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f57706be3d793769626b0b13f467f04c2ef200fa
clio/tests/unit/rpc/RPCHelpersTests.cpp
cyan317 f57706be3d fix: no restriction on type field (#1644) 
'type' should not matter if 'full' or 'accounts' is false. Relax the
restriction for 'type'
2024-09-11 14:44:20 +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/RPCHelpers.hpp"
#include "rpc/common/Types.hpp"
#include "util/Fixtures.hpp"
#include "util/MockPrometheus.hpp"
#include "util/NameGenerator.hpp"
#include "util/TestObject.hpp"
#include <boost/asio/impl/spawn.hpp>
#include <boost/asio/spawn.hpp>
#include <boost/json/parse.hpp>
#include <fmt/core.h>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include <ripple/basics/base_uint.h>
#include <ripple/protocol/ErrorCodes.h>
#include <ripple/protocol/Indexes.h>
#include <ripple/protocol/SField.h>
#include <ripple/protocol/STObject.h>
#include <ripple/protocol/UintTypes.h>
#include <ripple/protocol/jss.h>
#include <array>
#include <cstddef>
#include <cstdint>
#include <stdexcept>
#include <string>
#include <tuple>
#include <variant>
#include <vector>
using namespace rpc;
using namespace testing;
constexpr static auto ACCOUNT = "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn";
constexpr static auto ACCOUNT2 = "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun";
constexpr static auto INDEX1 = "E6DBAFC99223B42257915A63DFC6B0C032D4070F9A574B255AD97466726FC321";
constexpr static auto INDEX2 = "E6DBAFC99223B42257915A63DFC6B0C032D4070F9A574B255AD97466726FC322";
constexpr static auto TXNID = "E6DBAFC99223B42257915A63DFC6B0C032D4070F9A574B255AD97466726FC321";
class RPCHelpersTest : public util::prometheus::WithPrometheus, public MockBackendTest, public SyncAsioContextTest {
void
SetUp() override
{
SyncAsioContextTest::SetUp();
}
void
TearDown() override
{
SyncAsioContextTest::TearDown();
}
};
TEST_F(RPCHelpersTest, TraverseOwnedNodesMarkerInvalidIndexNotHex)
{
boost::asio::spawn(ctx, [this](boost::asio::yield_context yield) {
auto account = GetAccountIDWithString(ACCOUNT);
auto ret = traverseOwnedNodes(*backend, account, 9, 10, "nothex,10", yield, [](auto) {
});
auto status = std::get_if<Status>(&ret);
EXPECT_TRUE(status != nullptr);
EXPECT_EQ(*status, ripple::rpcINVALID_PARAMS);
EXPECT_EQ(status->message, "Malformed cursor.");
});
ctx.run();
}
TEST_F(RPCHelpersTest, TraverseOwnedNodesMarkerInvalidPageNotInt)
{
boost::asio::spawn(ctx, [this](boost::asio::yield_context yield) {
auto account = GetAccountIDWithString(ACCOUNT);
auto ret = traverseOwnedNodes(*backend, account, 9, 10, "nothex,abc", yield, [](auto) {
});
auto status = std::get_if<Status>(&ret);
EXPECT_TRUE(status != nullptr);
EXPECT_EQ(*status, ripple::rpcINVALID_PARAMS);
EXPECT_EQ(status->message, "Malformed cursor.");
});
ctx.run();
}
// limit = 10, return 2 objects
TEST_F(RPCHelpersTest, TraverseOwnedNodesNoInputMarker)
{
auto account = GetAccountIDWithString(ACCOUNT);
auto owneDirKk = ripple::keylet::ownerDir(account).key;
EXPECT_CALL(*backend, doFetchLedgerObject).Times(1);
// return owner index
