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      1 /******************************************************************************
      2  *
      3  *  Copyright (C) 2009-2014 Broadcom Corporation
      4  *
      5  *  Licensed under the Apache License, Version 2.0 (the "License");
      6  *  you may not use this file except in compliance with the License.
      7  *  You may obtain a copy of the License at:
      8  *
      9  *  http://www.apache.org/licenses/LICENSE-2.0
     10  *
     11  *  Unless required by applicable law or agreed to in writing, software
     12  *  distributed under the License is distributed on an "AS IS" BASIS,
     13  *  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
     14  *  See the License for the specific language governing permissions and
     15  *  limitations under the License.
     16  *
     17  ******************************************************************************/
     18 
     19 /******************************************************************************
     20  *
     21  *  This file contains the Near Field Communication (NFC) Reader/Writer mode
     22  *  related internal function / definitions.
     23  *
     24  ******************************************************************************/
     25 
     26 #ifndef RW_INT_H_
     27 #define RW_INT_H_
     28 
     29 #include "rw_api.h"
     30 #include "tags_defs.h"
     31 #include "tags_int.h"
     32 
     33 /* Proprietary definitions for HR0 and HR1 */
     34 /* TOPAZ96 Tag                                              */
     35 #define RW_T1T_IS_TOPAZ96 0x11
     36 /* TOPAZ512 Tag                                             */
     37 #define RW_T1T_IS_TOPAZ512 0x12
     38 /* Supports dynamic commands on static tag if HR1 > 0x49    */
     39 #define RW_T1T_HR1_MIN 0x49
     40 
     41 /* Maximum supported Memory control TLVS in the tag         */
     42 #define RW_T1T_MAX_MEM_TLVS 0x05
     43 /* Maximum supported Lock control TLVS in the tag           */
     44 #define RW_T1T_MAX_LOCK_TLVS 0x05
     45 /* Maximum supported dynamic lock bytes                     */
     46 #define RW_T1T_MAX_LOCK_BYTES 0x1E
     47 
     48 /* State of the Tag as interpreted by RW */
     49 /* TAG State is unknown to RW                               */
     50 #define RW_T1_TAG_ATTRB_UNKNOWN 0x00
     51 /* TAG is in INITIALIZED state                              */
     52 #define RW_T1_TAG_ATTRB_INITIALIZED 0x01
     53 /* TAG is in INITIALIZED state and has NDEF tlv with len=0  */
     54 #define RW_T1_TAG_ATTRB_INITIALIZED_NDEF 0x02
     55 /* TAG is in READ ONLY state                                */
     56 #define RW_T1_TAG_ATTRB_READ_ONLY 0x03
     57 /* TAG is in READ WRITE state                               */
     58 #define RW_T1_TAG_ATTRB_READ_WRITE 0x04
     59 
     60 /* Lock not yet set as part of SET TAG RO op                */
     61 #define RW_T1T_LOCK_NOT_UPDATED 0x00
     62 /* Sent command to set the Lock bytes                       */
     63 #define RW_T1T_LOCK_UPDATE_INITIATED 0x01
     64 /* Lock bytes are set                                       */
     65 #define RW_T1T_LOCK_UPDATED 0x02
     66 typedef uint8_t tRW_T1T_LOCK_STATUS;
     67 
     68 /* States */
     69 /* Tag not activated and or response not received for RID   */
     70 #define RW_T1T_STATE_NOT_ACTIVATED 0x00
     71 /* T1 Tag activated and ready to perform rw operation on Tag*/
     72 #define RW_T1T_STATE_IDLE 0x01
     73 /* waiting rsp for read command sent to tag                 */
     74 #define RW_T1T_STATE_READ 0x02
     75 /* waiting rsp for write command sent to tag                */
     76 #define RW_T1T_STATE_WRITE 0x03
     77 /* performing TLV detection procedure                       */
     78 #define RW_T1T_STATE_TLV_DETECT 0x04
     79 /* performing read NDEF procedure                           */
     80 #define RW_T1T_STATE_READ_NDEF 0x05
     81 /* performing update NDEF procedure                         */
     82 #define RW_T1T_STATE_WRITE_NDEF 0x06
     83 /* Setting Tag as read only tag                             */
     84 #define RW_T1T_STATE_SET_TAG_RO 0x07
     85 /* Check if Tag is still present                            */
     86 #define RW_T1T_STATE_CHECK_PRESENCE 0x08
     87 /* Format T1 Tag                                            */
     88 #define RW_T1T_STATE_FORMAT_TAG 0x09
     89 
     90 /* Sub states */
     91 /* Default substate                                         */
     92 #define RW_T1T_SUBSTATE_NONE 0x00
     93 
     94 /* Sub states in RW_T1T_STATE_TLV_DETECT state */
     95 /* waiting for the detection of a tlv in a tag              */
     96 #define RW_T1T_SUBSTATE_WAIT_TLV_DETECT 0x01
     97 /* waiting for finding the len field is 1 or 3 bytes long   */
     98 #define RW_T1T_SUBSTATE_WAIT_FIND_LEN_FIELD_LEN 0x02
     99 /* waiting for extracting len field value                   */
    100 #define RW_T1T_SUBSTATE_WAIT_READ_TLV_LEN0 0x03
    101 /* waiting for extracting len field value                   */
    102 #define RW_T1T_SUBSTATE_WAIT_READ_TLV_LEN1 0x04
    103 /* waiting for extracting value field in the TLV            */
    104 #define RW_T1T_SUBSTATE_WAIT_READ_TLV_VALUE 0x05
