struct rfid_asic_transport_handle;
-#include <sys/types.h>
+#include <librfid/rfid.h>
#include <librfid/rfid_asic.h>
+#include <librfid/rfid_layer2.h>
struct rfid_asic_rc632_transport {
struct {
struct iso14443a_atqa;
struct iso14443a_anticol_cmd;
+struct iso15693_anticol_cmd;
struct rfid_asic_rc632 {
struct {
- int (*power_up)(struct rfid_asic_handle *h);
- int (*power_down)(struct rfid_asic_handle *h);
- int (*turn_on_rf)(struct rfid_asic_handle *h);
- int (*turn_off_rf)(struct rfid_asic_handle *h);
+ int (*power)(struct rfid_asic_handle *h, int on);
+ int (*rf_power)(struct rfid_asic_handle *h, int on);
+ int (*init)(struct rfid_asic_handle *h, enum rfid_layer2_id);
int (*transceive)(struct rfid_asic_handle *h,
enum rfid_frametype,
const u_int8_t *tx_buf,
u_int64_t timeout,
unsigned int flags);
struct {
- int (*init)(struct rfid_asic_handle *h);
int (*transceive_sf)(struct rfid_asic_handle *h,
u_int8_t cmd,
struct iso14443a_atqa *atqa);
unsigned int speed);
} iso14443a;
struct {
- int (*init)(struct rfid_asic_handle *h);
- } iso14443b;
- struct {
- int (*init)(struct rfid_asic_handle *h);
+ int (*transceive_ac)(struct rfid_asic_handle *h,
+ const struct iso15693_anticol_cmd *acf,
+ unsigned int acf_len,
+ struct iso15693_anticol_resp *resp,
+ unsigned int *rx_len, char *bit_of_col);
} iso15693;
struct {
int (*setkey)(struct rfid_asic_handle *h,
const unsigned char *key);
+ int (*setkey_ee)(struct rfid_asic_handle *h,
+ const unsigned int addr);
int (*auth)(struct rfid_asic_handle *h, u_int8_t cmd,
u_int32_t serno, u_int8_t block);
} mifare_classic;
struct rc632_transport_handle th;
};
-#if 0
-int
-rc632_reg_write(struct rfid_asic_handle *handle,
- u_int8_t reg,
- u_int8_t val);
-
-int
-rc632_reg_read(struct rfid_asic_handle *handle,
- u_int8_t reg,
- u_int8_t *val);
-int
-rc632_fifo_write(struct rfid_asic_handle *handle,
- u_int8_t len,
- const u_int32_t *buf,
- u_int8_t flags);
-
-int
-rc632_fifo_read(struct rfid_asic_handle *handle,
- u_int8_t len,
- u_int8_t *buf);
-
-int
-rc632_set_bits(struct rfid_asic_handle *handle, u_int8_t reg,
- u_int82_t val);
-
-int
-rc632_clear_bits(struct rfid_asic_handle *handle, u_int32_t reg,
- u_int32_t val);
-
-
-int
-rc632_turn_on_rf(struct rfid_asic_handle *handle);
-
-
-int
-rc632_turn_off_rf(struct rfid_asic_handle *handle);
-
-int
-rc632_power_up(struct rfid_asic_handle *handle);
-
-int
-rc632_power_down(struct rfid_asic_handle *handle);
-
-
-int
-rc632_wait_idle(struct rfid_asic_handle *handle, u_int64_t time);
-
-int
-rc632_transmit(struct rfid_asic_handle *handle,
- const u_int32_t *buf,
- u_int32_t len,
- u_int64_t timeout);
-
-int
-rc632_transceive(struct rfid_asic_handle *handle,
- const u_int32_t *tx_buf,
- u_int32_t tx_len,
- u_int32_t *rx_buf,
- u_int32_t *rx_len,
- unsigned int timer,
- unsigned int toggle);
-
-int
-rc632_read_eeprom(struct rfid_asic_handle *handle);
