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galene/packetcache/packetcache.go
Juliusz Chroboczek 9093339b62 Rework handling of buffered keyframes.
Instead of buffering the last keyframe, we merely keep track of its
seqno, and use the main cache for recovering.  We also send the whole
sequence of packets rather than just the keyframe itself.
2021-08-04 02:58:24 +02:00

392 lines
8.6 KiB
Go

// Package packetcache implement a packet cache that maintains a history
// of recently seen packets, the last keyframe, and a number of statistics
// that are needed for sending receiver reports.
package packetcache
import (
"math/bits"
"sync"
)
// The maximum size of packets stored in the cache. Chosen to be
// a multiple of 8.
const BufSize = 1504
// The maximum number of packets that constitute a keyframe.
const maxFrame = 1024
// entry represents a cached packet.
type entry struct {
seqno uint16
lengthAndMarker uint16 // 1 bit of marker, 15 bits of length
timestamp uint32
buf [BufSize]byte
}
func (e *entry) length() uint16 {
return e.lengthAndMarker & 0x7FFF
}
func (e *entry) marker() bool {
return (e.lengthAndMarker & 0x8000) != 0
}
// bitmap keeps track of recent loss history
type bitmap struct {
valid bool
first uint16
bitmap uint32
}
type Cache struct {
mu sync.Mutex
//stats
last uint16
cycle uint16
lastValid bool
expected uint32
totalExpected uint32
received uint32
totalReceived uint32
// last seen keyframe
keyframe uint16
keyframeValid bool
// bitmap
bitmap bitmap
// the actual cache
tail uint16
entries []entry
}
// New creates a cache with the given capacity.
func New(capacity int) *Cache {
if capacity > int(^uint16(0)) {
return nil
}
return &Cache{
entries: make([]entry, capacity),
}
}
// compare performs comparison modulo 2^16.
func compare(s1, s2 uint16) int {
if s1 == s2 {
return 0
}
if ((s2 - s1) & 0x8000) != 0 {
return 1
}
return -1
}
// seqnoInvalid returns true if seqno is unreasonably far in the past
func seqnoInvalid(seqno, reference uint16) bool {
if compare(reference, seqno) < 0 {
return false
}
if reference-seqno > 0x100 {
return true
}
return false
}
// set sets a bit in the bitmap, shifting if necessary
func (bitmap *bitmap) set(seqno uint16) {
if !bitmap.valid || seqnoInvalid(seqno, bitmap.first) {
bitmap.first = seqno
bitmap.bitmap = 1
bitmap.valid = true
return
}
if compare(bitmap.first, seqno) > 0 {
return
}
if seqno-bitmap.first >= 32 {
shift := seqno - bitmap.first - 31
bitmap.bitmap >>= shift
bitmap.first += shift
}
if (bitmap.bitmap & 1) == 1 {
ones := bits.TrailingZeros32(^bitmap.bitmap)
bitmap.bitmap >>= ones
bitmap.first += uint16(ones)
}
bitmap.bitmap |= (1 << uint16(seqno-bitmap.first))
return
}
// BitmapGet shifts up to 17 bits out of the bitmap. It returns a boolean
// indicating if any were 0, the index of the first 0 bit, and a bitmap
// indicating any 0 bits after the first one.
func (cache *Cache) BitmapGet(next uint16) (bool, uint16, uint16) {
cache.mu.Lock()
defer cache.mu.Unlock()
return cache.bitmap.get(next)
}
func (bitmap *bitmap) get(next uint16) (bool, uint16, uint16) {
first := bitmap.first
if compare(first, next) >= 0 {
return false, first, 0
}
count := next - first
if count > 17 {
count = 17
}
bm := (^bitmap.bitmap) & ^((^uint32(0)) << count)
bitmap.bitmap >>= count
bitmap.first += count
if bm == 0 {
return false, first, 0
}
if (bm & 1) == 0 {
count := bits.TrailingZeros32(bm)
bm >>= count
first += uint16(count)
}
return true, first, uint16(bm >> 1)
}
// Store stores a packet in the cache. It returns the first seqno in the
// bitmap, and the index at which the packet was stored.
func (cache *Cache) Store(seqno uint16, timestamp uint32, keyframe bool, marker bool, buf []byte) (uint16, uint16) {
cache.mu.Lock()
defer cache.mu.Unlock()
if !cache.lastValid || seqnoInvalid(seqno, cache.last) {
cache.last = seqno
cache.lastValid = true
cache.expected++
cache.received++
} else {
cmp := compare(cache.last, seqno)
if cmp < 0 {
cache.received++
cache.expected += uint32(seqno - cache.last)
if seqno < cache.last {
cache.cycle++
}
cache.last = seqno
if cache.keyframeValid &&
compare(cache.keyframe, seqno) > 0 {
cache.keyframeValid = false
}
} else if cmp > 0 {
if cache.received < cache.expected {
cache.received++
}
}
}
cache.bitmap.set(seqno)
if keyframe {
cache.keyframe = seqno
cache.keyframeValid = true
}
i := cache.tail
cache.entries[i].seqno = seqno
copy(cache.entries[i].buf[:], buf)
lam := uint16(len(buf))
if marker {
lam |= 0x8000
}
cache.entries[i].lengthAndMarker = lam
cache.entries[i].timestamp = timestamp
cache.tail = (i + 1) % uint16(len(cache.entries))
return cache.bitmap.first, i
}
// Expect records that we expect n additional packets.
