void stpathset_append(STPathSet& st, STPath const& p, Args const&... args) { st.push_back(p); stpathset_append(st, args...); }
// This interface is deprecated. Json::Value doRipplePathFind (RPC::Context& context) { RPC::LegacyPathFind lpf (context.role == Role::ADMIN); if (!lpf.isOk ()) return rpcError (rpcTOO_BUSY); context.loadType = Resource::feeHighBurdenRPC; RippleAddress raSrc; RippleAddress raDst; STAmount saDstAmount; Ledger::pointer lpLedger; Json::Value jvResult; if (getConfig().RUN_STANDALONE || context.params.isMember(jss::ledger) || context.params.isMember(jss::ledger_index) || context.params.isMember(jss::ledger_hash)) { // The caller specified a ledger jvResult = RPC::lookupLedger ( context.params, lpLedger, context.netOps); if (!lpLedger) return jvResult; } if (!context.params.isMember ("source_account")) { jvResult = rpcError (rpcSRC_ACT_MISSING); } else if (!context.params["source_account"].isString () || !raSrc.setAccountID ( context.params["source_account"].asString ())) { jvResult = rpcError (rpcSRC_ACT_MALFORMED); } else if (!context.params.isMember ("destination_account")) { jvResult = rpcError (rpcDST_ACT_MISSING); } else if (!context.params["destination_account"].isString () || !raDst.setAccountID ( context.params["destination_account"].asString ())) { jvResult = rpcError (rpcDST_ACT_MALFORMED); } else if ( // Parse saDstAmount. !context.params.isMember ("destination_amount") || ! amountFromJsonNoThrow(saDstAmount, context.params["destination_amount"]) || saDstAmount <= zero || (!isXRP(saDstAmount.getCurrency ()) && (!saDstAmount.getIssuer () || noAccount() == saDstAmount.getIssuer ()))) { WriteLog (lsINFO, RPCHandler) << "Bad destination_amount."; jvResult = rpcError (rpcINVALID_PARAMS); } else if ( // Checks on source_currencies. context.params.isMember ("source_currencies") && (!context.params["source_currencies"].isArray () || !context.params["source_currencies"].size ()) // Don't allow empty currencies. ) { WriteLog (lsINFO, RPCHandler) << "Bad source_currencies."; jvResult = rpcError (rpcINVALID_PARAMS); } else { context.loadType = Resource::feeHighBurdenRPC; RippleLineCache::pointer cache; if (lpLedger) { // The caller specified a ledger lpLedger = std::make_shared<Ledger> (std::ref (*lpLedger), false); cache = std::make_shared<RippleLineCache>(lpLedger); } else { // The closed ledger is recent and any nodes made resident // have the best chance to persist lpLedger = context.netOps.getClosedLedger(); cache = getApp().getPathRequests().getLineCache(lpLedger, false); } Json::Value jvSrcCurrencies; if (context.params.isMember ("source_currencies")) { jvSrcCurrencies = context.params["source_currencies"]; } else { auto currencies = accountSourceCurrencies (raSrc, cache, true); jvSrcCurrencies = Json::Value (Json::arrayValue); for (auto const& uCurrency: currencies) { Json::Value jvCurrency (Json::objectValue); jvCurrency["currency"] = to_string(uCurrency); jvSrcCurrencies.append (jvCurrency); } } // Fill in currencies destination will accept Json::Value jvDestCur (Json::arrayValue); // TODO(tom): this could be optimized the same way that // PathRequest::doUpdate() is - if we don't obsolete this code first. auto usDestCurrID = accountDestCurrencies (raDst, cache, true); for (auto const& uCurrency: usDestCurrID) jvDestCur.append (to_string (uCurrency)); jvResult["destination_currencies"] = jvDestCur; jvResult["destination_account"] = raDst.humanAccountID (); Json::Value jvArray (Json::arrayValue); int level = getConfig().PATH_SEARCH_OLD; if ((getConfig().PATH_SEARCH_MAX > level) && !getApp().getFeeTrack().isLoadedLocal()) { ++level; } if (context.params.isMember("search_depth") && context.params["search_depth"].isIntegral()) { int rLev = context.params["search_depth"].asInt (); if ((rLev < level) || (context.role == Role::ADMIN)) level = rLev; } FindPaths fp ( cache, raSrc.getAccountID(), raDst.getAccountID(), saDstAmount, level, 4); // max paths for (unsigned