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LibrePilot/flight/AHRS/ahrs_fsm.c
peabody124 9b28f2d72c OP-167 OP-157 AHRS/Calibration: Added mag scale and really cleaned up calibration.
Calibration should take less time now too (using second moments to estimate
variance in one pass).  Now need to change to multiple messages to get the
calibration in to keep the request message size minimal.  Also currently
running sensor calibrate doesn't store the gyro bias so if you want to use this
you'll have to tweak it manually.  I'll fix that step tomorrow.

git-svn-id: svn://svn.openpilot.org/OpenPilot/trunk@1741 ebee16cc-31ac-478f-84a7-5cbb03baadba
2010-09-25 09:20:38 +00:00

735 lines
19 KiB
C

/**
******************************************************************************
* @addtogroup AHRS AHRS
* @brief The AHRS Modules perform
*
* @{
* @addtogroup AHRS_ADC AHRS ADC
* @brief Specialized ADC code for double buffered DMA for AHRS
* @{
*
*
* @file ahrs.c
* @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2010.
* @brief INSGPS Test Program
* @see The GNU Public License (GPL) Version 3
*
*****************************************************************************/
/*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include <stdint.h> /* uint*_t */
#include <stddef.h> /* NULL */
#include "ahrs_fsm.h"
#include "pios_opahrs_proto.h"
#include "pios.h"
struct lfsm_context {
enum lfsm_state curr_state;
enum opahrs_msg_link_state link_state;
enum opahrs_msg_type user_payload_type;
uint32_t user_payload_len;
uint32_t errors;
uint8_t *rx;
uint8_t *tx;
uint8_t *link_rx;
uint8_t *link_tx;
uint8_t *user_rx;
uint8_t *user_tx;
struct lfsm_link_stats stats;
};
static struct lfsm_context context = { 0 };
static void lfsm_update_link_tx(struct lfsm_context *context);
static void lfsm_init_rx(struct lfsm_context *context);
/*
*
* Link Finite State Machine
*
*/
struct lfsm_transition {
void (*entry_fn) (struct lfsm_context * context);
enum lfsm_state next_state[LFSM_EVENT_NUM_EVENTS];
};
static void go_faulted(struct lfsm_context *context);
static void go_stopped(struct lfsm_context *context);
static void go_stopping(struct lfsm_context *context);
static void go_inactive(struct lfsm_context *context);
static void go_user_busy(struct lfsm_context *context);
static void go_user_busy_rx_pending(struct lfsm_context *context);
static void go_user_busy_tx_pending(struct lfsm_context *context);
static void go_user_busy_rxtx_pending(struct lfsm_context *context);
static void go_user_rx_pending(struct lfsm_context *context);
static void go_user_tx_pending(struct lfsm_context *context);
static void go_user_rxtx_pending(struct lfsm_context *context);
static void go_user_rx_active(struct lfsm_context *context);
static void go_user_tx_active(struct lfsm_context *context);
static void go_user_rxtx_active(struct lfsm_context *context);
const static struct lfsm_transition lfsm_transitions[LFSM_STATE_NUM_STATES]
