/*******************************************************************************
**
** Function rw_t2t_proc_data
**
** Description This function handles data evt received from NFC Controller.
**
** Returns none
**
*******************************************************************************/
static void rw_t2t_proc_data (UINT8 conn_id, tNFC_DATA_CEVT *p_data)
{
tRW_EVENT rw_event = RW_RAW_FRAME_EVT;
tRW_T2T_CB *p_t2t = &rw_cb.tcb.t2t;
BT_HDR *p_pkt = p_data->p_data;
BOOLEAN b_notify = TRUE;
BOOLEAN b_release = TRUE;
UINT8 *p;
tRW_READ_DATA evt_data = {0};
tT2T_CMD_RSP_INFO *p_cmd_rsp_info = (tT2T_CMD_RSP_INFO *) rw_cb.tcb.t2t.p_cmd_rsp_info;
tRW_DETECT_NDEF_DATA ndef_data;
#if (BT_TRACE_VERBOSE == TRUE)
UINT8 begin_state = p_t2t->state;
#endif
if ( (p_t2t->state == RW_T2T_STATE_IDLE)
||(p_cmd_rsp_info == NULL) )
{
#if (BT_TRACE_VERBOSE == TRUE)
RW_TRACE_DEBUG2 ("RW T2T Raw Frame: Len [0x%X] Status [%s]", p_pkt->len, NFC_GetStatusName (p_data->status));
#else
RW_TRACE_DEBUG2 ("RW T2T Raw Frame: Len [0x%X] Status [0x%X]", p_pkt->len, p_data->status);
#endif
evt_data.status = p_data->status;
evt_data.p_data = p_pkt;
(*rw_cb.p_cback) (RW_T2T_RAW_FRAME_EVT, (tRW_DATA *)&evt_data);
return;
}
#if (defined (RW_STATS_INCLUDED) && (RW_STATS_INCLUDED == TRUE))
/* Update rx stats */
rw_main_update_rx_stats (p_pkt->len);
#endif
/* Stop timer as response is received */
nfc_stop_quick_timer (&p_t2t->t2_timer);
RW_TRACE_EVENT2 ("RW RECV [%s]:0x%x RSP", t2t_info_to_str (p_cmd_rsp_info), p_cmd_rsp_info->opcode);
if ( ( (p_pkt->len != p_cmd_rsp_info->rsp_len)
&&(p_pkt->len != p_cmd_rsp_info->nack_rsp_len)
&&(p_t2t->substate != RW_T2T_SUBSTATE_WAIT_SELECT_SECTOR) )
||(p_t2t->state == RW_T2T_STATE_HALT) )
{
#if (BT_TRACE_VERBOSE == TRUE)
RW_TRACE_ERROR1 ("T2T Frame error. state=%s ", rw_t2t_get_state_name (p_t2t->state));
#else
RW_TRACE_ERROR1 ("T2T Frame error. state=0x%02X command=0x%02X ", p_t2t->state);
#endif
if (p_t2t->state != RW_T2T_STATE_HALT)
{
/* Retrasmit the last sent command if retry-count < max retry */
rw_t2t_process_frame_error ();
p_t2t->check_tag_halt = FALSE;
}
GKI_freebuf (p_pkt);
return;
}
rw_cb.cur_retry = 0;
/* Assume the data is just the response byte sequence */
p = (UINT8 *) (p_pkt + 1) + p_pkt->offset;
RW_TRACE_EVENT4 ("rw_t2t_proc_data State: %u conn_id: %u len: %u data[0]: 0x%02x",
p_t2t->state, conn_id, p_pkt->len, *p);
evt_data.p_data = NULL;
if (p_t2t->substate == RW_T2T_SUBSTATE_WAIT_SELECT_SECTOR_SUPPORT)
{
/* The select process happens in two steps */
if ((*p & 0x0f) == T2T_RSP_ACK)
{
if (rw_t2t_sector_change (p_t2t->select_sector) == NFC_STATUS_OK)
b_notify = FALSE;
else
evt_data.status = NFC_STATUS_FAILED;
}
else
{
RW_TRACE_EVENT1 ("rw_t2t_proc_data - Received NACK response(0x%x) to SEC-SELCT CMD", (*p & 0x0f));
evt_data.status = NFC_STATUS_REJECTED;