int i = 0; i != jvSrcCurrencies.size (); ++i) { Json::Value jvSource = jvSrcCurrencies[i]; Currency uSrcCurrencyID; Account uSrcIssuerID; if (!jvSource.isObject ()) return rpcError (rpcINVALID_PARAMS); // Parse mandatory currency. if (!jvSource.isMember ("currency") || !to_currency ( uSrcCurrencyID, jvSource["currency"].asString ())) { WriteLog (lsINFO, RPCHandler) << "Bad currency."; return rpcError (rpcSRC_CUR_MALFORMED); } if (uSrcCurrencyID.isNonZero ()) uSrcIssuerID = raSrc.getAccountID (); // Parse optional issuer. if (jvSource.isMember ("issuer") && ((!jvSource["issuer"].isString () || !to_issuer (uSrcIssuerID, jvSource["issuer"].asString ())) || (uSrcIssuerID.isZero () != uSrcCurrencyID.isZero ()) || (noAccount() == uSrcIssuerID))) { WriteLog (lsINFO, RPCHandler) << "Bad issuer."; return rpcError (rpcSRC_ISR_MALFORMED); } STPathSet spsComputed; if (context.params.isMember("paths")) { Json::Value pathSet = Json::objectValue; pathSet["Paths"] = context.params["paths"]; STParsedJSONObject paths ("pathSet", pathSet); if (paths.object.get() == nullptr) return paths.error; else { spsComputed = paths.object.get()->getFieldPathSet (sfPaths); WriteLog (lsTRACE, RPCHandler) << "ripple_path_find: Paths: " << spsComputed.getJson (0); } } STPath fullLiquidityPath; auto valid = fp.findPathsForIssue ( {uSrcCurrencyID, uSrcIssuerID}, spsComputed, fullLiquidityPath); if (!valid) { WriteLog (lsWARNING, RPCHandler) << "ripple_path_find: No paths found."; } else { auto& issuer = isXRP (uSrcIssuerID) ? isXRP (uSrcCurrencyID) ? // Default to source account. xrpAccount() : Account (raSrc.getAccountID ()) : uSrcIssuerID; // Use specifed issuer. STAmount saMaxAmount ({uSrcCurrencyID, issuer}, 1); saMaxAmount.negate (); LedgerEntrySet lesSandbox (lpLedger, tapNONE); auto rc = path::RippleCalc::rippleCalculate ( lesSandbox, saMaxAmount, // --> Amount to send is unlimited // to get an estimate. saDstAmount, // --> Amount to deliver. raDst.getAccountID (), // --> Account to deliver to. raSrc.getAccountID (), // --> Account sending from. spsComputed); // --> Path set. WriteLog (lsWARNING, RPCHandler) << "ripple_path_find:" << " saMaxAmount=" << saMaxAmount << " saDstAmount=" << saDstAmount << " saMaxAmountAct=" << rc.actualAmountIn << " saDstAmountAct=" << rc.actualAmountOut; if (fullLiquidityPath.size() > 0 && (rc.result() == terNO_LINE || rc.result() == tecPATH_PARTIAL)) { WriteLog (lsDEBUG, PathRequest) << "Trying with an extra path element"; spsComputed.push_back (fullLiquidityPath); lesSandbox.clear (); rc = path::RippleCalc::rippleCalculate ( lesSandbox, saMaxAmount, // --> Amount to send is unlimited // to get an estimate. saDstAmount, // --> Amount to deliver. raDst.getAccountID (), // --> Account to deliver to. raSrc.getAccountID (), // --> Account sending from. spsComputed); // --> Path set. WriteLog (lsDEBUG, PathRequest) << "Extra path element gives " << transHuman (rc.result ()); } if (rc.result () == tesSUCCESS) { Json::Value jvEntry (Json::objectValue); STPathSet spsCanonical; // Reuse the expanded as it would need to be calcuated // anyway to produce the canonical. (At least unless we // make a direct canonical.) jvEntry["source_amount"] = rc.actualAmountIn.getJson (0); jvEntry["paths_canonical"] = Json::arrayValue; jvEntry["paths_computed"] = spsComputed.getJson (0); jvArray.append (jvEntry); } else { std::string strToken; std::string strHuman; transResultInfo (rc.result (), strToken, strHuman); WriteLog (lsDEBUG, RPCHandler) << "ripple_path_find: " << strToken << " " << strHuman << " " << spsComputed.getJson (0); } } } // Each alternative differs by source currency. jvResult["alternatives"] = jvArray; } WriteLog (lsDEBUG, RPCHandler) << boost::str (boost::format ("ripple_path_find< %s") % jvResult); return jvResult; }
