HardenedBSD/contrib/kyua/store/read_transaction.cpp
Brooks Davis b0d29bc47d Import the kyua test framework.
Having kyua in the base system will simplify automated testing in CI and
eliminates bootstrapping issues on new platforms.

The build of kyua is controlled by WITH(OUT)_TESTS_SUPPORT.

Reviewed by:	emaste
Obtained from:	CheriBSD
Sponsored by:	DARPA
Differential Revision:	https://reviews.freebsd.org/D24103
2020-03-23 19:01:23 +00:00

533 lines
16 KiB
C++

// Copyright 2011 The Kyua Authors.
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
// * Neither the name of Google Inc. nor the names of its contributors
// may be used to endorse or promote products derived from this software
// without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include "store/read_transaction.hpp"
extern "C" {
#include <stdint.h>
}
#include <map>
#include <utility>
#include "model/context.hpp"
#include "model/metadata.hpp"
#include "model/test_case.hpp"
#include "model/test_program.hpp"
#include "model/test_result.hpp"
#include "store/dbtypes.hpp"
#include "store/exceptions.hpp"
#include "store/read_backend.hpp"
#include "utils/datetime.hpp"
#include "utils/format/macros.hpp"
#include "utils/fs/path.hpp"
#include "utils/logging/macros.hpp"
#include "utils/noncopyable.hpp"
#include "utils/optional.ipp"
#include "utils/sanity.hpp"
#include "utils/sqlite/database.hpp"
#include "utils/sqlite/exceptions.hpp"
#include "utils/sqlite/statement.ipp"
#include "utils/sqlite/transaction.hpp"
namespace datetime = utils::datetime;
namespace fs = utils::fs;
namespace sqlite = utils::sqlite;
using utils::optional;
namespace {
/// Retrieves the environment variables of the context.
///
/// \param db The SQLite database.
///
/// \return The environment variables of the specified context.
///
/// \throw sqlite::error If there is a problem loading the variables.
static std::map< std::string, std::string >
get_env_vars(sqlite::database& db)
{
std::map< std::string, std::string > env;
sqlite::statement stmt = db.create_statement(
"SELECT var_name, var_value FROM env_vars");
while (stmt.step()) {
const std::string name = stmt.safe_column_text("var_name");
const std::string value = stmt.safe_column_text("var_value");
env[name] = value;
}
return env;
}
/// Retrieves a metadata object.
///
/// \param db The SQLite database.
/// \param metadata_id The identifier of the metadata.
///
/// \return A new metadata object.
static model::metadata
get_metadata(sqlite::database& db, const int64_t metadata_id)
{
model::metadata_builder builder;
sqlite::statement stmt = db.create_statement(
"SELECT * FROM metadatas WHERE metadata_id == :metadata_id");
stmt.bind(":metadata_id", metadata_id);
while (stmt.step()) {
const std::string name = stmt.safe_column_text("property_name");
const std::string value = stmt.safe_column_text("property_value");
builder.set_string(name, value);
}
return builder.build();
}
/// Gets a file from the database.
///
/// \param db The database to query the file from.
/// \param file_id The identifier of the file to be queried.
///
/// \return A textual representation of the file contents.
///
/// \throw integrity_error If there is any problem in the loaded data or if the
/// file cannot be found.
static std::string
get_file(sqlite::database& db, const int64_t file_id)
{
sqlite::statement stmt = db.create_statement(
"SELECT contents FROM files WHERE file_id == :file_id");
stmt.bind(":file_id", file_id);
if (!stmt.step())
throw store::integrity_error(F("Cannot find referenced file %s") %
file_id);
try {
const sqlite::blob raw_contents = stmt.safe_column_blob("contents");
const std::string contents(
static_cast< const char *>(raw_contents.memory), raw_contents.size);
const bool more = stmt.step();
INV(!more);
return contents;
} catch (const sqlite::error& e) {
throw store::integrity_error(e.what());
}
}
/// Gets all the test cases within a particular test program.
///
/// \param db The database to query the information from.
/// \param test_program_id The identifier of the test program whose test cases
/// to query.
///
/// \return The collection of loaded test cases.
///
/// \throw integrity_error If there is any problem in the loaded data.
static model::test_cases_map
get_test_cases(sqlite::database& db, const int64_t test_program_id)
{
model::test_cases_map_builder test_cases;
sqlite::statement stmt = db.create_statement(
"SELECT name, metadata_id "
"FROM test_cases WHERE test_program_id == :test_program_id");
stmt.bind(":test_program_id", test_program_id);
while (stmt.step()) {
const std::string name = stmt.safe_column_text("name");
const int64_t metadata_id = stmt.safe_column_int64("metadata_id");
const model::metadata metadata = get_metadata(db, metadata_id);
LD(F("Loaded test case '%s'") % name);
test_cases.add(name, metadata);
}
return test_cases.build();
}
/// Retrieves a result from the database.
