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fetch.go
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// Package segmented publishes and retrieves segmented objects.
package segmented
import (
"bytes"
"context"
"fmt"
"io"
"math"
"time"
"github.com/usnistgov/ndn-dpdk/core/rttest"
"github.com/usnistgov/ndn-dpdk/ndn"
"github.com/usnistgov/ndn-dpdk/ndn/an"
"github.com/usnistgov/ndn-dpdk/ndn/endpoint"
"github.com/usnistgov/ndn-dpdk/ndn/l3"
"github.com/usnistgov/ndn-dpdk/ndn/tlv"
)
// SegmentRange specifies range of segment numbers.
type SegmentRange struct {
// SegmentBegin is the first segment number.
// Default is zero.
SegmentBegin uint64 `json:"segmentBegin,omitempty"`
// SegmentEnd is the last segment number plus one.
// Default is math.MaxUint64.
//
// Data FinalBlock field is always respected.
SegmentEnd uint64 `json:"segmentEnd,omitempty"`
}
// SegmentRangeApplyDefaults applies defaults in SegmentRange struct.
func (opts *SegmentRange) SegmentRangeApplyDefaults() {
if opts.SegmentEnd == 0 {
opts.SegmentEnd = math.MaxUint64
}
}
// FetchOptions contains options for Fetch function.
type FetchOptions struct {
SegmentRange
// Fw specifies the L3 Forwarder.
// Default is the default Forwarder.
Fw l3.Forwarder `json:"-"`
// RetxLimit is the maximum number of retransmissions, excluding initial Interest.
// Default is no retransmission.
RetxLimit int `json:"retxLimit,omitempty"`
// MaxCwnd is the maximum effective congestion window.
// Default is no limitation.
MaxCwnd int `json:"maxCwnd,omitempty"`
// Verifier is a public key to verify Data.
// Default is NopVerifier.
Verifier ndn.Verifier `json:"-"`
}
func (opts *FetchOptions) applyDefaults() {
opts.SegmentRangeApplyDefaults()
if opts.MaxCwnd == 0 {
opts.MaxCwnd = math.MaxInt32
}
if opts.Verifier == nil {
opts.Verifier = ndn.NopVerifier
}
}
// FetchResult contains result of Fetch function.
//
// Fetching is lazy, and it starts when an output format is accessed.
// You may only access one output format on this instance, and it can be accessed only once.
type FetchResult interface {
// Unordered emits Data packets as they arrive, not sorted in segment number order.
Unordered(ctx context.Context, unordered chan<- *ndn.Data) error
// Ordered emits Data packets in segment number order.
Ordered(ctx context.Context, ordered chan<- *ndn.Data) error
// Chunks emits Data packet payload in segment number order.
Chunks(ctx context.Context, chunks chan<- []byte) error
// Pipe writes the payload to the Writer.
Pipe(ctx context.Context, w io.Writer) error
// Packet returns a slice of Data packets.
Packets(ctx context.Context) ([]*ndn.Data, error)
// Payload returns reassembled payload.
Payload(ctx context.Context) ([]byte, error)
// Count returns the number of segments retrieved so far.
Count() int
// EstimatedTotal returns the estimated number of total segments.
// Returns -1 if unknown.
EstimatedTotal() int
}
// Fetch retrieves a segmented object.
func Fetch(name ndn.Name, opts FetchOptions) FetchResult {
opts.applyDefaults()
return &fetcher{
FetchOptions: opts,
prefix: name,
finalBlock: math.MaxUint64,
}
}
type fetcher struct {
FetchOptions
prefix ndn.Name
count int
finalBlock uint64
}
func (f *fetcher) makeInterest(seg uint64) ndn.Interest {
name := f.prefix.Append(makeSegmentNameComponent(seg))
return ndn.MakeInterest(name)
}
func (f *fetcher) unverified(ctx context.Context, unverified chan<- *ndn.Data) error {
defer close(unverified)
face, e := endpoint.NewLFace(f.Fw)
if e != nil {
return e
}
defer face.Close()
rtte := rttest.New()
ca := newCubic()
var nextCwndDecrease time.Time
decreaseCwnd := func(now time.Time) bool {
if now.Before(nextCwndDecrease) {
// react to one congestion event per RTO
return false
}
nextCwndDecrease = now.Add(rtte.RTO())
ca.Decrease(now)
return true
}
pendings := map[uint64]*fetchSeg{}
retxQ := makeRetxQueue()
ticker := time.NewTicker(time.Millisecond)
segNext, segLast := f.SegmentBegin, f.SegmentEnd-1
defer ticker.Stop()
for {
select {
case <-ctx.Done():
return ctx.Err()
case <-ticker.C:
// unblock for periodical tasks
case l3pkt := <-face.Rx():
pkt := l3pkt.ToPacket()
if pkt.Data == nil {
break
}
now := time.Now()
