status-go/vendor/github.com/pion/rtcp/compound_packet.go

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2022-03-10 09:44:48 +00:00
package rtcp
import (
"fmt"
"strings"
)
// A CompoundPacket is a collection of RTCP packets transmitted as a single packet with
// the underlying protocol (for example UDP).
//
// To maximize the resolution of receiption statistics, the first Packet in a CompoundPacket
// must always be either a SenderReport or a ReceiverReport. This is true even if no data
// has been sent or received, in which case an empty ReceiverReport must be sent, and even
// if the only other RTCP packet in the compound packet is a Goodbye.
//
// Next, a SourceDescription containing a CNAME item must be included in each CompoundPacket
// to identify the source and to begin associating media for purposes such as lip-sync.
//
// Other RTCP packet types may follow in any order. Packet types may appear more than once.
type CompoundPacket []Packet
// Validate returns an error if this is not an RFC-compliant CompoundPacket.
func (c CompoundPacket) Validate() error {
if len(c) == 0 {
return errEmptyCompound
}
// SenderReport and ReceiverReport are the only types that
// are allowed to be the first packet in a compound datagram
switch c[0].(type) {
case *SenderReport, *ReceiverReport:
// ok
default:
return errBadFirstPacket
}
for _, pkt := range c[1:] {
switch p := pkt.(type) {
// If the number of RecetpionReports exceeds 31 additional ReceiverReports
// can be included here.
case *ReceiverReport:
continue
// A SourceDescription containing a CNAME must be included in every
// CompoundPacket.
case *SourceDescription:
var hasCNAME bool
for _, c := range p.Chunks {
for _, it := range c.Items {
if it.Type == SDESCNAME {
hasCNAME = true
}
}
}
if !hasCNAME {
return errMissingCNAME
}
return nil
// Other packets are not permitted before the CNAME
default:
return errPacketBeforeCNAME
}
}
// CNAME never reached
return errMissingCNAME
}
// CNAME returns the CNAME that *must* be present in every CompoundPacket
func (c CompoundPacket) CNAME() (string, error) {
var err error
if len(c) < 1 {
return "", errEmptyCompound
}
for _, pkt := range c[1:] {
sdes, ok := pkt.(*SourceDescription)
if ok {
for _, c := range sdes.Chunks {
for _, it := range c.Items {
if it.Type == SDESCNAME {
return it.Text, err
}
}
}
} else {
_, ok := pkt.(*ReceiverReport)
if !ok {
err = errPacketBeforeCNAME
}
}
}
return "", errMissingCNAME
}
// Marshal encodes the CompoundPacket as binary.
func (c CompoundPacket) Marshal() ([]byte, error) {
if err := c.Validate(); err != nil {
return nil, err
}
p := []Packet(c)
return Marshal(p)
}
// Unmarshal decodes a CompoundPacket from binary.
func (c *CompoundPacket) Unmarshal(rawData []byte) error {
out := make(CompoundPacket, 0)
for len(rawData) != 0 {
p, processed, err := unmarshal(rawData)
if err != nil {
return err
}
out = append(out, p)
rawData = rawData[processed:]
}
*c = out
if err := c.Validate(); err != nil {
return err
}
return nil
}
// DestinationSSRC returns the synchronization sources associated with this
// CompoundPacket's reception report.
func (c CompoundPacket) DestinationSSRC() []uint32 {
if len(c) == 0 {
return nil
}
return c[0].DestinationSSRC()
}
func (c CompoundPacket) String() string {
out := "CompoundPacket\n"
for _, p := range c {
stringer, canString := p.(fmt.Stringer)
if canString {
out += stringer.String()
} else {
out += stringify(p)
}
}
out = strings.TrimSuffix(strings.ReplaceAll(out, "\n", "\n\t"), "\t")
return out
}