#include "lerror.h" #include "lmem.h" #include "lpeer.h" struct sLaika_peer *laikaS_newPeer(PeerPktHandler *handlers, LAIKAPKT_SIZE *pktSizeTable, struct sLaika_pollList *pList, void *uData) { struct sLaika_peer *peer = laikaM_malloc(sizeof(struct sLaika_peer)); laikaS_initSocket(&peer->sock); peer->handlers = handlers; peer->pktSizeTable = pktSizeTable; peer->pList = pList; peer->uData = uData; peer->pktSize = 0; peer->type = PEER_UNVERIFIED; peer->pktID = LAIKAPKT_MAXNONE; peer->setPollOut = false; peer->outStart = -1; peer->inStart = -1; peer->useSecure = false; memset(peer->hostname, 0, LAIKA_HOSTNAME_LEN); memset(peer->ipv4, 0, LAIKA_IPV4_LEN); return peer; } void laikaS_freePeer(struct sLaika_peer *peer) { laikaS_cleanSocket(&peer->sock); laikaM_free(peer); } void laikaS_startOutPacket(struct sLaika_peer *peer, LAIKAPKT_ID id) { struct sLaika_socket *sock = &peer->sock; if (peer->outStart != -1) { /* sanity check */ LAIKA_ERROR("unended OUT packet!\n") } laikaS_writeByte(sock, id); peer->outStart = sock->outCount; if (peer->useSecure) { /* if we're encrypting this packet, append the nonce right after the packet ID */ uint8_t nonce[crypto_secretbox_NONCEBYTES]; randombytes_buf(nonce, crypto_secretbox_NONCEBYTES); laikaS_write(sock, nonce, crypto_secretbox_NONCEBYTES); } } int laikaS_endOutPacket(struct sLaika_peer *peer) { struct sLaika_socket *sock = &peer->sock; uint8_t *body; size_t sz; if (peer->useSecure) { /* make sure we have enough space */ laikaM_growarray(uint8_t, sock->outBuf, crypto_secretbox_MACBYTES, sock->outCount, sock->outCap); /* packet body starts after the id & nonce */ body = &sock->outBuf[peer->outStart + crypto_secretbox_NONCEBYTES]; /* encrypt packet body in-place */ if (crypto_secretbox_easy(body, body, (sock->outCount - peer->outStart) - crypto_secretbox_NONCEBYTES, &sock->outBuf[peer->outStart], peer->outKey) != 0) { LAIKA_ERROR("Failed to encrypt packet!\n") } sock->outCount += crypto_secretbox_MACBYTES; } /* add to pollList's out queue */ laikaP_pushOutQueue(peer->pList, peer); sz = sock->outCount - peer->outStart; peer->outStart = -1; return sz; } void laikaS_startVarPacket(struct sLaika_peer *peer, LAIKAPKT_ID id) { struct sLaika_socket *sock = &peer->sock; if (peer->outStart != -1) { /* sanity check */ LAIKA_ERROR("unended OUT packet!\n") } laikaS_writeByte(sock, LAIKAPKT_VARPKT); laikaS_zeroWrite(sock, sizeof(LAIKAPKT_SIZE)); /* allocate space for packet size to patch later */ laikaS_startOutPacket(peer, id); } int laikaS_endVarPacket(struct sLaika_peer *peer) { struct sLaika_socket *sock = &peer->sock; int patchIndx = peer->outStart - (sizeof(LAIKAPKT_SIZE) + sizeof(LAIKAPKT_ID)); /* gets index of packet size */ LAIKAPKT_SIZE sz = (LAIKAPKT_SIZE)laikaS_endOutPacket(peer); /* patch packet size */ memcpy((void*)&sock->outBuf[patchIndx], (void*)&sz, sizeof(LAIKAPKT_SIZE)); return sz; } void laikaS_startInPacket(struct sLaika_peer *peer, bool variadic) { struct sLaika_socket *sock = &peer->sock; if (peer->inStart != -1) { /* sanity check */ LAIKA_ERROR("unended IN packet!\n") } /* if we're encrypting/decrypting all packets, make sure to make the packetsize reflect this */ if (peer->useSecure && !variadic) peer->pktSize += crypto_secretbox_MACBYTES + crypto_secretbox_NONCEBYTES; peer->inStart = sock->inCount; } int laikaS_endInPacket(struct sLaika_peer *peer) { struct sLaika_socket *sock = &peer->sock; uint8_t *body; size_t sz = sock->inCount - peer->inStart; if (peer->useSecure) { body = &sock->inBuf[peer->inStart + crypto_secretbox_NONCEBYTES]; /* decrypt packet body in-place */ if (crypto_secretbox_open_easy(body, body, (sock->inCount - peer->inStart) - crypto_secretbox_NONCEBYTES, &sock->inBuf[peer->inStart], peer->inKey) != 0) { LAIKA_ERROR("Failed to decrypt packet!