/* * Copyright (c) 2022, The OpenThread 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: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. 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. * 3. Neither the name of the copyright holder 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 HOLDER 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 #include "test_platform.h" #include "test_util.h" #if OPENTHREAD_CONFIG_POWER_CALIBRATION_ENABLE && OPENTHREAD_CONFIG_PLATFORM_POWER_CALIBRATION_ENABLE namespace ot { void TestPowerCalibration(void) { otInstance *instance; uint8_t rawPowerSetting[2]; uint16_t rawPowerSettingLength; struct CalibratedPowerEntry { uint8_t mChannel; int16_t mActualPower; uint8_t mRawPowerSetting[1]; uint16_t mRawPowerSettingLength; }; constexpr CalibratedPowerEntry kCalibratedPowerTable[] = { {11, 15000, {0x02}, 1}, {11, 5000, {0x00}, 1}, {11, 10000, {0x01}, 1}, }; instance = static_cast(testInitInstance()); VerifyOrQuit(instance != nullptr, "Null OpenThread instance"); for (const CalibratedPowerEntry &calibratedPower : kCalibratedPowerTable) { SuccessOrQuit(otPlatRadioAddCalibratedPower(instance, calibratedPower.mChannel, calibratedPower.mActualPower, calibratedPower.mRawPowerSetting, calibratedPower.mRawPowerSettingLength)); } SuccessOrQuit(otPlatRadioSetChannelTargetPower(instance, 11, 4999)); rawPowerSettingLength = sizeof(rawPowerSetting); SuccessOrQuit(otPlatRadioGetRawPowerSetting(instance, 11, rawPowerSetting, &rawPowerSettingLength)); VerifyOrQuit(rawPowerSettingLength == 1); VerifyOrQuit(rawPowerSetting[0] == 0x00); SuccessOrQuit(otPlatRadioSetChannelTargetPower(instance, 11, 5000)); rawPowerSettingLength = sizeof(rawPowerSetting); SuccessOrQuit(otPlatRadioGetRawPowerSetting(instance, 11, rawPowerSetting, &rawPowerSettingLength)); VerifyOrQuit(rawPowerSettingLength == 1); VerifyOrQuit(rawPowerSetting[0] == 0x00); SuccessOrQuit(otPlatRadioSetChannelTargetPower(instance, 11, 9999)); rawPowerSettingLength = sizeof(rawPowerSetting); SuccessOrQuit(otPlatRadioGetRawPowerSetting(instance, 11, rawPowerSetting, &rawPowerSettingLength)); VerifyOrQuit(rawPowerSettingLength == 1); VerifyOrQuit(rawPowerSetting[0] == 0x00); SuccessOrQuit(otPlatRadioSetChannelTargetPower(instance, 11, 10000)); rawPowerSettingLength = sizeof(rawPowerSetting); SuccessOrQuit(otPlatRadioGetRawPowerSetting(instance, 11, rawPowerSetting, &rawPowerSettingLength)); VerifyOrQuit(rawPowerSettingLength == 1); VerifyOrQuit(rawPowerSetting[0] == 0x01); SuccessOrQuit(otPlatRadioSetChannelTargetPower(instance, 11, 14999)); rawPowerSettingLength = sizeof(rawPowerSetting); SuccessOrQuit(otPlatRadioGetRawPowerSetting(instance, 11, rawPowerSetting, &rawPowerSettingLength)); VerifyOrQuit(rawPowerSettingLength == 1); VerifyOrQuit(rawPowerSetting[0] == 0x01); SuccessOrQuit(otPlatRadioSetChannelTargetPower(instance, 11, 15000)); rawPowerSettingLength = sizeof(rawPowerSetting); SuccessOrQuit(otPlatRadioGetRawPowerSetting(instance, 11, rawPowerSetting, &rawPowerSettingLength)); VerifyOrQuit(rawPowerSettingLength == 1); VerifyOrQuit(rawPowerSetting[0] == 0x02); SuccessOrQuit(otPlatRadioSetChannelTargetPower(instance, 11, 15001)); rawPowerSettingLength = sizeof(rawPowerSetting); SuccessOrQuit(otPlatRadioGetRawPowerSetting(instance, 11, rawPowerSetting, &rawPowerSettingLength)); VerifyOrQuit(rawPowerSettingLength == 1); VerifyOrQuit(rawPowerSetting[0] == 0x02); rawPowerSettingLength = sizeof(rawPowerSetting); VerifyOrQuit(otPlatRadioGetRawPowerSetting(instance, 12, rawPowerSetting, &rawPowerSettingLength) == OT_ERROR_NOT_FOUND); SuccessOrQuit(otPlatRadioClearCalibratedPowers(instance)); rawPowerSettingLength = sizeof(rawPowerSetting); VerifyOrQuit(otPlatRadioGetRawPowerSetting(instance, 11, rawPowerSetting, &rawPowerSettingLength) == OT_ERROR_NOT_FOUND); for (const CalibratedPowerEntry &calibratedPower : kCalibratedPowerTable) { SuccessOrQuit(otPlatRadioAddCalibratedPower(instance, calibratedPower.mChannel, calibratedPower.mActualPower, calibratedPower.mRawPowerSetting, calibratedPower.mRawPowerSettingLength)); } SuccessOrQuit(otPlatRadioSetChannelTargetPower(instance, 11, 15000)); rawPowerSettingLength = sizeof(rawPowerSetting); SuccessOrQuit(otPlatRadioGetRawPowerSetting(instance, 11, rawPowerSetting, &rawPowerSettingLength)); VerifyOrQuit(rawPowerSettingLength == 1); VerifyOrQuit(rawPowerSetting[0] == 0x02); VerifyOrQuit( otPlatRadioAddCalibratedPower(instance, kCalibratedPowerTable[0].mChannel, kCalibratedPowerTable[0].mActualPower, kCalibratedPowerTable[0].mRawPowerSetting, kCalibratedPowerTable[0].mRawPowerSettingLength) == OT_ERROR_INVALID_ARGS); testFreeInstance(instance); } } // namespace ot #endif // OPENTHREAD_CONFIG_POWER_CALIBRATION_ENABLE && OPENTHREAD_CONFIG_PLATFORM_POWER_CALIBRATION_ENABLE int main(void) { #if OPENTHREAD_CONFIG_POWER_CALIBRATION_ENABLE && OPENTHREAD_CONFIG_PLATFORM_POWER_CALIBRATION_ENABLE ot::TestPowerCalibration(); printf("All tests passed\n"); #else printf("Power calibration is not enabled\n"); #endif return 0; }