// Copyright (c) 2009-2010 Satoshi Nakamoto // Copyright (c) 2009-2015 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include static const size_t MAX_GETUTXOS_OUTPOINTS = 15; //allow a max of 15 outpoints to be queried at once enum RetFormat { RF_UNDEF, RF_BINARY, RF_HEX, RF_JSON, }; static const struct { enum RetFormat rf; const char* name; } rf_names[] = { {RF_UNDEF, ""}, {RF_BINARY, "bin"}, {RF_HEX, "hex"}, {RF_JSON, "json"}, }; struct CCoin { uint32_t nHeight; CTxOut out; ADD_SERIALIZE_METHODS; CCoin() : nHeight(0) {} explicit CCoin(Coin&& in) : nHeight(in.nHeight), out(std::move(in.out)) {} template inline void SerializationOp(Stream& s, Operation ser_action) { uint32_t nTxVerDummy = 0; READWRITE(nTxVerDummy); READWRITE(nHeight); READWRITE(out); } }; static bool RESTERR(HTTPRequest* req, enum HTTPStatusCode status, std::string message) { req->WriteHeader("Content-Type", "text/plain"); req->WriteReply(status, message + "\r\n"); return false; } static enum RetFormat ParseDataFormat(std::string& param, const std::string& strReq) { const std::string::size_type pos = strReq.rfind('.'); if (pos == std::string::npos) { param = strReq; return rf_names[0].rf; } param = strReq.substr(0, pos); const std::string suff(strReq, pos + 1); for (unsigned int i = 0; i < ARRAYLEN(rf_names); i++) if (suff == rf_names[i].name) return rf_names[i].rf; /* If no suffix is found, return original string. */ param = strReq; return rf_names[0].rf; } static std::string AvailableDataFormatsString() { std::string formats = ""; for (unsigned int i = 0; i < ARRAYLEN(rf_names); i++) if (strlen(rf_names[i].name) > 0) { formats.append("."); formats.append(rf_names[i].name); formats.append(", "); } if (formats.length() > 0) return formats.substr(0, formats.length() - 2); return formats; } static bool ParseHashStr(const std::string& strReq, uint256& v) { if (!IsHex(strReq) || (strReq.size() != 64)) return false; v.SetHex(strReq); return true; } static bool CheckWarmup(HTTPRequest* req) { std::string statusmessage; if (RPCIsInWarmup(&statusmessage)) return RESTERR(req, HTTP_SERVICE_UNAVAILABLE, "Service temporarily unavailable: " + statusmessage); return true; } static bool rest_headers(HTTPRequest* req, const std::string& strURIPart) { if (!CheckWarmup(req)) return false; std::string param; const RetFormat rf = ParseDataFormat(param, strURIPart); std::vector path; boost::split(path, param, boost::is_any_of("/")); if (path.size() != 2) return RESTERR(req, HTTP_BAD_REQUEST, "No header count specified. Use /rest/headers//.."); long count = strtol(path[0].c_str(), nullptr, 10); if (count < 1 || count > 2000) return RESTERR(req, HTTP_BAD_REQUEST, "Header count out of range: " + path[0]); std::string hashStr = path[1]; uint256 hash; if (!ParseHashStr(hashStr, hash)) return RESTERR(req, HTTP_BAD_REQUEST, "Invalid hash: " + hashStr); std::vector headers; headers.reserve(count); { LOCK(cs_main); BlockMap::const_iterator it = mapBlockIndex.find(hash); const CBlockIndex *pindex = (it != mapBlockIndex.end()) ? it->second : nullptr; while (pindex != nullptr && chainActive.Contains(pindex)) { headers.push_back(pindex); if (headers.size() == (unsigned long)count) break; pindex = chainActive.Next(pindex); } } CDataStream ssHeader(SER_NETWORK, PROTOCOL_VERSION); for (const CBlockIndex *pindex : headers) { ssHeader << pindex->GetBlockHeader(); } switch (rf) { case RF_BINARY: { std::string binaryHeader = ssHeader.str(); req->WriteHeader("Content-Type", "application/octet-stream"); req->WriteReply(HTTP_OK, binaryHeader); return true; } case RF_HEX: { std::string strHex = HexStr(ssHeader.begin(), ssHeader.end()) + "\n"; req->WriteHeader("Content-Type", "text/plain"); req->WriteReply(HTTP_OK, strHex); return true; } case RF_JSON: { UniValue jsonHeaders(UniValue::VARR); { LOCK(cs_main); for (const CBlockIndex *pindex : headers) { jsonHeaders.push_back(blockheaderToJSON(pindex)); } } std::string