// Open loads an existing store at `brigPath/$ID/index.bolt`, if it does not
// exist, it is created. For full function, Connect() should be called
// afterwards.
func Open(brigPath string, owner id.Peer, IPFS *ipfsutil.Node) (*Store, error) {
dbDir := filepath.Join(
brigPath,
"bolt."+strings.Replace(string(owner.ID()), "/", "-", -1),
)
kv, err := NewBoltKV(dbDir)
if err != nil {
return nil, err
}
fs := NewFilesystem(kv)
st := &Store{
repoPath: brigPath,
IPFS: IPFS,
fs: fs,
kv: kv,
}
// This version does not attempt any version checking:
if err := fs.MetadataPut("version", []byte("1")); err != nil {
return nil, err
}
if err := st.setStoreOwner(owner); err != nil {
return nil, err
}
return st, err
}
// LastSeen returns the time when we've last seen `peer`
func (cp *conversationPool) LastSeen(peer id.Peer) time.Time {
cp.mu.Lock()
defer cp.mu.Unlock()
if pinger := cp.heartbeat[peer.ID()]; pinger != nil {
return pinger.LastSeen()
}
return time.Unix(0, 0)
}
func (st *Store) setStoreOwner(owner id.Peer) error {
if err := st.fs.MetadataPut("id", []byte(owner.ID())); err != nil {
return err
}
if err := st.fs.MetadataPut("hash", []byte(owner.Hash())); err != nil {
return err
}
return nil
}
// NewConversation returns a conversation that exchanges data over `conn`.
func NewConversation(conn net.Conn, node *ipfsutil.Node, peer id.Peer) (*Conversation, error) {
proto, err := wrapConnAsProto(conn, node, peer.Hash())
if err != nil {
return nil, err
}
cnv := &Conversation{
conn: conn,
node: node,
peer: peer,
proto: proto,
notifees: make(map[int64]transfer.AsyncFunc),
}
// Cater responses:
go func() {
for {
resp := wire.Response{}
err := cnv.proto.Recv(&resp)
if isEOFError(err) {
break
}
if err != nil {
log.Warningf("Error while receiving data: %v", err)
continue
}
respID := resp.ID
cnv.Lock()
fn, ok := cnv.notifees[respID]
if !ok {
log.Warningf("No such id: %v", respID)
cnv.Unlock()
continue
}
// Remove the callback
delete(cnv.notifees, respID)
cnv.Unlock()
fn(&resp)
}
}()
return cnv, nil
}
// Forget removes a peer from the pool and cleans up after it.
func (cp *conversationPool) Forget(peer id.Peer) error {
cp.mu.Lock()
defer cp.mu.Unlock()
peerID := peer.ID()
cnv, ok := cp.open[peerID]
if !ok {
return repo.ErrNoSuchRemote(peerID)
}
if pinger, ok := cp.heartbeat[peerID]; ok {
pinger.Close()
}
delete(cp.open, peerID)
delete(cp.heartbeat, peerID)
return cnv.Close()
}
// Dial returns an APIClient that is connected to `peer`.
// If there's already a conversation to that peer no new
// connection will be created.
//
// It will return ErrOffline if the connector is not connected.
//
// Note: All connections will be multiplexed over ipfs' swarm.
func (cn *Connector) Dial(peer id.Peer) (*APIClient, error) {
if !cn.IsInOnlineMode() {
return nil, ErrOffline
}
// Check if we're allowed to connect to that node:
if _, err := cn.rp.Remotes.Get(peer.ID()); err != nil {
return nil, err
}
cnv, err := cn.layer.Dial(peer)
if err != nil {
return nil, err
}
if err := cn.cp.Remember(peer, cnv); err != nil {
return nil, err
}
return newAPIClient(cnv, cn.rp.IPFS)
}
func (cp *conversationPool) rememberUnlocked(peer id.Peer, cnv Conversation) error {
cp.open[peer.ID()] = cnv
// Create a new pinger if not already done:
if _, ok := cp.heartbeat[peer.ID()]; !ok {
pinger, err := cp.rp.IPFS.Ping(peer.Hash())
if err != nil {
return err
}
cp.heartbeat[peer.ID()] = pinger
}
return nil
}
func NewRemoteFromPeer(peer id.Peer) Remote {
return NewRemote(peer.ID(), peer.Hash())
}
func (id *ipfsDialer) Dial(peer id.Peer) (net.Conn, error) {
log.Debugf("IPFS dialing to %v", peer.Hash())
return id.node.Dial(peer.Hash(), id.layer.ProtocolID())
}
