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scylladb/test/lib/cql_assertions.cc
Avi Kivity fcb8d040e8 treewide: use Software Package Data Exchange (SPDX) license identifiers 
Instead of lengthy blurbs, switch to single-line, machine-readable
standardized (https://spdx.dev) license identifiers. The Linux kernel
switched long ago, so there is strong precedent.

Three cases are handled: AGPL-only, Apache-only, and dual licensed.
For the latter case, I chose (AGPL-3.0-or-later and Apache-2.0),
reasoning that our changes are extensive enough to apply our license.

The changes we applied mechanically with a script, except to
licenses/README.md.

Closes #9937
2022-01-18 12:15:18 +01:00

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/*
* Copyright (C) 2015-present ScyllaDB
*/
/*
* SPDX-License-Identifier: AGPL-3.0-or-later
*/
#include <boost/test/unit_test.hpp>
#include <boost/range/adaptor/transformed.hpp>
#include "test/lib/cql_assertions.hh"
#include "transport/messages/result_message.hh"
#include "to_string.hh"
#include "bytes.hh"
static inline void fail(sstring msg) {
throw std::runtime_error(msg);
}
rows_assertions::rows_assertions(shared_ptr<cql_transport::messages::result_message::rows> rows)
: _rows(rows)
{ }
rows_assertions
rows_assertions::with_size(size_t size) {
const auto& rs = _rows->rs().result_set();
auto row_count = rs.size();
if (row_count != size) {
fail(format("Expected {:d} row(s) but got {:d}", size, row_count));
}
return {*this};
}
rows_assertions
rows_assertions::is_empty() {
const auto& rs = _rows->rs().result_set();
auto row_count = rs.size();
if (row_count != 0) {
auto&& first_row = *rs.rows().begin();
fail(format("Expected no rows, but got {:d}. First row: {}", row_count, to_string(first_row)));
}
return {*this};
}
rows_assertions
rows_assertions::is_not_empty() {
const auto& rs = _rows->rs().result_set();
auto row_count = rs.size();
if (row_count == 0) {
fail("Expected some rows, but was result was empty");
}
return {*this};
}
rows_assertions
rows_assertions::rows_assertions::is_null() {
const auto& rs = _rows->rs().result_set();
for (auto&& row : rs.rows()) {
for (const bytes_opt& v : row) {
if (v) {
fail(format("Expected null values. Found: {}\n", v));
}
}
}
return {*this};
}
rows_assertions
rows_assertions::rows_assertions::is_not_null() {
const auto& rs = _rows->rs().result_set();
for (auto&& row : rs.rows()) {
for (const bytes_opt& v : row) {
if (!v) {
fail(format("Expected non-null values. {}\n", to_string(row)));
}
}
}
return is_not_empty();
}
rows_assertions
rows_assertions::with_column_types(std::initializer_list<data_type> column_types) {
auto meta = _rows->rs().result_set().get_metadata();
const auto& columns = meta.get_names();
if (column_types.size() != columns.size()) {
fail(format("Expected {:d} columns, got {:d}", column_types.size(), meta.column_count()));
}
auto expected_it = column_types.begin();
auto actual_it = columns.begin();
for (int i = 0; i < (int)columns.size(); i++) {
const auto& expected_type = *expected_it++;
const auto& actual_spec = *actual_it++;
if (expected_type != actual_spec->type) {
fail(format("Column {:d}: expected type {}, got {}", i, expected_type->name(), actual_spec->type->name()));
}
}
return {*this};
}
rows_assertions
rows_assertions::with_row(std::initializer_list<bytes_opt> values) {
const auto& rs = _rows->rs().result_set();
std::vector<bytes_opt> expected_row(values);
for (auto&& row : rs.rows()) {
if (row == expected_row) {
return {*this};
}
}
fail(format("Expected row not found: {} not in {}\n", to_string(expected_row), _rows));
return {*this};
}
// Verifies that the result has the following rows and only that rows, in that order.
rows_assertions
rows_assertions::with_rows(std::vector<std::vector<bytes_opt>> rows) {
const auto& rs = _rows->rs().result_set();
auto actual_i = rs.rows().begin();
auto actual_end = rs.rows().end();
int row_nr = 0;
for (auto&& row : rows) {
if (actual_i == actual_end) {