}
}
else if (p_t2t->substate == RW_T2T_SUBSTATE_WAIT_SELECT_SECTOR)
{
evt_data.status = NFC_STATUS_FAILED;
}
else if ( (p_pkt->len != p_cmd_rsp_info->rsp_len)
||((p_cmd_rsp_info->opcode == T2T_CMD_WRITE) && ((*p & 0x0f) != T2T_RSP_ACK)) )
{
/* Received NACK response */
evt_data.p_data = p_pkt;
if (p_t2t->state == RW_T2T_STATE_READ)
b_release = FALSE;
RW_TRACE_EVENT1 ("rw_t2t_proc_data - Received NACK response(0x%x)", (*p & 0x0f));
if (!p_t2t->check_tag_halt)
{
/* Just received first NACK. Retry just one time to find if tag went in to HALT State */
b_notify = FALSE;
rw_t2t_process_error ();
/* Assume Tag is in HALT State, untill we get response to retry command */
p_t2t->check_tag_halt = TRUE;
}
else
{
p_t2t->check_tag_halt = FALSE;
/* Got consecutive NACK so tag not really halt after first NACK, but current operation failed */
evt_data.status = NFC_STATUS_FAILED;
}
}
else
{
/* If the response length indicates positive response or cannot be known from length then assume success */
evt_data.status = NFC_STATUS_OK;
p_t2t->check_tag_halt = FALSE;
/* The response data depends on what the current operation was */
switch (p_t2t->state)
{
case RW_T2T_STATE_CHECK_PRESENCE:
b_notify = FALSE;
rw_t2t_handle_presence_check_rsp (NFC_STATUS_OK);
break;
case RW_T2T_STATE_READ:
evt_data.p_data = p_pkt;
b_release = FALSE;
if (p_t2t->block_read == 0)
{
p_t2t->b_read_hdr = TRUE;
memcpy (p_t2t->tag_hdr, p, T2T_READ_DATA_LEN);
#if(NFC_NXP_NOT_OPEN_INCLUDED == TRUE)
/* On Ultralight - C tag, if CC is corrupt, correct it */
if ( (p_t2t->tag_hdr[0] == TAG_MIFARE_MID)
&&(p_t2t->tag_hdr[T2T_CC2_TMS_BYTE] >= T2T_INVALID_CC_TMS_VAL0)
&&(p_t2t->tag_hdr[T2T_CC2_TMS_BYTE] <= T2T_INVALID_CC_TMS_VAL1) )
{
p_t2t->tag_hdr[T2T_CC2_TMS_BYTE] = T2T_CC2_TMS_MULC;
}
#endif
}
break;
case RW_T2T_STATE_WRITE:
/* Write operation completed successfully */
break;
default:
/* NDEF/other Tlv Operation/Format-Tag/Config Tag as Read only */
b_notify = FALSE;
rw_t2t_handle_rsp (p);
break;
}
}
if (b_notify)
{
rw_event = rw_t2t_info_to_event (p_cmd_rsp_info);
if (rw_event == RW_T2T_NDEF_DETECT_EVT)
{
ndef_data.status = evt_data.status;
ndef_data.protocol = NFC_PROTOCOL_T2T;
ndef_data.flags = RW_NDEF_FL_UNKNOWN;
if (p_t2t->substate == RW_T2T_SUBSTATE_WAIT_READ_LOCKS)
ndef_data.flags = RW_NDEF_FL_FORMATED;
ndef_data.max_size = 0;
ndef_data.cur_size = 0;
/* Move back to idle state */
rw_t2t_handle_op_complete ();
(*rw_cb.p_cback) (rw_event, (tRW_DATA *) &ndef_data);
}
else
{
/* Move back to idle state */
rw_t2t_handle_op_complete ();
(*rw_cb.p_cback) (rw_event, (tRW_DATA *) &evt_data);
}
}
if (b_release)
GKI_freebuf (p_pkt);
#if (BT_TRACE_VERBOSE == TRUE)
if (begin_state != p_t2t->state)
{
RW_TRACE_DEBUG2 ("RW T2T state changed:<%s> -> <%s>",
rw_t2t_get_state_name (begin_state),
rw_t2t_get_state_name (p_t2t->state));
