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854749a05e9bc6bad368240759edaf1b4512707f
clio/tests/unit/rpc/handlers/LedgerTests.cpp
Alex Kremer b65ac67d17 fix: Relax error when full or accounts set to false (#1540) 
Fixes #1537
2024-07-18 15:20:46 +01:00

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//------------------------------------------------------------------------------
/*
This file is part of clio: https://github.com/XRPLF/clio
Copyright (c) 2023, the clio developers.
Permission to use, copy, modify, and distribute this software for any
purpose with or without fee is hereby granted, provided that the above
copyright notice and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
//==============================================================================
#include "data/Types.hpp"
#include "rpc/Errors.hpp"
#include "rpc/JS.hpp"
#include "rpc/common/AnyHandler.hpp"
#include "rpc/common/Specs.hpp"
#include "rpc/common/Types.hpp"
#include "rpc/handlers/Ledger.hpp"
#include "util/Fixtures.hpp"
#include "util/NameGenerator.hpp"
#include "util/TestObject.hpp"
#include <boost/json/parse.hpp>
#include <boost/json/value.hpp>
#include <fmt/core.h>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include <ripple/basics/base_uint.h>
#include <ripple/protocol/Indexes.h>
#include <ripple/protocol/LedgerFormats.h>
#include <ripple/protocol/UintTypes.h>
#include <ripple/protocol/jss.h>
#include <cstdint>
#include <optional>
#include <string>
#include <unordered_map>
#include <vector>
constexpr static auto ACCOUNT = "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn";
constexpr static auto ACCOUNT2 = "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun";
constexpr static auto LEDGERHASH = "4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652";
constexpr static auto INDEX1 = "1B8590C01B0006EDFA9ED60296DD052DC5E90F99659B25014D08E1BC983515BC";
constexpr static auto INDEX2 = "1B8590C01B0006EDFA9ED60296DD052DC5E90F99659B25014D08E1BC983515B1";
constexpr static auto CURRENCY = "0158415500000000C1F76FF6ECB0BAC600000000";
constexpr static auto RANGEMIN = 10;
constexpr static auto RANGEMAX = 30;
using namespace rpc;
namespace json = boost::json;
using namespace testing;
class RPCLedgerHandlerTest : public HandlerBaseTest {};
struct LedgerParamTestCaseBundle {
std::string testName;
std::string testJson;
std::string expectedError;
std::string expectedErrorMessage;
};
// parameterized test cases for parameters check
struct LedgerParameterTest : public RPCLedgerHandlerTest, public WithParamInterface<LedgerParamTestCaseBundle> {};
static auto
generateTestValuesForParametersTest()
{
return std::vector<LedgerParamTestCaseBundle>{
{
"AccountsInvalidBool",
R"({"accounts": true})",
"notSupported",
"Not supported field 'accounts's value 'true'",
},
{
"AccountsInvalidInt",
R"({"accounts": 123})",
"invalidParams",
"Invalid parameters.",
},
{
"FullInvalidBool",
R"({"full": true})",
"notSupported",
"Not supported field 'full's value 'true'",
},
{
"FullInvalidInt",
R"({"full": 123})",
"invalidParams",
"Invalid parameters.",
},
{
"QueueExist",
R"({"queue": true})",
"notSupported",
"Not supported field 'queue's value 'true'",
},
{
"QueueNotBool",
R"({"queue": 123})",
"invalidParams",
"Invalid parameters.",
},
{
"OwnerFundsNotBool",
R"({"owner_funds": 123})",
"invalidParams",
"Invalid parameters.",
},
{
"LedgerHashInvalid",
R"({"account": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn", "ledger_hash": "x"})",
"invalidParams",
"ledger_hashMalformed",
},
{
"LedgerHashNotString",
R"({"account": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn", "ledger_hash": 123})",
"invalidParams",
"ledger_hashNotString",
},
{
"LedgerIndexNotInt",
R"({"account": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn", "ledger_index": "x"})",
"invalidParams",
"ledgerIndexMalformed",
},
{
"TransactionsNotBool",
R"({"transactions": "x"})",
"invalidParams",
"Invalid parameters.",
},
{
"ExpandNotBool",
R"({"expand": "x"})",
"invalidParams",
"Invalid parameters.",
},
{
"BinaryNotBool",
R"({"binary": "x"})",
"invalidParams",
"Invalid parameters.",
},
{
"DiffNotBool",
R"({"diff": "x"})",
"invalidParams",
"Invalid parameters.",
},
};
}
INSTANTIATE_TEST_CASE_P(
RPCLedgerGroup1,
LedgerParameterTest,
ValuesIn(generateTestValuesForParametersTest()),
tests::util::NameGenerator
);
TEST_P(LedgerParameterTest, InvalidParams)
{
auto const testBundle = GetParam();
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(testBundle.testJson);
auto const output = handler.process(req, Context{yield});
ASSERT_FALSE(output);
auto const err = rpc::makeError(output.result.error());
EXPECT_EQ(err.at("error").as_string(), testBundle.expectedError);
EXPECT_EQ(err.at("error_message").as_string(), testBundle.expectedErrorMessage);
});
}
TEST_F(RPCLedgerHandlerTest, LedgerNotExistViaIntSequence)
{
backend->setRange(RANGEMIN, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillByDefault(Return(std::nullopt));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(fmt::format(