std::pair<bool, Json::Value> ripplePathFind(RippleLineCache::pointer const& cache, RippleAddress const& raSrc, RippleAddress const& raDst, STAmount const& saDstAmount, Ledger::pointer const& lpLedger, Json::Value const& jvSrcCurrencies, boost::optional<Json::Value> const& contextPaths, int const& level) { FindPaths fp( cache, raSrc.getAccountID(), raDst.getAccountID(), saDstAmount, level, 4); // max paths Json::Value jvArray(Json::arrayValue); for (unsigned int i = 0; i != jvSrcCurrencies.size(); ++i) { Json::Value jvSource = jvSrcCurrencies[i]; Currency uSrcCurrencyID; Account uSrcIssuerID; if (!jvSource.isObject()) return std::make_pair(false, rpcError(rpcINVALID_PARAMS)); // Parse mandatory currency. if (!jvSource.isMember(jss::currency) || !to_currency( uSrcCurrencyID, jvSource[jss::currency].asString())) { WriteLog(lsINFO, RPCHandler) << "Bad currency."; return std::make_pair(false, rpcError(rpcSRC_CUR_MALFORMED)); } if (uSrcCurrencyID.isNonZero()) uSrcIssuerID = raSrc.getAccountID(); // Parse optional issuer. if (jvSource.isMember(jss::issuer) && ((!jvSource[jss::issuer].isString() || !to_issuer(uSrcIssuerID, jvSource[jss::issuer].asString())) || (uSrcIssuerID.isZero() != uSrcCurrencyID.isZero()) || (noAccount() == uSrcIssuerID))) { WriteLog(lsINFO, RPCHandler) << "Bad issuer."; return std::make_pair(false, rpcError(rpcSRC_ISR_MALFORMED)); } STPathSet spsComputed; if (contextPaths) { Json::Value pathSet = Json::objectValue; pathSet[jss::Paths] = contextPaths.get(); STParsedJSONObject paths("pathSet", pathSet); if (paths.object.get() == nullptr) return std::make_pair(false, paths.error); else { spsComputed = paths.object.get()->getFieldPathSet(sfPaths); WriteLog(lsTRACE, RPCHandler) << "ripple_path_find: Paths: " << spsComputed.getJson(0); } } STPath fullLiquidityPath; auto valid = fp.findPathsForIssue( { uSrcCurrencyID, uSrcIssuerID }, spsComputed, fullLiquidityPath); if (!valid) { WriteLog(lsWARNING, RPCHandler) << "ripple_path_find: No paths found."; } else { auto& issuer = isXRP(uSrcIssuerID) ? isXRP(uSrcCurrencyID) ? // Default to source account. xrpAccount() : Account(raSrc.getAccountID()) : uSrcIssuerID; // Use specifed issuer. STAmount saMaxAmount({ uSrcCurrencyID, issuer }, 1); saMaxAmount.negate(); LedgerEntrySet lesSandbox(lpLedger, tapNONE); auto rc = path::RippleCalc::rippleCalculate( lesSandbox, saMaxAmount, // --> Amount to send is unlimited // to get an estimate. saDstAmount, // --> Amount to deliver. raDst.getAccountID(), // --> Account to deliver to. raSrc.getAccountID(), // --> Account sending from. spsComputed); // --> Path set. WriteLog(lsWARNING, RPCHandler) << "ripple_path_find:" << " saMaxAmount=" << saMaxAmount << " saDstAmount=" << saDstAmount << " saMaxAmountAct=" << rc.actualAmountIn << " saDstAmountAct=" << rc.actualAmountOut; if (fullLiquidityPath.size() > 0 && (rc.result() == terNO_LINE || rc.result() == tecPATH_PARTIAL)) { WriteLog(lsDEBUG, PathRequest) << "Trying with an extra path element"; spsComputed.push_back(fullLiquidityPath); lesSandbox.clear(); rc = path::RippleCalc::rippleCalculate( lesSandbox, saMaxAmount, // --> Amount to send is unlimited // to get an estimate. saDstAmount, // --> Amount to deliver. raDst.getAccountID(), // --> Account to deliver to. raSrc.getAccountID(), // --> Account sending from. spsComputed); // --> Path set. WriteLog(lsDEBUG, PathRequest) << "Extra path element gives " << transHuman(rc.result()); } if (rc.result() == tesSUCCESS) { Json::Value jvEntry(Json::objectValue); STPathSet spsCanonical; // Reuse the expanded as it would need to be calcuated // anyway to produce the canonical. (At least unless we // make a direct canonical.) jvEntry[jss::source_amount] = rc.actualAmountIn.getJson(0); jvEntry[jss::paths_canonical] = Json::arrayValue; jvEntry[jss::paths_computed] = spsComputed.getJson(0); jvArray.append(jvEntry); } else { std::string strToken; std::string strHuman; transResultInfo(rc.result(), strToken, strHuman); WriteLog(lsDEBUG, RPCHandler) << "ripple_path_find: " << strToken << " " << strHuman << " " << spsComputed.getJson(0); } } } return std::make_pair(true, jvArray); }