// Package bittorrent implements all of the abstractions used to decouple the
// protocol of a BitTorrent tracker from the logic of handling Announces and
// Scrapes.
package bittorrent
import (
"fmt"
"net"
"time"
"github.com/chihaya/chihaya/pkg/log"
)
// PeerID represents a peer ID.
type PeerID [20]byte
// PeerIDFromBytes creates a PeerID from a byte slice.
//
// It panics if b is not 20 bytes long.
func PeerIDFromBytes(b []byte) PeerID {
if len(b) != 20 {
panic("peer ID must be 20 bytes")
}
var buf [20]byte
copy(buf[:], b)
return PeerID(buf)
}
// String implements fmt.Stringer, returning the base16 encoded PeerID.
func (p PeerID) String() string {
return fmt.Sprintf("%x", p[:])
}
// RawString returns a 20-byte string of the raw bytes of the ID.
func (p PeerID) RawString() string {
return string(p[:])
}
// PeerIDFromString creates a PeerID from a string.
//
// It panics if s is not 20 bytes long.
func PeerIDFromString(s string) PeerID {
if len(s) != 20 {
panic("peer ID must be 20 bytes")
}
var buf [20]byte
copy(buf[:], s)
return PeerID(buf)
}
// InfoHash represents an infohash.
type InfoHash [20]byte
// InfoHashFromBytes creates an InfoHash from a byte slice.
//
// It panics if b is not 20 bytes long.
func InfoHashFromBytes(b []byte) InfoHash {
if len(b) != 20 {
panic("infohash must be 20 bytes")
}
var buf [20]byte
copy(buf[:], b)
return InfoHash(buf)
}
// InfoHashFromString creates an InfoHash from a string.
//
// It panics if s is not 20 bytes long.
func InfoHashFromString(s string) InfoHash {
if len(s) != 20 {
panic("infohash must be 20 bytes")
}
var buf [20]byte
copy(buf[:], s)
return InfoHash(buf)
}
// String implements fmt.Stringer, returning the base16 encoded InfoHash.
func (i InfoHash) String() string {
return fmt.Sprintf("%x", i[:])
}
// RawString returns a 20-byte string of the raw bytes of the InfoHash.
func (i InfoHash) RawString() string {
return string(i[:])
}
// AnnounceRequest represents the parsed parameters from an announce request.
type AnnounceRequest struct {
Event Event
InfoHash InfoHash
Compact bool
EventProvided bool
NumWantProvided bool
IPProvided bool
NumWant uint32
Left uint64
Downloaded uint64
Uploaded uint64
Peer
Params
}
// LogFields renders the current response as a set of log fields.
func (r AnnounceRequest) LogFields() log.Fields {
return log.Fields{
"event": r.Event,
"infoHash": r.InfoHash,
"compact": r.Compact,
"eventProvided": r.EventProvided,
"numWantProvided": r.NumWantProvided,
"ipProvided": r.IPProvided,
"numWant": r.NumWant,
"left": r.Left,
"downloaded": r.Downloaded,
"uploaded": r.Uploaded,
"peer": r.Peer,
"params": r.Params,
}
}
// AnnounceResponse represents the parameters used to create an announce
// response.
type AnnounceResponse struct {
Compact bool
Complete uint32
Incomplete uint32
Interval time.Duration
MinInterval time.Duration
IPv4Peers []Peer
IPv6Peers []Peer
}
// LogFields renders the current response as a set of log fields.
func (r AnnounceResponse) LogFields() log.Fields {
return log.Fields{
"compact": r.Compact,
"complete": r.Complete,
"interval": r.Interval,
"minInterval": r.MinInterval,
"ipv4Peers": r.IPv4Peers,
"ipv6Peers": r.IPv6Peers,
}
}
// ScrapeRequest represents the parsed parameters from a scrape request.
type ScrapeRequest struct {
AddressFamily AddressFamily
InfoHashes []InfoHash
Params Params
}
// LogFields renders the current response as a set of log fields.
func (r ScrapeRequest) LogFields() log.Fields {
return log.Fields{
"addressFamily": r.AddressFamily,
"infoHashes": r.InfoHashes,
"params": r.Params,
}
}
// ScrapeResponse represents the parameters used to create a scrape response.
//
// The Scrapes must be in the same order as the InfoHashes in the corresponding
// ScrapeRequest.
type ScrapeResponse struct {
Files []Scrape
}
// LogFields renders the current response as a set of Logrus fields.
func (sr ScrapeResponse) LogFields() log.Fields {
return log.Fields{
"files": sr.Files,
}
}
// Scrape represents the state of a swarm that is returned in a scrape response.
type Scrape struct {
InfoHash InfoHash
Snatches uint32
Complete uint32
Incomplete uint32
}
// AddressFamily is the address family of an IP address.
type AddressFamily uint8
func (af AddressFamily) String() string {
switch af {
case IPv4:
return "IPv4"
case IPv6:
return "IPv6"
default:
panic("tried to print unknown AddressFamily")
}
}
// AddressFamily constants.
const (
IPv4 AddressFamily = iota
IPv6
)
// IP is a net.IP with an AddressFamily.
type IP struct {
net.IP
AddressFamily
}
func (ip IP) String() string {
return ip.IP.String()
}
// Peer represents the connection details of a peer that is returned in an
// announce response.
type Peer struct {
ID PeerID
IP IP
Port uint16
}
// String implements fmt.Stringer to return a human-readable representation.
// The string will have the format <PeerID>@[<IP>]:<port>, for example
// "0102030405060708090a0b0c0d0e0f1011121314@[10.11.12.13]:1234"
func (p Peer) String() string {
return fmt.Sprintf("%s@[%s]:%d", p.ID.String(), p.IP.String(), p.Port)
}
// LogFields renders the current peer as a set of Logrus fields.
func (p Peer) LogFields() log.Fields {
return log.Fields{
"ID": p.ID,
"IP": p.IP,
"port": p.Port,
}
}
// Equal reports whether p and x are the same.
func (p Peer) Equal(x Peer) bool { return p.EqualEndpoint(x) && p.ID == x.ID }
// EqualEndpoint reports whether p and x have the same endpoint.
func (p Peer) EqualEndpoint(x Peer) bool { return p.Port == x.Port && p.IP.Equal(x.IP.IP) }
// ClientError represents an error that should be exposed to the client over
// the BitTorrent protocol implementation.
type ClientError string
// Error implements the error interface for ClientError.
func (c ClientError) Error() string { return string(c) }