\n") } /* decrypted message is smaller now */ sock->inCount -= crypto_secretbox_MACBYTES; /* remove nonce */ laikaM_rmvarray(sock->inBuf, sock->inCount, peer->inStart, crypto_secretbox_NONCEBYTES); sz -= crypto_secretbox_MACBYTES + crypto_secretbox_NONCEBYTES; } peer->inStart = -1; return sz; } void laikaS_setSecure(struct sLaika_peer *peer, bool flag) { peer->useSecure = flag; } bool laikaS_handlePeerIn(struct sLaika_peer *peer) { RAWSOCKCODE err; int recvd; switch (peer->pktID) { case LAIKAPKT_MAXNONE: /* try grabbing pktID */ if (laikaS_rawRecv(&peer->sock, sizeof(uint8_t), &recvd) != RAWSOCK_OK) return false; /* read packet ID & mark start of packet */ peer->pktID = laikaS_readByte(&peer->sock); /* LAIKAPKT_VARPKT's body is unencrypted, and handled by this switch statement. LAIKAPKT_VARPKT is also likely not to be defined in our pktSizeTable. the LAIKAPKT_VARPKT case calls laikaS_startInPacket for itself, so skip all of this */ if (peer->pktID == LAIKAPKT_VARPKT) break; /* sanity check pktID, pktSize && pktID's handler */ if (peer->pktID >= LAIKAPKT_MAXNONE || (peer->pktSize = peer->pktSizeTable[peer->pktID]) == 0 || peer->handlers[peer->pktID] == NULL) LAIKA_ERROR("peer %lx doesn't support packet id [%d]!\n", peer, peer->pktID); /* if peer->useSecure is true, body is encrypted */ laikaS_startInPacket(peer, false); break; case LAIKAPKT_VARPKT: /* try grabbing pktID & size */ if (laikaS_rawRecv(&peer->sock, sizeof(LAIKAPKT_ID) + sizeof(LAIKAPKT_SIZE), &recvd) != RAWSOCK_OK) return false; if (recvd != sizeof(LAIKAPKT_ID) + sizeof(LAIKAPKT_SIZE)) LAIKA_ERROR("couldn't read whole LAIKAPKT_VARPKT\n") /* read packet size */ laikaS_readInt(&peer->sock, (void*)&peer->pktSize, sizeof(LAIKAPKT_SIZE)); if (peer->pktSize > LAIKA_MAX_PKTSIZE) LAIKA_ERROR("variable packet too large!\n") /* read pktID */ peer->pktID = laikaS_readByte(&peer->sock); /* sanity check pktID, check valid range, check it's variadic (marked by a size of 0 & a defined packet handler) */ if (peer->pktID >= LAIKAPKT_MAXNONE || peer->pktSizeTable[peer->pktID] != 0 || peer->handlers[peer->pktID] == NULL) LAIKA_ERROR("requested packet id [%d] is not variadic!\n", peer->pktID) /* if peer->useSecure is true, body is encrypted */ laikaS_startInPacket(peer, true); break; default: /* try grabbing the rest of the packet */ if (laikaS_rawRecv(&peer->sock, peer->pktSize - peer->sock.inCount, &recvd) != RAWSOCK_OK) return false; /* have we received the full packet? */ if (peer->pktSize == peer->sock.inCount) { peer->pktSize = laikaS_endInPacket(peer); /* dispatch to packet handler */ peer->handlers[peer->pktID](peer, peer->pktSize, peer->uData); /* reset */ peer->sock.inCount = 0; peer->pktID = LAIKAPKT_MAXNONE; } break; } return laikaS_isAlive((&peer->sock)); } bool laikaS_handlePeerOut(struct sLaika_peer *peer) { RAWSOCKCODE err; int sent; if (peer->sock.outCount == 0) /* sanity check */ return true; switch (laikaS_rawSend(&peer->sock, peer->sock.outCount, &sent)) { case RAWSOCK_OK: /* we're ok! */ if (peer->setPollOut) { /* if POLLOUT was set, unset it */ laikaP_rmvPollOut(peer->pList, &peer->sock); peer->setPollOut = false; } return true; case RAWSOCK_POLL: /* we've been asked to set the POLLOUT flag */ if (!peer->setPollOut) { /* if POLLOUT wasn't set, set it so we'll be notified whenever the kernel has room :) */ laikaP_addPollOut(peer->pList, &peer->sock); peer->setPollOut = true; } return true; default: /* panic! */ case RAWSOCK_CLOSED: case RAWSOCK_ERROR: return false; } }