ripple::STObject const ownerDir =
CreateOwnerDirLedgerObject({ripple::uint256{INDEX1}, ripple::uint256{INDEX2}}, INDEX1);
ON_CALL(*backend, doFetchLedgerObject(owneDirKk, testing::_, testing::_))
.WillByDefault(Return(ownerDir.getSerializer().peekData()));
// return two payment channel objects
std::vector<Blob> bbs;
ripple::STObject const channel1 = CreatePaymentChannelLedgerObject(ACCOUNT, ACCOUNT2, 100, 10, 32, TXNID, 28);
bbs.push_back(channel1.getSerializer().peekData());
bbs.push_back(channel1.getSerializer().peekData());
ON_CALL(*backend, doFetchLedgerObjects).WillByDefault(Return(bbs));
EXPECT_CALL(*backend, doFetchLedgerObjects).Times(1);
boost::asio::spawn(ctx, [this, &account](boost::asio::yield_context yield) {
auto ret = traverseOwnedNodes(*backend, account, 9, 10, {}, yield, [](auto) {
});
auto cursor = std::get_if<AccountCursor>(&ret);
EXPECT_TRUE(cursor != nullptr);
EXPECT_EQ(
cursor->toString(),
"0000000000000000000000000000000000000000000000000000000000000000,"
"0"
);
});
ctx.run();
}
// limit = 10, return 10 objects and marker
TEST_F(RPCHelpersTest, TraverseOwnedNodesNoInputMarkerReturnSamePageMarker)
{
auto account = GetAccountIDWithString(ACCOUNT);
auto owneDirKk = ripple::keylet::ownerDir(account).key;
EXPECT_CALL(*backend, doFetchLedgerObject).Times(1);
std::vector<Blob> bbs;
int objectsCount = 11;
ripple::STObject const channel1 = CreatePaymentChannelLedgerObject(ACCOUNT, ACCOUNT2, 100, 10, 32, TXNID, 28);
std::vector<ripple::uint256> indexes;
while (objectsCount != 0) {
// return owner index
indexes.emplace_back(INDEX1);
bbs.push_back(channel1.getSerializer().peekData());
objectsCount--;
}
ripple::STObject ownerDir = CreateOwnerDirLedgerObject(indexes, INDEX1);
ownerDir.setFieldU64(ripple::sfIndexNext, 99);
ON_CALL(*backend, doFetchLedgerObject(owneDirKk, testing::_, testing::_))
.WillByDefault(Return(ownerDir.getSerializer().peekData()));
ON_CALL(*backend, doFetchLedgerObjects).WillByDefault(Return(bbs));
EXPECT_CALL(*backend, doFetchLedgerObjects).Times(1);
boost::asio::spawn(ctx, [this, &account](boost::asio::yield_context yield) {
auto count = 0;
auto ret = traverseOwnedNodes(*backend, account, 9, 10, {}, yield, [&](auto) { count++; });
auto cursor = std::get_if<AccountCursor>(&ret);
EXPECT_TRUE(cursor != nullptr);
EXPECT_EQ(count, 10);
EXPECT_EQ(cursor->toString(), fmt::format("{},0", INDEX1));
});
ctx.run();
}
// 10 objects per page, limit is 15, return the second page as marker
TEST_F(RPCHelpersTest, TraverseOwnedNodesNoInputMarkerReturnOtherPageMarker)
{
auto account = GetAccountIDWithString(ACCOUNT);
auto ownerDirKk = ripple::keylet::ownerDir(account).key;
constexpr static auto nextPage = 99;
constexpr static auto limit = 15;
auto ownerDir2Kk = ripple::keylet::page(ripple::keylet::ownerDir(account), nextPage).key;
EXPECT_CALL(*backend, doFetchLedgerObject).Times(2);
std::vector<Blob> bbs;
int objectsCount = 10;
ripple::STObject const channel1 = CreatePaymentChannelLedgerObject(ACCOUNT, ACCOUNT2, 100, 10, 32, TXNID, 28);
std::vector<ripple::uint256> indexes;
while (objectsCount != 0) {