    105 /* waiting for reading dynamic locks in the TLV             */
    106 #define RW_T1T_SUBSTATE_WAIT_READ_LOCKS 0x06
    107 
    108 /* Sub states in RW_T1T_STATE_WRITE_NDEF state */
    109 /* waiting for response of reading a block that will be partially updated */
    110 #define RW_T1T_SUBSTATE_WAIT_READ_NDEF_BLOCK 0x07
    111 /* waiting for response of invalidating NDEF Msg                          */
    112 #define RW_T1T_SUBSTATE_WAIT_INVALIDATE_NDEF 0x08
    113 /* waiting for response of writing a part of NDEF Msg                     */
    114 #define RW_T1T_SUBSTATE_WAIT_NDEF_WRITE 0x09
    115 /* waiting for response of writing last part of NDEF Msg                  */
    116 #define RW_T1T_SUBSTATE_WAIT_NDEF_UPDATED 0x0A
    117 /* waiting for response of validating NDEF Msg                            */
    118 #define RW_T1T_SUBSTATE_WAIT_VALIDATE_NDEF 0x0B
    119 
    120 /* Sub states in RW_T1T_STATE_SET_TAG_RO state */
    121 /* waiting for response of setting CC-RWA to read only      */
    122 #define RW_T1T_SUBSTATE_WAIT_SET_CC_RWA_RO 0x0C
    123 /* waiting for response of setting all static lock bits     */
    124 #define RW_T1T_SUBSTATE_WAIT_SET_ST_LOCK_BITS 0x0D
    125 /* waiting for response of setting all dynamic lock bits    */
    126 #define RW_T1T_SUBSTATE_WAIT_SET_DYN_LOCK_BITS 0x0E
    127 
    128 /* Sub states in RW_T1T_STATE_FORMAT_TAG state */
    129 /* waiting for response to format/set capability container  */
    130 #define RW_T1T_SUBSTATE_WAIT_SET_CC 0x0F
    131 /* waiting for response to format/set NULL NDEF             */
    132 #define RW_T1T_SUBSTATE_WAIT_SET_NULL_NDEF 0x10
    133 
    134 typedef struct {
    135   uint16_t offset;  /* Offset of the lock byte in the Tag                   */
    136   uint8_t num_bits; /* Number of lock bits in the lock byte                 */
    137   uint8_t bytes_locked_per_bit; /* No. of tag bytes gets locked by a bit in this
    138                                    byte   */
    139 } tRW_T1T_LOCK_INFO;
    140 
    141 typedef struct {
    142   uint16_t offset;   /* Reserved bytes offset taken from Memory control TLV  */
    143   uint8_t num_bytes; /* Number of reserved bytes as per the TLV              */
    144 } tRW_T1T_RES_INFO;
    145 
    146 typedef struct {
    147   uint8_t tlv_index;  /* Index of Lock control tlv that points to this address*/
    148   uint8_t byte_index; /* Index of Lock byte pointed by the TLV                */
    149   uint8_t lock_byte;  /* Value in the lock byte                               */
    150   tRW_T1T_LOCK_STATUS
    151       lock_status;  /* Indicates if it is modifed to set tag as Read only   */
    152   bool b_lock_read; /* Is the lock byte is already read from tag            */
    153 } tRW_T1T_LOCK;
    154 
    155 typedef struct {
    156   uint8_t addr;    /* ADD/ADD8/ADDS field value                            */
    157   uint8_t op_code; /* Command sent                                         */
    158   uint8_t rsp_len; /* expected length of the response                      */
    159   uint8_t
    160       pend_retx_rsp; /* Number of pending rsps to retransmission on prev cmd */
    161 } tRW_T1T_PREV_CMD_RSP_INFO;
    162 
    163 #if (RW_NDEF_INCLUDED == TRUE)
    164 /* Buffer 0-E block, for easier tlv operation           */
    165 #define T1T_BUFFER_SIZE T1T_STATIC_SIZE
    166 #else
    167 /* Buffer UID                                           */
    168 #define T1T_BUFFER_SIZE T1T_UID_LEN
    169 #endif
    170 
    171 /* RW Type 1 Tag control blocks */
    172 typedef struct {
    173   uint8_t
    174       hr[T1T_HR_LEN]; /* Header ROM byte 0 - 0x1y,Header ROM byte 1 - 0x00    */
    175   uint8_t mem[T1T_SEGMENT_SIZE]; /* Tag contents of block 0 or from block 0-E */
    176   tT1T_CMD_RSP_INFO*
    177       p_cmd_rsp_info; /* Pointer to Command rsp info of last sent command     */
    178   uint8_t state;      /* Current state of RW module                           */
    179   uint8_t tag_attribute; /* Present state of the Tag as interpreted by RW */
    180   NFC_HDR*
    181       p_cur_cmd_buf; /* Buffer to hold cur sent command for retransmission   */
    182   uint8_t addr;      /* ADD/ADD8/ADDS value                                  */
    183   tRW_T1T_PREV_CMD_RSP_INFO
    184       prev_cmd_rsp_info; /* Information about previous sent command if retx */
    185   TIMER_LIST_ENT timer; /* timer to set timelimit for the response to command */
    186   bool b_update;    /* Tag header updated                                   */
    187   bool b_rseg;      /* Segment 0 read from tag                              */
    188   bool b_hard_lock; /* Hard lock the tag as part of config tag to Read only */
    189 #if (RW_NDEF_INCLUDED == TRUE)
    190   uint8_t segment;  /* Current Tag segment                                  */
    191   uint8_t substate; /* Current substate of RW module                        */
    192   uint16_t work_offset;                     /* Working byte offset */
    193   uint8_t ndef_first_block[T1T_BLOCK_SIZE]; /* Buffer for ndef first block */
    194   uint8_t ndef_final_block[T1T_BLOCK_SIZE]; /* Buffer for ndef last block */
    195   uint8_t* p_ndef_buffer;                   /* Buffer to store ndef message */