R"({{
"ledger_index": {}
}})",
RANGEMAX
));
auto const output = handler.process(req, Context{yield});
ASSERT_FALSE(output);
auto const err = rpc::makeError(output.result.error());
EXPECT_EQ(err.at("error").as_string(), "lgrNotFound");
EXPECT_EQ(err.at("error_message").as_string(), "ledgerNotFound");
});
}
TEST_F(RPCLedgerHandlerTest, LedgerNotExistViaStringSequence)
{
backend->setRange(RANGEMIN, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillByDefault(Return(std::nullopt));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(fmt::format(
R"({{
"ledger_index": "{}"
}})",
RANGEMAX
));
auto const output = handler.process(req, Context{yield});
ASSERT_FALSE(output);
auto const err = rpc::makeError(output.result.error());
EXPECT_EQ(err.at("error").as_string(), "lgrNotFound");
EXPECT_EQ(err.at("error_message").as_string(), "ledgerNotFound");
});
}
TEST_F(RPCLedgerHandlerTest, LedgerNotExistViaHash)
{
backend->setRange(RANGEMIN, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerByHash).Times(1);
ON_CALL(*backend, fetchLedgerByHash(ripple::uint256{LEDGERHASH}, _)).WillByDefault(Return(std::nullopt));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(fmt::format(
R"({{
"ledger_hash": "{}"
}})",
LEDGERHASH
));
auto const output = handler.process(req, Context{yield});
ASSERT_FALSE(output);
auto const err = rpc::makeError(output.result.error());
EXPECT_EQ(err.at("error").as_string(), "lgrNotFound");
EXPECT_EQ(err.at("error_message").as_string(), "ledgerNotFound");
});
}
TEST_F(RPCLedgerHandlerTest, Default)
{
static auto constexpr expectedOut =
R"({
"ledger_hash":"4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652",
"ledger_index":30,
"validated":true,
"ledger":{
"account_hash":"0000000000000000000000000000000000000000000000000000000000000000",
"close_flags":0,
"close_time":0,
"close_time_resolution":0,
"closed":true,
"close_time_iso":"2000-01-01T00:00:00Z",
"ledger_hash":"4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652",
"ledger_index":"30",
"parent_close_time":0,
"parent_hash":"0000000000000000000000000000000000000000000000000000000000000000",
"total_coins":"0",
"transaction_hash":"0000000000000000000000000000000000000000000000000000000000000000"
}
})";
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillByDefault(Return(ledgerHeader));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse("{}");
auto output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
// remove human readable time, it is sightly different cross the platform
EXPECT_EQ(output.result->as_object().at("ledger").as_object().erase("close_time_human"), 1);
EXPECT_EQ(*output.result, json::parse(expectedOut));
});
}
// fields not supported for specific value can be set to its default value
TEST_F(RPCLedgerHandlerTest, ConditionallyNotSupportedFieldsDefaultValue)
{
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillRepeatedly(Return(ledgerHeader));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"full": false,
"accounts": false,
"queue": false
})"
);
auto output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
});
}
TEST_F(RPCLedgerHandlerTest, QueryViaLedgerIndex)
{
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(15, _)).WillByDefault(Return(ledgerHeader));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(R"({"ledger_index": 15})");
auto output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
EXPECT_TRUE(output.result->as_object().contains("ledger"));
});
}
TEST_F(RPCLedgerHandlerTest, QueryViaLedgerHash)
{
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerByHash).Times(1);
ON_CALL(*backend, fetchLedgerByHash(ripple::uint256{INDEX1}, _)).WillByDefault(Return(ledgerHeader));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(fmt::format(R"({{"ledger_hash": "{}" }})", INDEX1));
auto output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
EXPECT_TRUE(output.result->as_object().contains("ledger"));
});
}
TEST_F(RPCLedgerHandlerTest, BinaryTrue)
{
static auto constexpr expectedOut =
R"({
"ledger_hash":"4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652",
"ledger_index":30,
"validated":true,
"ledger":{
"ledger_data":"0000001E000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000",
"closed":true
}
})";
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillByDefault(Return(ledgerHeader));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"binary": true
})"
);
auto const output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
EXPECT_EQ(*output.result, json::parse(expectedOut));
});
}
TEST_F(RPCLedgerHandlerTest, TransactionsExpandBinary)
{
static auto constexpr expectedOut =
R"({
"ledger_hash":"4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652",
"ledger_index":30,
"validated":true,
"ledger":{
"ledger_data":"0000001E000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000",
"closed":true,
"transactions":[
{
