// Copyright (c) 2010 Satoshi Nakamoto // Copyright (c) 2009-2014 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 "rpcserver.h" #include "base58.h" #include "init.h" #include "random.h" #include "sync.h" #include "ui_interface.h" #include "util.h" #include "utilmoneystr.h" #include "utilstrencodings.h" #ifdef ENABLE_WALLET #include "wallet/wallet.h" #endif #include #include #include #include #include #include #include #include #include #include #include #include "univalue/univalue.h" using namespace boost::asio; using namespace RPCServer; using namespace std; static std::string strRPCUserColonPass; static bool fRPCRunning = false; static bool fRPCInWarmup = true; static std::string rpcWarmupStatus("RPC server started"); static CCriticalSection cs_rpcWarmup; //! These are created by StartRPCThreads, destroyed in StopRPCThreads static boost::asio::io_service* rpc_io_service = NULL; static map > deadlineTimers; static ssl::context* rpc_ssl_context = NULL; static boost::thread_group* rpc_worker_group = NULL; static boost::asio::io_service::work *rpc_dummy_work = NULL; static std::vector rpc_allow_subnets; //!< List of subnets to allow RPC connections from static std::vector< boost::shared_ptr > rpc_acceptors; static struct CRPCSignals { boost::signals2::signal Started; boost::signals2::signal Stopped; boost::signals2::signal PreCommand; boost::signals2::signal PostCommand; } g_rpcSignals; void RPCServer::OnStarted(boost::function slot) { g_rpcSignals.Started.connect(slot); } void RPCServer::OnStopped(boost::function slot) { g_rpcSignals.Stopped.connect(slot); } void RPCServer::OnPreCommand(boost::function slot) { g_rpcSignals.PreCommand.connect(boost::bind(slot, _1)); } void RPCServer::OnPostCommand(boost::function slot) { g_rpcSignals.PostCommand.connect(boost::bind(slot, _1)); } void RPCTypeCheck(const UniValue& params, const list& typesExpected, bool fAllowNull) { unsigned int i = 0; BOOST_FOREACH(UniValue::VType t, typesExpected) { if (params.size() <= i) break; const UniValue& v = params[i]; if (!((v.type() == t) || (fAllowNull && (v.isNull())))) { string err = strprintf("Expected type %s, got %s", uvTypeName(t), uvTypeName(v.type())); throw JSONRPCError(RPC_TYPE_ERROR, err); } i++; } } void RPCTypeCheckObj(const UniValue& o, const map& typesExpected, bool fAllowNull) { BOOST_FOREACH(const PAIRTYPE(string, UniValue::VType)& t, typesExpected) { const UniValue& v = find_value(o, t.first); if (!fAllowNull && v.isNull()) throw JSONRPCError(RPC_TYPE_ERROR, strprintf("Missing %s", t.first)); if (!((v.type() == t.second) || (fAllowNull && (v.isNull())))) { string err = strprintf("Expected type %s for %s, got %s", uvTypeName(t.second), t.first, uvTypeName(v.type())); throw JSONRPCError(RPC_TYPE_ERROR, err); } } } CAmount AmountFromValue(const UniValue& value) { if (!value.isReal() && !value.isNum()) throw JSONRPCError(RPC_TYPE_ERROR, "Amount is not a number"); CAmount amount; if (!ParseFixedPoint(value.getValStr(), 8, &amount)) throw JSONRPCError(RPC_TYPE_ERROR, "Invalid amount"); if (!MoneyRange(amount)) throw JSONRPCError(RPC_TYPE_ERROR, "Amount out of range"); return amount; } UniValue ValueFromAmount(const CAmount& amount) { return UniValue(UniValue::VREAL, FormatMoney(amount)); } uint256 ParseHashV(const UniValue& v, string strName) { string strHex; if (v.isStr()) strHex = v.get_str(); if (!IsHex(strHex)) // Note: IsHex("") is false throw JSONRPCError(RPC_INVALID_PARAMETER, strName+" must be hexadecimal string (not '"+strHex+"')"); uint256 result; result.SetHex(strHex); return result; } uint256 ParseHashO(const UniValue& o, string strKey) { return ParseHashV(find_value(o, strKey), strKey); } vector ParseHexV(const UniValue& v, string strName) { string strHex; if (v.isStr()) strHex = v.get_str(); if (!IsHex(strHex)) throw