    196   uint16_t new_ndef_msg_len; /* Lenght of new updating NDEF Message */
    197   uint8_t block_read; /* Last read Block                                      */
    198   uint8_t write_byte; /* Index of last written byte                           */
    199   uint8_t tlv_detect; /* TLV type under detection                             */
    200   uint16_t ndef_msg_offset; /* The offset on Tag where first NDEF message is
    201                                present*/
    202   uint16_t ndef_msg_len;    /* Lenght of NDEF Message */
    203   uint16_t
    204       max_ndef_msg_len; /* Maximum size of NDEF that can be written on the tag
    205                            */
    206   uint16_t ndef_header_offset; /* The offset on Tag where first NDEF tlv is
    207                                   present    */
    208   uint8_t ndef_block_written;  /* Last block where NDEF bytes are written */
    209   uint8_t num_ndef_finalblock; /* Block number where NDEF's last byte will be
    210                                   present  */
    211   uint8_t num_lock_tlvs;       /* Number of lcok tlvs detected in the tag */
    212   tRW_T1T_LOCK_INFO lock_tlv[RW_T1T_MAX_LOCK_TLVS]; /* Information retrieved
    213                                                        from lock control tlv */
    214   uint8_t num_lockbytes; /* Number of dynamic lock bytes present in the tag */
    215   tRW_T1T_LOCK
    216       lockbyte[RW_T1T_MAX_LOCK_BYTES]; /* Dynamic Lock byte information */
    217   uint8_t num_mem_tlvs; /* Number of memory tlvs detected in the tag */
    218   tRW_T1T_RES_INFO
    219       mem_tlv[RW_T1T_MAX_MEM_TLVS]; /* Information retrieved from mem tlv */
    220   uint8_t attr_seg; /* Tag segment for which attributes are prepared        */
    221   uint8_t
    222       lock_attr_seg; /* Tag segment for which lock attributes are prepared   */
    223   uint8_t
    224       attr[T1T_BLOCKS_PER_SEGMENT]; /* byte information - Reserved/lock/otp or
    225                                        data         */
    226   uint8_t lock_attr
    227       [T1T_BLOCKS_PER_SEGMENT]; /* byte information - read only or read write */
    228 #endif
    229 } tRW_T1T_CB;
    230 
    231 /* Mifare Ultalight/ Ultralight Family blank tag version block settings */
    232 /* Block where version number of the tag is stored */
    233 #define T2T_MIFARE_VERSION_BLOCK 0x04
    234 /* Blank Ultralight tag - Block 4 (byte 0, byte 1) */
    235 #define T2T_MIFARE_ULTRALIGHT_VER_NO 0xFFFF
    236 /* Blank Ultralight family tag - Block 4 (byte 0, byte 1) */
    237 #define T2T_MIFARE_ULTRALIGHT_FAMILY_VER_NO 0x0200
    238 
    239 /* Infineon my-d move / my-d blank tag uid block settings */
    240 #define T2T_INFINEON_VERSION_BLOCK 0x00
    241 #define T2T_INFINEON_MYD_MOVE_LEAN 0x0570
    242 #define T2T_INFINEON_MYD_MOVE 0x0530
    243 
    244 #define T2T_BRCM_VERSION_BLOCK 0x00
    245 #define T2T_BRCM_STATIC_MEM 0x2E01
    246 #define T2T_BRCM_DYNAMIC_MEM 0x2E02
    247 
    248 #define T2T_NDEF_NOT_DETECTED 0x00
    249 #define T2T_NDEF_DETECTED 0x01
    250 #define T2T_NDEF_READ 0x02
    251 
    252 /* Maximum supported Memory control TLVS in the tag         */
    253 #define RW_T2T_MAX_MEM_TLVS 0x05
    254 /* Maximum supported Lock control TLVS in the tag           */
    255 #define RW_T2T_MAX_LOCK_TLVS 0x05
    256 /* Maximum supported dynamic lock bytes                     */
    257 #define RW_T2T_MAX_LOCK_BYTES 0x1E
    258 #define RW_T2T_SEGMENT_BYTES 128
    259 #define RW_T2T_SEGMENT_SIZE 16
    260 
    261 /* Lock not yet set as part of SET TAG RO op                */
    262 #define RW_T2T_LOCK_NOT_UPDATED 0x00
    263 /* Sent command to set the Lock bytes                       */
    264 #define RW_T2T_LOCK_UPDATE_INITIATED 0x01
    265 /* Lock bytes are set                                       */
    266 #define RW_T2T_LOCK_UPDATED 0x02
    267 typedef uint8_t tRW_T2T_LOCK_STATUS;
    268 
    269 /* States */
    270 /* Tag not activated                                        */
    271 #define RW_T2T_STATE_NOT_ACTIVATED 0x00
    272 /* T1 Tag activated and ready to perform rw operation on Tag*/
    273 #define RW_T2T_STATE_IDLE 0x01
    274 /* waiting response for read command sent to tag            */
    275 #define RW_T2T_STATE_READ 0x02
    276 /* waiting response for write command sent to tag           */
    277 #define RW_T2T_STATE_WRITE 0x03
    278 /* Waiting response for sector select command               */
    279 #define RW_T2T_STATE_SELECT_SECTOR 0x04
    280 /* Detecting Lock/Memory/NDEF/Proprietary TLV in the Tag    */
    281 #define RW_T2T_STATE_DETECT_TLV 0x05
    282 /* Performing NDEF Read procedure                           */
    283 #define RW_T2T_STATE_READ_NDEF 0x06
    284 /* Performing NDEF Write procedure                          */
    285 #define RW_T2T_STATE_WRITE_NDEF 0x07
    286 /* Setting Tag as Read only tag                             */
    287 #define RW_T2T_STATE_SET_TAG_RO 0x08
    288 /* Check if Tag is still present                            */
    289 #define RW_T2T_STATE_CHECK_PRESENCE 0x09
    290 /* Format the tag                                           */
    291 #define RW_T2T_STATE_FORMAT_TAG 0x0A