// return owner index
indexes.emplace_back(INDEX1);
objectsCount--;
}
objectsCount = 15;
while (objectsCount != 0) {
bbs.push_back(channel1.getSerializer().peekData());
objectsCount--;
}
ripple::STObject ownerDir = CreateOwnerDirLedgerObject(indexes, INDEX1);
ownerDir.setFieldU64(ripple::sfIndexNext, nextPage);
// first page 's next page is 99
ON_CALL(*backend, doFetchLedgerObject(ownerDirKk, testing::_, testing::_))
.WillByDefault(Return(ownerDir.getSerializer().peekData()));
ripple::STObject ownerDir2 = CreateOwnerDirLedgerObject(indexes, INDEX1);
// second page's next page is 0
ownerDir2.setFieldU64(ripple::sfIndexNext, 0);
ON_CALL(*backend, doFetchLedgerObject(ownerDir2Kk, testing::_, testing::_))
.WillByDefault(Return(ownerDir2.getSerializer().peekData()));
ON_CALL(*backend, doFetchLedgerObjects).WillByDefault(Return(bbs));
EXPECT_CALL(*backend, doFetchLedgerObjects).Times(1);
boost::asio::spawn(ctx, [&, this](boost::asio::yield_context yield) {
auto count = 0;
auto ret = traverseOwnedNodes(*backend, account, 9, limit, {}, yield, [&](auto) { count++; });
auto cursor = std::get_if<AccountCursor>(&ret);
EXPECT_TRUE(cursor != nullptr);
EXPECT_EQ(count, limit);
EXPECT_EQ(cursor->toString(), fmt::format("{},{}", INDEX1, nextPage));
});
ctx.run();
}
// Send a valid marker
TEST_F(RPCHelpersTest, TraverseOwnedNodesWithMarkerReturnSamePageMarker)
{
auto account = GetAccountIDWithString(ACCOUNT);
auto ownerDir2Kk = ripple::keylet::page(ripple::keylet::ownerDir(account), 99).key;
constexpr static auto limit = 8;
constexpr static auto pageNum = 99;
EXPECT_CALL(*backend, doFetchLedgerObject).Times(2);
std::vector<Blob> bbs;
int objectsCount = 10;
ripple::STObject const channel1 = CreatePaymentChannelLedgerObject(ACCOUNT, ACCOUNT2, 100, 10, 32, TXNID, 28);
std::vector<ripple::uint256> indexes;
while (objectsCount != 0) {
// return owner index
indexes.emplace_back(INDEX1);
objectsCount--;
}
objectsCount = 10;
while (objectsCount != 0) {
bbs.push_back(channel1.getSerializer().peekData());
objectsCount--;
}
ripple::STObject ownerDir = CreateOwnerDirLedgerObject(indexes, INDEX1);
ownerDir.setFieldU64(ripple::sfIndexNext, 0);
// return ownerdir when search by marker
ON_CALL(*backend, doFetchLedgerObject(ownerDir2Kk, testing::_, testing::_))
.WillByDefault(Return(ownerDir.getSerializer().peekData()));
ON_CALL(*backend, doFetchLedgerObjects).WillByDefault(Return(bbs));
EXPECT_CALL(*backend, doFetchLedgerObjects).Times(1);
boost::asio::spawn(ctx, [&, this](boost::asio::yield_context yield) {
auto count = 0;
auto ret = traverseOwnedNodes(
*backend, account, 9, limit, fmt::format("{},{}", INDEX1, pageNum), yield, [&](auto) { count++; }
);
auto cursor = std::get_if<AccountCursor>(&ret);
EXPECT_TRUE(cursor != nullptr);
EXPECT_EQ(count, limit);
EXPECT_EQ(cursor->toString(), fmt::format("{},{}", INDEX1, pageNum));
});
ctx.run();
}
// Send a valid marker, but marker contain an unexisting index
// return invalid params error
TEST_F(RPCHelpersTest, TraverseOwnedNodesWithUnexistingIndexMarker)
{
auto account = GetAccountIDWithString(ACCOUNT);
