/****************************************************************************** * * Copyright (C) 2010-2014 Broadcom Corporation * * 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. * ******************************************************************************/ /****************************************************************************** * * NFA interface for tag Reader/Writer * ******************************************************************************/ #include #include #include #include #include "nfa_api.h" #include "nfa_rw_int.h" using android::base::StringPrintf; extern bool nfc_debug_enabled; /***************************************************************************** ** Constants *****************************************************************************/ /***************************************************************************** ** APIs *****************************************************************************/ /******************************************************************************* ** ** Function NFA_RwDetectNDef ** ** Description Perform the NDEF detection procedure using the appropriate ** method for the currently activated tag. ** ** Upon successful completion of NDEF detection, a ** NFA_NDEF_DETECT_EVT will be sent, to notify the application ** of the NDEF attributes (NDEF total memory size, current ** size, etc.). ** ** It is not mandatory to call this function - NFA_RwReadNDef ** and NFA_RwWriteNDef will perform NDEF detection internally ** if not performed already. This API may be called to get a ** tag's NDEF size before issuing a write-request. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFC_STATUS_REFUSED if tag does not support NDEF ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwDetectNDef(void) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << __func__; p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_DETECT_NDEF; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwReadNDef ** ** Description Read NDEF message from tag. This function will internally ** perform the NDEF detection procedure (if not performed ** previously), and read the NDEF tag data using the ** appropriate method for the currently activated tag. ** ** Upon successful completion of NDEF detection (if performed), ** a NFA_NDEF_DETECT_EVT will be sent, to notify the ** application of the NDEF attributes (NDEF total memory size, ** current size, etc.). ** ** Upon receiving the NDEF message, the message will be sent to ** the handler registered with NFA_RegisterNDefTypeHandler or ** NFA_RequestExclusiveRfControl (if exclusive RF mode is ** active) ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFC_STATUS_REFUSED if tag does not support NDEF ** NFC_STATUS_NOT_INITIALIZED if NULL NDEF was detected on the ** tag ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwReadNDef(void) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << __func__; p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_READ_NDEF; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwWriteNDef ** ** Description Write NDEF data to the activated tag. This function will ** internally perform NDEF detection if necessary, and write ** the NDEF tag data using the appropriate method for the ** currently activated tag. ** ** When the entire message has been written, or if an error ** occurs, the app will be notified with NFA_WRITE_CPLT_EVT. ** ** p_data needs to be persistent until NFA_WRITE_CPLT_EVT ** ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFC_STATUS_REFUSED if tag does not support NDEF/locked ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwWriteNDef(uint8_t* p_data, uint32_t len) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("ndef len: %i", len); /* Validate parameters */ if (p_data == nullptr) return (NFA_STATUS_INVALID_PARAM); p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_WRITE_NDEF; p_msg->params.write_ndef.len = len; p_msg->params.write_ndef.p_data = p_data; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /***************************************************************************** ** ** Function NFA_RwPresenceCheck ** ** Description Check if the tag is still in the field. ** ** The NFA_RW_PRESENCE_CHECK_EVT w/ status is used to ** indicate presence or non-presence. ** ** option is used only with ISO-DEP protocol ** ** Returns ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *****************************************************************************/ tNFA_STATUS NFA_RwPresenceCheck(tNFA_RW_PRES_CHK_OPTION option) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << __func__; p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_PRESENCE_CHECK; p_msg->params.option = option; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /***************************************************************************** ** ** Function NFA_RwFormatTag ** ** Description Check if the tag is NDEF Formatable. If yes Format the tag ** ** The NFA_RW_FORMAT_CPLT_EVT w/ status is used to ** indicate if tag is successfully formated or not ** ** Returns ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *****************************************************************************/ tNFA_STATUS NFA_RwFormatTag(void) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << __func__; p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_FORMAT_TAG; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwSetTagReadOnly ** ** Description: ** Sets tag as read only. ** ** When tag is set as read only, or if an error occurs, the app will be ** notified with NFA_SET_TAG_RO_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_REJECTED if protocol is not T1/T2/T5T ** (or) if hard lock is not requested for protocol T5T ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwSetTagReadOnly(bool b_hard_lock) { tNFA_RW_OPERATION* p_msg; tNFC_PROTOCOL protocol = nfa_rw_cb.protocol; if ((protocol != NFC_PROTOCOL_T1T) && (protocol != NFC_PROTOCOL_T2T) && (protocol != NFC_PROTOCOL_T5T) && (protocol != NFC_PROTOCOL_ISO_DEP) && (protocol != NFC_PROTOCOL_T3T)) { DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf( "Cannot Configure as read only for Protocol: " "%d", protocol); return (NFA_STATUS_REJECTED); } if ((!b_hard_lock && (protocol == NFC_PROTOCOL_T5T)) || (b_hard_lock && (protocol == NFC_PROTOCOL_ISO_DEP))) { DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("Cannot %s for Protocol: %d", b_hard_lock ? "Hard lock" : "Soft lock", protocol); return (NFA_STATUS_REJECTED); } DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("%s", b_hard_lock ? "Hard lock" : "Soft lock"); p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_SET_TAG_RO; p_msg->params.set_readonly.b_hard_lock = b_hard_lock; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** Tag specific APIs ** (note: for Type-4 tags, use NFA_SendRawFrame to exchange APDUs) *******************************************************************************/ /******************************************************************************* ** ** Function NFA_RwLocateTlv ** ** Description: ** Search for the Lock/Memory contril TLV on the activated Type1/Type2 tag ** ** Data is returned to the application using the NFA_TLV_DETECT_EVT. When ** search operation has completed, or if an error occurs, the app will be ** notified with NFA_TLV_DETECT_EVT. ** ** Description Perform the TLV detection procedure using the appropriate ** method for the currently activated tag. ** ** Upon successful completion of TLV detection in T1/T2 tag, a ** NFA_TLV_DETECT_EVT will be sent, to notify the application ** of the TLV attributes (total lock/reserved bytes etc.). ** However if the TLV type specified is NDEF then it is same as ** calling NFA_RwDetectNDef and should expect to receive ** NFA_NDEF_DETECT_EVT instead of NFA_TLV_DETECT_EVT ** ** It is not mandatory to call this function - ** NFA_RwDetectNDef, NFA_RwReadNDef and NFA_RwWriteNDef will ** perform TLV detection internally if not performed already. ** An application may call this API to check the a ** tag/card-emulator's total Reserved/ ** Lock bytes before issuing a write-request. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFC_STATUS_REFUSED if tlv_type is NDEF & tag won't support ** NDEF ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwLocateTlv(uint8_t tlv_type) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << __func__; p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; if (tlv_type == TAG_LOCK_CTRL_TLV) { p_msg->op = NFA_RW_OP_DETECT_LOCK_TLV; } else if (tlv_type == TAG_MEM_CTRL_TLV) { p_msg->op = NFA_RW_OP_DETECT_MEM_TLV; } else if (tlv_type == TAG_NDEF_TLV) { p_msg->op = NFA_RW_OP_DETECT_NDEF; } else return (NFA_STATUS_FAILED); nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwT1tRid ** ** Description: ** Send a RID command to the activated Type 1 tag. ** ** Data is returned to the application using the NFA_DATA_EVT. When the ** read operation has completed, or if an error occurs, the app will be ** notified with NFA_READ_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwT1tRid(void) { tNFA_RW_OPERATION* p_msg; p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_T1T_RID; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwT1tReadAll ** ** Description: ** Send a RALL command to the activated Type 1 tag. ** ** Data is returned to the application using the NFA_DATA_EVT. When the ** read operation has completed, or if an error occurs, the app will be ** notified with NFA_READ_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwT1tReadAll(void) { tNFA_RW_OPERATION* p_msg; p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_T1T_RALL; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwT1tRead ** ** Description: ** Send a READ command to the activated Type 1 tag. ** ** Data is returned to the application using the NFA_DATA_EVT. When the ** read operation has completed, or if an error occurs, the app will be ** notified with NFA_READ_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwT1tRead(uint8_t block_number, uint8_t index) { tNFA_RW_OPERATION* p_msg; p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_T1T_READ; p_msg->params.t1t_read.block_number = block_number; p_msg->params.t1t_read.index = index; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwT1tWrite ** ** Description: ** Send a WRITE command to the activated Type 1 tag. ** ** Data is returned to the application using the NFA_DATA_EVT. When the ** write operation has completed, or if an error occurs, the app will be ** notified with NFA_WRITE_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwT1tWrite(uint8_t block_number, uint8_t index, uint8_t data, bool b_erase) { tNFA_RW_OPERATION* p_msg; p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->params.t1t_write.b_erase = b_erase; p_msg->op = NFA_RW_OP_T1T_WRITE; p_msg->params.t1t_write.block_number = block_number; p_msg->params.t1t_write.index = index; p_msg->params.t1t_write.p_block_data[0] = data; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwT1tReadSeg ** ** Description: ** Send a RSEG command to the activated Type 1 tag. ** ** Data is returned to the application using the NFA_DATA_EVT. When the ** read operation has completed, or if an error occurs, the app will be ** notified with NFA_READ_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwT1tReadSeg(uint8_t segment_number) { tNFA_RW_OPERATION* p_msg; p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_T1T_RSEG; p_msg->params.t1t_read.segment_number = segment_number; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwT1tRead8 ** ** Description: ** Send a READ8 command to the activated Type 1 tag. ** ** Data is returned to the application using the NFA_DATA_EVT. When the ** read operation has completed, or if an error occurs, the app will be ** notified with NFA_READ_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwT1tRead8(uint8_t block_number) { tNFA_RW_OPERATION* p_msg; p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_T1T_READ8; p_msg->params.t1t_write.block_number = block_number; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwT1tWrite8 ** ** Description: ** Send a WRITE8_E / WRITE8_NE command to the activated Type 1 tag. ** ** Data is returned to the application using the NFA_DATA_EVT. When the ** read operation has completed, or if an error occurs, the app will be ** notified with NFA_READ_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwT1tWrite8(uint8_t block_number, uint8_t* p_data, bool b_erase) { tNFA_RW_OPERATION* p_msg; p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->params.t1t_write.b_erase = b_erase; p_msg->op = NFA_RW_OP_T1T_WRITE8; p_msg->params.t1t_write.block_number = block_number; memcpy(p_msg->params.t1t_write.p_block_data, p_data, 8); nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwT2tRead ** ** Description: ** Send a READ command to the activated Type 2 tag. ** ** Data is returned to the application using the NFA_DATA_EVT. When the ** read operation has completed, or if an error occurs, the app will be ** notified with NFA_READ_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwT2tRead(uint8_t block_number) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("Block to read: %d", block_number); p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_T2T_READ; p_msg->params.t2t_read.block_number = block_number; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwT2tWrite ** ** Description: ** Send an WRITE command to the activated Type 2 tag. ** ** When the write operation has completed (or if an error occurs), the ** app will be notified with NFA_WRITE_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwT2tWrite(uint8_t block_number, uint8_t* p_data) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("Block to write: %d", block_number); p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_T2T_WRITE; p_msg->params.t2t_write.block_number = block_number; memcpy(p_msg->params.t2t_write.p_block_data, p_data, 4); nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwT2tSectorSelect ** ** Description: ** Send SECTOR SELECT command to the activated Type 2 tag. ** ** When the sector select operation has completed (or if an error occurs), ** the app will be notified with NFA_SECTOR_SELECT_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwT2tSectorSelect(uint8_t sector_number) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("sector to select: %d", sector_number); p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_T2T_SECTOR_SELECT; p_msg->params.t2t_sector_select.sector_number = sector_number; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwT2tReadDynLockBytes ** ** Description: ** Configure NFA skip_dyn_locks flag. ** ** This API must be called after activation but before NFA_RwDetectNDef() ** or NFA_RwReadNDef() and NFA_RwWriteNDef() in case NDEF Detection is ** triggered internally. It overwrites skip_dyn_locks default setting ** set to false at activation. If not called, at the end of the NDEF ** Detection, the DynLock_Area will be read and its content used to define ** max_ndef_msg_len. ** ** When the operation has completed (or if an error occurs), the app will ** be notified with NFA_T2T_CMD_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwT2tReadDynLockBytes(bool read_dyn_locks) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf( "%s - read DynLock_Area bytes: %d", __func__, read_dyn_locks); p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_T2T_READ_DYN_LOCKS; p_msg->params.t2t_read_dyn_locks.read_dyn_locks = read_dyn_locks; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwT3tRead ** ** Description: ** Send a CHECK (read) command to the activated Type 3 tag. ** ** Data is returned to the application using the NFA_DATA_EVT. When the ** read operation has completed, or if an error occurs, the app will be ** notified with NFA_READ_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwT3tRead(uint8_t num_blocks, tNFA_T3T_BLOCK_DESC* t3t_blocks) { tNFA_RW_OPERATION* p_msg; uint8_t* p_block_desc; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("num_blocks to read: %i", num_blocks); /* Validate parameters */ if ((num_blocks == 0) || (t3t_blocks == nullptr)) return (NFA_STATUS_INVALID_PARAM); p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)( sizeof(tNFA_RW_OPERATION) + (num_blocks * sizeof(tNFA_T3T_BLOCK_DESC)))); if (p_msg != nullptr) { /* point to area after tNFA_RW_OPERATION */ p_block_desc = (uint8_t*)(p_msg + 1); /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_T3T_READ; p_msg->params.t3t_read.num_blocks = num_blocks; p_msg->params.t3t_read.p_block_desc = (tNFA_T3T_BLOCK_DESC*)p_block_desc; /* Copy block descriptor list */ memcpy(p_block_desc, t3t_blocks, (num_blocks * sizeof(tNFA_T3T_BLOCK_DESC))); nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwT3tWrite ** ** Description: ** Send an UPDATE (write) command to the activated Type 3 tag. ** ** When the write operation has completed (or if an error occurs), the ** app will be notified with NFA_WRITE_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwT3tWrite(uint8_t num_blocks, tNFA_T3T_BLOCK_DESC* t3t_blocks, uint8_t* p_data) { tNFA_RW_OPERATION* p_msg; uint8_t *p_block_desc, *p_data_area; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("num_blocks to write: %i", num_blocks); /* Validate parameters */ if ((num_blocks == 0) || (t3t_blocks == nullptr) | (p_data == nullptr)) return (NFA_STATUS_INVALID_PARAM); p_msg = (tNFA_RW_OPERATION*)GKI_getbuf( (uint16_t)(sizeof(tNFA_RW_OPERATION) + (num_blocks * (sizeof(tNFA_T3T_BLOCK_DESC) + 16)))); if (p_msg != nullptr) { /* point to block descriptor and data areas after tNFA_RW_OPERATION */ p_block_desc = (uint8_t*)(p_msg + 1); p_data_area = p_block_desc + (num_blocks * (sizeof(tNFA_T3T_BLOCK_DESC))); /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_T3T_WRITE; p_msg->params.t3t_write.num_blocks = num_blocks; p_msg->params.t3t_write.p_block_desc = (tNFA_T3T_BLOCK_DESC*)p_block_desc; p_msg->params.t3t_write.p_block_data = p_data_area; /* Copy block descriptor list */ memcpy(p_block_desc, t3t_blocks, (num_blocks * sizeof(tNFA_T3T_BLOCK_DESC))); /* Copy data */ memcpy(p_data_area, p_data, (num_blocks * 16)); nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwI93Inventory ** ** Description: ** Send Inventory command to the activated ISO T5T tag with/without AFI ** If UID is provided then set UID[0]:MSB, ... UID[7]:LSB ** ** When the operation has completed (or if an error occurs), the ** app will be notified with NFA_I93_CMD_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_WRONG_PROTOCOL: T5T tag not activated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwI93Inventory(bool afi_present, uint8_t afi, uint8_t* p_uid) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("afi_present:%d, AFI: 0x%02X", afi_present, afi); if (nfa_rw_cb.protocol != NFC_PROTOCOL_T5T) { return (NFA_STATUS_WRONG_PROTOCOL); } p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_I93_INVENTORY; p_msg->params.i93_cmd.afi_present = afi_present; p_msg->params.i93_cmd.afi = afi; if (p_uid) { p_msg->params.i93_cmd.uid_present = true; memcpy(p_msg->params.i93_cmd.uid, p_uid, I93_UID_BYTE_LEN); } else { p_msg->params.i93_cmd.uid_present = false; } nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwI93StayQuiet ** ** Description: ** Send Stay Quiet command to the activated T5T tag. ** ** When the operation has completed (or if an error occurs), the ** app will be notified with NFA_I93_CMD_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_WRONG_PROTOCOL: T5T tag not activated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwI93StayQuiet(uint8_t* p_uid) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << __func__; if (nfa_rw_cb.protocol != NFC_PROTOCOL_T5T) { return (NFA_STATUS_WRONG_PROTOCOL); } p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_I93_STAY_QUIET; p_msg->params.i93_cmd.p_data = (uint8_t*)(p_msg + 1); memcpy(p_msg->params.i93_cmd.p_data, p_uid, I93_UID_BYTE_LEN); nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwI93ReadSingleBlock ** ** Description: ** Send Read Single Block command to the activated T5T tag. ** ** Data is returned to the application using the NFA_DATA_EVT. When the ** read operation has completed, or if an error occurs, the app will be ** notified with NFA_I93_CMD_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_WRONG_PROTOCOL: T5T tag not activated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwI93ReadSingleBlock(uint8_t block_number) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("block_number: 0x%02X", block_number); if (nfa_rw_cb.protocol != NFC_PROTOCOL_T5T) { return (NFA_STATUS_WRONG_PROTOCOL); } p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_I93_READ_SINGLE_BLOCK; p_msg->params.i93_cmd.first_block_number = block_number; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwI93WriteSingleBlock ** ** Description: ** Send Write Single Block command to the activated T5T tag. ** ** When the write operation has completed (or if an error occurs), the ** app will be notified with NFA_I93_CMD_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_WRONG_PROTOCOL: T5T tag not activated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwI93WriteSingleBlock(uint8_t block_number, uint8_t* p_data) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("block_number: 0x%02X", block_number); if (nfa_rw_cb.protocol != NFC_PROTOCOL_T5T) { return (NFA_STATUS_WRONG_PROTOCOL); } /* we don't know block size of tag */ if ((nfa_rw_cb.i93_block_size == 0) || (nfa_rw_cb.i93_num_block == 0)) { return (NFA_STATUS_FAILED); } p_msg = (tNFA_RW_OPERATION*)GKI_getbuf( (uint16_t)(sizeof(tNFA_RW_OPERATION) + nfa_rw_cb.i93_block_size)); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_I93_WRITE_SINGLE_BLOCK; p_msg->params.i93_cmd.first_block_number = block_number; p_msg->params.i93_cmd.p_data = (uint8_t*)(p_msg + 1); memcpy(p_msg->params.i93_cmd.p_data, p_data, nfa_rw_cb.i93_block_size); nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwI93LockBlock ** ** Description: ** Send Lock block command to the activated T5T tag. ** ** When the operation has completed (or if an error occurs), the ** app will be notified with NFA_I93_CMD_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_WRONG_PROTOCOL: T5T tag not activated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwI93LockBlock(uint8_t block_number) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("block_number: 0x%02X", block_number); if (nfa_rw_cb.protocol != NFC_PROTOCOL_T5T) { return (NFA_STATUS_WRONG_PROTOCOL); } p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_I93_LOCK_BLOCK; p_msg->params.i93_cmd.first_block_number = block_number; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwI93ReadMultipleBlocks ** ** Description: ** Send Read Multiple Block command to the activated T5T tag. ** ** Data is returned to the application using the NFA_DATA_EVT. When the ** read operation has completed, or if an error occurs, the app will be ** notified with