    292 /* Tag is in HALT State */
    293 #define RW_T2T_STATE_HALT 0x0B
    294 
    295 /* rw_t2t_read/rw_t2t_write takes care of sector change if the block to
    296  * read/write is in a different sector
    297  * Next Substate should be assigned to control variable 'substate' before
    298  * calling these function for State Machine to
    299  * move back to the particular substate after Sector change is completed and
    300  * read/write command is sent on new sector       */
    301 
    302 /* Sub states */
    303 #define RW_T2T_SUBSTATE_NONE 0x00
    304 
    305 /* Sub states in RW_T2T_STATE_SELECT_SECTOR state */
    306 /* waiting for response of sector select CMD 1              */
    307 #define RW_T2T_SUBSTATE_WAIT_SELECT_SECTOR_SUPPORT 0x01
    308 /* waiting for response of sector select CMD 2              */
    309 #define RW_T2T_SUBSTATE_WAIT_SELECT_SECTOR 0x02
    310 
    311 /* Sub states in RW_T1T_STATE_DETECT_XXX state */
    312 /* waiting for the detection of a tlv in a tag              */
    313 #define RW_T2T_SUBSTATE_WAIT_READ_CC 0x03
    314 /* waiting for the detection of a tlv in a tag              */
    315 #define RW_T2T_SUBSTATE_WAIT_TLV_DETECT 0x04
    316 /* waiting for finding the len field is 1 or 3 bytes long   */
    317 #define RW_T2T_SUBSTATE_WAIT_FIND_LEN_FIELD_LEN 0x05
    318 /* waiting for extracting len field value                   */
    319 #define RW_T2T_SUBSTATE_WAIT_READ_TLV_LEN0 0x06
    320 /* waiting for extracting len field value                   */
    321 #define RW_T2T_SUBSTATE_WAIT_READ_TLV_LEN1 0x07
    322 /* waiting for extracting value field in the TLV            */
    323 #define RW_T2T_SUBSTATE_WAIT_READ_TLV_VALUE 0x08
    324 /* waiting for reading dynamic locks in the TLV             */
    325 #define RW_T2T_SUBSTATE_WAIT_READ_LOCKS 0x09
    326 
    327 /* Sub states in RW_T2T_STATE_WRITE_NDEF state */
    328 /* waiting for rsp to reading the block where NDEF starts   */
    329 #define RW_T2T_SUBSTATE_WAIT_READ_NDEF_FIRST_BLOCK 0x0A
    330 /* waiting for rsp to reading block where new NDEF Msg ends */
    331 #define RW_T2T_SUBSTATE_WAIT_READ_NDEF_LAST_BLOCK 0x0B
    332 /* waiting for rsp to reading block where Trm tlv gets added*/
    333 #define RW_T2T_SUBSTATE_WAIT_READ_TERM_TLV_BLOCK 0x0C
    334 /* waiting for rsp to reading block where nxt NDEF write    */
    335 #define RW_T2T_SUBSTATE_WAIT_READ_NDEF_NEXT_BLOCK 0x0D
    336 /* waiting for rsp to writting NDEF block                   */
    337 #define RW_T2T_SUBSTATE_WAIT_WRITE_NDEF_NEXT_BLOCK 0x0E
    338 /* waiting for rsp to last NDEF block write cmd             */
    339 #define RW_T2T_SUBSTATE_WAIT_WRITE_NDEF_LAST_BLOCK 0x0F
    340 /* waiting for rsp to reading NDEF len field block          */
    341 #define RW_T2T_SUBSTATE_WAIT_READ_NDEF_LEN_BLOCK 0x10
    342 /* waiting for rsp of updating first NDEF len field block   */
    343 #define RW_T2T_SUBSTATE_WAIT_WRITE_NDEF_LEN_BLOCK 0x11
    344 /* waiting for rsp of updating next NDEF len field block    */
    345 #define RW_T2T_SUBSTATE_WAIT_WRITE_NDEF_LEN_NEXT_BLOCK 0x12
    346 /* waiting for rsp to writing to Terminator tlv             */
    347 #define RW_T2T_SUBSTATE_WAIT_WRITE_TERM_TLV_CMPLT 0x13
    348 
    349 /* Sub states in RW_T2T_STATE_FORMAT_TAG state */
    350 #define RW_T2T_SUBSTATE_WAIT_READ_VERSION_INFO 0x14
    351 /* waiting for response to format/set capability container  */
    352 #define RW_T2T_SUBSTATE_WAIT_SET_CC 0x15
    353 #define RW_T2T_SUBSTATE_WAIT_SET_LOCK_TLV 0x16
    354 /* waiting for response to format/set NULL NDEF             */
    355 #define RW_T2T_SUBSTATE_WAIT_SET_NULL_NDEF 0x17
    356 
    357 /* Sub states in RW_T2T_STATE_SET_TAG_RO state */
    358 /* waiting for response to set CC3 to RO                    */
    359 #define RW_T2T_SUBSTATE_WAIT_SET_CC_RO 0x19
    360 /* waiting for response to read dynamic lock bytes block    */
    361 #define RW_T2T_SUBSTATE_WAIT_READ_DYN_LOCK_BYTE_BLOCK 0x1A
    362 /* waiting for response to set dynamic lock bits            */
    363 #define RW_T2T_SUBSTATE_WAIT_SET_DYN_LOCK_BITS 0x1B
    364 /* waiting for response to set static lock bits             */
    365 #define RW_T2T_SUBSTATE_WAIT_SET_ST_LOCK_BITS 0x1C
    366 
    367 typedef struct {
    368   uint16_t offset;              /* Offset of the lock byte in the Tag */
    369   uint8_t num_bits;             /* Number of lock bits in the lock byte */
    370   uint8_t bytes_locked_per_bit; /* No. of tag bytes gets locked by a bit in this
    371                                    byte       */
    372 } tRW_T2T_LOCK_INFO;
    373 
    374 typedef struct {
    375   uint16_t offset;   /* Reserved bytes offset taken from Memory control TLV */
    376   uint8_t num_bytes; /* Number of reserved bytes as per the TLV */
    377 } tRW_T2T_RES_INFO;
    378 
    379 typedef struct {
    380   uint8_t tlv_index; /* Index of Lock control tlv that points to this address */
    381   uint8_t byte_index; /* Index of Lock byte pointed by the TLV */
    382   uint8_t lock_byte;  /* Value in the lock byte */
    383   tRW_T2T_LOCK_STATUS
    384       lock_status;  /* Indicates if it is modifed to set tag as Read only */
