memories/go_vod/manager.go

376 lines
9.0 KiB
Go

package go_vod
import (
"bytes"
"context"
"encoding/json"
"errors"
"fmt"
"hash/fnv"
"log"
"math"
"net/http"
"os"
"os/exec"
"sort"
"strconv"
"strings"
"time"
)
type Manager struct {
c *Config
path string
tempDir string
id string
close chan string
inactive int
probe *ProbeVideoData
numChunks int
streams map[string]*Stream
}
type ProbeVideoData struct {
Width int
Height int
Duration time.Duration
FrameRate int
CodecName string
BitRate int
Rotation int
}
func NewManager(c *Config, path string, id string, close chan string) (*Manager, error) {
m := &Manager{c: c, path: path, id: id, close: close}
m.streams = make(map[string]*Stream)
h := fnv.New32a()
h.Write([]byte(path))
ph := fmt.Sprint(h.Sum32())
m.tempDir = fmt.Sprintf("%s/%s-%s", m.c.TempDir, id, ph)
// Delete temp dir if exists
os.RemoveAll(m.tempDir)
os.MkdirAll(m.tempDir, 0755)
if err := m.ffprobe(); err != nil {
return nil, err
}
m.numChunks = int(math.Ceil(m.probe.Duration.Seconds() / float64(c.ChunkSize)))
// Possible streams
m.streams["480p"] = &Stream{c: c, m: m, quality: "480p", height: 480, width: 854, bitrate: 400}
m.streams["720p"] = &Stream{c: c, m: m, quality: "720p", height: 720, width: 1280, bitrate: 700}
m.streams["1080p"] = &Stream{c: c, m: m, quality: "1080p", height: 1080, width: 1920, bitrate: 1000}
m.streams["1440p"] = &Stream{c: c, m: m, quality: "1440p", height: 1440, width: 2560, bitrate: 1400}
m.streams["2160p"] = &Stream{c: c, m: m, quality: "2160p", height: 2160, width: 3840, bitrate: 3000}
// height is our primary dimension for scaling
// using the probed size, we adjust the width of the stream
// the smaller dimemension of the output should match the height here
smDim, lgDim := m.probe.Height, m.probe.Width
if m.probe.Height > m.probe.Width {
smDim, lgDim = lgDim, smDim
}
// Get the reference bitrate. This is the same as the current bitrate
// if the video is H.264, otherwise use double the current bitrate.
refBitrate := int(float64(m.probe.BitRate) / 2.0)
if m.probe.CodecName != CODEC_H264 {
refBitrate *= 2
}
// If bitrate could not be read, use 10Mbps
if refBitrate == 0 {
refBitrate = 10000000
}
// Get the multiplier for the reference bitrate.
// For this get the nearest stream size to the original.
origPixels := float64(m.probe.Height * m.probe.Width)
nearestPixels := float64(0)
nearestStream := ""
for key, stream := range m.streams {
streamPixels := float64(stream.height * stream.width)
if nearestPixels == 0 || math.Abs(origPixels-streamPixels) < math.Abs(origPixels-nearestPixels) {
nearestPixels = streamPixels
nearestStream = key
}
}
// Get the bitrate multiplier. This is the ratio of the reference
// bitrate to the nearest stream bitrate, so we can scale all streams.
bitrateMultiplier := 1.0
if nearestStream != "" {
bitrateMultiplier = float64(refBitrate) / float64(m.streams[nearestStream].bitrate)
}
// Only keep streams that are smaller than the video
for k, stream := range m.streams {
stream.order = 0
// scale bitrate using the multiplier
stream.bitrate = int(math.Ceil(float64(stream.bitrate) * bitrateMultiplier))
// now store the width of the stream as the larger dimension
stream.width = int(math.Ceil(float64(lgDim) * float64(stream.height) / float64(smDim)))
// remove invalid streams
if (stream.height >= smDim || stream.width >= lgDim) || // no upscaling; we're not AI
(float64(stream.bitrate) > float64(m.probe.BitRate)*0.8) || // no more than 80% of original bitrate
(stream.height%2 != 0 || stream.width%2 != 0) { // no odd dimensions
// remove stream
delete(m.streams, k)
continue
}
}
// Original stream
m.streams[QUALITY_MAX] = &Stream{
c: c, m: m,
quality: QUALITY_MAX,
height: m.probe.Height,
width: m.probe.Width,
bitrate: refBitrate,
order: 1,
}
// Start all streams
for _, stream := range m.streams {
go stream.Run()
}
log.Printf("%s: new manager for %s", m.id, m.path)
// Check for inactivity
go func() {
t := time.NewTicker(5 * time.Second)
defer t.Stop()
for {
<-t.C
if m.inactive == -1 {
t.Stop()
return
}
m.inactive++
// Check if any stream is active
for _, stream := range m.streams {
if stream.coder != nil {
m.inactive = 0
break
}
}
// Nothing done for 5 minutes
if m.inactive >= m.c.ManagerIdleTime/5 {
t.Stop()
m.Destroy()
m.close <- m.id
return
}
}
}()
return m, nil
}
// Destroys streams. DOES NOT emit on the close channel.