"tx_blob":"120000240000001E61400000000000006468400000000000000373047465737481144B4E9C06F24296074F7BC48F92A97916C6DC5EA98314D31252CF902EF8DD8451243869B38667CBD89DF3",
"meta":"201C00000000F8E5110061E762400000000000006E81144B4E9C06F24296074F7BC48F92A97916C6DC5EA9E1E1E5110061E762400000000000001E8114D31252CF902EF8DD8451243869B38667CBD89DF3E1E1F1031000"
},
{
"tx_blob":"120000240000001E61400000000000006468400000000000000373047465737481144B4E9C06F24296074F7BC48F92A97916C6DC5EA98314D31252CF902EF8DD8451243869B38667CBD89DF3",
"meta":"201C00000000F8E5110061E762400000000000006E81144B4E9C06F24296074F7BC48F92A97916C6DC5EA9E1E1E5110061E762400000000000001E8114D31252CF902EF8DD8451243869B38667CBD89DF3E1E1F1031000"
}
]
}
})";
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillByDefault(Return(ledgerHeader));
TransactionAndMetadata t1;
t1.transaction = CreatePaymentTransactionObject(ACCOUNT, ACCOUNT2, 100, 3, RANGEMAX).getSerializer().peekData();
t1.metadata = CreatePaymentTransactionMetaObject(ACCOUNT, ACCOUNT2, 110, 30).getSerializer().peekData();
t1.ledgerSequence = RANGEMAX;
EXPECT_CALL(*backend, fetchAllTransactionsInLedger).Times(1);
ON_CALL(*backend, fetchAllTransactionsInLedger(RANGEMAX, _)).WillByDefault(Return(std::vector{t1, t1}));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"binary": true,
"expand": true,
"transactions": true
})"
);
auto const output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
EXPECT_EQ(*output.result, json::parse(expectedOut));
});
}
TEST_F(RPCLedgerHandlerTest, TransactionsExpandBinaryV2)
{
static auto constexpr expectedOut =
R"({
"ledger_hash": "4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652",
"ledger_index": 30,
"validated": true,
"ledger":{
"ledger_data": "0000001E000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000",
"closed": true,
"transactions": [
{
"hash": "70436A9332F7CD928FAEC1A41269A677739D8B11F108CE23AE23CBF0C9113F8C",
"tx_blob": "120000240000001E61400000000000006468400000000000000373047465737481144B4E9C06F24296074F7BC48F92A97916C6DC5EA98314D31252CF902EF8DD8451243869B38667CBD89DF3",
"meta_blob": "201C00000000F8E5110061E762400000000000006E81144B4E9C06F24296074F7BC48F92A97916C6DC5EA9E1E1E5110061E762400000000000001E8114D31252CF902EF8DD8451243869B38667CBD89DF3E1E1F1031000"
},
{
"hash": "70436A9332F7CD928FAEC1A41269A677739D8B11F108CE23AE23CBF0C9113F8C",
"tx_blob": "120000240000001E61400000000000006468400000000000000373047465737481144B4E9C06F24296074F7BC48F92A97916C6DC5EA98314D31252CF902EF8DD8451243869B38667CBD89DF3",
"meta_blob": "201C00000000F8E5110061E762400000000000006E81144B4E9C06F24296074F7BC48F92A97916C6DC5EA9E1E1E5110061E762400000000000001E8114D31252CF902EF8DD8451243869B38667CBD89DF3E1E1F1031000"
}
]
}
})";
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillOnce(Return(ledgerHeader));
TransactionAndMetadata t1;
t1.transaction = CreatePaymentTransactionObject(ACCOUNT, ACCOUNT2, 100, 3, RANGEMAX).getSerializer().peekData();
t1.metadata = CreatePaymentTransactionMetaObject(ACCOUNT, ACCOUNT2, 110, 30).getSerializer().peekData();
t1.ledgerSequence = RANGEMAX;
EXPECT_CALL(*backend, fetchAllTransactionsInLedger(RANGEMAX, _)).WillOnce(Return(std::vector{t1, t1}));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"binary": true,
"expand": true,
"transactions": true
})"
);
auto const output = handler.process(req, Context{.yield = yield, .apiVersion = 2u});
ASSERT_TRUE(output);
EXPECT_EQ(*output.result, json::parse(expectedOut));
});
}
TEST_F(RPCLedgerHandlerTest, TransactionsExpandNotBinary)
{
static auto constexpr expectedOut =
R"({
"ledger_hash":"4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652",
"ledger_index":30,
"validated":true,
"ledger":{
"account_hash":"0000000000000000000000000000000000000000000000000000000000000000",
"close_flags":0,
"close_time":0,
"close_time_resolution":0,
"closed":true,
"ledger_hash":"4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652",
"ledger_index":"30",
"parent_close_time":0,
"close_time_iso":"2000-01-01T00:00:00Z",
"parent_hash":"0000000000000000000000000000000000000000000000000000000000000000",
"total_coins":"0",
"transaction_hash":"0000000000000000000000000000000000000000000000000000000000000000",
"transactions":[
{
"Account":"rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn",
"Amount":"100",
"DeliverMax":"100",
"Destination":"rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun",
"Fee":"3",
"Sequence":30,
"SigningPubKey":"74657374",
"TransactionType":"Payment",
"hash":"70436A9332F7CD928FAEC1A41269A677739D8B11F108CE23AE23CBF0C9113F8C",
"metaData":{
"AffectedNodes":[
{
"ModifiedNode":{
"FinalFields":{
"Account":"rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn",
"Balance":"110"
},
"LedgerEntryType":"AccountRoot"
}
},
{
"ModifiedNode":{
"FinalFields":{
"Account":"rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun",
"Balance":"30"
},
"LedgerEntryType":"AccountRoot"
}
}
],
"TransactionIndex":0,
"TransactionResult":"tesSUCCESS",
"delivered_amount":"unavailable"
}
}
]
}
})";