-
-
-int
-rc632_calc_crc16_from(struct rfid_asic_handle *handle);
-
-int
-rc632_register_dump(struct rfid_asic_handle *handle, u_int32_t *buf);
-
-
+struct rfid_asic_rc632_impl_proto {
+ u_int8_t mod_conductance;
+ u_int8_t cw_conductance;
+ u_int8_t bitphase;
+ u_int8_t threshold;
+};
-extern struct rfid_asic rc632;
-#endif
+struct rfid_asic_rc632_impl {
+ u_int32_t mru; /* maximum receive unit (PICC->PCD) */
+ u_int32_t mtu; /* maximum transmit unit (PCD->PICC) */
+ //struct rfid_asic_rc632_impl_proto proto[NUM_RFID_PROTOCOLS];
+};
extern struct rfid_asic_handle * rc632_open(struct rfid_asic_transport_handle *th);
extern void rc632_close(struct rfid_asic_handle *h);
+extern int rc632_register_dump(struct rfid_asic_handle *handle, u_int8_t *buf);
+
+
+/* register decoding inlines... */
+#define DEBUGP_ERROR_FLAG(value) do {DEBUGP("error_flag: 0x%0.2x",value); \
+ if (value & RC632_ERR_FLAG_CRC_ERR ) \
+ DEBUGPC(", CRC"); \
+ if (value & RC632_ERR_FLAG_COL_ERR ) \
+ DEBUGPC(", COL"); \
+ if (value & RC632_ERR_FLAG_FRAMING_ERR ) \
+ DEBUGPC(", FRAMING"); \
+ if (value & RC632_ERR_FLAG_PARITY_ERR) \
+ DEBUGPC(", PARITY"); \
+ if (value & RC632_ERR_FLAG_KEY_ERR ) \
+ DEBUGPC(", KEY"); \
+ if (value & RC632_ERR_FLAG_ACCESS_ERR ) \
+ DEBUGPC(", ACCESS"); \
+ DEBUGPC("\n");} while (0);
+
+#define DEBUGP_STATUS_FLAG(foo) do {\
+ DEBUGP("status_flag: 0x%0.2x",foo); \
+ if (foo & RC632_STAT_ERR ) \
+ DEBUGPC(", ERR"); \
+ if (foo & RC632_STAT_HIALERT ) \
+ DEBUGPC(", Hi"); \
+ if (foo & RC632_STAT_IRQ ) \
+ DEBUGPC(", IRQ"); \
+ if (foo & RC632_STAT_LOALERT ) \
+ DEBUGPC(", Lo"); \
+ if ((foo & RC632_STAT_MODEM_MASK) == RC632_STAT_MODEM_AWAITINGRX ) \
+ DEBUGPC(", mAwaitingRX"); \
+ if ((foo & RC632_STAT_MODEM_MASK) == RC632_STAT_MODEM_GOTORX ) \
+ DEBUGPC(", mGotoRX"); \
+ if ((foo & RC632_STAT_MODEM_MASK) == RC632_STAT_MODEM_IDLE ) \
+ DEBUGPC(", mIdle"); \
+ if ((foo & RC632_STAT_MODEM_MASK) == RC632_STAT_MODEM_PREPARERX ) \
+ DEBUGPC(", mPrepareRX"); \
+ if ((foo & RC632_STAT_MODEM_MASK) == RC632_STAT_MODEM_RECV ) \
+ DEBUGPC(", mRX"); \
+ if ((foo & RC632_STAT_MODEM_MASK) == RC632_STAT_MODEM_TXDATA ) \
+ DEBUGPC(", mTXData"); \
+ if ((foo & RC632_STAT_MODEM_MASK) == RC632_STAT_MODEM_TXEOF ) \
+ DEBUGPC(", mTXeof"); \
+ if ((foo & RC632_STAT_MODEM_MASK) == RC632_STAT_MODEM_TXSOF ) \
+ DEBUGPC(", mTXsof"); \
+ DEBUGPC("\n"); } while (0);
+
+#define DEBUGP_INTERRUPT_FLAG(foo) do {\
+ DEBUGP("interrupt_flag: 0x%0.2x",foo); \
+ if (foo & RC632_INT_HIALERT) \
+ DEBUGPC(", HiA"); \
+ if (foo & RC632_INT_LOALERT) \
+ DEBUGPC(", LoA"); \
+ if (foo & RC632_INT_IDLE) \
+ DEBUGPC(", IDLE"); \
+ if (foo & RC632_INT_RX) \
+ DEBUGPC(", RX"); \
+ if (foo & RC632_INT_TX) \
+ DEBUGPC(", TX"); \
+ if (foo & RC632_INT_TIMER) \
+ DEBUGPC(", TIMER"); \
+ if (foo & RC632_INT_SET) \
+ DEBUGPC(", SET"); \
+ DEBUGPC("\n"); } while (0);
#endif