seg, ok := extractSegment(pkt.Data.Name, len(f.prefix))
if !ok || !f.prefix.IsPrefixOf(pkt.Data.Name) {
break
}
fs, ok := pendings[seg]
if !ok {
break
}
if pkt.Data.FinalBlock.Type == an.TtSegmentNameComponent {
var finalSeg tlv.NNI
if e := finalSeg.UnmarshalBinary(pkt.Data.FinalBlock.Value); e == nil {
f.finalBlock = uint64(finalSeg + 1)
}
}
rtt := now.Sub(fs.TxTime)
if fs.NRetx == 0 {
rtte.Push(rtt, len(pendings))
}
if pkt.Lp.CongMark != 0 {
decreaseCwnd(now)
} else {
ca.Increase(now, rtt)
}
if pkt.Data.IsFinalBlock() {
segLast = seg
}
f.count++
unverified <- pkt.Data
retxQ.Delete(fs)
delete(pendings, seg)
}
now := time.Now()
for seg, fs := range pendings {
if seg > segLast {
retxQ.Delete(fs)
delete(pendings, seg)
continue
}
if fs.RetxQNode == nil && fs.RtoExpiry.Before(now) {
if fs.NRetx >= f.RetxLimit {
return fmt.Errorf("exceed retx limit on segment %d", seg)
}
// effective time of RTO backoff and cwnd decrease is when RTO timer expired, not 'now'
if decreaseCwnd(fs.RtoExpiry) {
rtte.Backoff()
}
retxQ.Push(seg, fs)
}
}
switch {
case len(pendings)-retxQ.N >= min(ca.Cwnd(), f.MaxCwnd):
// congestion window full
case retxQ.N > 0:
seg, fs := retxQ.Pop(pendings)
fs.setTimeNow(rtte.RTO())
fs.NRetx++
face.Send(f.makeInterest(seg).ToPacket())
case segNext <= segLast:
seg := segNext
segNext++
fs := &fetchSeg{}
fs.setTimeNow(rtte.RTO())
pendings[seg] = fs
face.Send(f.makeInterest(seg).ToPacket())
case len(pendings) == 0:
return nil
}
}
}
func (f *fetcher) Unordered(ctx context.Context, unordered chan<- *ndn.Data) error {
defer close(unordered)
unverified := make(chan *ndn.Data)
done := make(chan error)
innerCtx, cancel := context.WithCancel(ctx)
defer cancel()
go func() { done <- f.unverified(innerCtx, unverified) }()
for data := range unverified {
if e := f.Verifier.Verify(data); e != nil {
cancel()
seg, _ := extractSegment(data.Name, len(f.prefix))
return fmt.Errorf("verify segment %d: %w", seg, e)
}
unordered <- data
}
cancel()
return <-done
}
func (f *fetcher) Ordered(ctx context.Context, ordered chan<- *ndn.Data) error {
defer close(ordered)
unordered := make(chan *ndn.Data)
done := make(chan error)
go func() { done <- f.Unordered(ctx, unordered) }()
next := f.SegmentBegin
buffer := map[uint64]*ndn.Data{}
for data := range unordered {
seg, ok := extractSegment(data.Name, len(f.prefix))
switch {
case !ok, seg < next:
continue
case seg == next:
ordered <- data
next++
for {
data, ok = buffer[next]
if !ok {
break
}
delete(buffer, next)
ordered <- data
next++
}
case seg > next:
buffer[seg] = data
}
}
if e := <-done; e != nil {
return e
}
if n := len(buffer); n > 0 {
return fmt.Errorf("%d segments are not reassembled", len(buffer))
}
return nil
}
func (f *fetcher) Chunks(ctx context.Context, chunks chan<- []byte) error {
defer close(chunks)
ordered := make(chan *ndn.Data)
done := make(chan error)
go func() { done <- f.Ordered(ctx, ordered) }()
for data := range ordered {
chunks <- data.Content
}
return <-done
}
func (f *fetcher) Pipe(ctx context.Context, w io.Writer) error {
innerCtx, cancel := context.WithCancel(ctx)
defer cancel()
chunks := make(chan []byte)
done := make(chan error)
go func() { done <- f.Chunks(innerCtx, chunks) }()
for chunk := range chunks {
if _, e := w.Write(chunk); e != nil {
return e
}
}
cancel()
return <-done
}
func (f *fetcher) Packets(ctx context.Context) (packets []*ndn.Data, e error) {
ordered := make(chan *ndn.Data)
done := make(chan error)
go func() { done <- f.Ordered(ctx, ordered) }()
for packet := range ordered {
packets = append(packets, packet)
}
if e := <-done; e != nil {
return nil, e
}
return packets, nil
}
func (f *fetcher) Payload(ctx context.Context) ([]byte, error) {
ordered := make(chan []byte)
done := make(chan error)
go func() { done <- f.Chunks(ctx, ordered) }()
chunks := make([][]byte, 0)
for chunk := range ordered {
chunks = append(chunks, chunk)
}
if e := <-done; e != nil {
return nil, e
}
return bytes.Join(chunks, nil), nil
}
func (f *fetcher) Count() int {
return f.count
}
func (f *fetcher) EstimatedTotal() int {
segLast := min(f.SegmentEnd, f.finalBlock)
if segLast == math.MaxUint64 {
return -1
}
return int(segLast - f.SegmentBegin)
}