarded to prevent unbounded memory usage.
type limitedWriter struct {
	buf   *bytes.Buffer
	limit int
}

func (w *limitedWriter) Write(p []byte) (int, error) {
	n := len(p)
	remaining := w.limit - w.buf.Len()
	if remaining <= 0 {
		return n, nil // Discard but report success to avoid breaking the writer
	}
	if len(p) > remaining {
		p = p[:remaining]
	}
	w.buf.Write(p)
	return n, nil // Always report full write to avoid ErrShortWrite from io.MultiWriter
}

// formatCodecMap maps target format to ffmpeg codec flag.
var formatCodecMap = map[string]string{
	"mp3":  "libmp3lame",
	"opus": "libopus",
	"aac":  "aac",
	"flac": "flac",
}

// formatOutputMap maps target format to ffmpeg output format flag (-f).
var formatOutputMap = map[string]string{
	"mp3":  "mp3",
	"opus": "opus",
	"aac":  "adts",
	"flac": "flac",
}

// defaultCommands is used to detect whether a user has customized their transcoding command.
var defaultCommands = func() map[string]string {
	m := make(map[string]string, len(consts.DefaultTranscodings))
	for _, t := range consts.DefaultTranscodings {
		m[t.TargetFormat] = t.Command
	}
	return m
}()

// isDefaultCommand returns true if the command matches the known default for this format.
func isDefaultCommand(format, command string) bool {
	return defaultCommands[format] == command
}

// buildDynamicArgs programmatically constructs ffmpeg arguments for known formats,
// including all transcoding parameters (bitrate, sample rate, channels).
func buildDynamicArgs(opts TranscodeOptions) []string {
	cmdPath, _ := ffmpegCmd()
	args := []string{cmdPath, "-i", opts.FilePath}

	if opts.Offset > 0 {
		args = append(args, "-ss", strconv.Itoa(opts.Offset))
	}

	args = append(args, "-map", "0:a:0")

	if codec, ok := formatCodecMap[opts.Format]; ok {
		args = append(args, "-c:a", codec)
	}

	if opts.BitRate > 0 {
		args = append(args, "-b:a", strconv.Itoa(opts.BitRate)+"k")
	}
	args = injectDynamicAudioFlags(args, opts)

	args = append(args, "-v", "0")

	if outputFmt, ok := formatOutputMap[opts.Format]; ok {
		args = append(args, "-f", outputFmt)
	}

	args = append(args, "-")
	return args
}

// buildTemplateArgs handles user-customized command templates, with dynamic injection
// of sample rate, channels, and bit depth when requested by the transcode decision.
// Values in opts have already been clamped to codec limits upstream (see
// core/stream/codec.go codecMax* helpers), so injecting them unconditionally is safe —
// ffmpeg honors the last occurrence of a duplicate flag.
func buildTemplateArgs(opts TranscodeOptions) []string {
	args := createFFmpegCommand(opts.Command, opts.FilePath, opts.BitRate, opts.Offset)
	return injectDynamicAudioFlags(args, opts)
}

// injectDynamicAudioFlags appends -ar, -ac, and -sample_fmt flags based on opts.
// Only passes -sample_fmt for lossless output formats where bit depth matters:
// lossy codecs (mp3, aac, opus) handle sample format conversion internally, and
// passing interleaved formats like "s16" causes silent failures.
func injectDynamicAudioFlags(args []string, opts TranscodeOptions) []string {
	if opts.SampleRate > 0 {
		args = injectBeforeOutput(args, "-ar", strconv.Itoa(opts.SampleRate))
	}
	if opts.Channels > 0 {
		args = injectBeforeOutput(args, "-ac", strconv.Itoa(opts.Channels))
	}
	if opts.BitDepth >= 16 && isLosslessOutputFormat(opts.Format) {
		args = injectBeforeOutput(args, "-sample_fmt", bitDepthToSampleFmt(opts.BitDepth))
	}
	return args
}