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillByDefault(Return(ledgerHeader));
TransactionAndMetadata t1;
t1.transaction = CreatePaymentTransactionObject(ACCOUNT, ACCOUNT2, 100, 3, RANGEMAX).getSerializer().peekData();
t1.metadata = CreatePaymentTransactionMetaObject(ACCOUNT, ACCOUNT2, 110, 30).getSerializer().peekData();
t1.ledgerSequence = RANGEMAX;
EXPECT_CALL(*backend, fetchAllTransactionsInLedger).Times(1);
ON_CALL(*backend, fetchAllTransactionsInLedger(RANGEMAX, _)).WillByDefault(Return(std::vector{t1}));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"binary": false,
"expand": true,
"transactions": true
})"
);
auto output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
// remove human readable time, it is sightly different cross the platform
EXPECT_EQ(output.result->as_object().at("ledger").as_object().erase("close_time_human"), 1);
EXPECT_EQ(*output.result, json::parse(expectedOut));
});
}
TEST_F(RPCLedgerHandlerTest, TransactionsExpandNotBinaryV2)
{
static auto constexpr expectedOut =
R"({
"ledger_hash": "4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652",
"ledger_index": 30,
"validated": true,
"ledger":{
"account_hash": "0000000000000000000000000000000000000000000000000000000000000000",
"close_flags": 0,
"close_time": 0,
"close_time_resolution": 0,
"closed": true,
"ledger_hash": "4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652",
"ledger_index": 30,
"parent_close_time": 0,
"close_time_iso": "2000-01-01T00:00:00Z",
"parent_hash": "0000000000000000000000000000000000000000000000000000000000000000",
"total_coins": "0",
"transaction_hash": "0000000000000000000000000000000000000000000000000000000000000000",
"transactions":[
{
"validated": true,
"close_time_iso": "2000-01-01T00:00:00Z",
"hash": "70436A9332F7CD928FAEC1A41269A677739D8B11F108CE23AE23CBF0C9113F8C",
"ledger_hash": "4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652",
"ledger_index": 30,
"tx_json":
{
"Account": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn",
"DeliverMax": "100",
"Destination": "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun",
"Fee": "3",
"Sequence": 30,
"SigningPubKey": "74657374",
"TransactionType": "Payment"
},
"meta":{
"AffectedNodes":[
{
"ModifiedNode":
{
"FinalFields":
{
"Account": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn",
"Balance": "110"
},
"LedgerEntryType": "AccountRoot"
}
},
{
"ModifiedNode":
{
"FinalFields":
{
"Account": "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun",
"Balance": "30"
},
"LedgerEntryType": "AccountRoot"
}
}
],
"TransactionIndex": 0,
"TransactionResult": "tesSUCCESS",
"delivered_amount": "unavailable"
}
}
]
}
})";
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillOnce(Return(ledgerHeader));
TransactionAndMetadata t1;
t1.transaction = CreatePaymentTransactionObject(ACCOUNT, ACCOUNT2, 100, 3, RANGEMAX).getSerializer().peekData();
t1.metadata = CreatePaymentTransactionMetaObject(ACCOUNT, ACCOUNT2, 110, 30).getSerializer().peekData();
t1.ledgerSequence = RANGEMAX;
EXPECT_CALL(*backend, fetchAllTransactionsInLedger(RANGEMAX, _)).WillOnce(Return(std::vector{t1}));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"binary": false,
"expand": true,
"transactions": true
})"
);
auto output = handler.process(req, Context{.yield = yield, .apiVersion = 2u});
ASSERT_TRUE(output);
// remove human readable time, it is sightly different cross the platform
EXPECT_EQ(output.result->as_object().at("ledger").as_object().erase("close_time_human"), 1);
EXPECT_EQ(*output.result, json::parse(expectedOut));
});
}
TEST_F(RPCLedgerHandlerTest, TwoRequestInARowTransactionsExpandNotBinaryV2)
{
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillOnce(Return(ledgerHeader));
auto const ledgerHeader2 = CreateLedgerHeader(LEDGERHASH, RANGEMAX - 1, 10);
EXPECT_CALL(*backend, fetchLedgerBySequence(RANGEMAX - 1, _)).WillOnce(Return(ledgerHeader2));
TransactionAndMetadata t1;
t1.transaction = CreatePaymentTransactionObject(ACCOUNT, ACCOUNT2, 100, 3, RANGEMAX).getSerializer().peekData();
t1.metadata = CreatePaymentTransactionMetaObject(ACCOUNT, ACCOUNT2, 110, 30).getSerializer().peekData();
t1.ledgerSequence = RANGEMAX;
EXPECT_CALL(*backend, fetchAllTransactionsInLedger(RANGEMAX, _)).WillOnce(Return(std::vector{t1}));
EXPECT_CALL(*backend, fetchAllTransactionsInLedger(RANGEMAX - 1, _)).WillOnce(Return(std::vector{t1}));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"binary": false,
"expand": true,
"transactions": true
})"
);
auto output = handler.process(req, Context{.yield = yield, .apiVersion = 2u});
ASSERT_TRUE(output);
auto const req2 = json::parse(fmt::format(
R"({{
"binary": false,
"expand": true,
"transactions": true,
"ledger_index": {}
}})",
RANGEMAX - 1
));
auto output2 = handler.process(req2, Context{.yield = yield, .apiVersion = 2u});
ASSERT_TRUE(output2);
EXPECT_NE(
output.result->at("ledger").at("transactions").as_array()[0].at("close_time_iso"),