auto ownerDir2Kk = ripple::keylet::page(ripple::keylet::ownerDir(account), 99).key;
constexpr static auto limit = 8;
constexpr static auto pageNum = 99;
EXPECT_CALL(*backend, doFetchLedgerObject).Times(1);
int objectsCount = 10;
ripple::STObject const channel1 = CreatePaymentChannelLedgerObject(ACCOUNT, ACCOUNT2, 100, 10, 32, TXNID, 28);
std::vector<ripple::uint256> indexes;
while (objectsCount != 0) {
// return owner index
indexes.emplace_back(INDEX1);
objectsCount--;
}
ripple::STObject ownerDir = CreateOwnerDirLedgerObject(indexes, INDEX1);
ownerDir.setFieldU64(ripple::sfIndexNext, 0);
// return ownerdir when search by marker
ON_CALL(*backend, doFetchLedgerObject(ownerDir2Kk, testing::_, testing::_))
.WillByDefault(Return(ownerDir.getSerializer().peekData()));
boost::asio::spawn(ctx, [&, this](boost::asio::yield_context yield) {
auto count = 0;
auto ret = traverseOwnedNodes(
*backend, account, 9, limit, fmt::format("{},{}", INDEX2, pageNum), yield, [&](auto) { count++; }
);
auto status = std::get_if<Status>(&ret);
EXPECT_TRUE(status != nullptr);
EXPECT_EQ(*status, ripple::rpcINVALID_PARAMS);
EXPECT_EQ(status->message, "Invalid marker.");
});
ctx.run();
}
TEST_F(RPCHelpersTest, EncodeCTID)
{
auto const ctid = encodeCTID(0x1234, 0x67, 0x89);
ASSERT_TRUE(ctid);
EXPECT_EQ(*ctid, "C000123400670089");
EXPECT_FALSE(encodeCTID(0x1FFFFFFF, 0x67, 0x89));
}
TEST_F(RPCHelpersTest, DecodeCTIDString)
{
auto const ctid = decodeCTID("C000123400670089");
ASSERT_TRUE(ctid);
EXPECT_EQ(*ctid, std::make_tuple(0x1234, 0x67, 0x89));
EXPECT_FALSE(decodeCTID("F000123400670089"));
EXPECT_FALSE(decodeCTID("F0001234006700"));
EXPECT_FALSE(decodeCTID("F000123400*700"));
}
TEST_F(RPCHelpersTest, DecodeCTIDInt)
{
uint64_t ctidStr = 0xC000123400670089;
auto const ctid = decodeCTID(ctidStr);
ASSERT_TRUE(ctid);
EXPECT_EQ(*ctid, std::make_tuple(0x1234, 0x67, 0x89));
ctidStr = 0xF000123400670089;
EXPECT_FALSE(decodeCTID(ctidStr));
}
TEST_F(RPCHelpersTest, DecodeInvalidCTID)
{
EXPECT_FALSE(decodeCTID('c'));
EXPECT_FALSE(decodeCTID(true));
}
TEST_F(RPCHelpersTest, DeliverMaxAliasV1)
{
std::array<std::string, 3> const inputArray = {
R"({
"TransactionType": "Payment",
"Amount": {
"test": "test"
}
})",
R"({
"TransactionType": "OfferCreate",
"Amount": {
"test": "test"
}
})",
R"({
"TransactionType": "Payment",
"Amount1": {
"test": "test"
}
})"
};
std::array<std::string, 3> outputArray = {
R"({
"TransactionType": "Payment",
"Amount": {
"test": "test"
},
"DeliverMax": {
"test": "test"
}
})",
R"({
"TransactionType": "OfferCreate",
"Amount": {
"test": "test"
}
})",
R"({
"TransactionType": "Payment",
"Amount1": {
"test": "test"
}
})"
};
for (size_t i = 0; i < inputArray.size(); i++) {
auto req = boost::json::parse(inputArray[i]).as_object();
insertDeliverMaxAlias(req, 1);
EXPECT_EQ(req, boost::json::parse(outputArray[i]).as_object());
}
}
TEST_F(RPCHelpersTest, DeliverMaxAliasV2)
{
auto req = boost::json::parse(
R"({
"TransactionType": "Payment",
"Amount": {
"test": "test"
}
})"
)
.as_object();
insertDeliverMaxAlias(req, 2);
EXPECT_EQ(
req,
boost::json::parse(