strJSON = jsonHeaders.write() + "\n"; req->WriteHeader("Content-Type", "application/json"); req->WriteReply(HTTP_OK, strJSON); return true; } default: { return RESTERR(req, HTTP_NOT_FOUND, "output format not found (available: .bin, .hex)"); } } } static bool rest_block(HTTPRequest* req, const std::string& strURIPart, bool showTxDetails) { if (!CheckWarmup(req)) return false; std::string hashStr; const RetFormat rf = ParseDataFormat(hashStr, strURIPart); uint256 hash; if (!ParseHashStr(hashStr, hash)) return RESTERR(req, HTTP_BAD_REQUEST, "Invalid hash: " + hashStr); CBlock block; CBlockIndex* pblockindex = nullptr; { LOCK(cs_main); if (mapBlockIndex.count(hash) == 0) return RESTERR(req, HTTP_NOT_FOUND, hashStr + " not found"); pblockindex = mapBlockIndex[hash]; if (fHavePruned && !(pblockindex->nStatus & BLOCK_HAVE_DATA) && pblockindex->nTx > 0) return RESTERR(req, HTTP_NOT_FOUND, hashStr + " not available (pruned data)"); if (!ReadBlockFromDisk(block, pblockindex, Params().GetConsensus())) return RESTERR(req, HTTP_NOT_FOUND, hashStr + " not found"); } CDataStream ssBlock(SER_NETWORK, PROTOCOL_VERSION); ssBlock << block; switch (rf) { case RF_BINARY: { std::string binaryBlock = ssBlock.str(); req->WriteHeader("Content-Type", "application/octet-stream"); req->WriteReply(HTTP_OK, binaryBlock); return true; } case RF_HEX: { std::string strHex = HexStr(ssBlock.begin(), ssBlock.end()) + "\n"; req->WriteHeader("Content-Type", "text/plain"); req->WriteReply(HTTP_OK, strHex); return true; } case RF_JSON: { UniValue objBlock; { LOCK(cs_main); objBlock = blockToJSON(block, pblockindex, showTxDetails); } std::string strJSON = objBlock.write() + "\n"; req->WriteHeader("Content-Type", "application/json"); req->WriteReply(HTTP_OK, strJSON); return true; } default: { return RESTERR(req, HTTP_NOT_FOUND, "output format not found (available: " + AvailableDataFormatsString() + ")"); } } } static bool rest_block_extended(HTTPRequest* req, const std::string& strURIPart) { return rest_block(req, strURIPart, true); } static bool rest_block_notxdetails(HTTPRequest* req, const std::string& strURIPart) { return rest_block(req, strURIPart, false); } // A bit of a hack - dependency on a function defined in rpc/blockchain.cpp UniValue getblockchaininfo(const JSONRPCRequest& request); static bool rest_chaininfo(HTTPRequest* req, const std::string& strURIPart) { if (!CheckWarmup(req)) return false; std::string param; const RetFormat rf = ParseDataFormat(param, strURIPart); switch (rf) { case RF_JSON: { JSONRPCRequest jsonRequest; jsonRequest.params = UniValue(UniValue::VARR); UniValue chainInfoObject = getblockchaininfo(jsonRequest); std::string strJSON = chainInfoObject.write() + "\n"; req->WriteHeader("Content-Type", "application/json"); req->WriteReply(HTTP_OK, strJSON); return true; } default: { return RESTERR(req, HTTP_NOT_FOUND, "output format not found (available: json)"); } } } static bool rest_mempool_info(HTTPRequest* req, const std::string& strURIPart) { if (!CheckWarmup(req)) return false; std::string param; const RetFormat rf = ParseDataFormat(param, strURIPart); switch (rf) { case RF_JSON: { UniValue mempoolInfoObject = mempoolInfoToJSON(); std::string strJSON = mempoolInfoObject.write() + "\n"; req->WriteHeader("Content-Type", "application/json"); req->WriteReply(HTTP_OK, strJSON); return true; } default: { return RESTERR(req, HTTP_NOT_FOUND, "output format not found (available: json)"); } } } static bool rest_mempool_contents(HTTPRequest* req, const std::string& strURIPart) { if (!CheckWarmup(req)) return false; std::string param; const RetFormat rf = ParseDataFormat(param, strURIPart); switch (rf) { case RF_JSON: { UniValue mempoolObject = mempoolToJSON(true); std::string strJSON = mempoolObject.write() + "\n"; req->WriteHeader("Content-Type", "application/json"); req->WriteReply(HTTP_OK, strJSON); return