output2.result->at("ledger").at("transactions").as_array()[0].at("close_time_iso")
);
});
}
TEST_F(RPCLedgerHandlerTest, TransactionsNotExpand)
{
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillByDefault(Return(ledgerHeader));
EXPECT_CALL(*backend, fetchAllTransactionHashesInLedger).Times(1);
ON_CALL(*backend, fetchAllTransactionHashesInLedger(RANGEMAX, _))
.WillByDefault(Return(std::vector{ripple::uint256{INDEX1}, ripple::uint256{INDEX2}}));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"transactions": true
})"
);
auto const output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
EXPECT_EQ(
output.result->as_object().at("ledger").at("transactions"),
json::parse(fmt::format(R"(["{}","{}"])", INDEX1, INDEX2))
);
});
}
TEST_F(RPCLedgerHandlerTest, DiffNotBinary)
{
static auto constexpr expectedOut =
R"([
{
"object_id":"1B8590C01B0006EDFA9ED60296DD052DC5E90F99659B25014D08E1BC983515B1",
"object":""
},
{
"object_id":"1B8590C01B0006EDFA9ED60296DD052DC5E90F99659B25014D08E1BC983515BC",
"object":{
"Account":"rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn",
"Balance":"10",
"Flags":4194304,
"LedgerEntryType":"AccountRoot",
"OwnerCount":2,
"PreviousTxnID":"1B8590C01B0006EDFA9ED60296DD052DC5E90F99659B25014D08E1BC983515BC",
"PreviousTxnLgrSeq":3,
"Sequence":1,
"TransferRate":0,
"index":"1B8590C01B0006EDFA9ED60296DD052DC5E90F99659B25014D08E1BC983515BC"
}
}
])";
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillByDefault(Return(ledgerHeader));
std::vector<LedgerObject> los;
EXPECT_CALL(*backend, fetchLedgerDiff).Times(1);
los.push_back(LedgerObject{ripple::uint256{INDEX2}, Blob{}}); // NOLINT(modernize-use-emplace)
los.push_back(LedgerObject{
ripple::uint256{INDEX1},
CreateAccountRootObject(ACCOUNT, ripple::lsfGlobalFreeze, 1, 10, 2, INDEX1, 3).getSerializer().peekData()
});
ON_CALL(*backend, fetchLedgerDiff(RANGEMAX, _)).WillByDefault(Return(los));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"diff": true
})"
);
auto const output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
EXPECT_EQ(output.result->at("ledger").at("diff"), json::parse(expectedOut));
});
}
TEST_F(RPCLedgerHandlerTest, DiffBinary)
{
static auto constexpr expectedOut =
R"([
{
"object_id":"1B8590C01B0006EDFA9ED60296DD052DC5E90F99659B25014D08E1BC983515B1",
"object":""
},
{
"object_id":"1B8590C01B0006EDFA9ED60296DD052DC5E90F99659B25014D08E1BC983515BC",
"object":"1100612200400000240000000125000000032B000000002D00000002551B8590C01B0006EDFA9ED60296DD052DC5E90F99659B25014D08E1BC983515BC62400000000000000A81144B4E9C06F24296074F7BC48F92A97916C6DC5EA9"
}
])";
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillByDefault(Return(ledgerHeader));
std::vector<LedgerObject> los;
EXPECT_CALL(*backend, fetchLedgerDiff).Times(1);
los.push_back(LedgerObject{ripple::uint256{INDEX2}, Blob{}}); // NOLINT(modernize-use-emplace)
los.push_back(LedgerObject{
ripple::uint256{INDEX1},
CreateAccountRootObject(ACCOUNT, ripple::lsfGlobalFreeze, 1, 10, 2, INDEX1, 3).getSerializer().peekData()
});
ON_CALL(*backend, fetchLedgerDiff(RANGEMAX, _)).WillByDefault(Return(los));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"diff": true,
"binary": true
})"
);
auto const output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
EXPECT_EQ(output.result->at("ledger").at("diff"), json::parse(expectedOut));
});
}
TEST_F(RPCLedgerHandlerTest, OwnerFundsEmtpy)
{
static auto constexpr expectedOut =
R"({
"ledger_hash":"4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652",
"ledger_index":30,
"validated":true,
"ledger":{
"account_hash":"0000000000000000000000000000000000000000000000000000000000000000",
"close_flags":0,
"close_time":0,
"close_time_resolution":0,
"closed":true,
"ledger_hash":"4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652",
"ledger_index":"30",
"parent_close_time":0,
"close_time_iso":"2000-01-01T00:00:00Z",
"parent_hash":"0000000000000000000000000000000000000000000000000000000000000000",
"total_coins":"0",
"transaction_hash":"0000000000000000000000000000000000000000000000000000000000000000",
"transactions":[
{
"Account":"rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn",
"Amount":"100",
"DeliverMax":"100",
"Destination":"rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun",
"Fee":"3",
"Sequence":30,
"SigningPubKey":"74657374",
"TransactionType":"Payment",
"hash":"70436A9332F7CD928FAEC1A41269A677739D8B11F108CE23AE23CBF0C9113F8C",
"metaData":{
"AffectedNodes":[
{
"ModifiedNode":{
"FinalFields":{
"Account":"rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn",
"Balance":"110"
},
"LedgerEntryType":"AccountRoot"
}
},
{
"ModifiedNode":{
"FinalFields":{
"Account":"rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun",
"Balance":"30"
},
"LedgerEntryType":"AccountRoot"
}
}
],
"TransactionIndex":0,
"TransactionResult":"tesSUCCESS",
"delivered_amount":"unavailable"
}
}
]
}
})";
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillByDefault(Return(ledgerHeader));
TransactionAndMetadata t1;