    385   bool b_lock_read; /* Is the lock byte is already read from tag */
    386 } tRW_T2T_LOCK;
    387 
    388 /* RW Type 2 Tag control block */
    389 typedef struct {
    390   uint8_t state;    /* Reader/writer state */
    391   uint8_t substate; /* Reader/write substate in NDEF write state */
    392   uint8_t
    393       prev_substate; /* Substate of the tag before moving to different sector */
    394   uint8_t sector;    /* Sector number that is selected */
    395   uint8_t select_sector; /* Sector number that is expected to get selected */
    396   uint8_t tag_hdr[T2T_READ_DATA_LEN];  /* T2T Header blocks */
    397   uint8_t tag_data[T2T_READ_DATA_LEN]; /* T2T Block 4 - 7 data */
    398   uint8_t ndef_status;    /* The current status of NDEF Write operation */
    399   uint16_t block_read;    /* Read block */
    400   uint16_t block_written; /* Written block */
    401   tT2T_CMD_RSP_INFO*
    402       p_cmd_rsp_info;     /* Pointer to Command rsp info of last sent command */
    403   NFC_HDR* p_cur_cmd_buf; /* Copy of current command, for retx/send after sector
    404                              change   */
    405   NFC_HDR* p_sec_cmd_buf; /* Copy of command, to send after sector change */
    406   TIMER_LIST_ENT t2_timer; /* timeout for each API call */
    407   bool b_read_hdr;         /* Tag header read from tag */
    408   bool b_read_data;        /* Tag data block read from tag */
    409   bool b_hard_lock; /* Hard lock the tag as part of config tag to Read only */
    410   bool check_tag_halt; /* Resent command after NACK rsp to find tag is in HALT
    411                           State   */
    412 #if (RW_NDEF_INCLUDED == TRUE)
    413   bool skip_dyn_locks;   /* Skip reading dynamic lock bytes from the tag */
    414   uint8_t found_tlv;     /* The Tlv found while searching a particular TLV */
    415   uint8_t tlv_detect;    /* TLV type under detection */
    416   uint8_t num_lock_tlvs; /* Number of lcok tlvs detected in the tag */
    417   uint8_t attr_seg;      /* Tag segment for which attributes are prepared */
    418   uint8_t
    419       lock_attr_seg; /* Tag segment for which lock attributes are prepared */
    420   uint8_t segment;   /* Current operating segment */
    421   uint8_t ndef_final_block[T2T_BLOCK_SIZE]; /* Buffer for ndef last block */
    422   uint8_t num_mem_tlvs;  /* Number of memory tlvs detected in the tag */
    423   uint8_t num_lockbytes; /* Number of dynamic lock bytes present in the tag */
    424   uint8_t attr
    425       [RW_T2T_SEGMENT_SIZE]; /* byte information - Reserved/lock/otp or data */
    426   uint8_t lock_attr[RW_T2T_SEGMENT_SIZE];  /* byte information - read only or
    427                                               read write                   */
    428   uint8_t tlv_value[3];                    /* Read value field of TLV */
    429   uint8_t ndef_first_block[T2T_BLOCK_LEN]; /* NDEF TLV Header block */
    430   uint8_t ndef_read_block[T2T_BLOCK_LEN];  /* Buffer to hold read before write
    431                                               block                       */
    432   uint8_t ndef_last_block[T2T_BLOCK_LEN];  /* Terminator TLV block after NDEF
    433                                               Write operation              */
    434   uint8_t terminator_tlv_block[T2T_BLOCK_LEN]; /* Terminator TLV Block */
    435   uint16_t ndef_last_block_num; /* Block where last byte of updating ndef
    436                                    message will exist    */
    437   uint16_t ndef_read_block_num; /* Block read during NDEF Write to avoid
    438                                    overwritting res bytes */
    439   uint16_t
    440       bytes_count; /* No. of bytes remaining to collect during tlv detect */
    441   uint16_t
    442       terminator_byte_index; /* The offset of the tag where terminator tlv may
    443                                 be added      */
    444   uint16_t work_offset;      /* Working byte offset */
    445   uint16_t ndef_header_offset;
    446   uint16_t
    447       ndef_msg_offset;   /* Offset on Tag where first NDEF message is present */
    448   uint16_t ndef_msg_len; /* Lenght of NDEF Message */
    449   uint16_t
    450       max_ndef_msg_len; /* Maximum size of NDEF that can be written on the tag
    451                            */
    452   uint16_t new_ndef_msg_len; /* Lenght of new updating NDEF Message */
    453   uint16_t ndef_write_block;
    454   uint16_t prop_msg_len;      /* Proprietary tlv length */
    455   uint8_t* p_new_ndef_buffer; /* Pointer to updating NDEF Message */
    456   uint8_t* p_ndef_buffer;     /* Pointer to NDEF Message */
    457   tRW_T2T_LOCK_INFO lock_tlv[RW_T2T_MAX_LOCK_TLVS]; /* Information retrieved
    458                                                        from lock control tlv */
    459   tRW_T2T_LOCK
    460       lockbyte[RW_T2T_MAX_LOCK_BYTES]; /* Dynamic Lock byte information */
    461   tRW_T2T_RES_INFO
    462       mem_tlv[RW_T2T_MAX_MEM_TLVS]; /* Information retrieved from mem tlv */
    463 #endif
    464 } tRW_T2T_CB;
    465 
    466 /* Type 3 Tag control block */
    467 typedef uint8_t tRW_T3T_RW_STATE;
    468 
    469 typedef struct {
    470   tNFC_STATUS status;
    471   uint8_t version; /* Ver: peer version */
