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243858df12f608c55dc768b951f92f17bd2afd0b
clio/unittests/rpc/handlers/NFTInfoTests.cpp
Shawn Xie 243858df12 nfts_by_issuer (#948) 
Fixes issue #385

Original PR:
#584
2023-10-30 19:53:32 +00:00

473 lines
18 KiB
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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 <rpc/common/AnyHandler.h>
#include <rpc/handlers/NFTInfo.h>
#include <util/Fixtures.h>
#include <util/TestObject.h>
#include <fmt/core.h>
using namespace rpc;
namespace json = boost::json;
using namespace testing;
constexpr static auto ACCOUNT = "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn";
constexpr static auto LEDGERHASH = "4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652";
constexpr static auto NFTID = "00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004";
constexpr static auto NFTID2 = "00081388319F12E15BCA13E1B933BF4C99C8E1BBC36BD4910A85D52F00000022";
class RPCNFTInfoHandlerTest : public HandlerBaseTest {};
TEST_F(RPCNFTInfoHandlerTest, NonHexLedgerHash)
{
runSpawn([this](boost::asio::yield_context yield) {
auto const handler = AnyHandler{NFTInfoHandler{mockBackendPtr}};
auto const input = json::parse(fmt::format(
R"({{
"nft_id": "{}",
"ledger_hash": "xxx"
}})",
NFTID
));
auto const output = handler.process(input, Context{yield});
ASSERT_FALSE(output);
auto const err = rpc::makeError(output.error());
EXPECT_EQ(err.at("error").as_string(), "invalidParams");
EXPECT_EQ(err.at("error_message").as_string(), "ledger_hashMalformed");
});
}
TEST_F(RPCNFTInfoHandlerTest, NonStringLedgerHash)
{
runSpawn([this](boost::asio::yield_context yield) {
auto const handler = AnyHandler{NFTInfoHandler{mockBackendPtr}};
auto const input = json::parse(fmt::format(
R"({{
"nft_id": "{}",
"ledger_hash": 123
}})",
NFTID
));
auto const output = handler.process(input, Context{yield});
ASSERT_FALSE(output);
auto const err = rpc::makeError(output.error());
EXPECT_EQ(err.at("error").as_string(), "invalidParams");
EXPECT_EQ(err.at("error_message").as_string(), "ledger_hashNotString");
});
}
TEST_F(RPCNFTInfoHandlerTest, InvalidLedgerIndexString)
{
runSpawn([this](boost::asio::yield_context yield) {
auto const handler = AnyHandler{NFTInfoHandler{mockBackendPtr}};
auto const input = json::parse(fmt::format(
R"({{
"nft_id": "{}",
"ledger_index": "notvalidated"
}})",
NFTID
));
auto const output = handler.process(input, Context{yield});
ASSERT_FALSE(output);
auto const err = rpc::makeError(output.error());
EXPECT_EQ(err.at("error").as_string(), "invalidParams");
EXPECT_EQ(err.at("error_message").as_string(), "ledgerIndexMalformed");
});
}
// error case: nft_id invalid format, length is incorrect
TEST_F(RPCNFTInfoHandlerTest, NFTIDInvalidFormat)
{
runSpawn([this](boost::asio::yield_context yield) {
auto const handler = AnyHandler{NFTInfoHandler{mockBackendPtr}};
auto const input = json::parse(R"({
"nft_id": "00080000B4F4AFC5FBCBD76873F18006173D2193467D3EE7"
})");
auto const output = handler.process(input, Context{yield});
ASSERT_FALSE(output);
auto const err = rpc::makeError(output.error());