// injectBeforeOutput inserts a flag and value before the trailing "-" (stdout output).
func injectBeforeOutput(args []string, flag, value string) []string {
	if len(args) > 0 && args[len(args)-1] == "-" {
		result := make([]string, 0, len(args)+2)
		result = append(result, args[:len(args)-1]...)
		result = append(result, flag, value, "-")
		return result
	}
	return append(args, flag, value)
}

// isLosslessOutputFormat returns true if the format is a lossless audio format
// where preserving bit depth via -sample_fmt is meaningful.
// Note: this covers only formats ffmpeg can produce as output. For the full set of
// lossless formats used in transcoding decisions, see core/stream/codec.go:isLosslessFormat.
func isLosslessOutputFormat(format string) bool {
	switch strings.ToLower(format) {
	case "flac", "alac", "wav", "aiff":
		return true
	}
	return false
}

// bitDepthToSampleFmt converts a bit depth value to the ffmpeg sample_fmt string.
// FLAC only supports s16 and s32; for 24-bit sources, s32 is the correct format
// (ffmpeg packs 24-bit samples into 32-bit containers).
func bitDepthToSampleFmt(bitDepth int) string {
	switch bitDepth {
	case 16:
		return "s16"
	case 32:
		return "s32"
	default:
		// 24-bit and other depths: use s32 (the next valid container size)
		return "s32"
	}
}

// Path will always be an absolute path
func createFFmpegCommand(cmd, path string, maxBitRate, offset int) []string {
	var args []string
	for _, s := range fixCmd(cmd) {
		if strings.Contains(s, "%s") {
			s = strings.ReplaceAll(s, "%s", path)
			args = append(args, s)
			if offset > 0 && !strings.Contains(cmd, "%t") {
				args = append(args, "-ss", strconv.Itoa(offset))
			}
		} else {
			s = strings.ReplaceAll(s, "%t", strconv.Itoa(offset))
			s = strings.ReplaceAll(s, "%b", strconv.Itoa(maxBitRate))
			args = append(args, s)
		}
	}
	return args
}

func createProbeCommand(cmd string, inputs []string) []string {
	var args []string
	for _, s := range fixCmd(cmd) {
		if s == "%s" {
			for _, inp := range inputs {
				args = append(args, "-i", inp)
			}
		} else {
			args = append(args, s)
		}
	}
	return args
}

func fixCmd(cmd string) []string {
	split := strings.Fields(cmd)
	cmdPath, _ := ffmpegCmd()
	for i, s := range split {
		if s == "ffmpeg" || s == "ffmpeg.exe" {
			split[i] = cmdPath
		}
		if s == "ffprobe" || s == "ffprobe.exe" {
			split[i] = ffprobePath(cmdPath)
		}
	}
	return split
}

// ffprobePath derives the ffprobe binary path from the resolved ffmpeg path.
func ffprobePath(ffmpegCmd string) string {
	dir := filepath.Dir(ffmpegCmd)
	base := filepath.Base(ffmpegCmd)
	return filepath.Join(dir, strings.Replace(base, "ffmpeg", "ffprobe", 1))
}

func ffmpegCmd() (string, error) {
	ffOnce.Do(func() {
		if conf.Server.FFmpegPath != "" {
			ffmpegPath = conf.Server.FFmpegPath
			ffmpegPath, ffmpegErr = exec.LookPath(ffmpegPath)
		} else {
			ffmpegPath, ffmpegErr = exec.LookPath("ffmpeg")
			if errors.Is(ffmpegErr, exec.ErrDot) {
				log.Trace("ffmpeg found in current folder '.'")
				ffmpegPath, ffmpegErr = exec.LookPath("./ffmpeg")
			}
		}
		if ffmpegErr == nil {
			log.Info("Found ffmpeg", "path", ffmpegPath)
			return
		}
	})
	return ffmpegPath, ffmpegErr
}

// These variables are accessible here for tests. Do not use them directly in production code. Use ffmpegCmd() instead.
var (
	ffOnce     sync.Once
	ffmpegPath string
	ffmpegErr  error
	probeOnce  sync.Once
	probeAvail bool
)