Merge branch 'devel'

master
moneroexamples 6 years ago
commit 68c474ccb6

@ -19,12 +19,16 @@ endif()
message(STATUS MONERO_DIR ": ${MONERO_DIR}")
set(MONERO_SOURCE_DIR ${MONERO_DIR}
CACHE PATH "Path to the root directory for Monero")
if (NOT MONERO_SOURCE_DIR)
set(MONERO_SOURCE_DIR ${MONERO_DIR}
CACHE PATH "Path to the root directory for Monero")
endif()
# set location of monero build tree
set(MONERO_BUILD_DIR ${MONERO_SOURCE_DIR}/build/release/
CACHE PATH "Path to the build directory for Monero")
if (NOT MONERO_BUILD_DIR)
# set location of monero build tree
set(MONERO_BUILD_DIR ${MONERO_SOURCE_DIR}/build/release/
CACHE PATH "Path to the build directory for Monero")
endif()
set(MY_CMAKE_DIR "${CMAKE_CURRENT_LIST_DIR}/cmake"
CACHE PATH "The path to the cmake directory of the current project")
@ -65,9 +69,16 @@ if (${CMAKE_SYSTEM_NAME} MATCHES "Darwin" OR WIN32)
set_property(TARGET unbound PROPERTY IMPORTED_LOCATION ${MONERO_BUILD_DIR}/external/unbound/libunbound.a)
endif()
# include boost headers
include_directories(${Boost_INCLUDE_DIRS})
# include monero
include_directories(${MONERO_SOURCE_DIR}/build)
include_directories("ext/mstch/include")
include_directories("ext/mstch/include/src")
include_directories("ext/crow")
# add ext/ subfolder

@ -336,9 +336,14 @@ main(int ac, const char* av[])
return crow::response(xmrblocks.show_block_hex(block_height, true));
});
// CROW_ROUTE(app, "/ringmemberstxhex/<string>")
// ([&](string tx_hash) {
// return crow::response(xmrblocks.show_ringmemberstx_hex(remove_bad_chars(tx_hash)));
// });
CROW_ROUTE(app, "/ringmemberstxhex/<string>")
([&](string tx_hash) {
return crow::response(xmrblocks.show_ringmemberstx_hex(remove_bad_chars(tx_hash)));
return myxmr::jsonresponse {xmrblocks.show_ringmemberstx_jsonhex(remove_bad_chars(tx_hash))};
});
}