= {
[LFSM_STATE_FAULTED] = {
.entry_fn = go_faulted,
},
[LFSM_STATE_STOPPED] = {
.entry_fn = go_stopped,
.next_state = {
[LFSM_EVENT_INIT_LINK] =
LFSM_STATE_INACTIVE,
[LFSM_EVENT_RX_UNKNOWN] =
LFSM_STATE_STOPPED,
},
},
[LFSM_STATE_STOPPING] = {
.entry_fn = go_stopping,
.next_state = {
[LFSM_EVENT_RX_LINK] =
LFSM_STATE_STOPPED,
[LFSM_EVENT_RX_USER] =
LFSM_STATE_STOPPED,
[LFSM_EVENT_RX_UNKNOWN] =
LFSM_STATE_STOPPED,
},
},
[LFSM_STATE_INACTIVE] = {
.entry_fn = go_inactive,
.next_state = {
[LFSM_EVENT_STOP] =
LFSM_STATE_STOPPING,
[LFSM_EVENT_USER_SET_RX] =
LFSM_STATE_USER_BUSY_RX_PENDING,
[LFSM_EVENT_USER_SET_TX] =
LFSM_STATE_USER_BUSY_TX_PENDING,
[LFSM_EVENT_RX_LINK] =
LFSM_STATE_INACTIVE,
[LFSM_EVENT_RX_USER] =
LFSM_STATE_INACTIVE,
[LFSM_EVENT_RX_UNKNOWN] =
LFSM_STATE_INACTIVE,
},
},
[LFSM_STATE_USER_BUSY] = {
.entry_fn = go_user_busy,
.next_state = {
[LFSM_EVENT_STOP] =
LFSM_STATE_STOPPING,
[LFSM_EVENT_USER_SET_RX] =
LFSM_STATE_USER_BUSY_RX_PENDING,
[LFSM_EVENT_USER_SET_TX] =
LFSM_STATE_USER_BUSY_TX_PENDING,
[LFSM_EVENT_USER_DONE] =
LFSM_STATE_INACTIVE,
[LFSM_EVENT_RX_LINK] =
LFSM_STATE_USER_BUSY,
[LFSM_EVENT_RX_USER] =
LFSM_STATE_USER_BUSY,
[LFSM_EVENT_RX_UNKNOWN] =
LFSM_STATE_USER_BUSY,
},
},
[LFSM_STATE_USER_BUSY_RX_PENDING] = {
.entry_fn =
go_user_busy_rx_pending,
.next_state = {
[LFSM_EVENT_USER_SET_TX] = LFSM_STATE_USER_BUSY_RXTX_PENDING,
[LFSM_EVENT_USER_DONE] = LFSM_STATE_USER_RX_PENDING,
[LFSM_EVENT_RX_LINK] = LFSM_STATE_USER_BUSY_RX_PENDING,
[LFSM_EVENT_RX_USER] = LFSM_STATE_USER_BUSY_RX_PENDING,
[LFSM_EVENT_RX_UNKNOWN] = LFSM_STATE_USER_BUSY_RX_PENDING,
},
},
[LFSM_STATE_USER_BUSY_TX_PENDING] = {
.entry_fn =
go_user_busy_tx_pending,
.next_state = {
[LFSM_EVENT_USER_SET_RX] = LFSM_STATE_USER_BUSY_RXTX_PENDING,
[LFSM_EVENT_USER_DONE] = LFSM_STATE_USER_TX_PENDING,
[LFSM_EVENT_RX_LINK] = LFSM_STATE_USER_BUSY_TX_PENDING,
[LFSM_EVENT_RX_USER] = LFSM_STATE_USER_BUSY_TX_PENDING,
[LFSM_EVENT_RX_UNKNOWN] = LFSM_STATE_USER_BUSY_TX_PENDING,
},
},
[LFSM_STATE_USER_BUSY_RXTX_PENDING] = {
.entry_fn =
go_user_busy_rxtx_pending,
.next_state = {
[LFSM_EVENT_USER_DONE] = LFSM_STATE_USER_RXTX_PENDING,
[LFSM_EVENT_RX_LINK] = LFSM_STATE_USER_BUSY_RXTX_PENDING,
[LFSM_EVENT_RX_USER] = LFSM_STATE_USER_BUSY_RXTX_PENDING,
[LFSM_EVENT_RX_UNKNOWN] = LFSM_STATE_USER_BUSY_RXTX_PENDING,
},
},
[LFSM_STATE_USER_RX_PENDING] = {
.entry_fn = go_user_rx_pending,
.next_state = {
[LFSM_EVENT_RX_LINK]
=
LFSM_STATE_USER_RX_ACTIVE,
[LFSM_EVENT_RX_USER]
=
LFSM_STATE_USER_RX_ACTIVE,
[LFSM_EVENT_RX_UNKNOWN] = LFSM_STATE_USER_RX_ACTIVE,
},
},
[LFSM_STATE_USER_TX_PENDING] = {
.entry_fn = go_user_tx_pending,
.next_state = {
[LFSM_EVENT_RX_LINK]
=
LFSM_STATE_USER_TX_ACTIVE,
[LFSM_EVENT_RX_USER]
=
LFSM_STATE_USER_TX_ACTIVE,
[LFSM_EVENT_RX_UNKNOWN] = LFSM_STATE_USER_TX_ACTIVE,
},
},
[LFSM_STATE_USER_RXTX_PENDING] = {
.entry_fn = go_user_rxtx_pending,
.next_state = {
