// Get basic message from database.
func GetMessage(log chan string, txidHash objects.Hash) *objects.Message {
mutex.Lock()
defer mutex.Unlock()
hash := txidHash.GetBytes()
if hashList == nil || dbConn == nil {
return nil
}
if hashList[string(hash)] != MSG && hashList[string(hash)] != PUB {
return nil
}
msg := new(objects.Message)
for s, err := dbConn.Query("SELECT * FROM msg WHERE hash=?", hash); err == nil; err = s.Next() {
var timestamp int64
encrypted := make([]byte, 0, 0)
txidhash := make([]byte, 0, 0)
addrhash := make([]byte, 0, 0)
s.Scan(&txidhash, &addrhash, ×tamp, &encrypted)
msg.TxidHash.FromBytes(txidhash)
msg.AddrHash.FromBytes(addrhash)
msg.Timestamp = time.Unix(timestamp, 0)
msg.Content.FromBytes(encrypted)
return msg
}
// Not Found
return nil
}
func (service *EMPService) PublishMessage(r *http.Request, args *SendMsg, reply *SendResponse) error {
if !basicAuth(service.Config, r) {
service.Config.Log <- fmt.Sprintf("Unauthorized RPC Request from: %s", r.RemoteAddr)
return errors.New("Unauthorized")
}
// Nil Check
if len(args.Sender) == 0 || len(args.Plaintext) == 0 {
return errors.New("All fields required.")
}
var err error
// Get Addresses
sendAddr := encryption.StringToAddress(args.Sender)
if len(sendAddr) == 0 {
return errors.New("Invalid sender address!")
}
sender, err := localdb.GetAddressDetail(objects.MakeHash(sendAddr))
if err != nil {
return errors.New(fmt.Sprintf("Error pulling send address from Database: %s", err))
}
if sender.Privkey == nil {
return errors.New("Private Key Required to Publish Message")
}
// Create New Message
msg := new(objects.FullMessage)
msg.Decrypted = new(objects.DecryptedMessage)
msg.Encrypted = nil
txid := make([]byte, len(msg.Decrypted.Txid), cap(msg.Decrypted.Txid))
// Fill out decrypted message
n, err := rand.Read(txid)
if n < len(msg.Decrypted.Txid[:]) || err != nil {
return errors.New(fmt.Sprintf("Problem with random reader: %s", err))
}
copy(msg.Decrypted.Pubkey[:], sender.Pubkey)
msg.Decrypted.Subject = args.Subject
msg.Decrypted.MimeType = "text/plain"
msg.Decrypted.Content = args.Plaintext
msg.Decrypted.Length = uint32(len(msg.Decrypted.Content))
// Fill Out Meta Message (save timestamp)
msg.MetaMessage.Purged = false
msg.MetaMessage.TxidHash = objects.MakeHash(txid)
msg.MetaMessage.Sender = sender.String
msg.MetaMessage.Recipient = "<Subscription Message>"
// Get Signature
priv := new(ecdsa.PrivateKey)
priv.PublicKey.Curve = encryption.GetCurve()
priv.D = new(big.Int)
priv.D.SetBytes(sender.Privkey)
sign := msg.Decrypted.GetBytes()
sign = sign[:len(sign)-65]
signHash := objects.MakeHash(sign)
x, y, err := ecdsa.Sign(rand.Reader, priv, signHash.GetBytes())
if err != nil {
return err
}
copy(msg.Decrypted.Signature[:], encryption.MarshalPubkey(x, y))
// Send message and add to sendbox...
msg.Encrypted = encryption.EncryptPub(service.Config.Log, sender.Privkey, string(msg.Decrypted.GetBytes()))
msg.MetaMessage.Timestamp = time.Now().Round(time.Second)
// Now Add Txid
copy(msg.Decrypted.Txid[:], txid)
err = localdb.AddUpdateMessage(msg, localdb.SENDBOX)
if err != nil {
return err
}
sendMsg := new(objects.Message)
sendMsg.TxidHash = msg.MetaMessage.TxidHash
sendMsg.AddrHash = objects.MakeHash(sender.Address)
sendMsg.Timestamp = msg.MetaMessage.Timestamp
sendMsg.Content = *msg.Encrypted
service.Config.RecvQueue <- *objects.MakeFrame(objects.PUB, objects.BROADCAST, sendMsg)
reply.IsSent = true
// Finish by setting msg's txid
reply.TxidHash = msg.MetaMessage.TxidHash.GetBytes()
return nil
}
// Starts a new TCP Server wth configuration specified in ApiConfig.
// Server will terminate cleanly only when data is sent to the Quit channel.
//
// See (struct ApiConfig) for details.
func Start(config *ApiConfig) {
var err error
var frame quibit.Frame
defer quit(config)
config.Log <- "Starting api..."