    472   uint8_t
    473       nbr; /* NBr: number of blocks that can be read using one Check command */
    474   uint8_t nbw;    /* Nbw: number of blocks that can be written using one Update
    475                      command */
    476   uint16_t nmaxb; /* Nmaxb: maximum number of blocks available for NDEF data */
    477   uint8_t writef; /* WriteFlag: 00h if writing data finished; 0Fh if writing
    478                      data in progress */
    479   uint8_t
    480       rwflag;  /* RWFlag: 00h NDEF is read-only; 01h if read/write available */
    481   uint32_t ln; /* Ln: actual size of stored NDEF data (in bytes) */
    482 } tRW_T3T_DETECT;
    483 
    484 /* RW_T3T control block flags */
    485 /* The final command for completing the NDEF read/write */
    486 #define RW_T3T_FL_IS_FINAL_NDEF_SEGMENT 0x01
    487 /* Waiting for POLL response for presence check */
    488 #define RW_T3T_FL_W4_PRESENCE_CHECK_POLL_RSP 0x02
    489 /* Waiting for POLL response for RW_T3tGetSystemCodes */
    490 #define RW_T3T_FL_W4_GET_SC_POLL_RSP 0x04
    491 /* Waiting for POLL response for RW_T3tDetectNDef */
    492 #define RW_T3T_FL_W4_NDEF_DETECT_POLL_RSP 0x08
    493 /* Waiting for POLL response for RW_T3tFormat */
    494 #define RW_T3T_FL_W4_FMT_FELICA_LITE_POLL_RSP 0x10
    495 /* Waiting for POLL response for RW_T3tSetReadOnly */
    496 #define RW_T3T_FL_W4_SRO_FELICA_LITE_POLL_RSP 0x20
    497 
    498 typedef struct {
    499   uint32_t cur_tout; /* Current command timeout */
    500   /* check timeout is check_tout_a + n * check_tout_b; X is T/t3t * 4^E */
    501   uint32_t check_tout_a; /* Check command timeout (A+1)*X */
    502   uint32_t check_tout_b; /* Check command timeout (B+1)*X */
    503   /* update timeout is update_tout_a + n * update_tout_b; X is T/t3t * 4^E */
    504   uint32_t update_tout_a;    /* Update command timeout (A+1)*X */
    505   uint32_t update_tout_b;    /* Update command timeout (B+1)*X */
    506   tRW_T3T_RW_STATE rw_state; /* Reader/writer state */
    507   uint8_t rw_substate;
    508   uint8_t cur_cmd;           /* Current command being executed */
    509   NFC_HDR* p_cur_cmd_buf;    /* Copy of current command, for retransmission */
    510   TIMER_LIST_ENT timer;      /* timeout for waiting for response */
    511   TIMER_LIST_ENT poll_timer; /* timeout for waiting for response */
    512 
    513   tRW_T3T_DETECT ndef_attrib; /* T3T NDEF attribute information */
    514 
    515   uint32_t ndef_msg_len;        /* Length of ndef message to send */
    516   uint32_t ndef_msg_bytes_sent; /* Length of ndef message sent so far */
    517   uint8_t* ndef_msg;            /* Buffer for outgoing NDEF message */
    518   uint32_t ndef_rx_readlen; /* Number of bytes read in current CHECK command */
    519   uint32_t ndef_rx_offset;  /* Length of ndef message read so far */
    520 
    521   uint8_t num_system_codes; /* System codes detected */
    522   uint16_t system_codes[T3T_MAX_SYSTEM_CODES];
    523 
    524   uint8_t peer_nfcid2[NCI_NFCID2_LEN];
    525   uint8_t cur_poll_rc; /* RC used in current POLL command */
    526 
    527   uint8_t flags; /* Flags see RW_T3T_FL_* */
    528 } tRW_T3T_CB;
    529 
    530 /*
    531 **  Type 4 Tag
    532 */
    533 
    534 /* Max data size using a single ReadBinary. 2 bytes are for status bytes */
    535 #define RW_T4T_MAX_DATA_PER_READ                             \
    536   (NFC_RW_POOL_BUF_SIZE - NFC_HDR_SIZE - NCI_DATA_HDR_SIZE - \
    537    T4T_RSP_STATUS_WORDS_SIZE)
    538 
    539 /* Max data size using a single UpdateBinary. 6 bytes are for CLA, INS, P1, P2,
    540  * Lc */
    541 #define RW_T4T_MAX_DATA_PER_WRITE                              \
    542   (NFC_RW_POOL_BUF_SIZE - NFC_HDR_SIZE - NCI_MSG_OFFSET_SIZE - \
    543    NCI_DATA_HDR_SIZE - T4T_CMD_MAX_HDR_SIZE)
    544 
    545 /* Mandatory NDEF file control */
    546 typedef struct {
    547   uint16_t file_id;       /* File Identifier          */
    548   uint16_t max_file_size; /* Max NDEF file size       */
    549   uint8_t read_access;    /* read access condition    */
    550   uint8_t write_access;   /* write access condition   */
    551 } tRW_T4T_NDEF_FC;
    552 
    553 /* Capability Container */
    554 typedef struct {
    555   uint16_t cclen;          /* the size of this capability container        */
    556   uint8_t version;         /* the mapping specification version            */
    557   uint16_t max_le;         /* the max data size by a single ReadBinary     */
    558   uint16_t max_lc;         /* the max data size by a single UpdateBinary   */
    559   tRW_T4T_NDEF_FC ndef_fc; /* Mandatory NDEF file control                  */
    560 } tRW_T4T_CC;
    561 
    562 typedef uint8_t tRW_T4T_RW_STATE;
    563 typedef uint8_t tRW_T4T_RW_SUBSTATE;
    564 
    565 /* Type 4 Tag Control Block */
    566 typedef struct {
    567   tRW_T4T_RW_STATE state;        /* main state                       */
    568   tRW_T4T_RW_SUBSTATE sub_state; /* sub state                        */
    569   uint8_t version;               /* currently effective version      */
    570   TIMER_LIST_ENT timer;          /* timeout for each API call        */
    571 
    572   uint16_t ndef_length;    /* length of NDEF data              */