[LFSM_EVENT_RX_LINK] = LFSM_STATE_USER_RXTX_ACTIVE,
[LFSM_EVENT_RX_USER] = LFSM_STATE_USER_RXTX_ACTIVE,
[LFSM_EVENT_RX_UNKNOWN] = LFSM_STATE_USER_RXTX_ACTIVE,
},
},
[LFSM_STATE_USER_RX_ACTIVE] = {
.entry_fn = go_user_rx_active,
.next_state = {
[LFSM_EVENT_RX_LINK]
=
LFSM_STATE_USER_RX_ACTIVE,
[LFSM_EVENT_RX_USER]
=
LFSM_STATE_USER_BUSY,
[LFSM_EVENT_RX_UNKNOWN] = LFSM_STATE_USER_RX_ACTIVE,
},
},
[LFSM_STATE_USER_TX_ACTIVE] = {
.entry_fn = go_user_tx_active,
.next_state = {
[LFSM_EVENT_RX_LINK]
=
LFSM_STATE_INACTIVE,
[LFSM_EVENT_RX_USER]
=
LFSM_STATE_INACTIVE,
[LFSM_EVENT_RX_UNKNOWN] = LFSM_STATE_INACTIVE,
},
},
[LFSM_STATE_USER_RXTX_ACTIVE] = {
.entry_fn = go_user_rxtx_active,
.next_state = {
[LFSM_EVENT_RX_LINK] = LFSM_STATE_USER_RX_ACTIVE,
[LFSM_EVENT_RX_USER] = LFSM_STATE_USER_BUSY,
[LFSM_EVENT_RX_UNKNOWN] = LFSM_STATE_USER_RX_ACTIVE,
},
},
};
/*
* FSM State Entry Functions
*/
static void go_faulted(struct lfsm_context *context)
{
PIOS_DEBUG_Assert(0);
}
static void go_stopped(struct lfsm_context *context)
{
#if 0
PIOS_SPI_Stop(PIOS_SPI_OP);
#endif
}
static void go_stopping(struct lfsm_context *context)
{
context->link_tx = NULL;
context->tx = NULL;
}
static void go_inactive(struct lfsm_context *context)
{
context->link_state = OPAHRS_MSG_LINK_STATE_INACTIVE;
lfsm_update_link_tx(context);
context->user_rx = NULL;
context->user_tx = NULL;
context->rx = context->link_rx;
context->tx = context->link_tx;
lfsm_init_rx(context);
PIOS_SPI_TransferBlock(PIOS_SPI_OP, context->tx, context->rx,
context->user_payload_len,
lfsm_irq_callback);
}
static void go_user_busy(struct lfsm_context *context)
{
/* Sanity checks */
PIOS_DEBUG_Assert(context->user_rx);
context->user_rx = NULL;
context->user_tx = NULL;
context->link_state = OPAHRS_MSG_LINK_STATE_BUSY;
lfsm_update_link_tx(context);
context->rx = context->link_rx;
context->tx = context->link_tx;
lfsm_init_rx(context);
PIOS_SPI_TransferBlock(PIOS_SPI_OP, context->tx, context->rx,
context->user_payload_len,
lfsm_irq_callback);
}
static void go_user_busy_rx_pending(struct lfsm_context *context)
{
/* Sanity checks */
PIOS_DEBUG_Assert(context->user_rx);
context->link_state = OPAHRS_MSG_LINK_STATE_BUSY;
lfsm_update_link_tx(context);
context->rx = context->link_rx;
context->tx = context->link_tx;
lfsm_init_rx(context);
PIOS_SPI_TransferBlock(PIOS_SPI_OP, context->tx, context->rx,
context->user_payload_len,
lfsm_irq_callback);
}
static void go_user_busy_tx_pending(struct lfsm_context *context)
{
/* Sanity checks */
PIOS_DEBUG_Assert(context->user_tx);
context->link_state = OPAHRS_MSG_LINK_STATE_BUSY;
lfsm_update_link_tx(context);
context->rx = context->link_rx;
context->tx = context->link_tx;
lfsm_init_rx(context);
PIOS_SPI_TransferBlock(PIOS_SPI_OP, context->tx, context->rx,
context->user_payload_len,
lfsm_irq_callback);
}
static void go_user_busy_rxtx_pending(struct lfsm_context *context)
{
/* Sanity checks */