EXPECT_EQ(err.at("error").as_string(), "invalidParams");
EXPECT_EQ(err.at("error_message").as_string(), "nft_idMalformed");
});
}
// error case: nft_id invalid format
TEST_F(RPCNFTInfoHandlerTest, NFTIDNotString)
{
runSpawn([this](boost::asio::yield_context yield) {
auto const handler = AnyHandler{NFTInfoHandler{mockBackendPtr}};
auto const input = json::parse(R"({
"nft_id": 12
})");
auto const output = handler.process(input, Context{yield});
ASSERT_FALSE(output);
auto const err = rpc::makeError(output.error());
EXPECT_EQ(err.at("error").as_string(), "invalidParams");
EXPECT_EQ(err.at("error_message").as_string(), "nft_idNotString");
});
}
// error case ledger non exist via hash
TEST_F(RPCNFTInfoHandlerTest, NonExistLedgerViaLedgerHash)
{
MockBackend* rawBackendPtr = dynamic_cast<MockBackend*>(mockBackendPtr.get());
ASSERT_NE(rawBackendPtr, nullptr);
// mock fetchLedgerByHash return empty
ON_CALL(*rawBackendPtr, fetchLedgerByHash(ripple::uint256{LEDGERHASH}, _))
.WillByDefault(Return(std::optional<ripple::LedgerInfo>{}));
EXPECT_CALL(*rawBackendPtr, fetchLedgerByHash).Times(1);
auto const input = json::parse(fmt::format(
R"({{
"nft_id": "{}",
"ledger_hash": "{}"
}})",
NFTID,
LEDGERHASH
));
runSpawn([&, this](boost::asio::yield_context yield) {
auto const handler = AnyHandler{NFTInfoHandler{mockBackendPtr}};
auto const output = handler.process(input, Context{yield});
ASSERT_FALSE(output);
auto const err = rpc::makeError(output.error());
EXPECT_EQ(err.at("error").as_string(), "lgrNotFound");
EXPECT_EQ(err.at("error_message").as_string(), "ledgerNotFound");
});
}
// error case ledger non exist via index
TEST_F(RPCNFTInfoHandlerTest, NonExistLedgerViaLedgerStringIndex)
{
MockBackend* rawBackendPtr = dynamic_cast<MockBackend*>(mockBackendPtr.get());
ASSERT_NE(rawBackendPtr, nullptr);
mockBackendPtr->updateRange(10); // min
mockBackendPtr->updateRange(30); // max
// mock fetchLedgerBySequence return empty
ON_CALL(*rawBackendPtr, fetchLedgerBySequence).WillByDefault(Return(std::optional<ripple::LedgerInfo>{}));
EXPECT_CALL(*rawBackendPtr, fetchLedgerBySequence).Times(1);
auto const input = json::parse(fmt::format(
R"({{
"nft_id": "{}",
"ledger_index": "4"
}})",
NFTID
));
runSpawn([&, this](boost::asio::yield_context yield) {
auto const handler = AnyHandler{NFTInfoHandler{mockBackendPtr}};
auto const output = handler.process(input, Context{yield});
ASSERT_FALSE(output);
auto const err = rpc::makeError(output.error());
EXPECT_EQ(err.at("error").as_string(), "lgrNotFound");
EXPECT_EQ(err.at("error_message").as_string(), "ledgerNotFound");
});
}
TEST_F(RPCNFTInfoHandlerTest, NonExistLedgerViaLedgerIntIndex)
{
MockBackend* rawBackendPtr = dynamic_cast<MockBackend*>(mockBackendPtr.get());
ASSERT_NE(rawBackendPtr, nullptr);
mockBackendPtr->updateRange(10); // min
mockBackendPtr->updateRange(30); // max
// mock fetchLedgerBySequence return empty
ON_CALL(*rawBackendPtr, fetchLedgerBySequence).WillByDefault(Return(std::optional<ripple::LedgerInfo>{}));
EXPECT_CALL(*rawBackendPtr, fetchLedgerBySequence).Times(1);
auto const input = json::parse(fmt::format(
R"({{
"nft_id": "{}",
"ledger_index": 4
}})",
NFTID
));