fail(format("Expected more rows ({:d}), got {:d}", rows.size(), rs.size()));
}
auto& actual = *actual_i;
if (!std::equal(
std::begin(row), std::end(row),
std::begin(actual), std::end(actual))) {
fail(format("row {:d} differs, expected {} got {}", row_nr, to_string(row), to_string(actual)));
}
++actual_i;
++row_nr;
}
if (actual_i != actual_end) {
fail(format("Expected less rows ({:d}), got {:d}. Next row is: {}", rows.size(), rs.size(),
to_string(*actual_i)));
}
return {*this};
}
// Verifies that the result has the following rows and only those rows.
rows_assertions
rows_assertions::with_rows_ignore_order(std::vector<std::vector<bytes_opt>> rows) {
const auto& rs = _rows->rs().result_set();
auto& actual = rs.rows();
for (auto&& expected : rows) {
auto found = std::find_if(std::begin(actual), std::end(actual), [&] (auto&& row) {
return std::equal(
std::begin(row), std::end(row),
std::begin(expected), std::end(expected));
});
if (found == std::end(actual)) {
fail(format("row {} not found in result set ({})", to_string(expected),
::join(", ", actual | boost::adaptors::transformed([] (auto& r) { return to_string(r); }))));
}
}
if (rs.size() != rows.size()) {
fail(format("Expected different number of rows ({:d}), got {:d}", rows.size(), rs.size()));
}
return {*this};
}
result_msg_assertions::result_msg_assertions(shared_ptr<cql_transport::messages::result_message> msg)
: _msg(msg)
{ }
rows_assertions result_msg_assertions::is_rows() {
auto rows = dynamic_pointer_cast<cql_transport::messages::result_message::rows>(_msg);
if (!rows) {
fail("Expected rows in result set");
}
return rows_assertions(rows);
}
result_msg_assertions assert_that(shared_ptr<cql_transport::messages::result_message> msg) {
return result_msg_assertions(msg);
}
rows_assertions rows_assertions::with_serialized_columns_count(size_t columns_count) {
size_t serialized_column_count = _rows->rs().get_metadata().column_count();
if (serialized_column_count != columns_count) {
fail(format("Expected {:d} serialized columns(s) but got {:d}", columns_count, serialized_column_count));
}
return {*this};
}
shared_ptr<cql_transport::messages::result_message> cquery_nofail(
cql_test_env& env, sstring_view query, std::unique_ptr<cql3::query_options>&& qo, const std::experimental::source_location& loc) {
try {
if (qo) {
return env.execute_cql(query, std::move(qo)).get0();
} else {
return env.execute_cql(query).get0();
}
} catch (...) {
BOOST_FAIL(format("query '{}' failed: {}\n{}:{}: originally from here",
query, std::current_exception(), loc.file_name(), loc.line()));
}
return shared_ptr<cql_transport::messages::result_message>(nullptr);
}
void require_rows(cql_test_env& e,
sstring_view qstr,
const std::vector<std::vector<bytes_opt>>& expected,
const std::experimental::source_location& loc) {
try {
assert_that(cquery_nofail(e, qstr, nullptr, loc)).is_rows().with_rows_ignore_order(expected);
}
catch (const std::exception& e) {
BOOST_FAIL(format("query '{}' failed: {}\n{}:{}: originally from here",
qstr, e.what(), loc.file_name(), loc.line()));
}
}
void eventually_require_rows(cql_test_env& e, sstring_view qstr, const std::vector<std::vector<bytes_opt>>& expected,
const std::experimental::source_location& loc) {
try {
eventually([&] {
assert_that(cquery_nofail(e, qstr, nullptr, loc)).is_rows().with_rows_ignore_order(expected);
});
} catch (const std::exception& e) {
BOOST_FAIL(format("query '{}' failed: {}\n{}:{}: originally from here",
qstr, e.what(), loc.file_name(), loc.line()));
}
}
void require_rows(cql_test_env& e,
cql3::prepared_cache_key_type id,
const std::vector<cql3::raw_value>& values,
const std::vector<std::vector<bytes_opt>>& expected,
const std::experimental::source_location& loc) {
try {
assert_that(e.execute_prepared(id, values).get0()).is_rows().with_rows_ignore_order(expected);
} catch (const std::exception& e) {
BOOST_FAIL(format("execute_prepared failed: {}\n{}:{}: originally from here",
e.what(), loc.file_name(), loc.line()));
}
}
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