PIOS_DEBUG_Assert(context->user_rx);
PIOS_DEBUG_Assert(context->user_tx);
context->link_state = OPAHRS_MSG_LINK_STATE_BUSY;
lfsm_update_link_tx(context);
context->rx = context->link_rx;
context->tx = context->link_tx;
lfsm_init_rx(context);
PIOS_SPI_TransferBlock(PIOS_SPI_OP, context->tx, context->rx,
context->user_payload_len,
lfsm_irq_callback);
}
static void go_user_rx_pending(struct lfsm_context *context)
{
/* Sanity checks */
PIOS_DEBUG_Assert(context->user_rx);
context->link_state = OPAHRS_MSG_LINK_STATE_BUSY;
lfsm_update_link_tx(context);
context->rx = context->link_rx;
context->tx = context->link_tx;
lfsm_init_rx(context);
PIOS_SPI_TransferBlock(PIOS_SPI_OP, context->tx, context->rx,
context->user_payload_len,
lfsm_irq_callback);
}
static void go_user_tx_pending(struct lfsm_context *context)
{
/* Sanity checks */
PIOS_DEBUG_Assert(context->user_tx);
context->link_state = OPAHRS_MSG_LINK_STATE_BUSY;
lfsm_update_link_tx(context);
context->rx = context->link_rx;
context->tx = context->link_tx;
lfsm_init_rx(context);
PIOS_SPI_TransferBlock(PIOS_SPI_OP, context->tx, context->rx,
context->user_payload_len,
lfsm_irq_callback);
}
static void go_user_rxtx_pending(struct lfsm_context *context)
{
/* Sanity checks */
PIOS_DEBUG_Assert(context->user_rx);
PIOS_DEBUG_Assert(context->user_tx);
context->link_state = OPAHRS_MSG_LINK_STATE_BUSY;
lfsm_update_link_tx(context);
context->rx = context->link_rx;
context->tx = context->link_tx;
lfsm_init_rx(context);
PIOS_SPI_TransferBlock(PIOS_SPI_OP, context->tx, context->rx,
context->user_payload_len,
lfsm_irq_callback);
}
static void go_user_rx_active(struct lfsm_context *context)
{
/* Sanity checks */
PIOS_DEBUG_Assert(context->user_rx);
context->rx = context->user_rx;
context->tx = context->link_tx;
context->link_state = OPAHRS_MSG_LINK_STATE_READY;
lfsm_update_link_tx(context);
lfsm_init_rx(context);
PIOS_SPI_TransferBlock(PIOS_SPI_OP, context->tx, context->rx,
context->user_payload_len,
lfsm_irq_callback);
}
static void go_user_tx_active(struct lfsm_context *context)
{
/* Sanity checks */
PIOS_DEBUG_Assert(context->user_tx);
context->link_state = OPAHRS_MSG_LINK_STATE_BUSY;
context->rx = context->link_rx;
context->tx = context->user_tx;
lfsm_init_rx(context);
PIOS_SPI_TransferBlock(PIOS_SPI_OP, context->tx, context->rx,
context->user_payload_len,
lfsm_irq_callback);
}
static void go_user_rxtx_active(struct lfsm_context *context)
{
/* Sanity checks */
PIOS_DEBUG_Assert(context->user_rx);
PIOS_DEBUG_Assert(context->user_tx);
context->link_state = OPAHRS_MSG_LINK_STATE_READY;
context->rx = context->user_rx;
context->tx = context->user_tx;
lfsm_init_rx(context);
PIOS_SPI_TransferBlock(PIOS_SPI_OP, context->tx, context->rx,
context->user_payload_len,
lfsm_irq_callback);
}
/*
*
* Misc Helper Functions
*
*/
static void lfsm_update_link_tx_v0(struct opahrs_msg_v0 *msg,
enum opahrs_msg_link_state state,
uint16_t errors)
{