///
/// \param stmt The statement with the data for the result to load.
/// \param type_column The name of the column containing the type of the result.
/// \param reason_column The name of the column containing the reason for the
/// result, if any.
///
/// \return The loaded result.
///
/// \throw integrity_error If the data in the database is invalid.
static model::test_result
parse_result(sqlite::statement& stmt, const char* type_column,
const char* reason_column)
{
try {
const model::test_result_type type =
store::column_test_result_type(stmt, type_column);
if (type == model::test_result_passed) {
if (stmt.column_type(stmt.column_id(reason_column)) !=
sqlite::type_null)
throw store::integrity_error("Result of type 'passed' has a "
"non-NULL reason");
return model::test_result(type);
} else {
return model::test_result(type,
stmt.safe_column_text(reason_column));
}
} catch (const sqlite::error& e) {
throw store::integrity_error(e.what());
}
}
} // anonymous namespace
/// Loads a specific test program from the database.
///
/// \param backend_ The store backend we are dealing with.
/// \param id The identifier of the test program to load.
///
/// \return The instantiated test program.
///
/// \throw integrity_error If the data read from the database cannot be properly
/// interpreted.
model::test_program_ptr
store::detail::get_test_program(read_backend& backend_, const int64_t id)
{
sqlite::database& db = backend_.database();
model::test_program_ptr test_program;
sqlite::statement stmt = db.create_statement(
"SELECT * FROM test_programs WHERE test_program_id == :id");
stmt.bind(":id", id);
stmt.step();
const std::string interface = stmt.safe_column_text("interface");
test_program.reset(new model::test_program(
interface,
fs::path(stmt.safe_column_text("relative_path")),
fs::path(stmt.safe_column_text("root")),
stmt.safe_column_text("test_suite_name"),
get_metadata(db, stmt.safe_column_int64("metadata_id")),
get_test_cases(db, id)));
const bool more = stmt.step();
INV(!more);
LD(F("Loaded test program '%s'") % test_program->relative_path());
return test_program;
}
/// Internal implementation for a results iterator.
struct store::results_iterator::impl : utils::noncopyable {
/// The store backend we are dealing with.
store::read_backend _backend;
/// The statement to iterate on.
sqlite::statement _stmt;
/// A cache for the last loaded test program.
optional< std::pair< int64_t, model::test_program_ptr > >
_last_test_program;
/// Whether the iterator is still valid or not.
bool _valid;
/// Constructor.
///
/// \param backend_ The store backend implementation.
impl(store::read_backend& backend_) :
_backend(backend_),
_stmt(backend_.database().create_statement(
"SELECT test_programs.test_program_id, "
" test_programs.interface, "
" test_cases.test_case_id, test_cases.name, "
" test_results.result_type, test_results.result_reason, "
" test_results.start_time, test_results.end_time "
"FROM test_programs "
" JOIN test_cases "
" ON test_programs.test_program_id = test_cases.test_program_id "
" JOIN test_results "
" ON test_cases.test_case_id = test_results.test_case_id "
"ORDER BY test_programs.absolute_path, test_cases.name"))
{
_valid = _stmt.step();
}
};
/// Constructor.
///
/// \param pimpl_ The internal implementation details of the iterator.
store::results_iterator::results_iterator(
std::shared_ptr< impl > pimpl_) :
_pimpl(pimpl_)
{
}
/// Destructor.
store::results_iterator::~results_iterator(void)
{
}
/// Moves the iterator forward by one result.
///
/// \return The iterator itself.
store::results_iterator&
store::results_iterator::operator++(void)
{
_pimpl->_valid = _pimpl->_stmt.step();
return *this;
}
/// Checks whether the iterator is still valid.
///
/// \return True if there is more elements to iterate on, false otherwise.
store::results_iterator::operator bool(void) const
{
return _pimpl->_valid;
}
/// Gets the test program this result belongs to.
///
/// \return The representation of a test program.
const model::test_program_ptr
store::results_iterator::test_program(void) const
{
const int64_t id = _pimpl->_stmt.safe_column_int64("test_program_id");
if (!_pimpl->_last_test_program ||
_pimpl->_last_test_program.get().first != id)
{
const model::test_program_ptr tp = detail::get_test_program(
_pimpl->_backend, id);
_pimpl->_last_test_program = std::make_pair(id, tp);
}
return _pimpl->_last_test_program.get().second;
}
/// Gets the name of the test case pointed by the iterator.