JSONRPCError(RPC_INVALID_PARAMETER, strName+" must be hexadecimal string (not '"+strHex+"')"); return ParseHex(strHex); } vector ParseHexO(const UniValue& o, string strKey) { return ParseHexV(find_value(o, strKey), strKey); } /** * Note: This interface may still be subject to change. */ std::string CRPCTable::help(const std::string& strCommand) const { string strRet; string category; set setDone; vector > vCommands; for (map::const_iterator mi = mapCommands.begin(); mi != mapCommands.end(); ++mi) vCommands.push_back(make_pair(mi->second->category + mi->first, mi->second)); sort(vCommands.begin(), vCommands.end()); BOOST_FOREACH(const PAIRTYPE(string, const CRPCCommand*)& command, vCommands) { const CRPCCommand *pcmd = command.second; string strMethod = pcmd->name; // We already filter duplicates, but these deprecated screw up the sort order if (strMethod.find("label") != string::npos) continue; if ((strCommand != "" || pcmd->category == "hidden") && strMethod != strCommand) continue; try { UniValue params; rpcfn_type pfn = pcmd->actor; if (setDone.insert(pfn).second) (*pfn)(params, true); } catch (const std::exception& e) { // Help text is returned in an exception string strHelp = string(e.what()); if (strCommand == "") { if (strHelp.find('\n') != string::npos) strHelp = strHelp.substr(0, strHelp.find('\n')); if (category != pcmd->category) { if (!category.empty()) strRet += "\n"; category = pcmd->category; string firstLetter = category.substr(0,1); boost::to_upper(firstLetter); strRet += "== " + firstLetter + category.substr(1) + " ==\n"; } } strRet += strHelp + "\n"; } } if (strRet == "") strRet = strprintf("help: unknown command: %s\n", strCommand); strRet = strRet.substr(0,strRet.size()-1); return strRet; } UniValue help(const UniValue& params, bool fHelp) { if (fHelp || params.size() > 1) throw runtime_error( "help ( \"command\" )\n" "\nList all commands, or get help for a specified command.\n" "\nArguments:\n" "1. \"command\" (string, optional) The command to get help on\n" "\nResult:\n" "\"text\" (string) The help text\n" ); string strCommand; if (params.size() > 0) strCommand = params[0].get_str(); return tableRPC.help(strCommand); } UniValue stop(const UniValue& params, bool fHelp) { // Accept the deprecated and ignored 'detach' boolean argument if (fHelp || params.size() > 1) throw runtime_error( "stop\n" "\nStop Bitcoin server."); // Shutdown will take long enough that the response should get back StartShutdown(); return "Bitcoin server stopping"; } /** * Call Table */ static const CRPCCommand vRPCCommands[] = { // category name actor (function) okSafeMode // --------------------- ------------------------ ----------------------- ---------- /* Overall control/query calls */ { "control", "getinfo", &getinfo, true }, /* uses wallet if enabled */ { "control", "help", &help, true }, { "control", "stop", &stop, true }, /* P2P networking */ { "network", "getnetworkinfo", &getnetworkinfo, true }, { "network", "addnode", &addnode, true }, { "network", "disconnectnode", &disconnectnode, true }, { "network", "getaddednodeinfo", &getaddednodeinfo, true }, { "network", "getconnectioncount", &getconnectioncount, true }, { "network", "getnettotals", &getnettotals, true }, { "network", "getpeerinfo", &getpeerinfo, true }, { "network", "ping", &ping, true }, { "network", "setban", &setban, true }, { "network", "listbanned", &listbanned, true }, { "network", "clearbanned", &clearbanned, true }, /* Block chain and UTXO */ { "blockchain", "getblockchaininfo", &getblockchaininfo, true }, { "blockchain", "getbestblockhash", &getbestblockhash, true }, { "blockchain", "getblockcount", &getblockcount, true }, { "blockchain", "getblock", &getblock, true }, { "blockchain", "getblockhash", &getblockhash, true }, { "blockchain", "getblockheader", &getblockheader, true }, { "blockchain", "getchaintips", &getchaintips, true }, { "blockchain", "getdifficulty", &getdifficulty, true }, { "blockchain", "getmempoolinfo", &getmempoolinfo, true }, { "blockchain", "getrawmempool", &getrawmempool, true }, { "blockchain", "gettxout", &gettxout, true }, { "blockchain", "gettxoutproof", &gettxoutproof, true }, { "blockchain", "verifytxoutproof", &verifytxoutproof, true }, { "blockchain", "gettxoutsetinfo", &gettxoutsetinfo, true }, { "blockchain", "verifychain", &verifychain, true }, /* Mining */ { "mining", "getblocktemplate", &getblocktemplate, true }, { "mining", "getmininginfo", &getmininginfo, true }, { "mining", "getnetworkhashps", &getnetworkhashps, true }, { "mining", "prioritisetransaction", &prioritisetransaction, true }, { "mining", "submitblock", &submitblock, true }, /* Coin generation */ { "generating", "getgenerate", &getgenerate, true }, { "generating", "setgenerate", &setgenerate, true }, { "generating", "generate", &generate, true }, /* Raw transactions */ { "rawtransactions", "createrawtransaction", &createrawtransaction, true }, { "rawtransactions", "decoderawtransaction", &decoderawtransaction, true }, { "rawtransactions", "decodescript", &decodescript, true }, { "rawtransactions", "getrawtransaction", &getrawtransaction, true }, { "rawtransactions", "sendrawtransaction", &sendrawtransaction, false }, { "rawtransactions", "signrawtransaction", &signrawtransaction, false }, /* uses wallet if enabled */ #ifdef ENABLE_WALLET { "rawtransactions", "fundrawtransaction", &fundrawtransaction, false }, #endif /* Utility functions */ { "util", "createmultisig", &createmultisig, true }, { "util", "validateaddress", &validateaddress, true }, /* uses wallet if enabled */ { "util", "verifymessage", &verifymessage, true }, { "util", "estimatefee", &estimatefee, true }, { "util", "estimatepriority", &estimatepriority, true }, /* Not shown in help */ { "hidden", "invalidateblock", &invalidateblock, true }, { "hidden", "reconsiderblock", &reconsiderblock, true }, { "hidden", "setmocktime", &setmocktime, true }, #ifdef ENABLE_WALLET { "hidden", "resendwallettransactions", &resendwallettransactions, true}, #endif #ifdef ENABLE_WALLET /* Wallet */ { "wallet", "addmultisigaddress", &addmultisigaddress, true }, { "wallet", "backupwallet", &backupwallet, true }, { "wallet", "dumpprivkey", &dumpprivkey, true }, { "wallet", "dumpwallet", &dumpwallet, true }, { "wallet", "encryptwallet", &encryptwallet, true }, { "wallet", "getaccountaddress", &getaccountaddress, true }, { "wallet", "getaccount", &getaccount, true }, { "wallet", "getaddressesbyaccount", &getaddressesbyaccount, true }, { "wallet", "getbalance", &getbalance, false }, { "wallet", "getnewaddress", &getnewaddress, true }, { "wallet", "getrawchangeaddress", &getrawchangeaddress, true }, { "wallet", "getreceivedbyaccount", &getreceivedbyaccount, false }, { "wallet", "getreceivedbyaddress", &getreceivedbyaddress, false }, { "wallet", "gettransaction", &gettransaction, false }, { "wallet", "getunconfirmedbalance", &getunconfirmedbalance, false }, { "wallet", "getwalletinfo", &getwalletinfo, false }, { "wallet", "importprivkey", &importprivkey, true }, { "wallet", "importwallet", &importwallet, true }, { "wallet", "importaddress", &importaddress, true }, { "wallet", "importpubkey", &importpubkey, true }, { "wallet", "keypoolrefill", &keypoolrefill, true }, { "wallet", "listaccounts", &listaccounts, false }, { "wallet", "listaddressgroupings", &listaddressgroupings, false }, { "wallet", "listlockunspent", &listlockunspent, false }, { "wallet", "listreceivedbyaccount", &listreceivedbyaccount, false }, { "wallet", "listreceivedbyaddress", &listreceivedbyaddress, false }, { "wallet", "listsinceblock", &listsinceblock, false }, { "wallet", "listtransactions", &listtransactions, false }, { "wallet", "listunspent", &listunspent, false }, { "wallet", "lockunspent", &lockunspent, true }, { "wallet", "move", &movecmd, false }, { "wallet", "sendfrom", &sendfrom, false }, { "wallet", "sendmany", &sendmany, false }, { "wallet", "sendtoaddress", &sendtoaddress, false }, { "wallet", "setaccount", &setaccount, true }, { "wallet", "settxfee", &settxfee, true }, { "wallet", "signmessage", &signmessage, true }, { "wallet", "walletlock", &walletlock, true }, { "wallet", "walletpassphrasechange", &walletpassphrasechange, true }, { "wallet", "walletpassphrase", &walletpassphrase, true }, #endif // ENABLE_WALLET }; CRPCTable::CRPCTable() { unsigned int vcidx; for (vcidx = 0; vcidx < (sizeof(vRPCCommands) / sizeof(vRPCCommands[0])); vcidx++) { const CRPCCommand *pcmd; pcmd = &vRPCCommands[vcidx]; mapCommands[pcmd->name] = pcmd; } } const CRPCCommand *CRPCTable::operator[](const std::string& name) const { map::const_iterator it = mapCommands.find(name); if (it == mapCommands.end()) return NULL; return (*it).second; } bool HTTPAuthorized(map& mapHeaders) { string strAuth = mapHeaders["authorization"]; if (strAuth.substr(0,6) != "Basic ") return false; string strUserPass64 = strAuth.substr(6); boost::trim(strUserPass64); string strUserPass = DecodeBase64(strUserPass64); return TimingResistantEqual(strUserPass, strRPCUserColonPass); } void ErrorReply(std::ostream& stream, const UniValue& objError, const UniValue& id) { // Send error reply from json-rpc error object int nStatus = HTTP_INTERNAL_SERVER_ERROR; int code = find_value(objError, "code").get_int(); if (code == RPC_INVALID_REQUEST) nStatus = HTTP_BAD_REQUEST; else if (code == RPC_METHOD_NOT_FOUND) nStatus = HTTP_NOT_FOUND; string strReply = JSONRPCReply(NullUniValue, objError, id); stream << HTTPReply(nStatus, strReply, false) << std::flush; } CNetAddr BoostAsioToCNetAddr(boost::asio::ip::address address) { CNetAddr netaddr; // Make sure that IPv4-compatible and IPv4-mapped IPv6 addresses are treated as IPv4 addresses if (address.is_v6() && (address.to_v6().is_v4_compatible() || address.to_v6().is_v4_mapped())) address = address.to_v6().to_v4(); if(address.is_v4()) { boost::asio::ip::address_v4::bytes_type bytes = address.to_v4().to_bytes(); netaddr.SetRaw(NET_IPV4, &bytes[0]); } else { boost::asio::ip::address_v6::bytes_type bytes = address.to_v6().to_bytes(); netaddr.SetRaw(NET_IPV6, &bytes[0]); } return netaddr; } bool ClientAllowed(const boost::asio::ip::address& address) { CNetAddr netaddr = BoostAsioToCNetAddr(address); BOOST_FOREACH(const CSubNet &subnet, rpc_allow_subnets) if (subnet.Match(netaddr)) return true; return false; } template class AcceptedConnectionImpl : public AcceptedConnection { public: AcceptedConnectionImpl( boost::asio::io_service& io_service, ssl::context &context, bool fUseSSL) : sslStream(io_service, context), _d(sslStream, fUseSSL), _stream(_d) { } virtual std::iostream& stream() { return _stream; } virtual std::string peer_address_to_string() const { return peer.address().to_string(); } virtual void close() { _stream.close(); } typename Protocol::endpoint peer; boost::asio::ssl::stream sslStream; private: SSLIOStreamDevice _d; boost::iostreams::stream< SSLIOStreamDevice > _stream; }; void ServiceConnection(AcceptedConnection *conn); //! Forward declaration required for RPCListen template static void RPCAcceptHandler(boost::shared_ptr< basic_socket_acceptor > acceptor, ssl::context& context, bool fUseSSL, boost::shared_ptr< AcceptedConnection > conn, const boost::system::error_code& error); /** * Sets up I/O resources to accept and handle a new connection. */ template static void RPCListen(boost::shared_ptr< basic_socket_acceptor > acceptor, ssl::context& context, const bool fUseSSL) { // Accept connection boost::shared_ptr< AcceptedConnectionImpl > conn(new AcceptedConnectionImpl(acceptor->get_io_service(), context, fUseSSL)); acceptor->async_accept( conn->sslStream.lowest_layer(), conn->peer, boost::bind(&RPCAcceptHandler, acceptor, boost::ref(context), fUseSSL, conn, _1)); } /** * Accept and handle incoming connection. */ template static void RPCAcceptHandler(boost::shared_ptr< basic_socket_acceptor > acceptor, ssl::context& context, const bool fUseSSL, boost::shared_ptr< AcceptedConnection > conn, const boost::system::error_code& error) { // Immediately start accepting new connections, except when we're cancelled or our socket is closed. if (error != boost::asio::error::operation_aborted && acceptor->is_open()) RPCListen(acceptor, context, fUseSSL); AcceptedConnectionImpl* tcp_conn = dynamic_cast< AcceptedConnectionImpl* >(conn.get()); if (error) { // TODO: Actually handle errors LogPrintf("%s: Error: %s\n", __func__, error.message()); } // Restrict callers by IP. It is important to // do this before starting client thread, to filter out // certain DoS and misbehaving clients. else if (tcp_conn && !ClientAllowed(tcp_conn->peer.address())) { // Only send a 403 if we're not using SSL to prevent a DoS during the SSL handshake. if (!fUseSSL) conn->stream() << HTTPError(HTTP_FORBIDDEN, false) << std::flush; conn->close(); } else { ServiceConnection(conn.get()); conn->close(); } } static ip::tcp::endpoint ParseEndpoint(const std::string &strEndpoint, int defaultPort) { std::string addr; int port = defaultPort; SplitHostPort(strEndpoint, port, addr); return ip::tcp::endpoint(boost::asio::ip::address::from_string(addr), port); } void StartRPCThreads() { rpc_allow_subnets.clear(); rpc_allow_subnets.push_back(CSubNet("127.0.0.0/8")); // always allow IPv4 local subnet rpc_allow_subnets.push_back(CSubNet("::1")); // always allow IPv6 localhost if (mapMultiArgs.count("-rpcallowip")) { const vector& vAllow = mapMultiArgs["-rpcallowip"]; BOOST_FOREACH(string strAllow, vAllow) { CSubNet subnet(strAllow); if(!subnet.IsValid()) { uiInterface.ThreadSafeMessageBox( strprintf("Invalid -rpcallowip subnet specification: %s. Valid are a single IP (e.g. 1.2.3.4), a network/netmask (e.g. 1.2.3.4/255.255.255.0) or a network/CIDR (e.g. 1.2.3.4/24).", strAllow), "", CClientUIInterface::MSG_ERROR); StartShutdown(); return; } rpc_allow_subnets.push_back(subnet); } } std::string strAllowed; BOOST_FOREACH(const CSubNet &subnet, rpc_allow_subnets) strAllowed += subnet.ToString() + " "; LogPrint("rpc", "Allowing RPC connections from: %s\n", strAllowed); if (mapArgs["-rpcpassword"] == "") { LogPrintf("No rpcpassword set - using random cookie authentication\n"); if (!GenerateAuthCookie(&strRPCUserColonPass)) { uiInterface.ThreadSafeMessageBox( _("Error: A fatal internal error occured, see debug.log for details"), // Same message as AbortNode "", CClientUIInterface::MSG_ERROR); StartShutdown(); return; } } else { strRPCUserColonPass = mapArgs["-rpcuser"] + ":" + mapArgs["-rpcpassword"]; } assert(rpc_io_service == NULL); rpc_io_service = new boost::asio::io_service(); rpc_ssl_context = new ssl::context(*rpc_io_service, ssl::context::sslv23); const bool fUseSSL = GetBoolArg("-rpcssl", false); if (fUseSSL) { rpc_ssl_context->set_options(ssl::context::no_sslv2 | ssl::context::no_sslv3); boost::filesystem::path pathCertFile(GetArg("-rpcsslcertificatechainfile", "server.cert")); if (!pathCertFile.is_complete()) pathCertFile = boost::filesystem::path(GetDataDir()) / pathCertFile; if (boost::filesystem::exists(pathCertFile)) rpc_ssl_context->use_certificate_chain_file(pathCertFile.string()); else LogPrintf("ThreadRPCServer ERROR: missing server certificate file %s\n", pathCertFile.string()); boost::filesystem::path pathPKFile(GetArg("-rpcsslprivatekeyfile", "server.pem")); if (!pathPKFile.is_complete()) pathPKFile = boost::filesystem::path(GetDataDir()) / pathPKFile; if (boost::filesystem::exists(pathPKFile)) rpc_ssl_context->use_private_key_file(pathPKFile.string(), ssl::context::pem); else LogPrintf("ThreadRPCServer ERROR: missing server private key file %s\n", pathPKFile.string()); string strCiphers = GetArg("-rpcsslciphers", "TLSv1.2+HIGH:TLSv1+HIGH:!SSLv2:!aNULL:!eNULL:!3DES:@STRENGTH"); SSL_CTX_set_cipher_list(rpc_ssl_context->impl(), strCiphers.c_str()); } std::vector vEndpoints; bool bBindAny = false; int defaultPort = GetArg("-rpcport", BaseParams().RPCPort()); if (!mapArgs.count("-rpcallowip")) // Default to loopback if not allowing external IPs { vEndpoints.push_back(ip::tcp::endpoint(boost::asio::ip::address_v6::loopback(), defaultPort)); vEndpoints.push_back(ip::tcp::endpoint(boost::asio::ip::address_v4::loopback(), defaultPort)); if (mapArgs.count("-rpcbind")) { LogPrintf("WARNING: option -rpcbind was ignored because -rpcallowip was not specified, refusing to allow everyone to connect\n"); } } else if (mapArgs.count("-rpcbind")) // Specific bind address { BOOST_FOREACH(const std::string &addr, mapMultiArgs["-rpcbind"]) { try { vEndpoints.push_back(ParseEndpoint(addr, defaultPort)); } catch (const boost::system::system_error&) { uiInterface.ThreadSafeMessageBox( strprintf(_("Could not parse -rpcbind value %s as network address"), addr), "", CClientUIInterface::MSG_ERROR); StartShutdown(); return; } } } else { // No specific bind address specified, bind to any vEndpoints.push_back(ip::tcp::endpoint(boost::asio::ip::address_v6::any(), defaultPort)); vEndpoints.push_back(ip::tcp::endpoint(boost::asio::ip::address_v4::any(), defaultPort)); // Prefer making the socket dual IPv6/IPv4 instead of binding // to both addresses seperately. bBindAny = true; } bool fListening = false; std::string strerr; std::string straddress; BOOST_FOREACH(const ip::tcp::endpoint &endpoint, vEndpoints) { try { boost::asio::ip::address bindAddress = endpoint.address(); straddress = bindAddress.to_string(); LogPrintf("Binding RPC on address %s port %i (IPv4+IPv6 bind any: %i)\n", straddress, endpoint.port(), bBindAny); boost::system::error_code v6_only_error; boost::shared_ptr acceptor(new ip::tcp::acceptor(*rpc_io_service)); acceptor->open(endpoint.protocol()); acceptor->set_option(boost::asio::ip::tcp::acceptor::reuse_address(true)); // Try making the socket dual IPv6/IPv4 when listening on the IPv6 "any" address acceptor->set_option(boost::asio::ip::v6_only( !bBindAny || bindAddress != boost::asio::ip::address_v6::any()), v6_only_error); acceptor->bind(endpoint); acceptor->listen(socket_base::max_connections); RPCListen(acceptor, *rpc_ssl_context, fUseSSL); fListening = true; rpc_acceptors.push_back(acceptor); // If dual IPv6/IPv4 bind successful, skip binding to IPv4 separately if(bBindAny && bindAddress == boost::asio::ip::address_v6::any() && !v6_only_error) break; } catch (const boost::system::system_error& e) { LogPrintf("ERROR: Binding RPC on address %s port %i failed: %s\n", straddress, endpoint.port(), e.what()); strerr = strprintf(_("An error occurred while setting up the RPC address %s port %u for listening: %s"), straddress, endpoint.port(), e.what()); } } if (!fListening) { uiInterface.ThreadSafeMessageBox(strerr, "", CClientUIInterface::MSG_ERROR); StartShutdown(); return; } rpc_worker_group = new boost::thread_group(); for (int i = 0; i < GetArg("-rpcthreads", 4); i++) rpc_worker_group->create_thread(boost::bind(&boost::asio::io_service::run, rpc_io_service)); fRPCRunning = true; g_rpcSignals.Started(); } void StartDummyRPCThread() { if(rpc_io_service == NULL) { rpc_io_service = new boost::asio::io_service(); /* Create dummy "work" to keep the thread from exiting when no timeouts active, * see