R"({
"TransactionType": "Payment",
"DeliverMax": {
"test": "test"
}
})"
)
);
}
TEST_F(RPCHelpersTest, LedgerHeaderJson)
{
auto const ledgerHeader = CreateLedgerHeader(INDEX1, 30);
auto const binJson = toJson(ledgerHeader, true, 1u);
auto constexpr EXPECTBIN = R"({
"ledger_data": "0000001E000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000",
"closed": true
})";
EXPECT_EQ(binJson, boost::json::parse(EXPECTBIN));
auto const EXPECTJSON = fmt::format(
R"({{
"account_hash": "0000000000000000000000000000000000000000000000000000000000000000",
"close_flags": 0,
"close_time": 0,
"close_time_resolution": 0,
"close_time_iso": "2000-01-01T00:00:00Z",
"ledger_hash": "{}",
"ledger_index": "{}",
"parent_close_time": 0,
"parent_hash": "0000000000000000000000000000000000000000000000000000000000000000",
"total_coins": "0",
"transaction_hash": "0000000000000000000000000000000000000000000000000000000000000000",
"closed": true
}})",
INDEX1,
30
);
auto json = toJson(ledgerHeader, false, 1u);
// remove platform-related close_time_human field
json.erase(JS(close_time_human));
EXPECT_EQ(json, boost::json::parse(EXPECTJSON));
}
TEST_F(RPCHelpersTest, LedgerHeaderJsonV2)
{
auto const ledgerHeader = CreateLedgerHeader(INDEX1, 30);
auto const EXPECTJSON = fmt::format(
R"({{
"account_hash": "0000000000000000000000000000000000000000000000000000000000000000",
"close_flags": 0,
"close_time": 0,
"close_time_resolution": 0,
"close_time_iso": "2000-01-01T00:00:00Z",
"ledger_hash": "{}",
"ledger_index": {},
"parent_close_time": 0,
"parent_hash": "0000000000000000000000000000000000000000000000000000000000000000",
"total_coins": "0",
"transaction_hash": "0000000000000000000000000000000000000000000000000000000000000000",
"closed": true
}})",
INDEX1,
30
);
auto json = toJson(ledgerHeader, false, 2u);
// remove platform-related close_time_human field
json.erase(JS(close_time_human));
EXPECT_EQ(json, boost::json::parse(EXPECTJSON));
}
TEST_F(RPCHelpersTest, TransactionAndMetadataBinaryJsonV1)
{
auto const txMeta = CreateAcceptNFTOfferTxWithMetadata(ACCOUNT, 30, 1, INDEX1);
auto const json = toJsonWithBinaryTx(txMeta, 1);
EXPECT_TRUE(json.contains(JS(tx_blob)));
EXPECT_TRUE(json.contains(JS(meta)));
}
TEST_F(RPCHelpersTest, TransactionAndMetadataBinaryJsonV2)
{
auto const txMeta = CreateAcceptNFTOfferTxWithMetadata(ACCOUNT, 30, 1, INDEX1);
auto const json = toJsonWithBinaryTx(txMeta, 2);
EXPECT_TRUE(json.contains(JS(tx_blob)));
EXPECT_TRUE(json.contains(JS(meta_blob)));
}
TEST_F(RPCHelpersTest, ParseIssue)
{
auto issue = parseIssue(boost::json::parse(
R"({
"issuer": "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun",
"currency": "JPY"
})"
)
.as_object());
EXPECT_TRUE(issue.account == GetAccountIDWithString(ACCOUNT2));
issue = parseIssue(boost::json::parse(R"({"currency": "XRP"})").as_object());
EXPECT_TRUE(ripple::isXRP(issue.currency));
EXPECT_THROW(parseIssue(boost::json::parse(R"({"currency": 2})").as_object()), std::runtime_error);
EXPECT_THROW(parseIssue(boost::json::parse(R"({"currency": "XRP2"})").as_object()), std::runtime_error);
EXPECT_THROW(
