/* vim: set expandtab ts=4 sw=4: */ /* * You may redistribute this program and/or modify it under the terms of * the GNU General Public License as published by the Free Software Foundation, * either version 3 of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "benc/Dict.h" #include "crypto/AddressCalc.h" #include "memory/Allocator.h" #include "dht/Address.h" #include "dht/CJDHTConstants.h" #include "util/Pinger.h" #include "subnode/MsgCore.h" #include "benc/serialization/standard/BencMessageReader.h" #include "benc/serialization/standard/BencMessageWriter.h" #include "switch/EncodingScheme.h" #include "util/Escape.h" #include "util/Defined.h" #include "wire/Message.h" #include "wire/DataHeader.h" #include "wire/RouteHeader.h" #include "wire/Error.h" #define DEFAULT_TIMEOUT_MILLISECONDS 6000 struct ReplyContext { struct Address* src; Dict* content; Message_t* msg; Identity }; struct QueryHandler { struct MsgCore_Handler pub; String* queryType; struct Allocator* alloc; struct MsgCore_pvt* mcp; Identity }; #define ArrayList_TYPE struct QueryHandler #define ArrayList_NAME OfQueryHandlers #include "util/ArrayList.h" struct MsgCore_pvt { struct MsgCore pub; struct ArrayList_OfQueryHandlers* qh; struct Pinger* pinger; struct Log* log; String* schemeDefinition; struct EncodingScheme* scheme; /** Hack hack hack: This should be passed through Pinger.h but the API doesn't exist. */ struct ReplyContext* currentReply; Identity }; struct MsgCore_Promise_pvt { struct MsgCore_Promise pub; struct MsgCore_pvt* mcp; struct Pinger_Ping* ping; Identity }; static Iface_DEFUN replyMsg(struct MsgCore_pvt* mcp, Dict* content, struct Address* src, Message_t* msg) { Log_debug(mcp->log, "Got reply from [%s]", Address_toString(src, Message_getAlloc(msg))->bytes); String* txid = Dict_getStringC(content, "txid"); if (!txid) { Log_debug(mcp->log, "DROP Message with no txid"); return Error(msg, "INVALID"); } struct ReplyContext* rc = Allocator_calloc(Message_getAlloc(msg), sizeof(struct ReplyContext), 1); rc->src = src; rc->content = content; rc->msg = msg; Identity_set(rc); Assert_true(!mcp->currentReply); mcp->currentReply = rc; // Pops out in pingerOnResponse() if the reply is indeed valid... Pinger_pongReceived(txid, mcp->pinger); mcp->currentReply = NULL; return NULL; } static void pingerOnResponse(String* data, uint32_t milliseconds, void* context) { struct MsgCore_Promise_pvt* pp = Identity_check((struct MsgCore_Promise_pvt*) context); struct MsgCore_pvt* mcp = Identity_check(pp->mcp); struct ReplyContext* rc = NULL; if (mcp->currentReply) { rc = Identity_check(mcp->currentReply); } pp->pub.lag = milliseconds; if (pp->pub.cb) { pp->pub.cb((rc) ? rc->content : NULL, (rc) ? rc->src : NULL, &pp->pub); } } static void sendMsg(struct MsgCore_pvt* mcp, Dict* msgDict, struct Address* addr, struct Allocator* allocator) { struct Allocator* alloc = Allocator_child(allocator); // Send the encoding scheme definition Dict_putString(msgDict, CJDHTConstants_ENC_SCHEME, mcp->schemeDefinition, allocator); // And tell the asker which interface the message came from int encIdx = EncodingScheme_getFormNum(mcp->scheme, addr->path); Assert_true(encIdx != EncodingScheme_getFormNum_INVALID); Dict_putInt(msgDict, CJDHTConstants_ENC_INDEX, encIdx, allocator); // send the protocol version Dict_putInt(msgDict, CJDHTConstants_PROTOCOL, Version_CURRENT_PROTOCOL, allocator); String* q = Dict_getStringC(msgDict, "q"); String* sq = Dict_getStringC(msgDict, "sq"); if (q || sq) { Log_debug(mcp->log, "Send query [%s] to [%s]", ((q) ? q->bytes : sq->bytes), Address_toString(addr, alloc)->bytes); String* txid = Dict_getStringC(msgDict, "txid"); Assert_true(txid); String* newTxid = String_newBinary(NULL, txid->len + 2, alloc); Bits_memcpy(&newTxid->bytes[2], txid->bytes, txid->len); // Always direct queries to the old pathfinder newTxid->bytes[0] = '0'; newTxid->bytes[1] = '1'; Dict_putStringC(msgDict, "txid", newTxid, alloc); } Message_t* msg = Message_new(0, 2048, alloc); Er_assert(BencMessageWriter_write(msgDict, msg)); //Log_debug(mcp->log, "Sending msg [%s]", Escape_getEscaped(msg->bytes, Message_getLength(msg), alloc)); // Sanity check (make sure the addr was actually calculated) Assert_true(AddressCalc_validAddress(addr->ip6.bytes)); struct DataHeader data; Bits_memset(&data, 0, sizeof(struct DataHeader)); DataHeader_setVersion(&data, DataHeader_CURRENT_VERSION); DataHeader_setContentType(&data, ContentType_CJDHT); Er_assert(Message_epush(msg, &data, sizeof(struct DataHeader))); struct RouteHeader route; Bits_memset(&route, 0, sizeof(struct RouteHeader)); Bits_memcpy(route.ip6, addr->ip6.bytes, 16); route.version_be = Endian_hostToBigEndian32(addr->protocolVersion); route.sh.label_be = Endian_hostToBigEndian64(addr->path); Assert_true(route.sh.label_be != 0xffffffffffffffffull); route.flags |= RouteHeader_flags_PATHFINDER; Bits_memcpy(route.publicKey, addr->key, 32); Er_assert(Message_epush(msg, &route, sizeof(struct RouteHeader))); Iface_send(&mcp->pub.interRouterIf, msg); } void MsgCore_sendResponse(struct MsgCore* core, Dict* msgDict, struct Address* target, struct Allocator* alloc) { struct MsgCore_pvt* mcp = Identity_check((struct MsgCore_pvt*) core); sendMsg(mcp, msgDict, target, alloc); } static void pingerSendPing(String* data, void* context) { struct MsgCore_Promise_pvt* pp = Identity_check((struct MsgCore_Promise_pvt*) context); Assert_true(pp->pub.target); Assert_true(pp->pub.msg); Dict_putStringC(pp->pub.msg, "txid", data, pp->pub.alloc); sendMsg(pp->mcp, pp->pub.msg, pp->pub.target, pp->pub.alloc); } struct MsgCore_Promise* MsgCore_createQuery(struct MsgCore* core, uint32_t timeoutMilliseconds, struct Allocator* allocator) { struct MsgCore_pvt* mcp = Identity_check((struct MsgCore_pvt*) core); if (!timeoutMilliseconds) { timeoutMilliseconds = DEFAULT_TIMEOUT_MILLISECONDS; } struct Pinger_Ping* p = Pinger_newPing( NULL, pingerOnResponse, pingerSendPing, timeoutMilliseconds, allocator, mcp->pinger); struct MsgCore_Promise_pvt* out = Allocator_calloc(p->pingAlloc, sizeof(struct MsgCore_Promise_pvt), 1); Identity_set(out); p->context = out; out->pub.alloc = p->pingAlloc; out->mcp = mcp; out->ping = p; return &out->pub; } static struct QueryHandler* getQueryHandler(struct MsgCore_pvt* mcp, String* q) { for (int i = 0; i < mcp->qh->length; i++) { struct QueryHandler* qhx = ArrayList_OfQueryHandlers_get(mcp->qh, i); Identity_check(qhx); if (String_equals(qhx->queryType, q)) { return qhx; } } return NULL; } static Iface_DEFUN queryMsg(struct MsgCore_pvt* mcp, Dict* content, struct Address* src, Message_t* msg) { String* q = Dict_getStringC(content, "q"); struct QueryHandler* qh = getQueryHandler(mcp, q); if (!qh) { qh = getQueryHandler(mcp, String_CONST("pn")); } if (!qh) { Log_debug(mcp->log, "Unhandled query type [%s]", q->bytes); } else if (!qh->pub.cb) { Log_info(mcp->log, "Query handler for [%s] not setup", q->bytes); } else { return qh->pub.cb(content, src, Message_getAlloc(msg), &qh->pub); } return