opahrs_msg_v0_init_link_tx(msg, OPAHRS_MSG_LINK_TAG_NOP);
msg->payload.link.state = state;
msg->payload.link.errors = errors;
}
static void lfsm_update_link_tx_v1(struct opahrs_msg_v1 *msg,
enum opahrs_msg_link_state state,
uint16_t errors)
{
opahrs_msg_v1_init_link_tx(msg, OPAHRS_MSG_LINK_TAG_NOP);
msg->payload.link.state = state;
msg->payload.link.errors = errors;
}
static void lfsm_update_link_tx(struct lfsm_context *context)
{
PIOS_DEBUG_Assert(context->link_tx);
switch (context->user_payload_type) {
case OPAHRS_MSG_TYPE_USER_V0:
lfsm_update_link_tx_v0((struct opahrs_msg_v0 *)context->
link_tx, context->link_state,
context->errors);
break;
case OPAHRS_MSG_TYPE_USER_V1:
lfsm_update_link_tx_v1((struct opahrs_msg_v1 *)context->
link_tx, context->link_state,
context->errors);
break;
case OPAHRS_MSG_TYPE_LINK:
PIOS_DEBUG_Assert(0);
}
}
static void lfsm_init_rx(struct lfsm_context *context)
{
PIOS_DEBUG_Assert(context->rx);
switch (context->user_payload_type) {
case OPAHRS_MSG_TYPE_USER_V0:
opahrs_msg_v0_init_rx((struct opahrs_msg_v0 *)context->rx);
break;
case OPAHRS_MSG_TYPE_USER_V1:
opahrs_msg_v1_init_rx((struct opahrs_msg_v1 *)context->rx);
break;
case OPAHRS_MSG_TYPE_LINK:
PIOS_DEBUG_Assert(0);
}
}
/*
*
* External API
*
*/
void lfsm_inject_event(enum lfsm_event event)
{
PIOS_IRQ_Disable();
/*
* Move to the next state
*
* This is done prior to calling the new state's entry function to
* guarantee that the entry function never depends on the previous
* state. This way, it cannot ever know what the previous state was.
*/
context.curr_state =
lfsm_transitions[context.curr_state].next_state[event];
/* Call the entry function (if any) for the next state. */
if (lfsm_transitions[context.curr_state].entry_fn) {
lfsm_transitions[context.curr_state].entry_fn(&context);
}
PIOS_IRQ_Enable();
}
void lfsm_init(void)
{
context.curr_state = LFSM_STATE_STOPPED;
go_stopped(&context);
}
void lfsm_set_link_proto_v0(struct opahrs_msg_v0 *link_tx,
struct opahrs_msg_v0 *link_rx)
{
PIOS_DEBUG_Assert(link_tx);
context.link_tx = (uint8_t *) link_tx;
context.link_rx = (uint8_t *) link_rx;
context.user_payload_type = OPAHRS_MSG_TYPE_USER_V0;
context.user_payload_len = sizeof(*link_tx);
lfsm_update_link_tx_v0(link_tx, context.link_state,
context.errors);
lfsm_inject_event(LFSM_EVENT_INIT_LINK);
}
void lfsm_set_link_proto_v1(struct opahrs_msg_v1 *link_tx,
struct opahrs_msg_v1 *link_rx)
{
PIOS_DEBUG_Assert(link_tx);
context.link_tx = (uint8_t *) link_tx;
context.link_rx = (uint8_t *) link_rx;
context.user_payload_type = OPAHRS_MSG_TYPE_USER_V1;
context.user_payload_len = sizeof(*link_tx);
lfsm_update_link_tx_v1(link_tx, context.link_state,
context.errors);
lfsm_inject_event(LFSM_EVENT_INIT_LINK);
}
void lfsm_user_set_tx_v0(struct opahrs_msg_v0 *user_tx)
{
PIOS_DEBUG_Assert(user_tx);
PIOS_DEBUG_Assert(context.user_payload_type ==
OPAHRS_MSG_TYPE_USER_V0);
context.user_tx = (uint8_t *) user_tx;