func (cache *Cache) Expect(n int) {
if n <= 0 {
return
}
cache.mu.Lock()
defer cache.mu.Unlock()
cache.expected += uint32(n)
}
// get retrieves a packet from a slice of entries.
func get(seqno uint16, entries []entry, result []byte) (uint16, uint32, bool) {
for i := range entries {
if entries[i].lengthAndMarker == 0 || entries[i].seqno != seqno {
continue
}
var n uint16
if len(result) > 0 {
n = uint16(copy(
result[:entries[i].length()],
entries[i].buf[:]))
} else {
n = entries[i].length()
}
return n, entries[i].timestamp, entries[i].marker()
}
return 0, 0, false
}
// Get retrieves a packet from the cache, returns the number of bytes
// copied. If result is of length 0, returns the size of the packet.
func (cache *Cache) Get(seqno uint16, result []byte) uint16 {
cache.mu.Lock()
defer cache.mu.Unlock()
n, _, _ := get(seqno, cache.entries, result)
if n > 0 {
return n
}
return 0
}
func (cache *Cache) Last() (uint16, bool) {
cache.mu.Lock()
defer cache.mu.Unlock()
if !cache.lastValid {
return 0, false
}
return cache.last, true
}
// GetAt retrieves a packet from the cache assuming it is at the given index.
func (cache *Cache) GetAt(seqno uint16, index uint16, result []byte) uint16 {
cache.mu.Lock()
defer cache.mu.Unlock()
if int(index) >= len(cache.entries) {
return 0
}
if cache.entries[index].seqno != seqno {
return 0
}
return uint16(copy(
result[:cache.entries[index].length()],
cache.entries[index].buf[:]),
)
}
// Keyframe returns the seqno of the last seen keyframe
func (cache *Cache) Keyframe() (uint16, bool) {
cache.mu.Lock()
defer cache.mu.Unlock()
if !cache.keyframeValid {
return 0, false
}
return cache.keyframe, true
}
func (cache *Cache) resize(capacity int) {
if len(cache.entries) == capacity {
return
}
entries := make([]entry, capacity)
if capacity > len(cache.entries) {
copy(entries, cache.entries[:cache.tail])
copy(entries[int(cache.tail)+capacity-len(cache.entries):],
cache.entries[cache.tail:])
} else if capacity > int(cache.tail) {
copy(entries, cache.entries[:cache.tail])
copy(entries[cache.tail:],
cache.entries[int(cache.tail)+
len(cache.entries)-capacity:])
} else {
// too bad, invalidate all indices
copy(entries,
cache.entries[int(cache.tail)-capacity:cache.tail])
cache.tail = 0
}
cache.entries = entries
}
// Resize resizes the cache to the given capacity. This might invalidate
// indices of recently stored packets.
func (cache *Cache) Resize(capacity int) {
cache.mu.Lock()
defer cache.mu.Unlock()
cache.resize(capacity)
}
// ResizeCond is like Resize, but avoids invalidating recent indices.
func (cache *Cache) ResizeCond(capacity int) bool {
cache.mu.Lock()
defer cache.mu.Unlock()
current := len(cache.entries)
if current >= capacity*3/4 && current < capacity*2 {
return false
}
if capacity < current {
if int(cache.tail) > capacity {
// this would invalidate too many indices
return false
}
}
cache.resize(capacity)
return true
}
// Stats contains cache statistics
type Stats struct {
Received, TotalReceived uint32
Expected, TotalExpected uint32
ESeqno uint32
}
// GetStats returns statistics about received packets. If reset is true,
// the statistics are reset.
func (cache *Cache) GetStats(reset bool) Stats {
cache.mu.Lock()
defer cache.mu.Unlock()
s := Stats{
Received: cache.received,
TotalReceived: cache.totalReceived + cache.received,
Expected: cache.expected,
TotalExpected: cache.totalExpected + cache.expected,
ESeqno: uint32(cache.cycle)<<16 | uint32(cache.last),
}
if reset {
cache.totalExpected += cache.expected
cache.expected = 0
cache.totalReceived += cache.received
cache.received = 0
}
return s
}
// ToBitmap takes a non-empty sorted list of seqnos, and computes a bitmap
// covering a prefix of the list. It returns the part of the list that
// couldn't be covered.
func ToBitmap(seqnos []uint16) (first uint16, bitmap uint16, remain []uint16) {
first = seqnos[0]
bitmap = uint16(0)
remain = seqnos[1:]
for len(remain) > 0 {
delta := remain[0] - first - 1
if delta >= 16 {
break
}
bitmap = bitmap | (1 << delta)
remain = remain[1:]
}
return
}