diff options
Diffstat (limited to 'src')
-rw-r--r-- | src/rfid_asic_rc632.c | 8 | ||||
-rw-r--r-- | src/rfid_layer2_iso15693.c | 259 |
2 files changed, 221 insertions, 46 deletions
diff --git a/src/rfid_asic_rc632.c b/src/rfid_asic_rc632.c index 1c64558..28bd5a1 100644 --- a/src/rfid_asic_rc632.c +++ b/src/rfid_asic_rc632.c @@ -288,7 +288,9 @@ static int rc632_wait_idle_timer(struct rfid_asic_handle *handle) DEBUGP_STATUS_FLAG(stat); if (stat & RC632_STAT_ERR) { u_int8_t err; - rc632_reg_read(handle, RC632_REG_ERROR_FLAG, &err); + ret = rc632_reg_read(handle, RC632_REG_ERROR_FLAG, &err); + if (ret < 0) + return ret; DEBUGP_ERROR_FLAG(err); if (err & (RC632_ERR_FLAG_COL_ERR | RC632_ERR_FLAG_PARITY_ERR | @@ -355,7 +357,9 @@ rc632_wait_idle(struct rfid_asic_handle *handle, u_int64_t timeout) ret = rc632_reg_read(handle, RC632_REG_INTERRUPT_RQ, &foo); DEBUGP_INTERRUPT_FLAG("irq_rq",foo); /* clear all interrupts */ - rc632_clear_irqs(handle, 0xff); + ret = rc632_clear_irqs(handle, 0xff); + if (ret < 0) + return ret; } } if (cmd == 0) { diff --git a/src/rfid_layer2_iso15693.c b/src/rfid_layer2_iso15693.c index 8f694cd..6f7ea2e 100644 --- a/src/rfid_layer2_iso15693.c +++ b/src/rfid_layer2_iso15693.c @@ -6,7 +6,7 @@ /* * This program is free software; you can redistribute it and/or modify - * it under the terms of the GNU General Public License version 2 + * it under the terms of the GNU General Public License version 2 * as published by the Free Software Foundation * * This program is distributed in the hope that it will be useful, @@ -18,6 +18,7 @@ * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ +//#define DEBUG_LIBRFID #include <stdlib.h> #include <unistd.h> @@ -29,17 +30,42 @@ #include <librfid/rfid_reader.h> #include <librfid/rfid_layer2_iso15693.h> -struct iso15693_request_read { - struct iso15693_request req; +/*struct iso15693_request_read { + struct iso15693_request head; u_int64_t uid; u_int8_t blocknum; -} __attribute__ ((packed)); +} __attribute__ ((packed));*/ struct iso15693_request_adressed { struct iso15693_request head; u_int64_t uid; } __attribute__ ((packed)); +struct iso15693_request_block_addressed { + struct iso15693_request head; + u_int64_t uid; + u_int8_t blocknum; + u_int8_t data[0]; +} __attribute__ ((packed)); + +struct iso15693_request_block_selected { + struct iso15693_request head; + u_int8_t blocknum; + u_int8_t data[0]; +} __attribute__ ((packed)); + +struct iso15693_err_resp { + struct iso15693_response head; + u_int8_t error; + unsigned char crc[2]; +} __attribute__ ((packed)); + +struct iso15693_response_sec { + struct iso15693_response head; + u_int8_t block_sec; + u_int8_t data[]; +} __attribute__ ((packed)); + #define ISO15693_BLOCK_SIZE_MAX (256/8) #define ISO15693_RESP_SIZE_MAX (4+ISO15693_BLOCK_SIZE_MAX) @@ -69,6 +95,8 @@ iso15693_get_response_error_name(u_int8_t error){ return "ERR_INVALID"; case RFID_15693_ERR_UNKNOWN: /* unknown error */ return "ERR_UNKNOWN"; + case RFID_15693_ERR_NOTSUPP_OPTION: + return "ERR_NotSuppOpt"; case RFID_15693_ERR_BLOCK_NA: /* block not available */ return "ERR_BLOCK_N"; case RFID_15693_ERR_BLOCK_LOCKED: @@ -111,49 +139,180 @@ iso15693_transceive_acf(struct rfid_layer2_handle *handle, return rdr->iso15693.transceive_ac(handle->rh, acf, acf_len, resp, rx_len, bit_of_col); } -#if 0 -static int +int iso15693_read_block(struct rfid_layer2_handle *handle, - u_int8_t blocknr, u_int32_t *data) + u_int8_t blocknr, u_int32_t *data, unsigned int len, + unsigned char *block_sec_out) { - int rc; - struct iso15693_request_read req; + union { + struct iso15693_request_block_selected sel; + struct iso15693_request_block_addressed addr; + } tx_req; + + int ret; + unsigned char *errstr; + unsigned int rx_len, tx_len,timeout; u_int8_t resp[ISO15693_RESP_SIZE_MAX]; + struct iso15693_err_resp *rx_err; + struct iso15693_response *rx_pkt; + struct iso15693_response_sec *rx_pkt_sec; + + rx_pkt_sec = (struct iso15693_response *)&resp[0]; + rx_pkt = (struct iso15693_response *)&resp[0]; + rx_err = (struct iso15693_err_resp *)&resp[0]; + + memset(&tx_req,0,sizeof(tx_req)); + + rx_len = sizeof(resp); + + tx_req.sel.head.command = ISO15693_CMD_READ_BLOCK_SINGLE; - req.req.flags = 0; - req.command = ISO15693_CMD_READ_BLOCK_SINGLE; - memcpy(&req.uid, handle->..., ISO15693_UID_LEN); - req.blocknum = blocknr; + if (handle->priv.iso15693.vicc_fast){ + tx_req.sel.head.flags |= RFID_15693_F_RATE_HIGH; + timeout=iso15693_timing[ISO15693_T_FAST][ISO15693_T4]; + }else + timeout=iso15693_timing[ISO15693_T_SLOW][ISO15693_T4]; - /* FIXME: fill CRC if required */ + if (handle->priv.iso15693.vicc_two_subc) + tx_req.sel.head.flags |= RFID_15693_F_SUBC_TWO; + + if (block_sec_out!=NULL) + tx_req.sel.head.flags |= RFID_15693_F4_CUSTOM; + + if (handle->priv.iso15693.state==RFID_15693_STATE_SELECTED) { + tx_len = sizeof(struct iso15693_request_block_selected); + tx_req.sel.blocknum = blocknr; + tx_req.sel.head.flags |= RFID_15693_F4_SELECTED; + } else { + tx_len = sizeof(struct iso15693_request_block_addressed); + memcpy(&tx_req.addr.uid, handle->uid, ISO15693_UID_LEN); + tx_req.addr.head.flags |= RFID_15693_F4_ADDRESS; + tx_req.addr.blocknum = blocknr; + } + + //DEBUGP("sizeof: addr: %d sel:%d\n",sizeof(struct iso15693_request_read_addressed),sizeof(struct iso15693_request_read_selected)); + DEBUGP("tx_len=%u", tx_len); DEBUGPC(" rx_len=%u\n",rx_len); - rc = iso15693_transceive(... &req, ..., ); + ret = iso15693_transceive(handle, RFID_15693_FRAME, (u_int8_t*)&tx_req, + tx_len, resp, &rx_len, timeout, 0); - if (rc < 0) - return rc; + if (ret==-ETIMEDOUT) + errstr="(TIMEOUT)"; + else if (ret==-EIO) + errstr="(EIO)"; + else + errstr=""; + DEBUGP("length: %d rx_len: %d ret: %d%s\n",len,rx_len,ret,errstr); - memcpy(data, resp+1, rc-1); /* FIXME rc-3 in case of CRC */ + if (ret < 0) + return ret; - return rc-1; + if (rx_len > len+1) + return -1; + DEBUGP("error_flag: %d", rx_pkt->flags&RFID_15693_RF_ERROR); + if (rx_pkt->flags & RFID_15693_RF_ERROR) { + DEBUGPC(" -> error: %02x '%s'\n", rx_err->error, + iso15693_get_response_error_name(rx_err->error)); + return -1; + } else if (block_sec_out != NULL) { + DEBUGPC(" block_sec_stat: 