http://www.boost.org/doc/libs/1_51_0/doc/html/boost_asio/reference/io_service.html#boost_asio.reference.io_service.stopping_the_io_service_from_running_out_of_work */ rpc_dummy_work = new boost::asio::io_service::work(*rpc_io_service); rpc_worker_group = new boost::thread_group(); rpc_worker_group->create_thread(boost::bind(&boost::asio::io_service::run, rpc_io_service)); fRPCRunning = true; } } void StopRPCThreads() { if (rpc_io_service == NULL) return; // Set this to false first, so that longpolling loops will exit when woken up fRPCRunning = false; // First, cancel all timers and acceptors // This is not done automatically by ->stop(), and in some cases the destructor of // boost::asio::io_service can hang if this is skipped. boost::system::error_code ec; BOOST_FOREACH(const boost::shared_ptr &acceptor, rpc_acceptors) { acceptor->cancel(ec); if (ec) LogPrintf("%s: Warning: %s when cancelling acceptor", __func__, ec.message()); } rpc_acceptors.clear(); BOOST_FOREACH(const PAIRTYPE(std::string, boost::shared_ptr) &timer, deadlineTimers) { timer.second->cancel(ec); if (ec) LogPrintf("%s: Warning: %s when cancelling timer", __func__, ec.message()); } deadlineTimers.clear(); DeleteAuthCookie(); rpc_io_service->stop(); g_rpcSignals.Stopped(); if (rpc_worker_group != NULL) rpc_worker_group->join_all(); delete rpc_dummy_work; rpc_dummy_work = NULL; delete rpc_worker_group; rpc_worker_group = NULL; delete rpc_ssl_context; rpc_ssl_context = NULL; delete rpc_io_service; rpc_io_service = NULL; } bool IsRPCRunning() { return fRPCRunning; } void SetRPCWarmupStatus(const std::string& newStatus) { LOCK(cs_rpcWarmup); rpcWarmupStatus = newStatus; } void SetRPCWarmupFinished() { LOCK(cs_rpcWarmup); assert(fRPCInWarmup); fRPCInWarmup = false; } bool RPCIsInWarmup(std::string *outStatus) { LOCK(cs_rpcWarmup); if (outStatus) *outStatus = rpcWarmupStatus; return fRPCInWarmup; } void RPCRunHandler(const boost::system::error_code& err, boost::function func) { if (!err) func(); } void RPCRunLater(const std::string& name, boost::function func, int64_t nSeconds) { assert(rpc_io_service != NULL); if (deadlineTimers.count(name) == 0) { deadlineTimers.insert(make_pair(name, boost::shared_ptr(new deadline_timer(*rpc_io_service)))); } deadlineTimers[name]->expires_from_now(boost::posix_time::seconds(nSeconds)); deadlineTimers[name]->async_wait(boost::bind(RPCRunHandler, _1, func)); } class JSONRequest { public: UniValue id; string strMethod; UniValue params; JSONRequest() { id = NullUniValue; } void parse(const UniValue& valRequest); }; void JSONRequest::parse(const UniValue& valRequest) { // Parse request if (!valRequest.isObject()) throw JSONRPCError(RPC_INVALID_REQUEST, "Invalid Request object"); const UniValue& request = valRequest.get_obj(); // Parse id now so errors from here on will have the id id = find_value(request, "id"); // Parse method UniValue valMethod = find_value(request, "method"); if (valMethod.isNull()) throw JSONRPCError(RPC_INVALID_REQUEST, "Missing method"); if (!valMethod.isStr()) throw JSONRPCError(RPC_INVALID_REQUEST, "Method must be a string"); strMethod = valMethod.get_str(); if (strMethod != "getblocktemplate") LogPrint("rpc", "ThreadRPCServer method=%s\n", SanitizeString(strMethod)); // Parse params UniValue valParams = find_value(request, "params"); if (valParams.isArray()) params = valParams.get_array(); else if (valParams.isNull()) params = UniValue(UniValue::VARR); else throw JSONRPCError(RPC_INVALID_REQUEST, "Params must be an array"); } static UniValue JSONRPCExecOne(const UniValue& req) { UniValue rpc_result(UniValue::VOBJ); JSONRequest jreq; try { jreq.parse(req); UniValue result = tableRPC.execute(jreq.strMethod, jreq.params); rpc_result = JSONRPCReplyObj(result, NullUniValue, jreq.id); } catch (const UniValue& objError) { rpc_result = JSONRPCReplyObj(NullUniValue, objError, jreq.id); } catch (const std::exception& e) { rpc_result = JSONRPCReplyObj(NullUniValue, JSONRPCError(RPC_PARSE_ERROR, e.what()), jreq.id); } return rpc_result; } static string JSONRPCExecBatch(const UniValue& vReq) { UniValue ret(UniValue::VARR); for (unsigned int reqIdx = 0; reqIdx < vReq.size(); reqIdx++) ret.push_back(JSONRPCExecOne(vReq[reqIdx])); return ret.write() + "\n"; } static bool HTTPReq_JSONRPC(AcceptedConnection *conn, string& strRequest, map& mapHeaders, bool fRun) { // Check authorization if (mapHeaders.count("authorization") == 0) { conn->stream() << HTTPError(HTTP_UNAUTHORIZED, false) << std::flush; return false; } if (!HTTPAuthorized(mapHeaders)) { LogPrintf("ThreadRPCServer incorrect password attempt from %s\n", conn->peer_address_to_string()); /* Deter brute-forcing We don't support exposing the RPC port, so this shouldn't result in a DoS. */ MilliSleep(250); conn->stream() << HTTPError(HTTP_UNAUTHORIZED, false) << std::flush; return false; } JSONRequest jreq; try { // Parse request UniValue valRequest; if (!valRequest.read(strRequest)) throw JSONRPCError(RPC_PARSE_ERROR, "Parse error"); string strReply; // singleton request if (valRequest.isObject()) { jreq.parse(valRequest); UniValue result = tableRPC.execute(jreq.strMethod, jreq.params); // Send reply strReply = JSONRPCReply(result, NullUniValue, jreq.id); // array of requests } else if (valRequest.isArray()) strReply = JSONRPCExecBatch(valRequest.get_array()); else throw JSONRPCError(RPC_PARSE_ERROR, "Top-level object parse error"); conn->stream() << HTTPReplyHeader(HTTP_OK, fRun, strReply.size()) << strReply << std::flush; } catch (const UniValue& objError) { ErrorReply(conn->stream(), objError, jreq.id); return false; } catch (const std::exception& e) { ErrorReply(conn->stream(), JSONRPCError(RPC_PARSE_ERROR, e.what()), jreq.id); return false; } return true; } void ServiceConnection(AcceptedConnection *conn) { bool fRun = true; while (fRun && !ShutdownRequested()) { int nProto = 0; map mapHeaders; string strRequest, strMethod, strURI; // Read HTTP request line if (!ReadHTTPRequestLine(conn->stream(), nProto, strMethod, strURI)) break; // Read HTTP message headers and body ReadHTTPMessage(conn->stream(), mapHeaders, strRequest, nProto, MAX_SIZE); // HTTP Keep-Alive is false; close connection immediately if ((mapHeaders["connection"] == "close") || (!GetBoolArg("-rpckeepalive", true))) fRun = false; // Process via JSON-RPC API if (strURI == "/") { if (!HTTPReq_JSONRPC(conn, strRequest, mapHeaders, fRun)) break; // Process via HTTP REST API } else if (strURI.substr(0, 6) == "/rest/" && GetBoolArg("-rest", false)) { if (!HTTPReq_REST(conn, strURI, strRequest, mapHeaders, fRun)) break; } else { conn->stream() << HTTPError(HTTP_NOT_FOUND, false) << std::flush; break; } } } UniValue CRPCTable::execute(const std::string &strMethod, const UniValue ¶ms) const { // Return immediately if in warmup { LOCK(cs_rpcWarmup); if (fRPCInWarmup) throw JSONRPCError(RPC_IN_WARMUP, rpcWarmupStatus); } // Find method const CRPCCommand *pcmd = tableRPC[strMethod]; if (!pcmd) throw JSONRPCError(RPC_METHOD_NOT_FOUND, "Method not found"); g_rpcSignals.PreCommand(*pcmd); try { // Execute return pcmd->actor(params, false); } catch (const std::exception& e) { throw JSONRPCError(RPC_MISC_ERROR, e.what()); } g_rpcSignals.PostCommand(*pcmd); } std::string HelpExampleCli(const std::string& methodname, const std::string& args) { return "> bitcoin-cli " + methodname + " " + args + "\n"; } std::string HelpExampleRpc(const std::string& methodname, const std::string& args) { return "> curl --user myusername --data-binary '{\"jsonrpc\": \"1.0\", \"id\":\"curltest\", " "\"method\": \"" + methodname + "\", \"params\": [" + args + "] }' -H 'content-type: text/plain;' http://127.0.0.1:8332/\n"; } const CRPCTable tableRPC;