runSpawn([&, this](boost::asio::yield_context yield) {
auto const handler = AnyHandler{NFTInfoHandler{mockBackendPtr}};
auto const output = handler.process(input, Context{yield});
ASSERT_FALSE(output);
auto const err = rpc::makeError(output.error());
EXPECT_EQ(err.at("error").as_string(), "lgrNotFound");
EXPECT_EQ(err.at("error_message").as_string(), "ledgerNotFound");
});
}
// error case ledger > max seq via hash
// idk why this case will happen in reality
TEST_F(RPCNFTInfoHandlerTest, NonExistLedgerViaLedgerHash2)
{
MockBackend* rawBackendPtr = dynamic_cast<MockBackend*>(mockBackendPtr.get());
ASSERT_NE(rawBackendPtr, nullptr);
mockBackendPtr->updateRange(10); // min
mockBackendPtr->updateRange(30); // max
// mock fetchLedgerByHash return ledger but seq is 31 > 30
auto ledgerinfo = CreateLedgerInfo(LEDGERHASH, 31);
ON_CALL(*rawBackendPtr, fetchLedgerByHash(ripple::uint256{LEDGERHASH}, _)).WillByDefault(Return(ledgerinfo));
EXPECT_CALL(*rawBackendPtr, fetchLedgerByHash).Times(1);
auto const input = json::parse(fmt::format(
R"({{
"nft_id": "{}",
"ledger_hash": "{}"
}})",
NFTID,
LEDGERHASH
));
runSpawn([&, this](boost::asio::yield_context yield) {
auto const handler = AnyHandler{NFTInfoHandler{mockBackendPtr}};
auto const output = handler.process(input, Context{yield});
ASSERT_FALSE(output);
auto const err = rpc::makeError(output.error());
EXPECT_EQ(err.at("error").as_string(), "lgrNotFound");
EXPECT_EQ(err.at("error_message").as_string(), "ledgerNotFound");
});
}
// error case ledger > max seq via index
TEST_F(RPCNFTInfoHandlerTest, NonExistLedgerViaLedgerIndex2)
{
MockBackend* rawBackendPtr = dynamic_cast<MockBackend*>(mockBackendPtr.get());
ASSERT_NE(rawBackendPtr, nullptr);
mockBackendPtr->updateRange(10); // min
mockBackendPtr->updateRange(30); // max
// no need to check from db,call fetchLedgerBySequence 0 time
// differ from previous logic
EXPECT_CALL(*rawBackendPtr, fetchLedgerBySequence).Times(0);
auto const input = json::parse(fmt::format(
R"({{
"nft_id": "{}",
"ledger_index": "31"
}})",
NFTID
));
runSpawn([&, this](boost::asio::yield_context yield) {
auto const handler = AnyHandler{NFTInfoHandler{mockBackendPtr}};
auto const output = handler.process(input, Context{yield});
ASSERT_FALSE(output);
auto const err = rpc::makeError(output.error());
EXPECT_EQ(err.at("error").as_string(), "lgrNotFound");
EXPECT_EQ(err.at("error_message").as_string(), "ledgerNotFound");
});
}
// error case nft does not exist
TEST_F(RPCNFTInfoHandlerTest, NonExistNFT)
{
MockBackend* rawBackendPtr = dynamic_cast<MockBackend*>(mockBackendPtr.get());
ASSERT_NE(rawBackendPtr, nullptr);
mockBackendPtr->updateRange(10); // min
mockBackendPtr->updateRange(30); // max
auto ledgerinfo = CreateLedgerInfo(LEDGERHASH, 30);
ON_CALL(*rawBackendPtr, fetchLedgerByHash(ripple::uint256{LEDGERHASH}, _)).WillByDefault(Return(ledgerinfo));
EXPECT_CALL(*rawBackendPtr, fetchLedgerByHash).Times(1);
// fetch nft return emtpy
ON_CALL(*rawBackendPtr, fetchNFT).WillByDefault(Return(std::optional<NFT>{}));
EXPECT_CALL(*rawBackendPtr, fetchNFT(ripple::uint256{NFTID}, 30, _)).Times(1);
auto const input = json::parse(fmt::format(
R"({{
