mirror of
https://github.com/MetaCubeX/mihomo.git
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200 lines
5.6 KiB
Go
200 lines
5.6 KiB
Go
package congestion
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import (
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"github.com/metacubex/quic-go/congestion"
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)
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// packetNumberIndexedQueue is a queue of mostly continuous numbered entries
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// which supports the following operations:
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// - adding elements to the end of the queue, or at some point past the end
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// - removing elements in any order
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// - retrieving elements
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// If all elements are inserted in order, all of the operations above are
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// amortized O(1) time.
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//
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// Internally, the data structure is a deque where each element is marked as
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// present or not. The deque starts at the lowest present index. Whenever an
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// element is removed, it's marked as not present, and the front of the deque is
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// cleared of elements that are not present.
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//
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// The tail of the queue is not cleared due to the assumption of entries being
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// inserted in order, though removing all elements of the queue will return it
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// to its initial state.
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//
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// Note that this data structure is inherently hazardous, since an addition of
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// just two entries will cause it to consume all of the memory available.
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// Because of that, it is not a general-purpose container and should not be used
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// as one.
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type entryWrapper[T any] struct {
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present bool
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entry T
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}
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type packetNumberIndexedQueue[T any] struct {
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entries RingBuffer[entryWrapper[T]]
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numberOfPresentEntries int
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firstPacket congestion.PacketNumber
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}
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func newPacketNumberIndexedQueue[T any](size int) *packetNumberIndexedQueue[T] {
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q := &packetNumberIndexedQueue[T]{
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firstPacket: invalidPacketNumber,
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}
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q.entries.Init(size)
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return q
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}
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// Emplace inserts data associated |packet_number| into (or past) the end of the
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// queue, filling up the missing intermediate entries as necessary. Returns
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// true if the element has been inserted successfully, false if it was already
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// in the queue or inserted out of order.
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func (p *packetNumberIndexedQueue[T]) Emplace(packetNumber congestion.PacketNumber, entry *T) bool {
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if packetNumber == invalidPacketNumber || entry == nil {
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return false
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}
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if p.IsEmpty() {
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p.entries.PushBack(entryWrapper[T]{
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present: true,
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entry: *entry,
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})
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p.numberOfPresentEntries = 1
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p.firstPacket = packetNumber
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return true
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}
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// Do not allow insertion out-of-order.
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if packetNumber <= p.LastPacket() {
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return false
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}
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// Handle potentially missing elements.
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offset := int(packetNumber - p.FirstPacket())
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if gap := offset - p.entries.Len(); gap > 0 {
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for i := 0; i < gap; i++ {
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p.entries.PushBack(entryWrapper[T]{})
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}
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}
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p.entries.PushBack(entryWrapper[T]{
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present: true,
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entry: *entry,
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})
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p.numberOfPresentEntries++
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return true
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}
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// GetEntry Retrieve the entry associated with the packet number. Returns the pointer
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// to the entry in case of success, or nullptr if the entry does not exist.
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func (p *packetNumberIndexedQueue[T]) GetEntry(packetNumber congestion.PacketNumber) *T {
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ew := p.getEntryWraper(packetNumber)
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if ew == nil {
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return nil
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}
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return &ew.entry
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}
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// Remove, Same as above, but if an entry is present in the queue, also call f(entry)
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// before removing it.
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func (p *packetNumberIndexedQueue[T]) Remove(packetNumber congestion.PacketNumber, f func(T)) bool {
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ew := p.getEntryWraper(packetNumber)
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if ew == nil {
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return false
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}
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if f != nil {
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f(ew.entry)
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}
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ew.present = false
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p.numberOfPresentEntries--
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if packetNumber == p.FirstPacket() {
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p.clearup()
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}
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return true
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}
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// RemoveUpTo, but not including |packet_number|.
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// Unused slots in the front are also removed, which means when the function
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// returns, |first_packet()| can be larger than |packet_number|.
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func (p *packetNumberIndexedQueue[T]) RemoveUpTo(packetNumber congestion.PacketNumber) {
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for !p.entries.Empty() &&
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p.firstPacket != invalidPacketNumber &&
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p.firstPacket < packetNumber {
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if p.entries.Front().present {
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p.numberOfPresentEntries--
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}
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p.entries.PopFront()
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p.firstPacket++
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}
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p.clearup()
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return
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}
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// IsEmpty return if queue is empty.
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func (p *packetNumberIndexedQueue[T]) IsEmpty() bool {
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return p.numberOfPresentEntries == 0
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}
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// NumberOfPresentEntries returns the number of entries in the queue.
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func (p *packetNumberIndexedQueue[T]) NumberOfPresentEntries() int {
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return p.numberOfPresentEntries
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}
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// EntrySlotsUsed returns the number of entries allocated in the underlying deque. This is
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// proportional to the memory usage of the queue.
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func (p *packetNumberIndexedQueue[T]) EntrySlotsUsed() int {
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return p.entries.Len()
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}
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// LastPacket returns packet number of the first entry in the queue.
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func (p *packetNumberIndexedQueue[T]) FirstPacket() (packetNumber congestion.PacketNumber) {
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return p.firstPacket
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}
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// LastPacket returns packet number of the last entry ever inserted in the queue. Note that the
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// entry in question may have already been removed. Zero if the queue is
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// empty.
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func (p *packetNumberIndexedQueue[T]) LastPacket() (packetNumber congestion.PacketNumber) {
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if p.IsEmpty() {
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return invalidPacketNumber
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}
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return p.firstPacket + congestion.PacketNumber(p.entries.Len()-1)
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}
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func (p *packetNumberIndexedQueue[T]) clearup() {
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for !p.entries.Empty() && !p.entries.Front().present {
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p.entries.PopFront()
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p.firstPacket++
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}
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if p.entries.Empty() {
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p.firstPacket = invalidPacketNumber
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}
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}
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func (p *packetNumberIndexedQueue[T]) getEntryWraper(packetNumber congestion.PacketNumber) *entryWrapper[T] {
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if packetNumber == invalidPacketNumber ||
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p.IsEmpty() ||
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packetNumber < p.firstPacket {
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return nil
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}
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offset := int(packetNumber - p.firstPacket)
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if offset >= p.entries.Len() {
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return nil
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}
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ew := p.entries.Offset(offset)
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if ew == nil || !ew.present {
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return nil
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}
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return ew
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}
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