/****************************************************************************** * * Copyright 2018 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. * ******************************************************************************/ /* * DAL spi port implementation for linux * * Project: Trusted ESE Linux * */ #define LOG_TAG "NxpEseHal" #include #include #include #include #include #include #include #include #include #include #include #include #include "NfcAdaptation.h" #include "hal_nxpese.h" #include "phNxpEse_Api.h" #define MAX_RETRY_CNT 10 #define HAL_NFC_SPI_DWP_SYNC 21 #define RF_ON 1 extern int omapi_status; extern bool ese_debug_enabled; static int rf_status; unsigned long int configNum1, configNum2; // Default max retry count for SPI CLT write blocked in secs static const uint8_t DEFAULT_MAX_SPI_WRITE_RETRY_COUNT_RF_ON = 10; static const uint8_t MAX_SPI_WRITE_RETRY_COUNT_HW_ERR = 3; /******************************************************************************* ** ** Function phPalEse_spi_close ** ** Description Closes PN547 device ** ** Parameters pDevHandle - device handle ** ** Returns None ** *******************************************************************************/ void phPalEse_spi_close(void* pDevHandle) { ese_nxp_IoctlInOutData_t inpOutData; static uint8_t cmd_omapi_concurrent[] = {0x2F, 0x01, 0x01, 0x00}; int retval; ALOGD_IF(ese_debug_enabled, "halimpl close enter."); NfcAdaptation& pNfcAdapt = NfcAdaptation::GetInstance(); pNfcAdapt.Initialize(); // nxpesehal_ctrl.p_ese_stack_cback = p_cback; // nxpesehal_ctrl.p_ese_stack_data_cback = p_data_cback; memset(&inpOutData, 0x00, sizeof(ese_nxp_IoctlInOutData_t)); inpOutData.inp.data.nxpCmd.cmd_len = sizeof(cmd_omapi_concurrent); inpOutData.inp.data_source = 1; memcpy(inpOutData.inp.data.nxpCmd.p_cmd, cmd_omapi_concurrent, sizeof(cmd_omapi_concurrent)); retval = pNfcAdapt.HalIoctl(HAL_NFC_SPI_DWP_SYNC, &inpOutData); ALOGD_IF(ese_debug_enabled, "_spi_close() status %x", retval); if (NULL != pDevHandle) { close((intptr_t)pDevHandle); } ALOGD_IF(ese_debug_enabled, "halimpl close exit."); return; } ESESTATUS phNxpEse_spiIoctl(uint64_t ioctlType, void* p_data) { ese_nxp_IoctlInOutData_t* inpOutData = (ese_nxp_IoctlInOutData_t*)p_data; rf_status = inpOutData->inp.data.nxpCmd.p_cmd[0]; if (rf_status == 1) { ALOGD_IF(ese_debug_enabled, "******************RF IS ON*************************************"); } else { ALOGD_IF( ese_debug_enabled, "******************RF IS OFF*************************************"); } if (p_data != NULL) { ALOGD_IF(ese_debug_enabled, "halimpl phNxpEse_spiIoctl p_data is not null ioctltyp: %ld", (long)ioctlType); } return ESESTATUS_SUCCESS; } /******************************************************************************* ** ** Function phPalEse_spi_open_and_configure ** ** Description Open and configure pn547 device ** ** Parameters pConfig - hardware information ** pLinkHandle - device handle ** ** Returns ESE status: ** ESESTATUS_SUCCESS - open_and_configure operation *success ** ESESTATUS_INVALID_DEVICE - device open operation failure ** *******************************************************************************/ ESESTATUS phPalEse_spi_open_and_configure(pphPalEse_Config_t pConfig) { int nHandle; int retryCnt = 0, nfc_access_retryCnt = 0; int retval; ese_nxp_IoctlInOutData_t inpOutData; NfcAdaptation& pNfcAdapt = NfcAdaptation::GetInstance(); pNfcAdapt.Initialize(); static uint8_t cmd_omapi_concurrent[] = {0x2F, 0x01, 0x01, 0x01}; if (EseConfig::hasKey(NAME_NXP_SOF_WRITE)) { configNum1 = EseConfig::getUnsigned(NAME_NXP_SOF_WRITE); ALOGD_IF(ese_debug_enabled, "NXP_SOF_WRITE value from config file = %ld", configNum1); } if (EseConfig::hasKey(NAME_NXP_SPI_WRITE_TIMEOUT)) { configNum2 = EseConfig::getUnsigned(NAME_NXP_SPI_WRITE_TIMEOUT); ALOGD_IF(ese_debug_enabled, "NXP_SPI_WRITE_TIMEOUT value from config file = %ld", configNum2); } ALOGD_IF(ese_debug_enabled, "halimpl open enter."); memset(&inpOutData, 0x00, sizeof(ese_nxp_IoctlInOutData_t)); inpOutData.inp.data.nxpCmd.cmd_len = sizeof(cmd_omapi_concurrent); inpOutData.inp.data_source = 1; memcpy(inpOutData.inp.data.nxpCmd.p_cmd, cmd_omapi_concurrent, sizeof(cmd_omapi_concurrent)); retry_nfc_access: omapi_status = ESESTATUS_FAILED; retval = pNfcAdapt.HalIoctl(HAL_NFC_SPI_DWP_SYNC, &inpOutData); if (omapi_status != 0) { ALOGD_IF(ese_debug_enabled, "omapi_status return failed."); nfc_access_retryCnt++; phPalEse_sleep(2000000); if (nfc_access_retryCnt < 5) goto retry_nfc_access; return ESESTATUS_FAILED; } ALOGD_IF(ese_debug_enabled, "Opening port=%s\n", pConfig->pDevName); /* open port */ retry: nHandle = open((char const*)pConfig->pDevName, O_RDWR); if (nHandle < 0) { ALOGE("%s : failed errno = 0x%x", __FUNCTION__, errno); if (errno == -EBUSY || errno == EBUSY) { retryCnt++; ALOGE("Retry open eSE driver, retry cnt : %d", retryCnt); if (retryCnt < MAX_RETRY_CNT) { phPalEse_sleep(1000000); goto retry; } } ALOGE("_spi_open() Failed: retval %x", nHandle); pConfig->pDevHandle = NULL; return ESESTATUS_INVALID_DEVICE; } ALOGD_IF(ese_debug_enabled, "eSE driver opened :: fd = [%d]", nHandle); pConfig->pDevHandle = (void*)((intptr_t)nHandle); return ESESTATUS_SUCCESS; } /******************************************************************************* ** ** Function phPalEse_spi_read ** ** Description Reads requested number of bytes from pn547 device into given *buffer ** ** Parameters pDevHandle - valid device handle ** pBuffer - buffer for read data ** nNbBytesToRead - number of bytes requested to be read ** ** Returns numRead - number of successfully read bytes ** -1 - read operation failure ** *******************************************************************************/ int phPalEse_spi_read(void* pDevHandle, uint8_t* pBuffer, int nNbBytesToRead) { int ret = -1; ALOGD_IF(ese_debug_enabled, "%s Read Requested %d bytes", __FUNCTION__, nNbBytesToRead); ret = read((intptr_t)pDevHandle, (void*)pBuffer, (nNbBytesToRead)); ALOGD_IF(ese_debug_enabled, "Read Returned = %d", ret); return ret; } /******************************************************************************* ** ** Function phPalEse_spi_write ** ** Description Writes requested number of bytes from given buffer into *pn547 device ** ** Parameters pDevHandle - valid device handle ** pBuffer - buffer for read data ** nNbBytesToWrite - number of bytes requested to be written ** ** Returns numWrote - number of successfully written bytes ** -1 - write operation failure ** *******************************************************************************/ int phPalEse_spi_write(void* pDevHandle, uint8_t* pBuffer, int nNbBytesToWrite) { int ret = -1; int numWrote = 0; unsigned long int retryCount = 0; if (NULL == pDevHandle) { return -1; } if (configNum1 == 1) { /* Appending SOF for SPI write */ pBuffer[0] = SEND_PACKET_SOF; } else { /* Do Nothing */ } unsigned int maxRetryCount = 0, retryDelay = 0; while (numWrote < nNbBytesToWrite) { // usleep(5000); if (rf_status != RF_ON) { ret = write((intptr_t)pDevHandle, pBuffer + numWrote, nNbBytesToWrite - numWrote); } else { ret = -1; } if (ret > 0) { numWrote += ret; } else if (ret == 0) { ALOGE("_spi_write() EOF"); return -1; } else { ALOGE("_spi_write() errno : %x", errno); if (rf_status == RF_ON) { maxRetryCount = (configNum2 > 0) ? configNum2 : DEFAULT_MAX_SPI_WRITE_RETRY_COUNT_RF_ON; retryDelay = 1000 * WRITE_WAKE_UP_DELAY; ALOGD_IF(ese_debug_enabled, "spi_Write failed as RF is ON."); } else { maxRetryCount = MAX_SPI_WRITE_RETRY_COUNT_HW_ERR; retryDelay = WRITE_WAKE_UP_DELAY; ALOGD_IF(ese_debug_enabled, "spi_write failed"); } if (retryCount < maxRetryCount) { retryCount++; /*wait for eSE wake up*/ phPalEse_sleep(retryDelay); ALOGE("_spi_write() failed. Going to retry, counter:%ld !", retryCount); continue; } return -1; } } return numWrote; } /******************************************************************************* ** ** Function phPalEse_spi_ioctl ** ** Description Exposed ioctl by p61 spi driver ** ** Parameters pDevHandle - valid device handle ** level - reset level ** ** Returns 0 - ioctl operation success ** -1 - ioctl operation failure ** *******************************************************************************/ ESESTATUS phPalEse_spi_ioctl(phPalEse_ControlCode_t eControlCode, void* pDevHandle, long level) { ESESTATUS ret = ESESTATUS_IOCTL_FAILED; ALOGD_IF(ese_debug_enabled, "phPalEse_spi_ioctl(), ioctl %x , level %lx", eControlCode, level); ese_nxp_IoctlInOutData_t inpOutData; inpOutData.inp.level = level; NfcAdaptation& pNfcAdapt = NfcAdaptation::GetInstance(); if (NULL == pDevHandle) { return ESESTATUS_IOCTL_FAILED; } switch (eControlCode) { // Nfc Driver communication part case phPalEse_e_ChipRst: ret = pNfcAdapt.HalIoctl(HAL_NFC_SET_SPM_PWR, &inpOutData); break; case phPalEse_e_SetPowerScheme: // ret = sendIoctlData(p, HAL_NFC_SET_POWER_SCHEME, &inpOutData); ret = ESESTATUS_SUCCESS; break; case phPalEse_e_GetSPMStatus: // ret = sendIoctlData(p, HAL_NFC_GET_SPM_STATUS, &inpOutData); ret = ESESTATUS_SUCCESS; break; case phPalEse_e_GetEseAccess: // ret = sendIoctlData(p, HAL_NFC_GET_ESE_ACCESS, &inpOutData); ret = ESESTATUS_SUCCESS; break; #ifdef NXP_ESE_JCOP_DWNLD_PROTECTION case phPalEse_e_SetJcopDwnldState: // ret = sendIoctlData(p, HAL_NFC_SET_DWNLD_STATUS, &inpOutData); ret = ESESTATUS_SUCCESS; break; #endif case phPalEse_e_DisablePwrCntrl: ret = pNfcAdapt.HalIoctl(HAL_NFC_INHIBIT_PWR_CNTRL, &inpOutData); break; default: ret = ESESTATUS_IOCTL_FAILED; break; } return ret; }