"nft_id": "{}",
"ledger_hash": "{}"
}})",
NFTID,
LEDGERHASH
));
runSpawn([&, this](boost::asio::yield_context yield) {
auto const handler = AnyHandler{NFTInfoHandler{mockBackendPtr}};
auto const output = handler.process(input, Context{yield});
ASSERT_FALSE(output);
auto const err = rpc::makeError(output.error());
EXPECT_EQ(err.at("error").as_string(), "objectNotFound");
EXPECT_EQ(err.at("error_message").as_string(), "NFT not found");
});
}
// normal case when only provide nft_id
TEST_F(RPCNFTInfoHandlerTest, DefaultParameters)
{
constexpr static auto currentOutput = R"({
"nft_id": "00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004",
"ledger_index": 30,
"owner": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn",
"is_burned": false,
"flags": 1,
"transfer_fee": 0,
"issuer": "rGJUF4PvVkMNxG6Bg6AKg3avhrtQyAffcm",
"nft_taxon": 0,
"nft_serial": 4,
"uri": "757269",
"validated": true
})";
MockBackend* rawBackendPtr = dynamic_cast<MockBackend*>(mockBackendPtr.get());
ASSERT_NE(rawBackendPtr, nullptr);
mockBackendPtr->updateRange(10); // min
mockBackendPtr->updateRange(30); // max
auto ledgerInfo = CreateLedgerInfo(LEDGERHASH, 30);
ON_CALL(*rawBackendPtr, fetchLedgerBySequence).WillByDefault(Return(ledgerInfo));
EXPECT_CALL(*rawBackendPtr, fetchLedgerBySequence).Times(1);
// fetch nft return something
auto const nft = std::make_optional<NFT>(CreateNFT(NFTID, ACCOUNT, ledgerInfo.seq));
ON_CALL(*rawBackendPtr, fetchNFT).WillByDefault(Return(nft));
EXPECT_CALL(*rawBackendPtr, fetchNFT(ripple::uint256{NFTID}, 30, _)).Times(1);
auto const input = json::parse(fmt::format(
R"({{
"nft_id": "{}"
}})",
NFTID
));
runSpawn([&, this](auto yield) {
auto handler = AnyHandler{NFTInfoHandler{this->mockBackendPtr}};
auto const output = handler.process(input, Context{yield});
ASSERT_TRUE(output);
EXPECT_EQ(json::parse(currentOutput), *output);
});
}
// nft is burned -> should not omit uri
TEST_F(RPCNFTInfoHandlerTest, BurnedNFT)
{
constexpr static auto currentOutput = R"({
"nft_id": "00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004",
"ledger_index": 30,
"owner": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn",
"is_burned": true,
"flags": 1,
"transfer_fee": 0,
"issuer": "rGJUF4PvVkMNxG6Bg6AKg3avhrtQyAffcm",
"nft_taxon": 0,
"nft_serial": 4,
"uri": "757269",
"validated": true
})";
MockBackend* rawBackendPtr = dynamic_cast<MockBackend*>(mockBackendPtr.get());
ASSERT_NE(rawBackendPtr, nullptr);
mockBackendPtr->updateRange(10); // min
mockBackendPtr->updateRange(30); // max
auto ledgerInfo = CreateLedgerInfo(LEDGERHASH, 30);
ON_CALL(*rawBackendPtr, fetchLedgerBySequence).WillByDefault(Return(ledgerInfo));
EXPECT_CALL(*rawBackendPtr, fetchLedgerBySequence).Times(1);
// fetch nft return something
auto const nft =
std::make_optional<NFT>(CreateNFT(NFTID, ACCOUNT, ledgerInfo.seq, ripple::Blob{'u', 'r', 'i'}, true));
ON_CALL(*rawBackendPtr, fetchNFT).WillByDefault(Return(nft));
EXPECT_CALL(*rawBackendPtr, fetchNFT(ripple::uint256{NFTID}, 30, _)).Times(1);
auto const input = json::parse(fmt::format(
R"({{
"nft_id": "{}"
}})",
NFTID
));
runSpawn([&, this](auto yield) {