    573   uint8_t* p_update_data;  /* pointer of data to update        */
    574   uint16_t rw_length;      /* remaining bytes to read/write    */
    575   uint16_t rw_offset;      /* remaining offset to read/write   */
    576   NFC_HDR* p_data_to_free; /* GKI buffet to delete after done  */
    577 
    578   tRW_T4T_CC cc_file; /* Capability Container File        */
    579 
    580 /* NDEF has been detected   */
    581 #define RW_T4T_NDEF_STATUS_NDEF_DETECTED 0x01
    582 /* NDEF file is read-only   */
    583 #define RW_T4T_NDEF_STATUS_NDEF_READ_ONLY 0x02
    584 
    585   uint8_t ndef_status; /* bitmap for NDEF status           */
    586   uint8_t channel;     /* channel id: used for read-binary */
    587 
    588   uint16_t max_read_size;   /* max reading size per a command   */
    589   uint16_t max_update_size; /* max updating size per a command  */
    590   uint16_t card_size;
    591   uint8_t card_type;
    592 } tRW_T4T_CB;
    593 
    594 /* RW retransmission statistics */
    595 #if (RW_STATS_INCLUDED == TRUE)
    596 typedef struct {
    597   uint32_t start_tick;     /* System tick count at activation */
    598   uint32_t bytes_sent;     /* Total bytes sent since activation */
    599   uint32_t bytes_received; /* Total bytes received since activation */
    600   uint32_t num_ops;        /* Number of operations since activation */
    601   uint32_t num_retries;    /* Number of retranmissions since activation */
    602   uint32_t num_crc;        /* Number of crc failures */
    603   uint32_t num_trans_err;  /* Number of transmission error notifications */
    604   uint32_t num_fail;       /* Number of aborts (failures after retries) */
    605 } tRW_STATS;
    606 #endif /* RW_STATS_INCLUDED */
    607 
    608 /* ISO 15693 RW Control Block */
    609 typedef uint8_t tRW_I93_RW_STATE;
    610 typedef uint8_t tRW_I93_RW_SUBSTATE;
    611 
    612 /* tag is read-only                        */
    613 #define RW_I93_FLAG_READ_ONLY 0x01
    614 /* tag supports read multi block           */
    615 #define RW_I93_FLAG_READ_MULTI_BLOCK 0x02
    616 /* need to reset DSFID for formatting      */
    617 #define RW_I93_FLAG_RESET_DSFID 0x04
    618 /* need to reset AFI for formatting        */
    619 #define RW_I93_FLAG_RESET_AFI 0x08
    620 /* use 2 bytes for number of blocks        */
    621 #define RW_I93_FLAG_16BIT_NUM_BLOCK 0x10
    622 /* use extended commands */
    623 #define RW_I93_FLAG_EXT_COMMANDS 0x20
    624 
    625 /* searching for type                      */
    626 #define RW_I93_TLV_DETECT_STATE_TYPE 0x01
    627 /* searching for the first byte of length  */
    628 #define RW_I93_TLV_DETECT_STATE_LENGTH_1 0x02
    629 /* searching for the second byte of length */
    630 #define RW_I93_TLV_DETECT_STATE_LENGTH_2 0x03
    631 /* searching for the third byte of length  */
    632 #define RW_I93_TLV_DETECT_STATE_LENGTH_3 0x04
    633 /* reading value field                     */
    634 #define RW_I93_TLV_DETECT_STATE_VALUE 0x05
    635 
    636 enum {
    637   RW_I93_ICODE_SLI,                  /* ICODE SLI, SLIX                  */
    638   RW_I93_ICODE_SLI_S,                /* ICODE SLI-S, SLIX-S              */
    639   RW_I93_ICODE_SLI_L,                /* ICODE SLI-L, SLIX-L              */
    640   RW_I93_TAG_IT_HF_I_PLUS_INLAY,     /* Tag-it HF-I Plus Inlay           */
    641   RW_I93_TAG_IT_HF_I_PLUS_CHIP,      /* Tag-it HF-I Plus Chip            */
    642   RW_I93_TAG_IT_HF_I_STD_CHIP_INLAY, /* Tag-it HF-I Standard Chip/Inlyas */
    643   RW_I93_TAG_IT_HF_I_PRO_CHIP_INLAY, /* Tag-it HF-I Pro Chip/Inlyas      */
    644   RW_I93_STM_LRI1K,                  /* STM LRI1K                        */
    645   RW_I93_STM_LRI2K,                  /* STM LRI2K                        */
    646   RW_I93_STM_LRIS2K,                 /* STM LRIS2K                       */
    647   RW_I93_STM_LRIS64K,                /* STM LRIS64K                      */
    648   RW_I93_STM_M24LR64_R,              /* STM M24LR64-R                    */
    649   RW_I93_STM_M24LR04E_R,             /* STM M24LR04E-R                   */
    650   RW_I93_STM_M24LR16E_R,             /* STM M24LR16E-R                   */
    651   RW_I93_STM_M24LR64E_R,             /* STM M24LR64E-R                   */
    652   RW_I93_STM_ST25DV04K,              /* STM ST25DV04K                    */
    653   RW_I93_STM_ST25DVHIK,              /* STM ST25DV 16K OR 64K            */
    654   RW_I93_UNKNOWN_PRODUCT             /* Unknwon product version          */
    655 };
    656 
    657 typedef struct {
    658   tRW_I93_RW_STATE state;        /* main state                       */
    659   tRW_I93_RW_SUBSTATE sub_state; /* sub state                        */
    660   TIMER_LIST_ENT timer;          /* timeout for each sent command    */
    661   uint8_t sent_cmd;              /* last sent command                */
    662   uint8_t retry_count;           /* number of retry                  */
    663   NFC_HDR* p_retry_cmd;          /* buffer to store cmd sent last    */
    664 
    665   uint8_t info_flags;            /* information flags                */
    666   uint8_t uid[I93_UID_BYTE_LEN]; /* UID of currently activated       */