Error(msg, "INVALID"); } static void qhOnFree(struct Allocator_OnFreeJob* job) { struct QueryHandler* qh = Identity_check((struct QueryHandler*) job->userData); struct MsgCore_pvt* mcp = Identity_check((struct MsgCore_pvt*) qh->mcp); for (int i = 0; i < mcp->qh->length; i++) { struct QueryHandler* qhx = ArrayList_OfQueryHandlers_get(mcp->qh, i); if (qhx == qh) { ArrayList_OfQueryHandlers_remove(mcp->qh, i); return; } } } struct MsgCore_Handler* MsgCore_onQuery(struct MsgCore* core, char* queryType, struct Allocator* allocator) { struct MsgCore_pvt* mcp = Identity_check((struct MsgCore_pvt*) core); struct Allocator* alloc = Allocator_child(allocator); struct QueryHandler* qh = Allocator_calloc(alloc, sizeof(struct QueryHandler), 1); qh->queryType = String_new(queryType, alloc); qh->alloc = alloc; qh->mcp = mcp; Identity_set(qh); ArrayList_OfQueryHandlers_add(mcp->qh, qh); Allocator_onFree(alloc, qhOnFree, qh); return &qh->pub; } static Iface_DEFUN incoming(Message_t* msg, struct Iface* interRouterIf) { struct MsgCore_pvt* mcp = Identity_containerOf(interRouterIf, struct MsgCore_pvt, pub.interRouterIf); struct Address addr = { .padding = 0 }; struct RouteHeader* hdr = (struct RouteHeader*) Message_bytes(msg); Er_assert(Message_eshift(msg, -(RouteHeader_SIZE + DataHeader_SIZE))); Bits_memcpy(addr.ip6.bytes, hdr->ip6, 16); Bits_memcpy(addr.key, hdr->publicKey, 32); addr.protocolVersion = Endian_bigEndianToHost32(hdr->version_be); addr.path = Endian_bigEndianToHost64(hdr->sh.label_be); Dict* content = NULL; uint8_t* msgBytes = Message_bytes(msg); int length = Message_getLength(msg); //Log_debug(mcp->log, "Receive msg [%s] from [%s]", // Escape_getEscaped(msg->bytes, Message_getLength(msg), Message_getAlloc(msg)), // Address_toString(&addr, Message_getAlloc(msg))->bytes); // BencMessageReader_readNoExcept(msg, Message_getAlloc(msg), &content); if (!content) { char* esc = Escape_getEscaped(msgBytes, length, Message_getAlloc(msg)); Log_debug(mcp->log, "DROP Malformed message [%s]", esc); return Error(msg, "INVALID"); } int64_t* verP = Dict_getIntC(content, "p"); if (!verP) { Log_debug(mcp->log, "DROP Message without version"); return Error(msg, "INVALID"); } addr.protocolVersion = *verP; if (!addr.protocolVersion) { Log_debug(mcp->log, "DROP Message with zero version"); return Error(msg, "INVALID"); } String* q = Dict_getStringC(content, "q"); String* txid = Dict_getStringC(content, "txid"); if (!txid || !txid->len) { Log_debug(mcp->log, "Message with no txid [%s]", q ? (q->bytes) : "(no query)"); return Error(msg, "INVALID"); } if (q) { if (Defined(SUBNODE)) { return queryMsg(mcp, content, &addr, msg); } else { // Let the old pathfinder handle every query if it is present return NULL; } } else if (txid->len >= 2 && txid->bytes[0] == '0' && txid->bytes[1] == '1') { txid->bytes = &txid->bytes[2]; txid->len -= 2; return replyMsg(mcp, content, &addr, msg); } return Error(msg, "INVALID"); } struct MsgCore* MsgCore_new(EventBase_t* base, struct Random* rand, struct Allocator* allocator, struct Log* log, struct EncodingScheme* scheme) { struct Allocator* alloc = Allocator_child(allocator); struct MsgCore_pvt* mcp = Allocator_calloc(alloc, sizeof(struct MsgCore_pvt), 1); Identity_set(mcp); mcp->pub.interRouterIf.send = incoming; mcp->qh = ArrayList_OfQueryHandlers_new(alloc); mcp->pinger = Pinger_new(base, rand, log, alloc); mcp->log = log; mcp->scheme = scheme; mcp->schemeDefinition = EncodingScheme_serialize(scheme, alloc); return &mcp->pub; }