auto handler = AnyHandler{NFTInfoHandler{this->mockBackendPtr}};
auto const output = handler.process(input, Context{yield});
ASSERT_TRUE(output);
EXPECT_EQ(json::parse(currentOutput), *output);
});
}
// uri is not available -> should specify an empty string
TEST_F(RPCNFTInfoHandlerTest, NotBurnedNFTWithoutURI)
{
constexpr static auto currentOutput = R"({
"nft_id": "00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004",
"ledger_index": 30,
"owner": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn",
"is_burned": false,
"flags": 1,
"transfer_fee": 0,
"issuer": "rGJUF4PvVkMNxG6Bg6AKg3avhrtQyAffcm",
"nft_taxon": 0,
"nft_serial": 4,
"uri": "",
"validated": true
})";
MockBackend* rawBackendPtr = dynamic_cast<MockBackend*>(mockBackendPtr.get());
ASSERT_NE(rawBackendPtr, nullptr);
mockBackendPtr->updateRange(10); // min
mockBackendPtr->updateRange(30); // max
auto ledgerInfo = CreateLedgerInfo(LEDGERHASH, 30);
ON_CALL(*rawBackendPtr, fetchLedgerBySequence).WillByDefault(Return(ledgerInfo));
EXPECT_CALL(*rawBackendPtr, fetchLedgerBySequence).Times(1);
// fetch nft return something
auto const nft = std::make_optional<NFT>(CreateNFT(NFTID, ACCOUNT, ledgerInfo.seq, ripple::Blob{}));
ON_CALL(*rawBackendPtr, fetchNFT).WillByDefault(Return(nft));
EXPECT_CALL(*rawBackendPtr, fetchNFT(ripple::uint256{NFTID}, 30, _)).Times(1);
auto const input = json::parse(fmt::format(
R"({{
"nft_id": "{}"
}})",
NFTID
));
runSpawn([&, this](auto yield) {
auto handler = AnyHandler{NFTInfoHandler{this->mockBackendPtr}};
auto const output = handler.process(input, Context{yield});
ASSERT_TRUE(output);
EXPECT_EQ(json::parse(currentOutput), *output);
});
}
// check taxon field, transfer fee and serial
TEST_F(RPCNFTInfoHandlerTest, NFTWithExtraFieldsSet)
{
constexpr static auto currentOutput = R"({
"nft_id": "00081388319F12E15BCA13E1B933BF4C99C8E1BBC36BD4910A85D52F00000022",
"ledger_index": 30,
"owner": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn",
"is_burned": false,
"flags": 8,
"transfer_fee": 5000,
"issuer": "rnX4gsB86NNrGV8xHcJ5hbR2aKtSetbuwg",
"nft_taxon": 7826,
"nft_serial": 34,
"uri": "757269",
"validated": true
})";
MockBackend* rawBackendPtr = dynamic_cast<MockBackend*>(mockBackendPtr.get());
ASSERT_NE(rawBackendPtr, nullptr);
mockBackendPtr->updateRange(10); // min
mockBackendPtr->updateRange(30); // max
auto ledgerInfo = CreateLedgerInfo(LEDGERHASH, 30);
ON_CALL(*rawBackendPtr, fetchLedgerBySequence).WillByDefault(Return(ledgerInfo));
EXPECT_CALL(*rawBackendPtr, fetchLedgerBySequence).Times(1);
// fetch nft return something
auto const nft = std::make_optional<NFT>(CreateNFT(NFTID2, ACCOUNT, ledgerInfo.seq));
ON_CALL(*rawBackendPtr, fetchNFT).WillByDefault(Return(nft));
EXPECT_CALL(*rawBackendPtr, fetchNFT(ripple::uint256{NFTID2}, 30, _)).Times(1);
auto const input = json::parse(fmt::format(
R"({{
"nft_id": "{}"
}})",
NFTID2
));
runSpawn([&, this](auto yield) {
auto handler = AnyHandler{NFTInfoHandler{this->mockBackendPtr}};
auto const output = handler.process(input, Context{yield});
ASSERT_TRUE(output);
EXPECT_EQ(json::parse(currentOutput), *output);
});
}
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