true; } default: { return RESTERR(req, HTTP_NOT_FOUND, "output format not found (available: json)"); } } } static bool rest_tx(HTTPRequest* req, const std::string& strURIPart) { if (!CheckWarmup(req)) return false; std::string hashStr; const RetFormat rf = ParseDataFormat(hashStr, strURIPart); uint256 hash; if (!ParseHashStr(hashStr, hash)) return RESTERR(req, HTTP_BAD_REQUEST, "Invalid hash: " + hashStr); CTransactionRef tx; uint256 hashBlock = uint256(); if (!GetTransaction(hash, tx, Params().GetConsensus(), hashBlock, true)) return RESTERR(req, HTTP_NOT_FOUND, hashStr + " not found"); CDataStream ssTx(SER_NETWORK, PROTOCOL_VERSION); ssTx << tx; switch (rf) { case RF_BINARY: { std::string binaryTx = ssTx.str(); req->WriteHeader("Content-Type", "application/octet-stream"); req->WriteReply(HTTP_OK, binaryTx); return true; } case RF_HEX: { std::string strHex = HexStr(ssTx.begin(), ssTx.end()) + "\n"; req->WriteHeader("Content-Type", "text/plain"); req->WriteReply(HTTP_OK, strHex); return true; } case RF_JSON: { UniValue objTx(UniValue::VOBJ); TxToUniv(*tx, hashBlock, objTx); std::string strJSON = objTx.write() + "\n"; req->WriteHeader("Content-Type", "application/json"); req->WriteReply(HTTP_OK, strJSON); return true; } default: { return RESTERR(req, HTTP_NOT_FOUND, "output format not found (available: " + AvailableDataFormatsString() + ")"); } } } static bool rest_getutxos(HTTPRequest* req, const std::string& strURIPart) { if (!CheckWarmup(req)) return false; std::string param; const RetFormat rf = ParseDataFormat(param, strURIPart); std::vector uriParts; if (param.length() > 1) { std::string strUriParams = param.substr(1); boost::split(uriParts, strUriParams, boost::is_any_of("/")); } // throw exception in case of an empty request std::string strRequestMutable = req->ReadBody(); if (strRequestMutable.length() == 0 && uriParts.size() == 0) return RESTERR(req, HTTP_BAD_REQUEST, "Error: empty request"); bool fInputParsed = false; bool fCheckMemPool = false; std::vector vOutPoints; // parse/deserialize input // input-format = output-format, rest/getutxos/bin requires binary input, gives binary output, ... if (uriParts.size() > 0) { //inputs is sent over URI scheme (/rest/getutxos/checkmempool/txid1-n/txid2-n/...) if (uriParts[0] == "checkmempool") fCheckMemPool = true; for (size_t i = (fCheckMemPool) ? 1 : 0; i < uriParts.size(); i++) { uint256 txid; int32_t nOutput; std::string strTxid = uriParts[i].substr(0, uriParts[i].find('-')); std::string strOutput = uriParts[i].substr(uriParts[i].find('-')+1); if (!ParseInt32(strOutput, &nOutput) || !IsHex(strTxid)) return RESTERR(req, HTTP_BAD_REQUEST, "Parse error"); txid.SetHex(strTxid); vOutPoints.push_back(COutPoint(txid, (uint32_t)nOutput)); } if (vOutPoints.size() > 0) fInputParsed = true; else return RESTERR(req, HTTP_BAD_REQUEST, "Error: empty request"); } switch (rf) { case RF_HEX: { // convert hex to bin, continue then with bin part std::vector strRequestV = ParseHex(strRequestMutable); strRequestMutable.assign(strRequestV.begin(), strRequestV.end()); } case RF_BINARY: { try { //deserialize only if user sent a request if (strRequestMutable.size() > 0) { if (fInputParsed) //don't allow sending input over URI and HTTP RAW DATA return RESTERR(req, HTTP_BAD_REQUEST, "Combination of URI scheme inputs and raw post data is not allowed"); CDataStream oss(SER_NETWORK, PROTOCOL_VERSION); oss << strRequestMutable; oss >> fCheckMemPool; oss >> vOutPoints; } } catch (const std::ios_base::failure& e) { // abort in case of unreadable binary data return RESTERR(req, HTTP_BAD_REQUEST, "Parse error"); } break; } case RF_JSON: { if (!fInputParsed) return RESTERR(req, HTTP_BAD_REQUEST, "Error: empty request"); break; } default: { return RESTERR(req, HTTP_NOT_FOUND, "output format not found (available: " + AvailableDataFormatsString() + ")"); } } // limit max