lfsm_inject_event(LFSM_EVENT_USER_SET_TX);
}
void lfsm_user_set_rx_v0(struct opahrs_msg_v0 *user_rx)
{
PIOS_DEBUG_Assert(user_rx);
PIOS_DEBUG_Assert(context.user_payload_type ==
OPAHRS_MSG_TYPE_USER_V0);
context.user_rx = (uint8_t *) user_rx;
lfsm_inject_event(LFSM_EVENT_USER_SET_RX);
}
void lfsm_user_set_tx_v1(struct opahrs_msg_v1 *user_tx)
{
PIOS_DEBUG_Assert(user_tx);
PIOS_DEBUG_Assert(context.user_payload_type ==
OPAHRS_MSG_TYPE_USER_V1);
context.user_tx = (uint8_t *) user_tx;
lfsm_inject_event(LFSM_EVENT_USER_SET_TX);
}
void lfsm_user_set_rx_v1(struct opahrs_msg_v1 *user_rx)
{
PIOS_DEBUG_Assert(user_rx);
PIOS_DEBUG_Assert(context.user_payload_type ==
OPAHRS_MSG_TYPE_USER_V1);
context.user_rx = (uint8_t *) user_rx;
lfsm_inject_event(LFSM_EVENT_USER_SET_RX);
}
void lfsm_user_done(void)
{
lfsm_inject_event(LFSM_EVENT_USER_DONE);
}
void lfsm_stop(void)
{
lfsm_inject_event(LFSM_EVENT_STOP);
}
void lfsm_get_link_stats(struct lfsm_link_stats *stats)
{
PIOS_DEBUG_Assert(stats);
*stats = context.stats;
}
enum lfsm_state lfsm_get_state(void)
{
return context.curr_state;
}
/*
*
* ISR Callback
*
*/
void lfsm_irq_callback(uint8_t crc_ok, uint8_t crc_val)
{
if (!crc_ok) {
context.stats.rx_badcrc++;
lfsm_inject_event(LFSM_EVENT_RX_UNKNOWN);
return;
}
if (!context.rx) {
/* No way to know what we just received, assume invalid */
lfsm_inject_event(LFSM_EVENT_RX_UNKNOWN);
return;
}
/* Recover the head and tail pointers from the message */
struct opahrs_msg_link_head *head = NULL;
struct opahrs_msg_link_tail *tail = NULL;
switch (context.user_payload_type) {
case OPAHRS_MSG_TYPE_USER_V0:
head = &((struct opahrs_msg_v0 *)context.rx)->head;
tail = &((struct opahrs_msg_v0 *)context.rx)->tail;
break;
case OPAHRS_MSG_TYPE_USER_V1:
head = &((struct opahrs_msg_v1 *)context.rx)->head;
tail = &((struct opahrs_msg_v1 *)context.rx)->tail;
break;
case OPAHRS_MSG_TYPE_LINK:
/* Should never be rx'ing before the link protocol version is known */
PIOS_DEBUG_Assert(0);
break;
}
/* Check for bad magic */
if ((head->magic != OPAHRS_MSG_MAGIC_HEAD) ||
(tail->magic != OPAHRS_MSG_MAGIC_TAIL)) {
if (head->magic != OPAHRS_MSG_MAGIC_HEAD) {
context.stats.rx_badmagic_head++;
}
if (tail->magic != OPAHRS_MSG_MAGIC_TAIL) {
context.stats.rx_badmagic_tail++;
}
lfsm_inject_event(LFSM_EVENT_RX_UNKNOWN);
return;
}
/* Good magic, find out what type of payload we've got */
switch (head->type) {
case OPAHRS_MSG_TYPE_LINK:
context.stats.rx_link++;
lfsm_inject_event(LFSM_EVENT_RX_LINK);
break;
case OPAHRS_MSG_TYPE_USER_V0:
case OPAHRS_MSG_TYPE_USER_V1:
if (head->type == context.user_payload_type) {
context.stats.rx_user++;
lfsm_inject_event(LFSM_EVENT_RX_USER);
} else {
/* Mismatched user payload type */
context.stats.rx_badver++;
lfsm_inject_event(LFSM_EVENT_RX_UNKNOWN);
}
break;
default:
/* Unidentifiable payload type */
context.stats.rx_badtype++;
lfsm_inject_event(LFSM_EVENT_RX_UNKNOWN);
}
}
/**
* @}
* @}
*/