// 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/dbtypes.hpp" #include "model/test_program.hpp" #include "model/test_result.hpp" #include "store/exceptions.hpp" #include "utils/datetime.hpp" #include "utils/format/macros.hpp" #include "utils/sanity.hpp" #include "utils/sqlite/statement.ipp" namespace datetime = utils::datetime; namespace sqlite = utils::sqlite; /// Binds a boolean value to a statement parameter. /// /// \param stmt The statement to which to bind the parameter. /// \param field The name of the parameter; must exist. /// \param value The value to bind. void store::bind_bool(sqlite::statement& stmt, const char* field, const bool value) { stmt.bind(field, value ? "true" : "false"); } /// Binds a time delta to a statement parameter. /// /// \param stmt The statement to which to bind the parameter. /// \param field The name of the parameter; must exist. /// \param delta The value to bind. void store::bind_delta(sqlite::statement& stmt, const char* field, const datetime::delta& delta) { stmt.bind(field, static_cast< int64_t >(delta.to_microseconds())); } /// Binds a string to a statement parameter. /// /// If the string is not empty, this binds the string itself. Otherwise, it /// binds a NULL value. /// /// \param stmt The statement to which to bind the parameter. /// \param field The name of the parameter; must exist. /// \param str The string to bind. void store::bind_optional_string(sqlite::statement& stmt, const char* field, const std::string& str) { if (str.empty()) stmt.bind(field, sqlite::null()); else stmt.bind(field, str); } /// Binds a test result type to a statement parameter. /// /// \param stmt The statement to which to bind the parameter. /// \param field The name of the parameter; must exist. /// \param type The result type to bind. void store::bind_test_result_type(sqlite::statement& stmt, const char* field, const model::test_result_type& type) { switch (type) { case model::test_result_broken: stmt.bind(field, "broken"); break; case model::test_result_expected_failure: stmt.bind(field, "expected_failure"); break; case model::test_result_failed: stmt.bind(field, "failed"); break; case model::test_result_passed: stmt.bind(field, "passed"); break; case model::test_result_skipped: stmt.bind(field, "skipped"); break; default: UNREACHABLE; } } /// Binds a timestamp to a statement parameter. /// /// \param stmt The statement to which to bind the parameter. /// \param field The name of the parameter; must exist. /// \param timestamp The value to bind. void store::bind_timestamp(sqlite::statement& stmt, const char* field, const datetime::timestamp& timestamp) { stmt.bind(field, timestamp.to_microseconds()); } /// Queries a boolean value from a statement. /// /// \param stmt The statement from which to get the column. /// \param column The name of the column holding the value. /// /// \return The parsed value if all goes well. /// /// \throw integrity_error If the value in the specified column is invalid. bool store::column_bool(sqlite::statement& stmt, const char* column) { const int id = stmt.column_id(column); if (stmt.column_type(id) != sqlite::type_text) throw store::integrity_error(F("Boolean value in column %s is not a " "string") % column); const std::string value = stmt.column_text(id); if (value == "true") return true; else if (value == "false") return false; else throw store::integrity_error(F("Unknown boolean value '%s'") % value); } /// Queries a time delta from a statement. /// /// \param stmt The statement from which to get the column. /// \param column The name of the column holding the value. /// /// \return The parsed value if all goes well. /// /// \throw integrity_error If the value in the specified column is invalid. datetime::delta store::column_delta(sqlite::statement& stmt, const char* column) { const int id = stmt.column_id(column); if (stmt.column_type(id) != sqlite::type_integer) throw store::integrity_error(F("Time delta in column %s is not an " "integer") % column); return datetime::delta::from_microseconds(stmt.column_int64(id)); } /// Queries an optional string from a statement. /// /// \param stmt The statement from which to get the column. /// \param column The name of the column holding the value. /// /// \return The parsed value if all goes well. /// /// \throw integrity_error If the value in the specified column is invalid. std::string store::column_optional_string(sqlite::statement& stmt, const char* column) { const int id = stmt.column_id(column); switch (stmt.column_type(id)) { case sqlite::type_text: return stmt.column_text(id); case sqlite::type_null: return ""; default: throw integrity_error(F("Invalid string type in column %s") % column); } } /// Queries a test result type from a statement. /// /// \param stmt The statement from which to get the column. /// \param column The name of the column holding the value. /// /// \return The parsed value if all goes well. /// /// \throw integrity_error If the value in the specified column is invalid. model::test_result_type store::column_test_result_type(sqlite::statement& stmt, const char* column) { const int id = stmt.column_id(column); if (stmt.column_type(id) != sqlite::type_text) throw store::integrity_error(F("Result type in column %s is not a " "string") % column); const std::string type = stmt.column_text(id); if (type == "passed") { return model::test_result_passed; } else if (type == "broken") { return model::test_result_broken; } else if (type == "expected_failure") { return model::test_result_expected_failure; } else if (type == "failed") { return model::test_result_failed; } else if (type == "skipped") { return model::test_result_skipped; } else { throw store::integrity_error(F("Unknown test result type %s") % type); } } /// Queries a timestamp from a statement. /// /// \param stmt The statement from which to get the column. /// \param column The name of the column holding the value. /// /// \return The parsed value if all goes well. /// /// \throw integrity_error If the value in the specified column is invalid. datetime::timestamp store::column_timestamp(sqlite::statement& stmt, const char* column) { const int id = stmt.column_id(column); if (stmt.column_type(id) != sqlite::type_integer) throw store::integrity_error(F("Timestamp in column %s is not an " "integer") % column); const int64_t value = stmt.column_int64(id); if (value < 0) throw store::integrity_error(F("Timestamp in column %s must be " "positive") % column); return datetime::timestamp::from_microseconds(value); }