t1.transaction = CreatePaymentTransactionObject(ACCOUNT, ACCOUNT2, 100, 3, RANGEMAX).getSerializer().peekData();
t1.metadata = CreatePaymentTransactionMetaObject(ACCOUNT, ACCOUNT2, 110, 30).getSerializer().peekData();
t1.ledgerSequence = RANGEMAX;
EXPECT_CALL(*backend, fetchAllTransactionsInLedger).Times(1);
ON_CALL(*backend, fetchAllTransactionsInLedger(RANGEMAX, _)).WillByDefault(Return(std::vector{t1}));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"binary": false,
"expand": true,
"transactions": true,
"owner_funds": true
})"
);
auto output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
// remove human readable time, it is sightly different cross the platform
EXPECT_EQ(output.result->as_object().at("ledger").as_object().erase("close_time_human"), 1);
EXPECT_EQ(*output.result, json::parse(expectedOut));
});
}
TEST_F(RPCLedgerHandlerTest, OwnerFundsTrueBinaryFalse)
{
static auto constexpr expectedOut =
R"({
"ledger": {
"account_hash": "0000000000000000000000000000000000000000000000000000000000000000",
"close_flags": 0,
"close_time": 0,
"close_time_resolution": 0,
"closed": true,
"ledger_hash": "4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652",
"ledger_index": "30",
"parent_close_time": 0,
"close_time_iso": "2000-01-01T00:00:00Z",
"parent_hash": "0000000000000000000000000000000000000000000000000000000000000000",
"total_coins": "0",
"transaction_hash": "0000000000000000000000000000000000000000000000000000000000000000",
"transactions": [
{
"Account": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn",
"Fee": "2",
"hash": "65757B01CC1DF860DC6FEC73D6435D902BDC5E52D3FCB519E83D91C1F3D82EDC",
"metaData": {
"AffectedNodes": [
{
"CreatedNode": {
"LedgerEntryType": "Offer",
"NewFields": {
"TakerGets": "300",
"TakerPays": {
"currency": "0158415500000000C1F76FF6ECB0BAC600000000",
"issuer": "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun",
"value": "200"
}
}
}
}
],
"TransactionIndex": 100,
"TransactionResult": "tesSUCCESS"
},
"owner_funds": "193",
"Sequence": 100,
"SigningPubKey": "74657374",
"TakerGets": "300",
"TakerPays": {
"currency": "0158415500000000C1F76FF6ECB0BAC600000000",
"issuer": "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun",
"value": "200"
},
"TransactionType": "OfferCreate"
}
]
},
"ledger_hash": "4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652",
"ledger_index": 30,
"validated": true
})";
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillByDefault(Return(ledgerHeader));
// account doFetchLedgerObject
auto const accountKk = ripple::keylet::account(GetAccountIDWithString(ACCOUNT)).key;
auto const accountObject =
CreateAccountRootObject(ACCOUNT, 0, RANGEMAX, 200 /*balance*/, 2 /*owner object*/, INDEX1, RANGEMAX - 1, 0)
.getSerializer()
.peekData();
ON_CALL(*backend, doFetchLedgerObject(accountKk, RANGEMAX, _)).WillByDefault(Return(accountObject));
// fee object 2*2+3->7 ; balance 200 - 7 -> 193
auto feeBlob = CreateLegacyFeeSettingBlob(1, 2 /*reserve inc*/, 3 /*reserve base*/, 4, 0);
ON_CALL(*backend, doFetchLedgerObject(ripple::keylet::fees().key, RANGEMAX, _)).WillByDefault(Return(feeBlob));
EXPECT_CALL(*backend, doFetchLedgerObject).Times(2);
TransactionAndMetadata tx;
tx.metadata = CreateMetaDataForCreateOffer(CURRENCY, ACCOUNT2, 100, 300, 200).getSerializer().peekData();
tx.transaction = CreateCreateOfferTransactionObject(ACCOUNT, 2, 100, CURRENCY, ACCOUNT2, 200, 300, true)
.getSerializer()
.peekData();
tx.date = 123456;
tx.ledgerSequence = RANGEMAX;
EXPECT_CALL(*backend, fetchAllTransactionsInLedger).Times(1);
ON_CALL(*backend, fetchAllTransactionsInLedger(RANGEMAX, _)).WillByDefault(Return(std::vector{tx}));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"binary": false,
"expand": true,
"transactions": true,
"owner_funds": true
})"
);
auto output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
// remove human readable time, it is sightly different cross the platform
EXPECT_EQ(output.result->as_object().at("ledger").as_object().erase("close_time_human"), 1);
EXPECT_EQ(*output.result, json::parse(expectedOut));
});
}
TEST_F(RPCLedgerHandlerTest, OwnerFundsTrueBinaryTrue)
{
static auto constexpr expectedOut =
R"({
"ledger": {
"closed": true,
"ledger_data": "0000001E000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000",
"transactions": [
{
"meta": "201C00000064F8E311006FE864D5071AFD498D00000158415500000000C1F76FF6ECB0BAC600000000D31252CF902EF8DD8451243869B38667CBD89DF365400000000000012CE1E1F1031000",
"owner_funds": "193",
"tx_blob": "120007240000006464D5071AFD498D00000158415500000000C1F76FF6ECB0BAC600000000D31252CF902EF8DD8451243869B38667CBD89DF365400000000000012C68400000000000000273047465737481144B4E9C06F24296074F7BC48F92A97916C6DC5EA9"
}
]
},
"ledger_hash": "4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652",
"ledger_index": 30,
"validated": true
})";
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillByDefault(Return(ledgerHeader));
// account doFetchLedgerObject