0x%02x\n",rx_pkt_sec->block_sec); + memcpy(data, rx_pkt_sec->data, rx_len-2); + return rx_len-2; + } else { + memcpy(data, rx_pkt->data, rx_len-1); /* FIXME rc-3 in case of CRC */ + return rx_len-1; + } } -static int -iso15693_write_block() +int +iso15693_write_block(struct rfid_layer2_handle *handle, + u_int8_t blocknr, u_int32_t *data, unsigned int len) { - struct iso16593_request_read *rreq; - u_int32_t buf[sizeof(req)+ISO15693_BLOCK_SIZE_MAX]; + int ret; + unsigned char *errstr; + unsigned int rx_len, tx_len,timeout; - rreq = (struct iso15693_request_read *) req; + union{ + struct iso15693_request_block_selected sel; + struct iso15693_request_block_addressed addr; + u_int32_t buf[sizeof(struct iso15693_request_block_addressed)+ISO15693_BLOCK_SIZE_MAX]; + } tx_req; - rreq->req.flags = ; - rreq->req.command = ISO15693_CMD_WRITE_BLOCK_SINGLE; - memcpy(rreq->uid, handle->, ISO15693_UID_LEN); - rreq->blocknum = blocknr; - memcpy(rreq->); + u_int8_t resp[ISO15693_RESP_SIZE_MAX]; + struct iso15693_response *rx_pkt; + struct iso15693_err_resp *rx_err; + + rx_pkt = (struct iso15693_response *)&resp[0]; + rx_err = (struct iso15693_err_resp *)&resp[0]; + rx_len = sizeof(resp); + + if (len > ISO15693_BLOCK_SIZE_MAX) + return -1; + + //return -1; + + memset(&tx_req,0,sizeof(tx_req)); + tx_req.sel.head.command = ISO15693_CMD_WRITE_BLOCK_SINGLE; + + if (handle->priv.iso15693.vicc_fast) { + tx_req.sel.head.flags |= RFID_15693_F_RATE_HIGH; + timeout = iso15693_timing[ISO15693_T_FAST][ISO15693_T4_WRITE]; + } else + timeout = iso15693_timing[ISO15693_T_SLOW][ISO15693_T4_WRITE]; + + if (handle->priv.iso15693.vicc_two_subc) + tx_req.sel.head.flags |= RFID_15693_F_SUBC_TWO; + + if (handle->priv.iso15693.state == RFID_15693_STATE_SELECTED) { + tx_len=sizeof(struct iso15693_request_block_selected)+len; + tx_req.sel.head.flags |= RFID_15693_F4_SELECTED; + tx_req.sel.blocknum = blocknr; + memcpy(&tx_req.sel.data,data,len); + } else { + memcpy(&tx_req.addr.uid, handle->uid, ISO15693_UID_LEN); + tx_len=sizeof(struct iso15693_request_block_addressed)+len; + tx_req.addr.head.flags |= RFID_15693_F4_ADDRESS; + tx_req.addr.blocknum = blocknr; + memcpy(&tx_req.addr.data,data,len); + } + + //DEBUGP("sizeof: addr: %d sel:%d\n",sizeof(struct iso15693_request_read_addressed),sizeof(struct iso15693_request_read_selected)); + DEBUGP("tx_len=%u", tx_len); DEBUGPC(" rx_len=%u\n",rx_len); + + ret = iso15693_transceive(handle, RFID_15693_FRAME, (u_int8_t*)&tx_req, + tx_len, resp, &rx_len, timeout, 0); + + if (ret == -ETIMEDOUT) + errstr = "(TIMEOUT)"; + else if (ret == -EIO) + errstr = "(EIO)"; + else + errstr = ""; + DEBUGP("length: %d rx_len: %d ret: %d%s\n",len,rx_len,ret,errstr); + + if (ret < 0) + return ret; + + if (rx_len > len+1) + return -1; + DEBUGP("error_flag: %d", rx_pkt->flags & RFID_15693_RF_ERROR); + if (rx_pkt->flags & RFID_15693_RF_ERROR) { + DEBUGPC(" -> error: %02x '%s'\n", rx_err->error, + iso15693_get_response_error_name(rx_err->error)); + return -1; + } else { + //DEBUGPC(" block_sec_stat: 