NFA_I93_CMD_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_WRONG_PROTOCOL: T5T tag not activated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwI93ReadMultipleBlocks(uint8_t first_block_number, uint16_t number_blocks) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("%d, %d", first_block_number, number_blocks); if (nfa_rw_cb.protocol != NFC_PROTOCOL_T5T) { return (NFA_STATUS_WRONG_PROTOCOL); } p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_I93_READ_MULTI_BLOCK; p_msg->params.i93_cmd.first_block_number = first_block_number; p_msg->params.i93_cmd.number_blocks = number_blocks; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwI93WriteMultipleBlocks ** ** Description: ** Send Write Multiple Block command to the activated T5T tag. ** ** When the write operation has completed (or if an error occurs), the ** app will be notified with NFA_I93_CMD_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_WRONG_PROTOCOL: T5T tag not activated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwI93WriteMultipleBlocks(uint8_t first_block_number, uint16_t number_blocks, uint8_t* p_data) { tNFA_RW_OPERATION* p_msg; uint32_t data_length; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("%d, %d", first_block_number, number_blocks); if (nfa_rw_cb.protocol != NFC_PROTOCOL_T5T) { return (NFA_STATUS_WRONG_PROTOCOL); } /* we don't know block size of tag */ if ((nfa_rw_cb.i93_block_size == 0) || (nfa_rw_cb.i93_num_block == 0)) { return (NFA_STATUS_FAILED); } data_length = nfa_rw_cb.i93_block_size * number_blocks; if (data_length + sizeof(tNFA_RW_OPERATION) > UINT16_MAX) { android_errorWriteLog(0x534e4554, "157650338"); return (NFA_STATUS_FAILED); } p_msg = (tNFA_RW_OPERATION*)GKI_getbuf( (uint16_t)(sizeof(tNFA_RW_OPERATION) + data_length)); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_I93_WRITE_MULTI_BLOCK; p_msg->params.i93_cmd.first_block_number = first_block_number; p_msg->params.i93_cmd.number_blocks = number_blocks; p_msg->params.i93_cmd.p_data = (uint8_t*)(p_msg + 1); memcpy(p_msg->params.i93_cmd.p_data, p_data, data_length); nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwI93Select ** ** Description: ** Send Select command to the activated T5T tag. ** ** UID[0]: 0xE0, MSB ** UID[1]: IC Mfg Code ** ... ** UID[7]: LSB ** ** When the operation has completed (or if an error occurs), the ** app will be notified with NFA_I93_CMD_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_WRONG_PROTOCOL: T5T tag not activated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwI93Select(uint8_t* p_uid) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf( "UID: [%02X%02X%02X...]", *(p_uid), *(p_uid + 1), *(p_uid + 2)); if (nfa_rw_cb.protocol != NFC_PROTOCOL_T5T) { return (NFA_STATUS_WRONG_PROTOCOL); } p_msg = (tNFA_RW_OPERATION*)GKI_getbuf( (uint16_t)(sizeof(tNFA_RW_OPERATION) + I93_UID_BYTE_LEN)); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_I93_SELECT; p_msg->params.i93_cmd.p_data = (uint8_t*)(p_msg + 1); memcpy(p_msg->params.i93_cmd.p_data, p_uid, I93_UID_BYTE_LEN); nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwI93ResetToReady ** ** Description: ** Send Reset to ready command to the activated T5T tag. ** ** When the operation has completed (or if an error occurs), the ** app will be notified with NFA_I93_CMD_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_WRONG_PROTOCOL: T5T tag not activated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwI93ResetToReady(void) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << __func__; if (nfa_rw_cb.protocol != NFC_PROTOCOL_T5T) { return (NFA_STATUS_WRONG_PROTOCOL); } p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_I93_RESET_TO_READY; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwI93WriteAFI ** ** Description: ** Send Write AFI command to the activated T5T tag. ** ** When the operation has completed (or if an error occurs), the ** app will be notified with NFA_I93_CMD_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_WRONG_PROTOCOL: T5T tag not activated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwI93WriteAFI(uint8_t afi) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("AFI: 0x%02X", afi); if (nfa_rw_cb.protocol != NFC_PROTOCOL_T5T) { return (NFA_STATUS_WRONG_PROTOCOL); } p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_I93_WRITE_AFI; p_msg->params.i93_cmd.afi = afi; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwI93LockAFI ** ** Description: ** Send Lock AFI command to the activated T5T tag. ** ** When the operation has completed (or if an error occurs), the ** app will be notified with NFA_I93_CMD_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_WRONG_PROTOCOL: T5T tag not activated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwI93LockAFI(void) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << __func__; if (nfa_rw_cb.protocol != NFC_PROTOCOL_T5T) { return (NFA_STATUS_WRONG_PROTOCOL); } p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_I93_LOCK_AFI; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwI93WriteDSFID ** ** Description: ** Send Write DSFID command to the activated T5T tag. ** ** When the operation has completed (or if an error occurs), the ** app will be notified with NFA_I93_CMD_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_WRONG_PROTOCOL: T5T tag not activated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwI93WriteDSFID(uint8_t dsfid) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("DSFID: 0x%02X", dsfid); if (nfa_rw_cb.protocol != NFC_PROTOCOL_T5T) { return (NFA_STATUS_WRONG_PROTOCOL); } p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_I93_WRITE_DSFID; p_msg->params.i93_cmd.dsfid = dsfid; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwI93LockDSFID ** ** Description: ** Send Lock DSFID command to the activated T5T tag. ** ** When the operation has completed (or if an error occurs), the ** app will be notified with NFA_I93_CMD_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_WRONG_PROTOCOL: T5T tag not activated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwI93LockDSFID(void) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << __func__; if (nfa_rw_cb.protocol != NFC_PROTOCOL_T5T) { return (NFA_STATUS_WRONG_PROTOCOL); } p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_I93_LOCK_DSFID; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwI93GetSysInfo ** ** Description: ** Send Get system information command to the activated T5T tag. ** If UID is provided then set UID[0]:MSB, ... UID[7]:LSB ** ** When the operation has completed (or if an error occurs), the ** app will be notified with NFA_I93_CMD_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_WRONG_PROTOCOL: T5T tag not activated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwI93GetSysInfo(uint8_t* p_uid) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << __func__; if (nfa_rw_cb.protocol != NFC_PROTOCOL_T5T) { return (NFA_STATUS_WRONG_PROTOCOL); } p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_I93_GET_SYS_INFO; if (p_uid) { p_msg->params.i93_cmd.uid_present = true; memcpy(p_msg->params.i93_cmd.uid, p_uid, I93_UID_BYTE_LEN); } else { p_msg->params.i93_cmd.uid_present = false; } nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwI93GetMultiBlockSecurityStatus ** ** Description: ** Send Get Multiple block security status command to the activated ** T5T tag. ** ** Data is returned to the application using the NFA_DATA_EVT. When the ** read operation has completed, or if an error occurs, the app will be ** notified with NFA_I93_CMD_CPLT_EVT. ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_WRONG_PROTOCOL: T5T tag not activated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwI93GetMultiBlockSecurityStatus(uint8_t first_block_number, uint16_t number_blocks) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("%d, %d", first_block_number, number_blocks); if (nfa_rw_cb.protocol != NFC_PROTOCOL_T5T) { return (NFA_STATUS_WRONG_PROTOCOL); } p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_I93_GET_MULTI_BLOCK_STATUS; p_msg->params.i93_cmd.first_block_number = first_block_number; p_msg->params.i93_cmd.number_blocks = number_blocks; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); } /******************************************************************************* ** ** Function NFA_RwI93SetAddressingMode ** ** Description: ** Set addressing mode to use to communicate with T5T tag. ** mode = true: addressed (default if API not called) ** mode = false: non-addressed ** ** Returns: ** NFA_STATUS_OK if successfully initiated ** NFA_STATUS_WRONG_PROTOCOL: T5T tag not activated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ tNFA_STATUS NFA_RwI93SetAddressingMode(bool mode) { tNFA_RW_OPERATION* p_msg; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("%s - %d", __func__, mode); if (nfa_rw_cb.protocol != NFC_PROTOCOL_T5T) { return (NFA_STATUS_WRONG_PROTOCOL); } p_msg = (tNFA_RW_OPERATION*)GKI_getbuf((uint16_t)(sizeof(tNFA_RW_OPERATION))); if (p_msg != nullptr) { /* Fill in tNFA_RW_OPERATION struct */ p_msg->hdr.event = NFA_RW_OP_REQUEST_EVT; p_msg->op = NFA_RW_OP_I93_SET_ADDR_MODE; p_msg->params.i93_cmd.addr_mode = mode; nfa_sys_sendmsg(p_msg); return (NFA_STATUS_OK); } return (NFA_STATUS_FAILED); }