    667   uint8_t dsfid;                 /* DSFID if I93_INFO_FLAG_DSFID     */
    668   uint8_t afi;                   /* AFI if I93_INFO_FLAG_AFI         */
    669   uint8_t block_size;            /* block size of tag, in bytes      */
    670   uint16_t num_block;            /* number of blocks in tag          */
    671   uint8_t ic_reference;          /* IC Reference of tag              */
    672   uint8_t product_version;       /* tag product version              */
    673 
    674   uint8_t intl_flags; /* flags for internal information   */
    675 
    676   uint8_t tlv_detect_state; /* TLV detecting state              */
    677   uint8_t tlv_type;         /* currently detected type          */
    678   uint16_t tlv_length;      /* currently detected length        */
    679 
    680   uint16_t ndef_tlv_start_offset; /* offset of first byte of NDEF TLV */
    681   uint16_t ndef_tlv_last_offset;  /* offset of last byte of NDEF TLV  */
    682   uint16_t max_ndef_length;       /* max NDEF length the tag contains */
    683   uint16_t ndef_length;           /* length of NDEF data              */
    684 
    685   uint8_t* p_update_data; /* pointer of data to update        */
    686   uint16_t rw_length;     /* bytes to read/write              */
    687   uint16_t rw_offset;     /* offset to read/write             */
    688 } tRW_I93_CB;
    689 
    690 /* RW memory control blocks */
    691 typedef union {
    692   tRW_T1T_CB t1t;
    693   tRW_T2T_CB t2t;
    694   tRW_T3T_CB t3t;
    695   tRW_T4T_CB t4t;
    696   tRW_I93_CB i93;
    697 } tRW_TCB;
    698 
    699 /* RW control blocks */
    700 typedef struct {
    701   tRW_TCB tcb;
    702   tRW_CBACK* p_cback;
    703   uint32_t cur_retry; /* Retry count for the current operation */
    704 #if (RW_STATS_INCLUDED == TRUE)
    705   tRW_STATS stats;
    706 #endif /* RW_STATS_INCLUDED */
    707 } tRW_CB;
    708 
    709 /*****************************************************************************
    710 **  EXTERNAL FUNCTION DECLARATIONS
    711 *****************************************************************************/
    712 
    713 /* Global NFC data */
    714 extern tRW_CB rw_cb;
    715 
    716 /* from .c */
    717 
    718 #if (RW_NDEF_INCLUDED == TRUE)
    719 extern tRW_EVENT rw_t1t_handle_rsp(const tT1T_CMD_RSP_INFO* p_info,
    720                                    bool* p_notify, uint8_t* p_data,
    721                                    tNFC_STATUS* p_status);
    722 extern tRW_EVENT rw_t1t_info_to_event(const tT1T_CMD_RSP_INFO* p_info);
    723 #else
    724 #define rw_t1t_handle_rsp(p, a, b, c) t1t_info_to_evt(p)
    725 #define rw_t1t_info_to_event(p) t1t_info_to_evt(p)
    726 #endif
    727 
    728 extern void rw_init(void);
    729 extern tNFC_STATUS rw_t1t_select(uint8_t hr[T1T_HR_LEN],
    730                                  uint8_t uid[T1T_CMD_UID_LEN]);
    731 extern tNFC_STATUS rw_t1t_send_dyn_cmd(uint8_t opcode, uint8_t add,
    732                                        uint8_t* p_dat);
    733 extern tNFC_STATUS rw_t1t_send_static_cmd(uint8_t opcode, uint8_t add,
    734                                           uint8_t dat);
    735 extern void rw_t1t_process_timeout(TIMER_LIST_ENT* p_tle);
    736 extern void rw_t1t_handle_op_complete(void);
    737 
    738 #if (RW_NDEF_INCLUDED == TRUE)
    739 extern tRW_EVENT rw_t2t_info_to_event(const tT2T_CMD_RSP_INFO* p_info);
    740 extern void rw_t2t_handle_rsp(uint8_t* p_data);
    741 #else
    742 #define rw_t2t_info_to_event(p) t2t_info_to_evt(p)
    743 #define rw_t2t_handle_rsp(p)
    744 #endif
    745 
    746 extern tNFC_STATUS rw_t2t_sector_change(uint8_t sector);
    747 extern tNFC_STATUS rw_t2t_read(uint16_t block);
    748 extern tNFC_STATUS rw_t2t_write(uint16_t block, uint8_t* p_write_data);
    749 extern void rw_t2t_process_timeout();
    750 extern tNFC_STATUS rw_t2t_select(void);
    751 void rw_t2t_handle_op_complete(void);
    752 
    753 extern void rw_t3t_process_timeout(TIMER_LIST_ENT* p_tle);
    754 extern tNFC_STATUS rw_t3t_select(uint8_t peer_nfcid2[NCI_RF_F_UID_LEN],
    755                                  uint8_t mrti_check, uint8_t mrti_update);
    756 void rw_t3t_handle_nci_poll_ntf(uint8_t nci_status, uint8_t num_responses,
    757                                 uint8_t sensf_res_buf_size,
    758                                 uint8_t* p_sensf_res_buf);
    759 
    760 extern tNFC_STATUS rw_t4t_select(void);
    761 extern void rw_t4t_process_timeout(TIMER_LIST_ENT* p_tle);
    762 
    763 extern tNFC_STATUS rw_i93_select(uint8_t* p_uid);
    764 extern void rw_i93_process_timeout(TIMER_LIST_ENT* p_tle);
    765 extern void rw_t4t_handle_isodep_nak_rsp(uint8_t status, bool is_ntf);
    766 #if (RW_STATS_INCLUDED == TRUE)
    767 /* Internal fcns for statistics (from rw_main.c) */
    768 void rw_main_reset_stats(void);
    769 void rw_main_update_tx_stats(uint32_t bytes_tx, bool is_retry);
    770 void rw_main_update_rx_stats(uint32_t bytes_rx);
    771 void rw_main_update_crc_error_stats(void);
    772 void rw_main_update_trans_error_stats(void);
    773 void rw_main_update_fail_stats(void);
    774 void rw_main_log_stats(void);
    775 #endif /* RW_STATS_INCLUDED */
    776 
    777 #endif /* RW_INT_H_ */
    778