0x%02x\n",rx_pkt->data[0]); + //memcpy(data, rx_pkt->data, rx_len-1); /* FIXME rc-3 in case of CRC */ + //return rx_len-1; + return 0; + } } + +#if 0 + static int iso15693_lock_block() { @@ -178,13 +337,13 @@ iso15693_build_acf(u_int8_t *target, u_int8_t flags, u_int8_t afi, req->data[i++] = mask_len; mask_bytes = mask_len/8 + (mask_len%8)?1:0; - mask_p=&req->data[i]; + mask_p = &req->data[i]; for (j = 0; j < mask_bytes; j++) req->data[i++] = mask[j]; byte = 0xFF >> (8-mask_len%8); - req->data[i-1]&=byte; + req->data[i-1] &= byte; DEBUGP("mask_len: %d mask_bytes: %d i: %d return: %d mask:%s\n", mask_len,mask_bytes,i,i + sizeof(*req),rfid_hexdump(mask_p,mask_bytes)); @@ -203,9 +362,9 @@ iso15693_anticol(struct rfid_layer2_handle *handle) } acf; struct iso15693_anticol_resp resp; - + u_int8_t boc; -#define MAX_SLOTS 16 +#define MAX_SLOTS 16 int num_slots = MAX_SLOTS; u_int8_t uuid_list[MAX_SLOTS][ISO15693_UID_LEN]; @@ -350,12 +509,12 @@ start_of_ac_loop: return num_valid; } -static int +int iso15693_select(struct rfid_layer2_handle *l2h) { struct iso15693_request_adressed tx_req; int ret; - unsigned int rx_len, tx_len; + unsigned int rx_len, tx_len, timeout; struct { struct iso15693_response head; @@ -364,27 +523,39 @@ iso15693_select(struct rfid_layer2_handle *l2h) } rx_buf; rx_len = sizeof(rx_buf); + if (l2h->priv.iso15693.vicc_fast) { + tx_req.head.flags |= RFID_15693_F_RATE_HIGH; + timeout = iso15693_timing[ISO15693_T_FAST][ISO15693_T4]; + } else + timeout = iso15693_timing[ISO15693_T_SLOW][ISO15693_T4]; + tx_req.head.command = ISO15693_CMD_SELECT; tx_req.head.flags = RFID_15693_F4_ADDRESS; + if (l2h->priv.iso15693.vicc_fast) tx_req.head.flags |= RFID_15693_F_RATE_HIGH; if (l2h->priv.iso15693.vicc_two_subc) tx_req.head.flags |= RFID_15693_F_SUBC_TWO; + memcpy(&tx_req.uid, l2h->uid, ISO15693_UID_LEN); tx_len = sizeof(tx_req); - DEBUGP("tx_len=%u", tx_len); DEBUGPC(" rx_len=%u\n",rx_len); + DEBUGP("tx_len=%u, rx_len=%u\n", tx_len,rx_len); - DEBUGP("ret: %d%s, error_flag: %d", ret,(ret==-ETIMEDOUT)?"(TIMEOUT)":"", - rx_buf.head.flags&RFID_15693_RF_ERROR); - if (rx_buf.head.flags&RFID_15693_RF_ERROR){ + ret = iso15693_transceive(l2h, RFID_15693_FRAME, (u_int8_t*)&tx_req, + tx_len, (u_int8_t*)&rx_buf, &rx_len,timeout ,0); + + DEBUGP("ret: %d%s, rx_len: %d, error_flag: %d", ret, + (ret==-ETIMEDOUT)?"(TIMEOUT)":"", rx_len, + rx_buf.head.flags&RFID_15693_RF_ERROR); + if (rx_buf.head.flags & RFID_15693_RF_ERROR) { DEBUGPC(" -> error: %02x '%s'\n", rx_buf.error, iso15693_get_response_error_name(rx_buf.error)); + return -1; + } else { + DEBUGPC(" SELECTED\n"); l2h->priv.iso15693.state = RFID_15693_STATE_SELECTED; return 0; - }else{ - DEBUGPC("\n"); - return -1; } } @@ -438,7 +609,7 @@ iso15693_getopt(struct rfid_layer2_handle *handle, if (!optlen || !optval || *optlen < sizeof(unsigned int)) return -EINVAL; - + *optlen = sizeof(unsigned int); switch (optname) { @@ -495,7 +666,7 @@ iso15693_setopt(struct rfid_layer2_handle *handle, int optname, const void *optval, unsigned int optlen) { unsigned int val; - + if (optlen < sizeof(u_int8_t) || !optval) return -EINVAL; |