1 /* 2 * Copyright (C) 2015 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17 #ifndef _PHNXPEXTNS_MFCRF_H_ 18 #define _PHNXPEXTNS_MFCRF_H_ 19 20 #include <phFriNfc_MifStdFormat.h> 21 #include <phFriNfc_MifareStdMap.h> 22 #include <phNciNfcTypes.h> 23 #include <phNfcTypes.h> 24 #include <phNxpExtns.h> 25 #include <pthread.h> 26 #include <semaphore.h> 27 28 extern uint8_t current_key[]; 29 /* Enable this macro to set key configuration for mifare classic Tag */ 30 #define PHLIBNFC_NXPETENSION_CONFIGURE_MFKEYS 1 31 32 #define MAX_BUFF_SIZE (512) 33 34 #define PHLIBNFC_MIFARESTD4K_BLK128 128 /*Block number 128 for Mifare 4k */ 35 #define PHLIBNFC_MIFARESTD_SECTOR_NO32 32 /* Sector 32 for Mifare 4K*/ 36 #define PHLIBNFC_MIFARESTD_BLOCK_BYTES \ 37 16 /* Bytes per block after block 32 for Mifare 4K*/ 38 39 #define PHLIBNFC_NO_OF_BLKPERSECTOR \ 40 (0x04) /* Number of blocks per sector for \ 41 * Mifare Clsssic Tag*/ 42 43 #define PHLIBNFC_MFCUIDLEN_INAUTHCMD \ 44 0x04 /* UID length in Authentication command */ 45 #define PHLIBNFC_MFC_AUTHKEYLEN 0x06 /* Authentication key length */ 46 47 #define PHNCINFC_AUTHENTICATION_KEY \ 48 (0x00U) /* Authentication key passed in extension \ 49 command header of authentication command */ 50 #define PHNCINFC_AUTHENTICATION_KEYB (0x61U) /* Authentication Key B */ 51 #define PHNCINFC_ENABLE_KEY_B (0x80U) /* Enable Key B */ 52 #define PH_NCINFC_MIFARECLASSIC_EMBEDDED_KEY \ 53 (0x10) /* MIFARE Classic use Embedded Key*/ 54 55 #define PH_NCINFC_STATUS_OK (0x0000) /* Status OK */ 56 #define PHNCINFC_EXTNID_SIZE (0x01U) /* Size of Mifare Extension Req/Rsp Id */ 57 #define PHNCINFC_EXTNSTATUS_SIZE \ 58 (0x01U) /* Size of Mifare Extension Resp Status Byte */ 59 60 #define PH_NCINFC_EXTN_INVALID_PARAM_VAL \ 61 (0xFFU) /* Initial value of Req/Resp Param/Status */ 62 63 #define PH_FRINFC_NDEF_READ_REQ (0x00U) /* NDEF Read Request */ 64 #define PH_FRINFC_NDEF_WRITE_REQ (0x01U) /* NDEF Write Request */ 65 66 #define PH_LIBNFC_INTERNAL_CHK_NDEF_NOT_DONE \ 67 (0x02U) /* Status for check NDEF not done */ 68 69 #define NDEF_SENDRCV_BUF_LEN 252U /* Send receive buffer length */ 70 71 #define NXP_NUMBER_OF_MFC_KEYS (0x03U) 72 #define NXP_MFC_KEY_SIZE (0x06U) 73 74 #define NXP_MFC_KEYS \ 75 { \ 76 {0xA0, 0XA1, 0xA2, 0XA3, 0xA4, 0XA5}, \ 77 {0xD3, 0XF7, 0xD3, 0XF7, 0xD3, 0XF7}, \ 78 {0xFF, 0XFF, 0xFF, 0XFF, 0xFF, 0XFF} \ 79 } /* Key used during NDEF format */ 80 81 #ifndef NCI_MAX_DATA_LEN 82 #define NCI_MAX_DATA_LEN 300 83 #endif 84 85 /* 86 * Request Id for different commands 87 */ 88 typedef enum phNciNfc_ExtnReqId { 89 phNciNfc_e_T1TXchgDataReq = 0x10, /* T1T Raw Data Request from DH */ 90 phNciNfc_e_T1TWriteNReq = 0x20, /* T1T N bytes write request from DH */ 91 phNciNfc_e_MfRawDataXchgHdr = 0x10, /* MF Raw Data Request from DH */ 92 phNciNfc_e_MfWriteNReq = 0x31, /* MF N bytes write request from DH */ 93 phNciNfc_e_MfReadNReq = 0x32, /* MF N bytes read request from DH */ 94 phNciNfc_e_MfSectorSelReq = 0x33, /* MF Block select request from DH */ 95 phNciNfc_e_MfPlusProxCheckReq = 96 0x28, /* MF + Prox check request for NFCC from DH */ 97 phNciNfc_e_MfcAuthReq = 98 0x40, /* MFC Authentication request for NFCC from DH */ 99 phNciNfc_e_InvalidReq /* Invalid ReqId */ 100 } phNciNfc_ExtnReqId_t; 101 102 /* 103 * Response Ids for different command response 104 */ 105 typedef enum phNciNfc_ExtnRespId { 106 phNciNfc_e_T1TXchgDataRsp = 107 0x10, /* DH gets Raw data from T1T on successful req */ 108 phNciNfc_e_T1TWriteNRsp = 0x20, /* DH gets write status */ 109 phNciNfc_e_MfXchgDataRsp = 110 0x10, /* DH gets Raw data from MF on successful req */ 111 phNciNfc_e_MfWriteNRsp = 0x31, /* DH gets write status */ 112 phNciNfc_e_MfReadNRsp = 113 0x32, /* DH gets N Bytes read from MF, if successful */ 114 