}
#endif
}
/*******************************************************************************
**
** Function rw_t1t_data_cback
**
** Description This callback function handles data from NFCC.
**
** Returns none
**
*******************************************************************************/
static void rw_t1t_data_cback (UINT8 conn_id, tNFC_CONN_EVT event, tNFC_CONN *p_data)
{
tRW_T1T_CB *p_t1t = &rw_cb.tcb.t1t;
tRW_EVENT rw_event = RW_RAW_FRAME_EVT;
BOOLEAN b_notify = TRUE;
tRW_DATA evt_data;
BT_HDR *p_pkt;
UINT8 *p;
tT1T_CMD_RSP_INFO *p_cmd_rsp_info = (tT1T_CMD_RSP_INFO *) rw_cb.tcb.t1t.p_cmd_rsp_info;
#if (BT_TRACE_VERBOSE == TRUE)
UINT8 begin_state = p_t1t->state;
#endif
p_pkt = (BT_HDR *) (p_data->data.p_data);
if (p_pkt == NULL)
return;
/* Assume the data is just the response byte sequence */
p = (UINT8 *) (p_pkt + 1) + p_pkt->offset;
#if (BT_TRACE_VERBOSE == TRUE)
RW_TRACE_DEBUG2 ("rw_t1t_data_cback (): state:%s (%d)", rw_t1t_get_state_name (p_t1t->state), p_t1t->state);
#else
RW_TRACE_DEBUG1 ("rw_t1t_data_cback (): state=%d", p_t1t->state);
#endif
evt_data.status = NFC_STATUS_OK;
if( (p_t1t->state == RW_T1T_STATE_IDLE)
||(!p_cmd_rsp_info) )
{
/* If previous command was retransmitted and if response is pending to previous command retransmission,
* check if lenght and ADD/ADD8/ADDS field matches the expected value of previous
* retransmited command response. However, ignore ADD field if the command was RALL/RID
*/
if ( (p_t1t->prev_cmd_rsp_info.pend_retx_rsp)
&&(p_t1t->prev_cmd_rsp_info.rsp_len == p_pkt->len)
&&((p_t1t->prev_cmd_rsp_info.op_code == T1T_CMD_RID) || (p_t1t->prev_cmd_rsp_info.op_code == T1T_CMD_RALL) || (p_t1t->prev_cmd_rsp_info.addr == *p)) )
{
/* Response to previous command retransmission */
RW_TRACE_ERROR2 ("T1T Response to previous command in Idle state. command=0x%02x, Remaining max retx rsp:0x%02x ", p_t1t->prev_cmd_rsp_info.op_code, p_t1t->prev_cmd_rsp_info.pend_retx_rsp - 1);
p_t1t->prev_cmd_rsp_info.pend_retx_rsp--;
GKI_freebuf (p_pkt);
}
else
{
/* Raw frame event */
evt_data.data.p_data = p_pkt;
(*rw_cb.p_cback) (RW_T1T_RAW_FRAME_EVT, (tRW_DATA *) &evt_data);
}
return;
}
#if (defined (RW_STATS_INCLUDED) && (RW_STATS_INCLUDED == TRUE))
/* Update rx stats */
rw_main_update_rx_stats (p_pkt->len);
#endif /* RW_STATS_INCLUDED */
if ( (p_pkt->len != p_cmd_rsp_info->rsp_len)
||((p_cmd_rsp_info->opcode != T1T_CMD_RALL) && (p_cmd_rsp_info->opcode != T1T_CMD_RID) && (*p != p_t1t->addr)) )
{
/* If previous command was retransmitted and if response is pending to previous command retransmission,
* then check if lenght and ADD/ADD8/ADDS field matches the expected value of previous
* retransmited command response. However, ignore ADD field if the command was RALL/RID
