/* * Copyright (C) 2017 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef ESED_PN81A_UTILS_H_ #define ESED_PN81A_UTILS_H_ #include #include #include #include #include "pn81a.h" namespace android { namespace esed { namespace pn81a { // HIDL using ::android::hardware::Status; // libapdu using ::android::CommandApdu; using ResponseApdu = ::android::ResponseApdu>; /** * Reads a 32-bit integer from an iterator. * @param first The first position to read from. * @return A tuple of the value read and an iterator to one after the last position read from. */ template std::tuple readBigEndianInt32(InputIt first) { uint32_t ret; auto it = first; ret = *it++ << 24; ret |= *it++ << 16; ret |= *it++ << 8; ret |= *it++; return {ret, it}; } /** * Writes a 32-bit integer to the iterator in big-endian format. * @param value The value to write. * @param first The first position in the iterator. * @return An iterator to one after the last position written to. */ template OutputIt writeBigEndian(const uint32_t value, OutputIt first) { auto it = first; *it++ = 0xff & (value >> 24); *it++ = 0xff & (value >> 16); *it++ = 0xff & (value >> 8); *it++ = 0xff & value; return it; } /** * Transceive a command with the eSE and perform common error checking. When the * handler is called, it has been checked that the transmission to and reception * from the eSE was successful and that the response is in a valid format. */ template T transceive(::android::esed::EseInterface& ese, const CommandApdu& command, std::function handler = {}) { // +1 for max size of extended response, +2 for status bytes constexpr size_t MAX_RESPONSE_SIZE = std::numeric_limits::max() + 1 + 2; std::vector responseBuffer(MAX_RESPONSE_SIZE); const int ret = ese.transceive(command.vector(), responseBuffer); // Check eSE communication was successful if (ret < 0) { std::string errMsg = "Failed to transceive data between AP and eSE"; if (ese.error()) { errMsg += " (" + std::to_string(ese.error_code()) + "): " + ese.error_message(); } else { errMsg += ": reason unknown"; } LOG(ERROR) << errMsg; return FAILED; } const size_t recvd = static_cast(ret); // Need to recalculate the maximum response size if this fails if (recvd > MAX_RESPONSE_SIZE) { LOG(ERROR) << "eSE response was longer than the buffer, check the buffer size."; return FAILED; } responseBuffer.resize(recvd); // Check for ISO 7816-4 APDU response format errors ResponseApdu apdu{responseBuffer}; if (!apdu.ok()) { LOG(ERROR) << "eSE response was invalid."; return FAILED; } // Call handler if one was provided if (handler) { return handler(apdu); } return OK; } /** * Checks that the amount of data in the response APDU matches the expected * value. */ template T checkLength(const ResponseApdu& apdu, const size_t size) { if (apdu.dataSize() != size) { LOG(ERROR) << "eSE response was the wrong length."; return FAILED; } return OK; } /** * Checks that the response APDU does no encode an error and that the amount of * data matches the expected value. */ template T checkNoErrorAndLength(const ResponseApdu& apdu, const size_t size) { if (apdu.isError()) { LOG(ERROR) << "eSE operation failed"; return FAILED; } return checkLength(apdu, size); } } // namespace android } // namespace esed } // namespace pn81a #endif // ESED_PN81A_UTILS_H_