parseIssue(boost::json::parse(
R"({
"issuer": "abcd",
"currency": "JPY"
})"
)
.as_object()),
std::runtime_error
);
EXPECT_THROW(
parseIssue(boost::json::parse(R"({"issuer": "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun"})").as_object()),
std::runtime_error
);
}
struct IsAdminCmdParamTestCaseBundle {
std::string testName;
std::string method;
std::string testJson;
bool expected;
};
struct IsAdminCmdParameterTest : public TestWithParam<IsAdminCmdParamTestCaseBundle> {};
static auto
generateTestValuesForParametersTest()
{
return std::vector<IsAdminCmdParamTestCaseBundle>{
{"ledgerEntry", "ledger_entry", R"({"type": false})", false},
{"featureVetoedTrue", "feature", R"({"vetoed": true, "feature": "foo"})", true},
{"featureVetoedFalse", "feature", R"({"vetoed": false, "feature": "foo"})", true},
{"featureVetoedIsStr", "feature", R"({"vetoed": "String"})", true},
{"ledger", "ledger", R"({})", false},
{"ledgerWithType", "ledger", R"({"type": "fee"})", false},
{"ledgerFullTrue", "ledger", R"({"full": true})", true},
{"ledgerFullFalse", "ledger", R"({"full": false})", false},
{"ledgerFullIsStr", "ledger", R"({"full": "String"})", true},
{"ledgerFullIsEmptyStr", "ledger", R"({"full": ""})", false},
{"ledgerFullIsNumber1", "ledger", R"({"full": 1})", true},
{"ledgerFullIsNumber0", "ledger", R"({"full": 0})", false},
{"ledgerFullIsNull", "ledger", R"({"full": null})", false},
{"ledgerFullIsFloat0", "ledger", R"({"full": 0.0})", false},
{"ledgerFullIsFloat1", "ledger", R"({"full": 0.1})", true},
{"ledgerFullIsArray", "ledger", R"({"full": [1]})", true},
{"ledgerFullIsEmptyArray", "ledger", R"({"full": []})", false},
{"ledgerFullIsObject", "ledger", R"({"full": {"key": 1}})", true},
{"ledgerFullIsEmptyObject", "ledger", R"({"full": {}})", false},
{"ledgerAccountsTrue", "ledger", R"({"accounts": true})", true},
{"ledgerAccountsFalse", "ledger", R"({"accounts": false})", false},
{"ledgerAccountsIsStr", "ledger", R"({"accounts": "String"})", true},
{"ledgerAccountsIsEmptyStr", "ledger", R"({"accounts": ""})", false},
{"ledgerAccountsIsNumber1", "ledger", R"({"accounts": 1})", true},
{"ledgerAccountsIsNumber0", "ledger", R"({"accounts": 0})", false},
{"ledgerAccountsIsNull", "ledger", R"({"accounts": null})", false},
{"ledgerAccountsIsFloat0", "ledger", R"({"accounts": 0.0})", false},
{"ledgerAccountsIsFloat1", "ledger", R"({"accounts": 0.1})", true},
{"ledgerAccountsIsArray", "ledger", R"({"accounts": [1]})", true},
{"ledgerAccountsIsEmptyArray", "ledger", R"({"accounts": []})", false},
{"ledgerAccountsIsObject", "ledger", R"({"accounts": {"key": 1}})", true},
{"ledgerAccountsIsEmptyObject", "ledger", R"({"accounts": {}})", false},
};
}
INSTANTIATE_TEST_CASE_P(
IsAdminCmdTest,
IsAdminCmdParameterTest,
ValuesIn(generateTestValuesForParametersTest()),
tests::util::NameGenerator
);
TEST_P(IsAdminCmdParameterTest, Test)
{
auto const testBundle = GetParam();
EXPECT_EQ(isAdminCmd(testBundle.method, boost::json::parse(testBundle.testJson).as_object()), testBundle.expected);
}
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