*/
if ( (p_t1t->prev_cmd_rsp_info.pend_retx_rsp)
&&(p_t1t->prev_cmd_rsp_info.rsp_len == p_pkt->len)
&&((p_t1t->prev_cmd_rsp_info.op_code == T1T_CMD_RID) || (p_t1t->prev_cmd_rsp_info.op_code == T1T_CMD_RALL) || (p_t1t->prev_cmd_rsp_info.addr == *p)) )
{
RW_TRACE_ERROR2 ("T1T Response to previous command. command=0x%02x, Remaining max retx rsp:0x%02x", p_t1t->prev_cmd_rsp_info.op_code, p_t1t->prev_cmd_rsp_info.pend_retx_rsp - 1);
p_t1t->prev_cmd_rsp_info.pend_retx_rsp--;
}
else
{
/* Stop timer as some response to current command is received */
nfc_stop_quick_timer (&p_t1t->timer);
/* Retrasmit the last sent command if retry-count < max retry */
#if (BT_TRACE_VERBOSE == TRUE)
RW_TRACE_ERROR2 ("T1T Frame error. state=%s command (opcode) = 0x%02x", rw_t1t_get_state_name (p_t1t->state), p_cmd_rsp_info->opcode);
#else
RW_TRACE_ERROR2 ("T1T Frame error. state=0x%02x command = 0x%02x ", p_t1t->state, p_cmd_rsp_info->opcode);
#endif
rw_t1t_process_frame_error ();
}
GKI_freebuf (p_pkt);
return;
}
/* Stop timer as response to current command is received */
nfc_stop_quick_timer (&p_t1t->timer);
RW_TRACE_EVENT2 ("RW RECV [%s]:0x%x RSP", t1t_info_to_str (p_cmd_rsp_info), p_cmd_rsp_info->opcode);
/* If we did not receive response to all retransmitted previous command,
* dont expect that as response have come for the current command itself.
*/
if (p_t1t->prev_cmd_rsp_info.pend_retx_rsp)
memset (&(p_t1t->prev_cmd_rsp_info), 0, sizeof (tRW_T1T_PREV_CMD_RSP_INFO));
if (rw_cb.cur_retry)
{
/* If the current command was retransmitted to get this response, we might get
response later to all or some of the retrasnmission of the current command
*/
p_t1t->prev_cmd_rsp_info.addr = ((p_cmd_rsp_info->opcode != T1T_CMD_RALL) && (p_cmd_rsp_info->opcode != T1T_CMD_RID))? p_t1t->addr:0;
p_t1t->prev_cmd_rsp_info.rsp_len = p_cmd_rsp_info->rsp_len;
p_t1t->prev_cmd_rsp_info.op_code = p_cmd_rsp_info->opcode;
p_t1t->prev_cmd_rsp_info.pend_retx_rsp = (UINT8) rw_cb.cur_retry;
}
rw_cb.cur_retry = 0;
if (p_cmd_rsp_info->opcode == T1T_CMD_RID)
{
rw_event = rw_t1t_handle_rid_rsp (p_pkt);
}
else
{
rw_event = rw_t1t_handle_rsp (p_cmd_rsp_info, &b_notify, p, &evt_data.status);
}
if (b_notify)
{
if( (p_t1t->state != RW_T1T_STATE_READ)
&&(p_t1t->state != RW_T1T_STATE_WRITE) )
{
GKI_freebuf (p_pkt);
evt_data.data.p_data = NULL;
}
else
{
evt_data.data.p_data = p_pkt;
}
rw_t1t_handle_op_complete ();
(*rw_cb.p_cback) (rw_event, (tRW_DATA *) &evt_data);
}
else
GKI_freebuf (p_pkt);
#if (BT_TRACE_VERBOSE == TRUE)
if (begin_state != p_t1t->state)
{
RW_TRACE_DEBUG2 ("RW T1T state changed:<%s> -> <%s>",
rw_t1t_get_state_name (begin_state),
rw_t1t_get_state_name (p_t1t->state));
}
#endif
}
