/****************************************************************************** * * Copyright 2019 NXP * * 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. * ******************************************************************************/ #include "NxpMfcReader.h" #include #include #include #include #include #include "phNxpNciHal.h" extern bool sendRspToUpperLayer; NxpMfcReader& NxpMfcReader::getInstance() { static NxpMfcReader msNxpMfcReader; return msNxpMfcReader; } /******************************************************************************* ** ** Function Write ** ** Description Wrapper API to handle Mifare Transceive to TAG_CMD interface ** RAW read write. ** ** Returns It returns number of bytes successfully written to NFCC. ** *******************************************************************************/ int NxpMfcReader::Write(uint16_t mfcDataLen, const uint8_t* pMfcData) { uint16_t mfcTagCmdBuffLen = 0; uint8_t mfcTagCmdBuff[MAX_MFC_BUFF_SIZE] = {0}; if (mfcDataLen > MAX_MFC_BUFF_SIZE) { android_errorWriteLog(0x534e4554, "169259605"); mfcDataLen = MAX_MFC_BUFF_SIZE; } memcpy(mfcTagCmdBuff, pMfcData, mfcDataLen); if (mfcDataLen >= 3) mfcTagCmdBuffLen = mfcDataLen - NCI_HEADER_SIZE; BuildMfcCmd(&mfcTagCmdBuff[3], &mfcTagCmdBuffLen); mfcTagCmdBuff[2] = mfcTagCmdBuffLen; int writtenDataLen = phNxpNciHal_write_internal( mfcTagCmdBuffLen + NCI_HEADER_SIZE, mfcTagCmdBuff); /* send TAG_CMD part 2 for Mifare increment ,decrement and restore commands */ if (mfcTagCmdBuff[4] == eMifareDec || mfcTagCmdBuff[4] == eMifareInc || mfcTagCmdBuff[4] == eMifareRestore) { SendIncDecRestoreCmdPart2(mfcDataLen, pMfcData); } return writtenDataLen; } /******************************************************************************* ** ** Function BuildMfcCmd ** ** Description builds the TAG CMD for Mifare Classic Tag. ** ** Returns None ** *******************************************************************************/ void NxpMfcReader::BuildMfcCmd(uint8_t* pData, uint16_t* pLength) { uint16_t cmdBuffLen = *pLength; memcpy(mMfcTagCmdIntfData.sendBuf, pData, cmdBuffLen); mMfcTagCmdIntfData.sendBufLen = cmdBuffLen; switch (pData[0]) { case eMifareAuthentA: case eMifareAuthentB: BuildAuthCmd(); break; case eMifareRead16: BuildReadCmd(); break; case eMifareWrite16: AuthForWrite(); BuildWrite16Cmd(); break; case eMifareInc: case eMifareDec: BuildIncDecCmd(); break; default: BuildRawCmd(); break; } memcpy(pData, mMfcTagCmdIntfData.sendBuf, (mMfcTagCmdIntfData.sendBufLen)); *pLength = (mMfcTagCmdIntfData.sendBufLen); return; } /******************************************************************************* ** ** Function BuildAuthCmd ** ** Description builds the TAG CMD for Mifare Auth. ** ** Returns None ** *******************************************************************************/ void NxpMfcReader::BuildAuthCmd() { uint8_t byKey = 0x00, noOfKeys = 0x00; bool isPreloadedKey = false; if (mMfcTagCmdIntfData.sendBuf[0] == eMifareAuthentB) { byKey |= MFC_ENABLE_KEY_B; } uint8_t aMfckeys[MFC_NUM_OF_KEYS][MFC_KEY_SIZE] = MFC_KEYS; noOfKeys = sizeof(aMfckeys) / MFC_KEY_SIZE; for (uint8_t byIndex = 0; byIndex < noOfKeys; byIndex++) { if ((memcmp(aMfckeys[byIndex], &mMfcTagCmdIntfData.sendBuf[6], MFC_AUTHKEYLEN) == 0x00)) { byKey = byKey | byIndex; isPreloadedKey = true; break; } } CalcSectorAddress(); mMfcTagCmdIntfData.sendBufLen = 0x03; if (!isPreloadedKey) { byKey |= MFC_EMBEDDED_KEY; memmove(&mMfcTagCmdIntfData.sendBuf[3], &mMfcTagCmdIntfData.sendBuf[6], MFC_AUTHKEYLEN); mMfcTagCmdIntfData.sendBufLen += MFC_AUTHKEYLEN; } mMfcTagCmdIntfData.sendBuf[0] = eMfcAuthReq; mMfcTagCmdIntfData.sendBuf[1] = mMfcTagCmdIntfData.byAddr; mMfcTagCmdIntfData.sendBuf[2] = byKey; return; } /******************************************************************************* ** ** Function CalcSectorAddress ** ** Description This function