func (m *Manager) Destroy() {
log.Printf("%s: destroying manager", m.id)
m.inactive = -1
for _, stream := range m.streams {
stream.Stop()
}
// Delete temp dir
os.RemoveAll(m.tempDir)
// Delete file if temp
freeIfTemp(m.path)
}
func (m *Manager) ServeHTTP(w http.ResponseWriter, r *http.Request, chunk string) error {
// Master list
if chunk == "index.m3u8" {
return m.ServeIndex(w, r)
}
// Stream list
m3u8Sfx := ".m3u8"
if strings.HasSuffix(chunk, m3u8Sfx) {
quality := strings.TrimSuffix(chunk, m3u8Sfx)
if stream, ok := m.streams[quality]; ok {
return stream.ServeList(w, r)
}
}
// Stream chunk
tsSfx := ".ts"
if strings.HasSuffix(chunk, tsSfx) {
parts := strings.Split(chunk, "-")
if len(parts) != 2 {
w.WriteHeader(http.StatusBadRequest)
return nil
}
quality := parts[0]
chunkIdStr := strings.TrimSuffix(parts[1], tsSfx)
chunkId, err := strconv.Atoi(chunkIdStr)
if err != nil {
w.WriteHeader(http.StatusBadRequest)
return nil
}
if stream, ok := m.streams[quality]; ok {
return stream.ServeChunk(w, chunkId)
}
}
// Stream full video
mp4Sfx := ".mp4"
if strings.HasSuffix(chunk, mp4Sfx) {
quality := strings.TrimSuffix(chunk, mp4Sfx)
if stream, ok := m.streams[quality]; ok {
return stream.ServeFullVideo(w, r)
}
// Fall back to original
return m.streams[QUALITY_MAX].ServeFullVideo(w, r)
}
w.WriteHeader(http.StatusNotFound)
return nil
}
func (m *Manager) ServeIndex(w http.ResponseWriter, r *http.Request) error {
WriteM3U8ContentType(w)
w.Write([]byte("#EXTM3U\n"))
// get sorted streams by bitrate
streams := make([]*Stream, 0)
for _, stream := range m.streams {
streams = append(streams, stream)
}
sort.Slice(streams, func(i, j int) bool {
return streams[i].order < streams[j].order ||
(streams[i].order == streams[j].order && streams[i].bitrate < streams[j].bitrate)
})
// Write all streams
query := GetQueryString(r)
for _, stream := range streams {
s := fmt.Sprintf("#EXT-X-STREAM-INF:BANDWIDTH=%d,RESOLUTION=%dx%d,FRAME-RATE=%d\n%s.m3u8%s\n", stream.bitrate, stream.width, stream.height, m.probe.FrameRate, stream.quality, query)
w.Write([]byte(s))
}
return nil
}
func (m *Manager) ffprobe() error {
args := []string{
// Hide debug information
"-v", "error",
// Show everything
"-show_entries", "format:stream",
"-select_streams", "v", // Video stream only, we're not interested in audio
"-of", "json",
m.path,
}
ctx, cancel := context.WithDeadline(context.TODO(), time.Now().Add(5*time.Second))
defer cancel()
cmd := exec.CommandContext(ctx, m.c.FFprobe, args...)
var stdout, stderr bytes.Buffer
cmd.Stdout = &stdout
cmd.Stderr = &stderr
err := cmd.Run()
if err != nil {
log.Println(stderr.String())
return err
}
out := struct {
Streams []struct {
Width int `json:"width"`
Height int `json:"height"`
Duration string `json:"duration"`
FrameRate string `json:"avg_frame_rate"`
CodecName string `json:"codec_name"`
BitRate string `json:"bit_rate"`
SideDataList []struct {
SideDataType string `json:"side_data_type"`
Rotation int `json:"rotation"`
} `json:"side_data_list"`
} `json:"streams"`
Format struct {
Duration string `json:"duration"`
} `json:"format"`
}{}
if err := json.Unmarshal(stdout.Bytes(), &out); err != nil {
return err
}
if len(out.Streams) == 0 {
return errors.New("no video streams found")
}
var duration time.Duration
if out.Streams[0].Duration != "" {
duration, _ = time.ParseDuration(out.Streams[0].Duration + "s")
} else if out.Format.Duration != "" {
duration, _ = time.ParseDuration(out.Format.Duration + "s")
}
// FrameRate is a fraction string
frac := strings.Split(out.Streams[0].FrameRate, "/")
if len(frac) != 2 {
frac = []string{"30", "1"}
}
num, e1 := strconv.Atoi(frac[0])
den, e2 := strconv.Atoi(frac[1])
if e1 != nil || e2 != nil {
num = 30
den = 1
}
frameRate := float64(num) / float64(den)
// BitRate is a string
bitRate, err := strconv.Atoi(out.Streams[0].BitRate)
if err != nil {
bitRate = 5000000
}
// Get rotation from side data
rotation := 0
for _, sideData := range out.Streams[0].SideDataList {
if sideData.SideDataType == "Display Matrix" {
rotation = sideData.Rotation
}
}
m.probe = &ProbeVideoData{
Width: out.Streams[0].Width,
Height: out.Streams[0].Height,
Duration: duration,
FrameRate: int(frameRate),
CodecName: out.Streams[0].CodecName,
BitRate: bitRate,
Rotation: rotation,
}
return nil
}