// Start Database Services
err = db.Initialize(config.Log, config.DbFile)
defer db.Cleanup()
if err != nil {
config.Log <- fmt.Sprintf("Error initializing database: %s", err)
config.Log <- "Quit"
return
}
config.LocalVersion.Timestamp = time.Now().Round(time.Second)
locVersion := objects.MakeFrame(objects.VERSION, objects.REQUEST, &config.LocalVersion)
for str, _ := range config.NodeList.Nodes {
locVersion.Peer = str
config.SendQueue <- *locVersion
}
// Set Up Clocks
second := time.Tick(2 * time.Second)
minute := time.Tick(time.Minute)
for {
select {
case frame = <-config.RecvQueue:
config.Log <- fmt.Sprintf("Received %s frame...", CmdString(frame.Header.Command))
switch frame.Header.Command {
case objects.VERSION:
version := new(objects.Version)
err = version.FromBytes(frame.Payload)
if err != nil {
config.Log <- fmt.Sprintf("Error parsing version: %s", err)
} else {
fVERSION(config, frame, version)
}
case objects.PEER:
nodeList := new(objects.NodeList)
err = nodeList.FromBytes(frame.Payload)
if err != nil {
config.Log <- fmt.Sprintf("Error parsing peer list: %s", err)
} else {
fPEER(config, frame, nodeList)
}
case objects.OBJ:
obj := new(objects.Obj)
err = obj.FromBytes(frame.Payload)
if err != nil {
config.Log <- fmt.Sprintf("Error parsing obj list: %s", err)
} else {
fOBJ(config, frame, obj)
}
case objects.GETOBJ:
getObj := new(objects.Hash)
if len(frame.Payload) == 0 {
break
}
err = getObj.FromBytes(frame.Payload)
if err != nil {
config.Log <- fmt.Sprintf("Error parsing getobj hash: %s", err)
} else {
fGETOBJ(config, frame, getObj)
}
case objects.PUBKEY_REQUEST:
pubReq := new(objects.Hash)
err = pubReq.FromBytes(frame.Payload)
if err != nil {
config.Log <- fmt.Sprintf("Error parsing pubkey request hash: %s", err)
} else {
fPUBKEY_REQUEST(config, frame, pubReq)
}
case objects.PUBKEY:
pub := new(objects.EncryptedPubkey)
err = pub.FromBytes(frame.Payload)
if err != nil {
config.Log <- fmt.Sprintf("Error parsing pubkey: %s", err)
} else {
fPUBKEY(config, frame, pub)
}
case objects.MSG:
msg := new(objects.Message)
err = msg.FromBytes(frame.Payload)
if err != nil {
config.Log <- fmt.Sprintf("Error parsing message: %s", err)
} else {
fMSG(config, frame, msg)
}
case objects.PUB:
msg := new(objects.Message)
err = msg.FromBytes(frame.Payload)
if err != nil {
config.Log <- fmt.Sprintf("Error parsing publication: %s", err)
} else {
fPUB(config, frame, msg)
}
case objects.PURGE:
purge := new(objects.Purge)
err = purge.FromBytes(frame.Payload)
if err != nil {
config.Log <- fmt.Sprintf("Error parsing purge: %s", err)
} else {
fPURGE(config, frame, purge)
}
case objects.CHECKTXID:
chkTxid := new(objects.Hash)
if len(frame.Payload) == 0 {
break
}
err = chkTxid.FromBytes(frame.Payload)
if err != nil {
config.Log <- fmt.Sprintf("Error parsing checktxid hash: %s", err)
} else {
fCHECKTXID(config, frame, chkTxid)
}
default:
config.Log <- fmt.Sprintf("Received invalid frame for command: %d", frame.Header.Command)
}
case <-config.Quit:
fmt.Println()
// Dump Nodes to File
DumpNodes(config)
return
case <-second:
// Reconnection Logic
for key, node := range config.NodeList.Nodes {
peer := quibit.GetPeer(key)
if peer == nil || !peer.IsConnected() {
quibit.KillPeer(key)
if node.Attempts >= 3 {
config.Log <- fmt.Sprintf("Max connection attempts reached for %s, disconnecting...", key)
// Max Attempts Reached, disconnect
delete(config.NodeList.Nodes, key)
} else {
config.Log <- fmt.Sprintf("Disconnected from peer %s, trying to reconnect...", key)
peer = new(quibit.Peer)
peer.IP = node.IP
peer.Port = node.Port
config.PeerQueue <- *peer
runtime.Gosched()
peer = nil
node.Attempts++
config.NodeList.Nodes[key] = node
locVersion.Peer = key
config.SendQueue <- *locVersion
}
}
}
if len(config.NodeList.Nodes) < 1 {
config.Log <- "All connections lost, re-bootstrapping..."
for i, str := range config.Bootstrap {
if i >= bufLen {
break
}
p := new(quibit.Peer)
n := new(objects.Node)
err := n.FromString(str)
if err != nil {
fmt.Println("Error Decoding Peer ", str, ": ", err)
continue
}
p.IP = n.IP
p.Port = n.Port
config.PeerQueue <- *p
runtime.Gosched()
config.NodeList.Nodes[n.String()] = *n
}
for str, _ := range config.NodeList.Nodes {
locVersion.Peer = str
config.SendQueue <- *locVersion
}
}
case <-minute:
// Dump old messages
err = db.SweepMessages(30 * 24 * time.Hour)
if err != nil {
config.Log <- fmt.Sprintf("Error Sweeping Messages: %s", err)
}
}
}
// Should NEVER get here!
panic("Must've been a cosmic ray!")
}