@ -22,15 +22,20 @@
#include "../ext/crow/crow.h"
#include "../ext/json.hpp"
#include "../ext/vpetrigocaches/cache.hpp"
#include "../ext/vpetrigocaches/lru_cache_policy.hpp"
#include "../ext/vpetrigocaches/fifo_cache_policy.hpp"
#include "../ext/mstch/src/visitor/render_node.hpp"
#include <algorithm>
#include <limits>
#include <ctime>
#include <future>
#include <visitor/render_node.hpp>
#define TMPL_DIR "./templates"
@ -190,8 +195,6 @@ using namespace std;
using epee::string_tools::pod_to_hex;
using epee::string_tools::hex_to_pod;
/**
* @brief The tx_details struct
*
@ -1842,7 +1845,248 @@ show_ringmemberstx_hex(string const& tx_hash_str)
::buff_to_hex_nodelimer(oss.str());
}
/**
* @brief Get ring member tx data
*
* Used for generating json file of txs used in unit testing.
* Thanks to json output from this function, we can mock
* a number of blockchain quries about key images
*
* @param tx_hash_str
* @return
*/
json
show_ringmemberstx_jsonhex(string const& tx_hash_str)
{
transaction tx;
crypto::hash tx_hash;
if (!get_tx(tx_hash_str, tx, tx_hash))
return string {"Cant get tx: "} + tx_hash_str;
vector<txin_to_key> input_key_imgs = xmreg::get_key_images(tx);
json tx_json;
string tx_hex;
try
{
tx_hex = tx_to_hex(tx);
}
catch (std::exception const& e)
{
cerr << e.what() << endl;
return json {"error", "Failed to obtain hex of tx"};
}
tx_json["hash"] = tx_hash_str;
tx_json["hex"] = tx_hex;
tx_json["nettype"] = static_cast<size_t>(nettype);
tx_json["is_ringct"] = (tx.version > 1);
tx_json["rct_type"] = tx.rct_signatures.type;
tx_json["_comment"] = "Just a placeholder for some comment if needed later";
// add placeholder for sender and recipient details
// this is most useful for unit testing on stagenet/testnet
// private monero networks, so we can easly put these
// networks accounts details here.
tx_json["sender"] = json {
{"seed", ""},
{"address", ""},
{"viewkey", ""},
{"spendkey", ""},
{"amount", 0ull},
{"change", 0ull},
{"outputs", json::array({json::array(
{"index placeholder",
"public_key placeholder",
"amount placeholder"}
)})
},
{"_comment", ""}};
tx_json["recipient"] = json::array();
tx_json["recipient"].push_back(
json { {"seed", ""},
{"address", ""},
{"is_subaddress", false},
{"viewkey", ""},
{"spendkey", ""},
{"amount", 0ull},
{"outputs", json::array({json::array(
{"index placeholder",
"public_key placeholder",
"amount placeholder"}
)})
},
{"_comment", ""}});
uint64_t tx_blk_height {0};
try
{
tx_blk_height = core_storage->get_db().get_tx_block_height(tx_hash);
}
catch (exception& e)
{
cerr << "Cant get block height: " << tx_hash
<< e.what() << endl;
return json {"error", "Cant get block height"};
}
// get block cointaining this tx
block blk;
if ( !mcore->get_block_by_height(tx_blk_height, blk))
{
cerr << "Cant get block: " << tx_blk_height << endl;
return json {"error", "Cant get block"};
}
block_complete_entry complete_block_data;
if (!mcore->get_block_complete_entry(blk, complete_block_data))
{
cerr << "Failed to obtain complete block data " << endl;
return json {"error", "Failed to obtain complete block data "};
}
std::string complete_block_data_str;
if(!epee::serialization::store_t_to_binary(
complete_block_data, complete_block_data_str))
{
cerr << "Failed to serialize complete_block_data\n";
return json {"error", "Failed to obtain complete block data"};
}
tx_details txd = get_tx_details(tx);
tx_json["payment_id"] = pod_to_hex(txd.payment_id);
tx_json["payment_id8"] = pod_to_hex(txd.payment_id8);
tx_json["payment_id8e"] = pod_to_hex(txd.payment_id8);
tx_json["block"] = epee::string_tools
::buff_to_hex_nodelimer(complete_block_data_str);
tx_json["block_version"] = json {blk.major_version, blk.minor_version};
tx_json["inputs"] = json::array();
// key: constracted from concatenation of in_key.amount and absolute_offsets,
// value: vector of string where string is transaction hash + output index + tx_hex
// will have to cut this string when de-seraializing this data
// later in the unit tests
// transaction hash and output index represent tx_out_index
std::map<string, vector<string>> all_mixin_txs;
for (txin_to_key const& in_key: input_key_imgs)
{
// get absolute offsets of mixins
std::vector<uint64_t> absolute_offsets
= cryptonote::relative_output_offsets_to_absolute(
in_key.key_offsets);
//tx_out_index is pair::<transaction hash, output index>
vector<tx_out_index> indices;
std::vector<output_data_t> mixin_outputs;
// get tx hashes and indices in the txs for the
// given outputs of mixins
// this cant THROW DB_EXCEPTION
try
{
// get tx of the real output
core_storage->get_db().get_output_tx_and_index(
in_key.amount, absolute_offsets, indices);
// get mining ouput info
core_storage->get_db().get_output_key(
in_key.amount,
absolute_offsets,
mixin_outputs);
}
catch (exception const& e)
{
string out_msg = fmt::format(
"Cant get ring member tx_out_index for tx {:s}", tx_hash_str
);
cerr << out_msg << endl;
return json {"error", out_msg};
}
tx_json["inputs"].push_back(json {{"key_image", pod_to_hex(in_key.k_image)},
{"amount", in_key.amount},
{"absolute_offsets", absolute_offsets},
{"ring_members", json::array()}});
json& ring_members = tx_json["inputs"].back()["ring_members"];
if (indices.size() != mixin_outputs.size())
{
cerr << "indices.size() != mixin_outputs.size()\n";
return json {"error", "indices.size() != mixin_outputs.size()"};
}
// serialize each mixin tx
//for (auto const& txi : indices)
for (size_t i = 0; i < indices.size(); ++i)
{
tx_out_index const& txi = indices[i];
output_data_t const& mo = mixin_outputs[i];
auto const& mixin_tx_hash = txi.first;
auto const& output_index_in_tx = txi.second;
transaction mixin_tx;
if (!mcore->get_tx(mixin_tx_hash, mixin_tx))
{
throw std::runtime_error("Cant get tx: "
+ pod_to_hex(mixin_tx_hash));
}
// serialize tx
string tx_hex = epee::string_tools::buff_to_hex_nodelimer(
t_serializable_object_to_blob(mixin_tx));
ring_members.push_back(
json {
{"ouput_pk", pod_to_hex(mo.pubkey)},
{"tx_hash", pod_to_hex(mixin_tx_hash)},
{"output_index_in_tx", txi.second},
{"tx_hex", tx_hex},
});
}
} // for (txin_to_key const& in_key: input_key_imgs)
// archive all_mixin_outputs vector
std::ostringstream oss;
boost::archive::portable_binary_oarchive archive(oss);
archive << all_mixin_txs;
// return as all_mixin_outputs vector hex
//return epee::string_tools
// ::buff_to_hex_nodelimer(oss.str());
return tx_json;
}
string
show_my_outputs(string tx_hash_str,
@ -2162,8 +2406,11 @@ show_my_outputs(string tx_hash_str,
address_info.address.m_spend_public_key,
tx_pubkey);
//cout << pod_to_hex(outp.first.key) << endl;
//cout << pod_to_hex(tx_pubkey) << endl;
// cout << pod_to_hex(derivation) << ", " << output_idx << ", "
// << pod_to_hex(address_info.address.m_spend_public_key) << ", "
// << pod_to_hex(outp.first.key) << " == "
// << pod_to_hex(tx_pubkey) << '\n' << '\n';
// check if generated public key matches the current output's key
bool mine_output = (outp.first.key == tx_pubkey);
@ -2178,6 +2425,7 @@ show_my_outputs(string tx_hash_str,
address_info.address.m_spend_public_key,
tx_pubkey);
mine_output = (outp.first.key == tx_pubkey);
with_additional = true;
@ -4642,7 +4890,7 @@ json_block(string block_no_or_hash)
{"data" , json {}}
};
json& j_data = j_response["data"];
nlohmann::json& j_data = j_response["data"];
uint64_t current_blockchain_height
= core_storage->get_current_blockchain_height();

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