auto const accountKk = ripple::keylet::account(GetAccountIDWithString(ACCOUNT)).key;
auto const accountObject =
CreateAccountRootObject(ACCOUNT, 0, RANGEMAX, 200 /*balance*/, 2 /*owner object*/, INDEX1, RANGEMAX - 1, 0)
.getSerializer()
.peekData();
ON_CALL(*backend, doFetchLedgerObject(accountKk, RANGEMAX, _)).WillByDefault(Return(accountObject));
// fee object 2*2+3->7 ; balance 200 - 7 -> 193
auto feeBlob = CreateLegacyFeeSettingBlob(1, 2 /*reserve inc*/, 3 /*reserve base*/, 4, 0);
ON_CALL(*backend, doFetchLedgerObject(ripple::keylet::fees().key, RANGEMAX, _)).WillByDefault(Return(feeBlob));
EXPECT_CALL(*backend, doFetchLedgerObject).Times(2);
TransactionAndMetadata tx;
tx.metadata = CreateMetaDataForCreateOffer(CURRENCY, ACCOUNT2, 100, 300, 200).getSerializer().peekData();
tx.transaction = CreateCreateOfferTransactionObject(ACCOUNT, 2, 100, CURRENCY, ACCOUNT2, 200, 300, true)
.getSerializer()
.peekData();
tx.date = 123456;
tx.ledgerSequence = RANGEMAX;
EXPECT_CALL(*backend, fetchAllTransactionsInLedger).Times(1);
ON_CALL(*backend, fetchAllTransactionsInLedger(RANGEMAX, _)).WillByDefault(Return(std::vector{tx}));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"binary": true,
"expand": true,
"transactions": true,
"owner_funds": true
})"
);
auto output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
EXPECT_EQ(*output.result, json::parse(expectedOut));
});
}
TEST_F(RPCLedgerHandlerTest, OwnerFundsIssuerIsSelf)
{
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillByDefault(Return(ledgerHeader));
// issuer is self
TransactionAndMetadata tx;
tx.metadata = CreateMetaDataForCreateOffer(CURRENCY, ACCOUNT, 100, 300, 200).getSerializer().peekData();
tx.transaction =
CreateCreateOfferTransactionObject(ACCOUNT, 2, 100, CURRENCY, ACCOUNT, 200, 300).getSerializer().peekData();
tx.date = 123456;
tx.ledgerSequence = RANGEMAX;
EXPECT_CALL(*backend, fetchAllTransactionsInLedger).Times(1);
ON_CALL(*backend, fetchAllTransactionsInLedger(RANGEMAX, _)).WillByDefault(Return(std::vector{tx}));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"binary": true,
"expand": true,
"transactions": true,
"owner_funds": true
})"
);
auto output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
EXPECT_FALSE(
output.result->as_object()["ledger"].as_object()["transactions"].as_array()[0].as_object().contains(
"owner_funds"
)
);
});
}
TEST_F(RPCLedgerHandlerTest, OwnerFundsNotEnoughForReserve)
{
static auto constexpr expectedOut =
R"({
"ledger": {
"closed": true,
"ledger_data": "0000001E000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000",
"transactions": [
{
"meta": "201C00000064F8E311006FE864D5071AFD498D00000158415500000000C1F76FF6ECB0BAC600000000D31252CF902EF8DD8451243869B38667CBD89DF365400000000000012CE1E1F1031000",
"owner_funds": "0",
"tx_blob": "120007240000006464D5071AFD498D00000158415500000000C1F76FF6ECB0BAC600000000D31252CF902EF8DD8451243869B38667CBD89DF365400000000000012C68400000000000000273047465737481144B4E9C06F24296074F7BC48F92A97916C6DC5EA9"
}
]
},
"ledger_hash": "4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652",
"ledger_index": 30,
"validated": true
})";
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillByDefault(Return(ledgerHeader));
// account doFetchLedgerObject
auto const accountKk = ripple::keylet::account(GetAccountIDWithString(ACCOUNT)).key;
auto const accountObject =
CreateAccountRootObject(ACCOUNT, 0, RANGEMAX, 6 /*balance*/, 2 /*owner object*/, INDEX1, RANGEMAX - 1, 0)
.getSerializer()
.peekData();
ON_CALL(*backend, doFetchLedgerObject(accountKk, RANGEMAX, _)).WillByDefault(Return(accountObject));
// fee object 2*2+3->7 ; balance 6 - 7 -> -1
auto feeBlob = CreateLegacyFeeSettingBlob(1, 2 /*reserve inc*/, 3 /*reserve base*/, 4, 0);
ON_CALL(*backend, doFetchLedgerObject(ripple::keylet::fees().key, RANGEMAX, _)).WillByDefault(Return(feeBlob));
EXPECT_CALL(*backend, doFetchLedgerObject).Times(2);
TransactionAndMetadata tx;
tx.metadata = CreateMetaDataForCreateOffer(CURRENCY, ACCOUNT2, 100, 300, 200).getSerializer().peekData();
tx.transaction = CreateCreateOfferTransactionObject(ACCOUNT, 2, 100, CURRENCY, ACCOUNT2, 200, 300, true)
.getSerializer()
.peekData();
tx.date = 123456;
tx.ledgerSequence = RANGEMAX;
EXPECT_CALL(*backend, fetchAllTransactionsInLedger).Times(1);
ON_CALL(*backend, fetchAllTransactionsInLedger(RANGEMAX, _)).WillByDefault(Return(std::vector{tx}));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"binary": true,
"expand": true,
"transactions": true,
"owner_funds": true
})"
);
auto output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
EXPECT_EQ(*output.result, json::parse(expectedOut));
});
}
TEST_F(RPCLedgerHandlerTest, OwnerFundsNotXRP)
{
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillByDefault(Return(ledgerHeader));
// mock line
auto const line =
CreateRippleStateLedgerObject(CURRENCY, ACCOUNT2, 50 /*balance*/, ACCOUNT, 10, ACCOUNT2, 20, INDEX1, 123);
auto lineKey = ripple::keylet::line(
GetAccountIDWithString(ACCOUNT),