update the sector address for Mifare classic ** ** Returns None ** *******************************************************************************/ void NxpMfcReader::CalcSectorAddress() { uint8_t BlockNumber = mMfcTagCmdIntfData.sendBuf[1]; if (BlockNumber >= MFC_4K_BLK128) { mMfcTagCmdIntfData.byAddr = (uint8_t)(MFC_SECTOR_NO32 + ((BlockNumber - MFC_4K_BLK128) / MFC_BYTES_PER_BLOCK)); } else { mMfcTagCmdIntfData.byAddr = BlockNumber / MFC_BLKS_PER_SECTOR; } return; } /******************************************************************************* ** ** Function BuildReadCmd ** ** Description builds the TAG CMD for Mifare Read. ** ** Returns None ** *******************************************************************************/ void NxpMfcReader::BuildReadCmd() { BuildRawCmd(); } /******************************************************************************* ** ** Function BuildWrite16Cmd ** ** Description builds the TAG CMD for Mifare write part 2. ** ** Returns None ** *******************************************************************************/ void NxpMfcReader::BuildWrite16Cmd() { mMfcTagCmdIntfData.sendBuf[0] = eMfRawDataXchgHdr; mMfcTagCmdIntfData.sendBufLen = mMfcTagCmdIntfData.sendBufLen - 1; memmove(mMfcTagCmdIntfData.sendBuf + 1, mMfcTagCmdIntfData.sendBuf + 2, mMfcTagCmdIntfData.sendBufLen); } /******************************************************************************* ** ** Function BuildRawCmd ** ** Description builds the TAG CMD for Raw transceive. ** ** Returns None ** *******************************************************************************/ void NxpMfcReader::BuildRawCmd() { mMfcTagCmdIntfData.sendBufLen = mMfcTagCmdIntfData.sendBufLen + 1; memmove(mMfcTagCmdIntfData.sendBuf + 1, mMfcTagCmdIntfData.sendBuf, mMfcTagCmdIntfData.sendBufLen); mMfcTagCmdIntfData.sendBuf[0] = eMfRawDataXchgHdr; } /******************************************************************************* ** ** Function BuildIncDecCmd ** ** Description builds the TAG CMD for Mifare Inc/Dec. ** ** Returns None ** *******************************************************************************/ void NxpMfcReader::BuildIncDecCmd() { mMfcTagCmdIntfData.sendBufLen = 0x03; // eMfRawDataXchgHdr + cmd + // blockaddress memmove(mMfcTagCmdIntfData.sendBuf + 1, mMfcTagCmdIntfData.sendBuf, mMfcTagCmdIntfData.sendBufLen); mMfcTagCmdIntfData.sendBuf[0] = eMfRawDataXchgHdr; } /******************************************************************************* ** ** Function AuthForWrite ** ** Description send Mifare write Part 1. ** ** Returns None ** *******************************************************************************/ void NxpMfcReader::AuthForWrite() { sendRspToUpperLayer = false; NFCSTATUS status = NFCSTATUS_FAILED; uint8_t authForWriteBuff[] = {0x00, 0x00, 0x03, (uint8_t)eMfRawDataXchgHdr, (uint8_t)mMfcTagCmdIntfData.sendBuf[0], (uint8_t)mMfcTagCmdIntfData.sendBuf[1]}; status = phNxpNciHal_send_ext_cmd( sizeof(authForWriteBuff) / sizeof(authForWriteBuff[0]), authForWriteBuff); if (status != NFCSTATUS_SUCCESS) { NXPLOG_NCIHAL_E("Mifare Auth for Transceive failed"); } return; } /******************************************************************************* ** ** Function SendIncDecRestoreCmdPart2 ** ** Description send Mifare Inc/Dec/Restore Command Part 2. ** ** Returns None ** *******************************************************************************/ void NxpMfcReader::SendIncDecRestoreCmdPart2(uint16_t mfcDataLen, const uint8_t* mfcData) { NFCSTATUS status = NFCSTATUS_SUCCESS; /* Build TAG_CMD part 2 for Mifare increment ,decrement and restore commands*/ uint8_t incDecRestorePart2[] = {0x00, 0x00, 0x05, (uint8_t)eMfRawDataXchgHdr, 0x00, 0x00, 0x00, 0x00}; uint8_t incDecRestorePart2Size = (sizeof(incDecRestorePart2) / sizeof(incDecRestorePart2[0])); if (mfcData[3] == eMifareInc || mfcData[3] == eMifareDec) { if (incDecRestorePart2Size >= mfcDataLen) { incDecRestorePart2Size = mfcDataLen - 1; android_errorWriteLog(0x534e4554, "238177877"); } for (int i = 4; i < incDecRestorePart2Size; i++) { incDecRestorePart2[i] = mfcData[i + 1]; } } sendRspToUpperLayer = false; status = phNxpNciHal_send_ext_cmd(incDecRestorePart2Size, incDecRestorePart2); if (status != NFCSTATUS_SUCCESS) { NXPLOG_NCIHAL_E("Mifare Cmd for inc/dec/Restore part 2 failed"); } return; } /******************************************************************************* ** ** Function AnalyzeMfcResp ** ** Description Analyze type of MFC response and build MFC response from ** Tag cmd Intf response? ** ** Returns NFCSTATUS_SUCCESS - Data Reception is successful ** NFCSTATUS_FAILED - Data Reception failed ** *******************************************************************************/ NFCSTATUS NxpMfcReader::AnalyzeMfcResp(uint8_t* pBuff, uint16_t* pBufflen) { NFCSTATUS status = NFCSTATUS_SUCCESS; uint16_t wPldDataSize = 0; MfcRespId_t RecvdExtnRspId = eInvalidRsp; if (0 == (*pBufflen)) { status = NFCSTATUS_FAILED; } else { RecvdExtnRspId = (MfcRespId_t)pBuff[0]; NXPLOG_NCIHAL_E("%s: RecvdExtnRspId=%d", __func__, RecvdExtnRspId); switch (RecvdExtnRspId) { case eMfXchgDataRsp: { NFCSTATUS writeRespStatus = NFCSTATUS_SUCCESS; /* check the status byte */ if (*pBufflen == 3) { if ((pBuff[0] == 0x10) && (pBuff[1] != 0x0A)) { NXPLOG_NCIHAL_E("Mifare Error in payload response"); *pBufflen = 0x1; pBuff[0] = NFCSTATUS_FAILED; return NFCSTATUS_FAILED; } else { pBuff[0] = NFCSTATUS_SUCCESS; return NFCSTATUS_SUCCESS; } } writeRespStatus = pBuff[*pBufflen - 1]; if (NFCSTATUS_SUCCESS == writeRespStatus) { status = NFCSTATUS_SUCCESS; uint16_t wRecvDataSz = 0; wPldDataSize = ((*pBufflen) - (MFC_EXTN_ID_SIZE + MFC_EXTN_STATUS_SIZE)); wRecvDataSz = MAX_MFC_BUFF_SIZE; if ((wPldDataSize) <= wRecvDataSz) { /* Extract the data part from pBuff[2] & fill it to be sent to * upper layer */ memmove(&(pBuff[0]), &(pBuff[1]), wPldDataSize); /* update the number of bytes received from lower layer,excluding * the status byte */ *pBufflen = wPldDataSize; } else { status = NFCSTATUS_FAILED; } } else { status = NFCSTATUS_FAILED; } } break; case eMfcAuthRsp: { if (*pBufflen < 2) { status = NFCSTATUS_FAILED; break; } /* check the status byte */ if (NFCSTATUS_SUCCESS == pBuff[1]) { status = NFCSTATUS_SUCCESS; /* DataLen = TotalRecvdLen - (sizeof(RspId) + sizeof(Status)) */ wPldDataSize = ((*pBufflen) - (MFC_EXTN_ID_SIZE + MFC_EXTN_STATUS_SIZE)); /* Extract the data part from pBuff[2] & fill it to be sent to upper * layer */ pBuff[0] = pBuff[1]; /* update the number of bytes received from lower layer,excluding * the status byte */ *pBufflen = wPldDataSize + 1; } else { pBuff[0] = pBuff[1]; *pBufflen = 1; status = NFCSTATUS_FAILED; } } break; default: { status = NFCSTATUS_FAILED; } break; } } return status; } /******************************************************************************* ** ** Function CheckMfcResponse ** ** Description This function is called to check if it's a valid Mfc ** response data ** ** Returns NFCSTATUS_SUCCESS ** NFCSTATUS_FAILED ** *******************************************************************************/ NFCSTATUS NxpMfcReader::CheckMfcResponse(uint8_t* pTransceiveData, uint16_t transceiveDataLen) { NFCSTATUS status = NFCSTATUS_SUCCESS; if (transceiveDataLen == 3) { if ((pTransceiveData)[0] == 0x10 && (pTransceiveData)[1] != 0x0A) { NXPLOG_NCIHAL_E("Mifare Error in payload response"); transceiveDataLen = 0x1; pTransceiveData += 1; return NFCSTATUS_FAILED; } } if ((pTransceiveData)[0] == 0x40) { pTransceiveData += 1; transceiveDataLen = 0x01; if ((pTransceiveData)[0] == 0x03) { transceiveDataLen = 0x00; status = NFCSTATUS_FAILED; } } else if ((pTransceiveData)[0] == 0x10) { pTransceiveData += 1; transceiveDataLen = 0x10; } return status; }