outpoints if (vOutPoints.size() > MAX_GETUTXOS_OUTPOINTS) return RESTERR(req, HTTP_BAD_REQUEST, strprintf("Error: max outpoints exceeded (max: %d, tried: %d)", MAX_GETUTXOS_OUTPOINTS, vOutPoints.size())); // check spentness and form a bitmap (as well as a JSON capable human-readable string representation) std::vector bitmap; std::vector outs; std::string bitmapStringRepresentation; std::vector hits; bitmap.resize((vOutPoints.size() + 7) / 8); { LOCK2(cs_main, mempool.cs); CCoinsView viewDummy; CCoinsViewCache view(&viewDummy); CCoinsViewCache& viewChain = *pcoinsTip; CCoinsViewMemPool viewMempool(&viewChain, mempool); if (fCheckMemPool) view.SetBackend(viewMempool); // switch cache backend to db+mempool in case user likes to query mempool for (size_t i = 0; i < vOutPoints.size(); i++) { bool hit = false; Coin coin; if (view.GetCoin(vOutPoints[i], coin) && !mempool.isSpent(vOutPoints[i])) { hit = true; outs.emplace_back(std::move(coin)); } hits.push_back(hit); bitmapStringRepresentation.append(hit ? "1" : "0"); // form a binary string representation (human-readable for json output) bitmap[i / 8] |= ((uint8_t)hit) << (i % 8); } } switch (rf) { case RF_BINARY: { // serialize data // use exact same output as mentioned in Bip64 CDataStream ssGetUTXOResponse(SER_NETWORK, PROTOCOL_VERSION); ssGetUTXOResponse << chainActive.Height() << chainActive.Tip()->GetBlockHash() << bitmap << outs; std::string ssGetUTXOResponseString = ssGetUTXOResponse.str(); req->WriteHeader("Content-Type", "application/octet-stream"); req->WriteReply(HTTP_OK, ssGetUTXOResponseString); return true; } case RF_HEX: { CDataStream ssGetUTXOResponse(SER_NETWORK, PROTOCOL_VERSION); ssGetUTXOResponse << chainActive.Height() << chainActive.Tip()->GetBlockHash() << bitmap << outs; std::string strHex = HexStr(ssGetUTXOResponse.begin(), ssGetUTXOResponse.end()) + "\n"; req->WriteHeader("Content-Type", "text/plain"); req->WriteReply(HTTP_OK, strHex); return true; } case RF_JSON: { UniValue objGetUTXOResponse(UniValue::VOBJ); // pack in some essentials // use more or less the same output as mentioned in Bip64 objGetUTXOResponse.push_back(Pair("chainHeight", chainActive.Height())); objGetUTXOResponse.push_back(Pair("chaintipHash", chainActive.Tip()->GetBlockHash().GetHex())); objGetUTXOResponse.push_back(Pair("bitmap", bitmapStringRepresentation)); UniValue utxos(UniValue::VARR); for (const CCoin& coin : outs) { UniValue utxo(UniValue::VOBJ); utxo.push_back(Pair("height", (int32_t)coin.nHeight)); utxo.push_back(Pair("value", ValueFromAmount(coin.out.nValue))); // include the script in a json output UniValue o(UniValue::VOBJ); ScriptPubKeyToUniv(coin.out.scriptPubKey, o, true); utxo.push_back(Pair("scriptPubKey", o)); utxos.push_back(utxo); } objGetUTXOResponse.push_back(Pair("utxos", utxos)); // return json string std::string strJSON = objGetUTXOResponse.write() + "\n"; req->WriteHeader("Content-Type", "application/json"); req->WriteReply(HTTP_OK, strJSON); return true; } default: { return RESTERR(req, HTTP_NOT_FOUND, "output format not found (available: " + AvailableDataFormatsString() + ")"); } } } static const struct { const char* prefix; bool (*handler)(HTTPRequest* req, const std::string& strReq); } uri_prefixes[] = { {"/rest/tx/", rest_tx}, {"/rest/block/notxdetails/", rest_block_notxdetails}, {"/rest/block/", rest_block_extended}, {"/rest/chaininfo", rest_chaininfo}, {"/rest/mempool/info", rest_mempool_info}, {"/rest/mempool/contents", rest_mempool_contents}, {"/rest/headers/", rest_headers}, {"/rest/getutxos", rest_getutxos}, }; bool StartREST() { for (unsigned int i = 0; i < ARRAYLEN(uri_prefixes); i++) RegisterHTTPHandler(uri_prefixes[i].prefix, false, uri_prefixes[i].handler); return true; } void InterruptREST() { } void StopREST() { for (unsigned int i = 0; i < ARRAYLEN(uri_prefixes); i++) UnregisterHTTPHandler(uri_prefixes[i].prefix, false); }