GetAccountIDWithString(ACCOUNT2),
ripple::to_currency(std::string(CURRENCY))
)
.key;
ON_CALL(*backend, doFetchLedgerObject(lineKey, RANGEMAX, _)).WillByDefault(Return(line.getSerializer().peekData()));
EXPECT_CALL(*backend, doFetchLedgerObject).Times(1);
TransactionAndMetadata tx;
tx.metadata = CreateMetaDataForCreateOffer(CURRENCY, ACCOUNT2, 100, 300, 200, true).getSerializer().peekData();
tx.transaction =
CreateCreateOfferTransactionObject(ACCOUNT, 2, 100, CURRENCY, ACCOUNT2, 200, 300).getSerializer().peekData();
tx.date = 123456;
tx.ledgerSequence = RANGEMAX;
EXPECT_CALL(*backend, fetchAllTransactionsInLedger).Times(1);
ON_CALL(*backend, fetchAllTransactionsInLedger(RANGEMAX, _)).WillByDefault(Return(std::vector{tx}));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"binary": true,
"expand": true,
"transactions": true,
"owner_funds": true
})"
);
auto output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
EXPECT_EQ(
output.result->as_object()["ledger"]
.as_object()["transactions"]
.as_array()[0]
.as_object()["owner_funds"]
.as_string(),
"50"
);
});
}
TEST_F(RPCLedgerHandlerTest, OwnerFundsIgnoreFreezeLine)
{
backend->setRange(RANGEMIN, RANGEMAX);
auto const ledgerHeader = CreateLedgerHeader(LEDGERHASH, RANGEMAX);
EXPECT_CALL(*backend, fetchLedgerBySequence).Times(1);
ON_CALL(*backend, fetchLedgerBySequence(RANGEMAX, _)).WillByDefault(Return(ledgerHeader));
// mock line freeze
auto const line = CreateRippleStateLedgerObject(
CURRENCY,
ACCOUNT2,
50 /*balance*/,
ACCOUNT,
10,
ACCOUNT2,
20,
INDEX1,
123,
ripple::lsfLowFreeze | ripple::lsfHighFreeze
);
auto lineKey = ripple::keylet::line(
GetAccountIDWithString(ACCOUNT),
GetAccountIDWithString(ACCOUNT2),
ripple::to_currency(std::string(CURRENCY))
)
.key;
ON_CALL(*backend, doFetchLedgerObject(lineKey, RANGEMAX, _)).WillByDefault(Return(line.getSerializer().peekData()));
EXPECT_CALL(*backend, doFetchLedgerObject).Times(1);
TransactionAndMetadata tx;
tx.metadata = CreateMetaDataForCreateOffer(CURRENCY, ACCOUNT2, 100, 300, 200, true).getSerializer().peekData();
tx.transaction =
CreateCreateOfferTransactionObject(ACCOUNT, 2, 100, CURRENCY, ACCOUNT2, 200, 300).getSerializer().peekData();
tx.date = 123456;
tx.ledgerSequence = RANGEMAX;
EXPECT_CALL(*backend, fetchAllTransactionsInLedger).Times(1);
ON_CALL(*backend, fetchAllTransactionsInLedger(RANGEMAX, _)).WillByDefault(Return(std::vector{tx}));
runSpawn([&, this](auto yield) {
auto const handler = AnyHandler{LedgerHandler{backend}};
auto const req = json::parse(
R"({
"binary": true,
"expand": true,
"transactions": true,
"owner_funds": true
})"
);
auto output = handler.process(req, Context{yield});
ASSERT_TRUE(output);
EXPECT_EQ(
output.result->as_object()["ledger"]
.as_object()["transactions"]
.as_array()[0]
.as_object()["owner_funds"]
.as_string(),
"50"
);
});
}
struct RPCLedgerHandlerSpecCheckTestBundle {
std::string name;
boost::json::value json;
std::unordered_map<int64_t, std::vector<std::string>> expectedWarning;
};
struct RPCLedgerHandlerSpecCheckTest : ::testing::TestWithParam<RPCLedgerHandlerSpecCheckTestBundle> {
RpcSpec spec_ = LedgerHandler::spec(2);
};
INSTANTIATE_TEST_SUITE_P(
RPCLedgerHandlerSpecCheckTestGroup,
RPCLedgerHandlerSpecCheckTest,
testing::Values(
RPCLedgerHandlerSpecCheckTestBundle{"ValidRequest", {{"ledger_index", 1}}, {}},
RPCLedgerHandlerSpecCheckTestBundle{
"FullWarning",
{{JS(full), false}},
{{static_cast<int64_t>(WarningCode::warnRPC_DEPRECATED), {"Field 'full' is deprecated."}}},
},
RPCLedgerHandlerSpecCheckTestBundle{
"AccountsWarning",
{{JS(accounts), false}},
{{static_cast<int64_t>(WarningCode::warnRPC_DEPRECATED), {"Field 'accounts' is deprecated."}}},
},
RPCLedgerHandlerSpecCheckTestBundle{
"LedgerWarning",
{{JS(ledger), false}},
{{static_cast<int64_t>(WarningCode::warnRPC_DEPRECATED), {"Field 'ledger' is deprecated."}}},
},
RPCLedgerHandlerSpecCheckTestBundle{
"TypeWarning",
{{JS(type), false}},
{{static_cast<int64_t>(WarningCode::warnRPC_DEPRECATED), {"Field 'type' is deprecated."}}},
},
RPCLedgerHandlerSpecCheckTestBundle{
"MultipleWarnings",
{{JS(full), false}, {JS(type), false}},
{{static_cast<int64_t>(WarningCode::warnRPC_DEPRECATED),
{"Field 'full' is deprecated.", "Field 'type' is deprecated."}}},
}
),
[](testing::TestParamInfo<RPCLedgerHandlerSpecCheckTestBundle> const& info) { return info.param.name; }
);
TEST_P(RPCLedgerHandlerSpecCheckTest, CheckSpec)
{
auto const warnings = spec_.check(GetParam().json);
ASSERT_EQ(warnings.size(), GetParam().expectedWarning.size());
for (auto const& warn : warnings) {
ASSERT_TRUE(warn.is_object());
auto const obj = warn.as_object();
ASSERT_TRUE(obj.contains("id"));
ASSERT_TRUE(obj.contains("message"));
auto const& it = GetParam().expectedWarning.find(obj.at("id").as_int64());
ASSERT_NE(it, GetParam().expectedWarning.end());
for (auto const& msg : it->second) {
EXPECT_NE(obj.at("message").as_string().find(msg), std::string::npos);
}
}
}
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