///
/// The caller can look up the test case data by using the find() method on the
/// test program returned by test_program().
///
/// \return A test case name, unique within the test program.
std::string
store::results_iterator::test_case_name(void) const
{
return _pimpl->_stmt.safe_column_text("name");
}
/// Gets the result of the test case pointed by the iterator.
///
/// \return A test case result.
model::test_result
store::results_iterator::result(void) const
{
return parse_result(_pimpl->_stmt, "result_type", "result_reason");
}
/// Gets the start time of the test case execution.
///
/// \return The time when the test started execution.
datetime::timestamp
store::results_iterator::start_time(void) const
{
return column_timestamp(_pimpl->_stmt, "start_time");
}
/// Gets the end time of the test case execution.
///
/// \return The time when the test finished execution.
datetime::timestamp
store::results_iterator::end_time(void) const
{
return column_timestamp(_pimpl->_stmt, "end_time");
}
/// Gets a file from a test case.
///
/// \param db The database to query the file from.
/// \param test_case_id The identifier of the test case.
/// \param filename The name of the file to be retrieved.
///
/// \return A textual representation of the file contents.
///
/// \throw integrity_error If there is any problem in the loaded data or if the
/// file cannot be found.
static std::string
get_test_case_file(sqlite::database& db, const int64_t test_case_id,
const char* filename)
{
sqlite::statement stmt = db.create_statement(
"SELECT file_id FROM test_case_files "
"WHERE test_case_id == :test_case_id AND file_name == :file_name");
stmt.bind(":test_case_id", test_case_id);
stmt.bind(":file_name", filename);
if (stmt.step())
return get_file(db, stmt.safe_column_int64("file_id"));
else
return "";
}
/// Gets the contents of stdout of a test case.
///
/// \return A textual representation of the stdout contents of the test case.
/// This may of course be empty if the test case didn't print anything.
std::string
store::results_iterator::stdout_contents(void) const
{
return get_test_case_file(_pimpl->_backend.database(),
_pimpl->_stmt.safe_column_int64("test_case_id"),
"__STDOUT__");
}
/// Gets the contents of stderr of a test case.
///
/// \return A textual representation of the stderr contents of the test case.
/// This may of course be empty if the test case didn't print anything.
std::string
store::results_iterator::stderr_contents(void) const
{
return get_test_case_file(_pimpl->_backend.database(),
_pimpl->_stmt.safe_column_int64("test_case_id"),
"__STDERR__");
}
/// Internal implementation for a store read-only transaction.
struct store::read_transaction::impl : utils::noncopyable {
/// The backend instance.
store::read_backend& _backend;
/// The SQLite database this transaction deals with.
sqlite::database _db;
/// The backing SQLite transaction.
sqlite::transaction _tx;
/// Opens a transaction.
///
/// \param backend_ The backend this transaction is connected to.
impl(read_backend& backend_) :
_backend(backend_),
_db(backend_.database()),
_tx(backend_.database().begin_transaction())
{
}
};
/// Creates a new read-only transaction.
///
/// \param backend_ The backend this transaction belongs to.
store::read_transaction::read_transaction(read_backend& backend_) :
_pimpl(new impl(backend_))
{
}
/// Destructor.
store::read_transaction::~read_transaction(void)
{
}
/// Finishes the transaction.
///
/// This actually commits the result of the transaction, but because the
/// transaction is read-only, we use a different term to denote that there is no
/// distinction between commit and rollback.
///
/// \throw error If there is any problem when talking to the database.
void
store::read_transaction::finish(void)
{
try {
_pimpl->_tx.commit();
} catch (const sqlite::error& e) {
throw error(e.what());
}
}
/// Retrieves an context from the database.
///
/// \return The retrieved context.
///
/// \throw error If there is a problem loading the context.
model::context
store::read_transaction::get_context(void)
{
try {
sqlite::statement stmt = _pimpl->_db.create_statement(
"SELECT cwd FROM contexts");
if (!stmt.step())
throw error("Error loading context: no data");
return model::context(fs::path(stmt.safe_column_text("cwd")),
get_env_vars(_pimpl->_db));
} catch (const sqlite::error& e) {
throw error(F("Error loading context: %s") % e.what());
}
}
/// Creates a new iterator to scan tests results.
///
/// \return The constructed iterator.
///
/// \throw error If there is any problem constructing the iterator.
store::results_iterator
store::read_transaction::get_results(void)
{
try {
return results_iterator(std::shared_ptr< results_iterator::impl >(
new results_iterator::impl(_pimpl->_backend)));
} catch (const sqlite::error& e) {
throw error(e.what());
}
}