phNciNfc_e_MfSectorSelRsp = 0x33, /* DH gets the Sector Select cmd status */ 115 phNciNfc_e_MfPlusProxCheckRsp = 116 0x29, /* DH gets the MF+ Prox Check cmd status */ 117 phNciNfc_e_MfcAuthRsp = 0x40, /* DH gets the authenticate cmd status */ 118 phNciNfc_e_InvalidRsp /* Invalid RspId */ 119 } phNciNfc_ExtnRespId_t; 120 121 /* Data buffer */ 122 typedef struct phNciNfc_Buff { 123 uint8_t* 124 pBuff; /* pointer to the buffer where received payload shall be stored*/ 125 uint16_t wLen; /* Buffer length*/ 126 } phNciNfc_Buff_t, *pphNciNfc_Buff_t; 127 128 /* 129 * Structure for NCI Extension information 130 */ 131 typedef struct phNciNfc_ExtnInfo { 132 union { 133 phNciNfc_ExtnReqId_t ExtnReqId; /* NCI extension reqid sent */ 134 phNciNfc_ExtnRespId_t ExtnRspId; /* NCI extension respid received */ 135 } ActivExtnId; /* Active Req/Rsp Id */ 136 uint8_t bParamsNumsPresent; /* Holds number of params available for this 137 Req/Rsp Id */ 138 uint8_t bParam[2]; /* Req/Res: Param[0] = Param1, Param[1] = Param2 */ 139 } phNciNfc_ExtnInfo_t; 140 141 /* 142 * NDEF related data structures 143 */ 144 typedef struct phLibNfc_NdefInfo { 145 uint8_t NdefContinueRead; 146 uint32_t NdefActualSize; 147 uint32_t AppWrLength; 148 phFriNfc_NdefMap_t* psNdefMap; 149 uint16_t NdefSendRecvLen; 150 phNfc_sData_t* psUpperNdefMsg; 151 uint32_t dwWrLength; 152 uint32_t NdefLength; 153 uint8_t is_ndef; 154 phFriNfc_sNdefSmtCrdFmt_t* ndef_fmt; 155 } phLibNfc_NdefInfo_t; 156 157 /* 158 * NDEF offsets 159 */ 160 typedef enum { 161 phLibNfc_Ndef_EBegin = 0x01, /**< Start from the beginning position */ 162 phLibNfc_Ndef_ECurrent /**< Start from the current position */ 163 } phLibNfc_Ndef_EOffset_t; 164 165 /* 166 * Extns module status 167 */ 168 typedef enum { EXTNS_STATUS_OPEN = 0, EXTNS_STATUS_CLOSE } phNxpExtns_Status; 169 170 /* 171 * NCI Data 172 */ 173 typedef struct nci_data_package { 174 uint16_t len; 175 uint8_t p_data[NCI_MAX_DATA_LEN]; 176 } nci_rsp_data_t; 177 178 /* 179 * Mifare Callback function definition 180 */ 181 typedef void (*CallBackMifare_t)(void*, uint16_t); 182 183 /* 184 * Auth Cmd Data 185 */ 186 typedef struct nci_mfc_package { 187 bool_t auth_status; 188 bool_t auth_sent; 189 sem_t semPresenceCheck; 190 pthread_mutex_t syncmutex; 191 NFCSTATUS status; 192 phNfc_sData_t* pauth_cmd; 193 } phNci_mfc_auth_cmd_t; 194 /* 195 * Structure of callback functions from different module. 196 * It includes the status also. 197 */ 198 typedef struct phNxpExtns_Context { 199 phNxpExtns_Status Extns_status; 200 tNFA_DM_CBACK* p_dm_cback; 201 tNFA_CONN_CBACK* p_conn_cback; 202 tNFA_NDEF_CBACK* p_ndef_cback; 203 uint8_t writecmdFlag; 204 uint8_t RawWriteCallBack; 205 void* CallBackCtxt; 206 CallBackMifare_t CallBackMifare; 207 bool_t ExtnsConnect; 208 bool_t ExtnsDeactivate; 209 bool_t ExtnsCallBack; 210 uint8_t incrdecflag; 211 uint8_t incrdecstatusflag; 212 } phNxpExtns_Context_t; 213 214 NFCSTATUS phFriNfc_ExtnsTransceive(phNfc_sTransceiveInfo_t* pTransceiveInfo, 215 phNfc_uCmdList_t Cmd, uint8_t* SendRecvBuf, 216 uint16_t SendLength, 217 uint16_t* SendRecvLength); 218 NFCSTATUS phNxpExtns_MfcModuleInit(void); 219 NFCSTATUS phNxpExtns_MfcModuleDeInit(void); 220 NFCSTATUS Mfc_WriteNdef(uint8_t* p_data, uint32_t len); 221 NFCSTATUS Mfc_CheckNdef(void); 222 NFCSTATUS Mfc_ReadNdef(void); 223 NFCSTATUS Mfc_FormatNdef(uint8_t* secretkey, uint8_t len); 224 NFCSTATUS Mfc_Transceive(uint8_t* p_data, uint32_t len); 225 NFCSTATUS Mfc_SetReadOnly(uint8_t* secrtkey, uint8_t len); 226 void Mfc_DeactivateCbackSelect(void); 227 void Mfc_ActivateCback(void); 228 NFCSTATUS Mfc_RecvPacket(uint8_t* buff, uint8_t buffSz); 229 NFCSTATUS phNxNciExtns_MifareStd_Reconnect(void); 230 NFCSTATUS Mfc_PresenceCheck(void); 231 232 #endif /* _PHNXPEXTNS_MFCRF_H_ */ 233