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// Generic handling of serial over CAN support
//
// Copyright (C) 2019 Eug Krashtan <eug.krashtan@gmail.com>
// Copyright (C) 2020 Pontus Borg <glpontus@gmail.com>
// Copyright (C) 2021 Kevin O'Connor <kevin@koconnor.net>
//
// This file may be distributed under the terms of the GNU GPLv3 license.
#include <string.h> // memcpy
#include "canbus.h" // canbus_set_uuid
#include "command.h" // DECL_CONSTANT
#include "sched.h" // sched_wake_task
static uint32_t canbus_assigned_id;
static uint8_t canbus_uuid[CANBUS_UUID_LEN];
/****************************************************************
* Data transmission over CAN
****************************************************************/
static struct task_wake canbus_tx_wake;
static uint8_t transmit_buf[96], transmit_pos, transmit_max;
void
canbus_notify_tx(void)
{
sched_wake_task(&canbus_tx_wake);
}
void
canbus_tx_task(void)
{
if (!sched_check_wake(&canbus_tx_wake))
return;
uint32_t id = canbus_assigned_id;
if (!id) {
transmit_pos = transmit_max = 0;
return;
}
uint32_t tpos = transmit_pos, tmax = transmit_max;
for (;;) {
int avail = tmax - tpos, now = avail > 8 ? 8 : avail;
if (avail <= 0)
break;
int ret = canbus_send(id + 1, now, &transmit_buf[tpos]);
if (ret <= 0)
break;
tpos += now;
}
transmit_pos = tpos;
}
DECL_TASK(canbus_tx_task);
// Encode and transmit a "response" message
void
console_sendf(const struct command_encoder *ce, va_list args)
{
// Verify space for message
uint32_t tpos = transmit_pos, tmax = transmit_max;
if (tpos >= tmax)
transmit_pos = transmit_max = tpos = tmax = 0;
uint32_t max_size = ce->max_size;
if (tmax + max_size > sizeof(transmit_buf)) {
if (tmax + max_size - tpos > sizeof(transmit_buf))
// Not enough space for message
return;
// Move buffer
tmax -= tpos;
memmove(&transmit_buf[0], &transmit_buf[tpos], tmax);
transmit_pos = tpos = 0;
transmit_max = tmax;
}
// Generate message
uint32_t msglen = command_encode_and_frame(&transmit_buf[tmax], ce, args);
// Start message transmit
transmit_max = tmax + msglen;
canbus_notify_tx();
}
/****************************************************************
* CAN "admin" command handling
****************************************************************/
// Available commands and responses
#define CANBUS_CMD_QUERY_UNASSIGNED 0x00
#define CANBUS_CMD_SET_NODEID 0x01
#define CANBUS_RESP_NEED_NODEID 0x20
// Helper to verify a UUID in a command matches this chip's UUID
static int
can_check_uuid(uint32_t id, uint32_t len, uint8_t *data)
{
return len >= 7 && memcmp(&data[1], canbus_uuid, sizeof(canbus_uuid)) == 0;
}
// Helpers to encode/decode a CAN identifier to a 1-byte "nodeid"
static int
can_get_nodeid(void)
{
if (!canbus_assigned_id)
return 0;
return (canbus_assigned_id - 0x100) >> 1;
}
static uint32_t
can_decode_nodeid(int nodeid)
{
return (nodeid << 1) + 0x100;
}
static void
can_process_query_unassigned(uint32_t id, uint32_t len, uint8_t *data)
{
if (canbus_assigned_id)
return;
uint8_t send[8];
send[0] = CANBUS_RESP_NEED_NODEID;
memcpy(&send[1], canbus_uuid, sizeof(canbus_uuid));
// Send with retry
for (;;) {
int ret = canbus_send(CANBUS_ID_ADMIN_RESP, 7, send);
if (ret >= 0)
return;
}
}
static void
can_id_conflict(void)
{
canbus_assigned_id = 0;
canbus_set_filter(canbus_assigned_id);
shutdown("Another CAN node assigned this ID");
}
static void
can_process_set_nodeid(uint32_t id, uint32_t len, uint8_t *data)
{
if (len < 8)
return;
uint32_t newid = can_decode_nodeid(data[7]);
if (can_check_uuid(id, len, data)) {
if (newid != canbus_assigned_id) {
canbus_assigned_id = newid;
canbus_set_filter(canbus_assigned_id);
}
} else if (newid == canbus_assigned_id) {
can_id_conflict();
}
}
// Handle an "admin" command
static void
can_process(uint32_t id, uint32_t len, uint8_t *data)
{
if (!len)
return;
switch (data[0]) {
case CANBUS_CMD_QUERY_UNASSIGNED:
can_process_query_unassigned(id, len, data);
break;
case CANBUS_CMD_SET_NODEID:
can_process_set_nodeid(id, len, data);
break;
}
}
/****************************************************************
* CAN packet reading
****************************************************************/
static struct task_wake canbus_rx_wake;
void
canbus_notify_rx(void)
{
sched_wake_task(&canbus_rx_wake);
}
static uint8_t receive_buf[192], receive_pos;
DECL_CONSTANT("RECEIVE_WINDOW", ARRAY_SIZE(receive_buf));
static void
can_process_data(uint32_t id, uint32_t len, uint8_t *data)
{
int rpos = receive_pos;
if (len > sizeof(receive_buf) - rpos)
len = sizeof(receive_buf) - rpos;
memcpy(&receive_buf[rpos], data, len);
receive_pos = rpos + len;
}
void
canbus_rx_task(void)
{
if (!sched_check_wake(&canbus_rx_wake))
return;
// Read any pending CAN packets
for (;;) {
uint8_t data[8];
uint32_t id;
int ret = canbus_read(&id, data);
if (ret < 0)
break;
if (id && id == canbus_assigned_id)
can_process_data(id, ret, data);
if (id && id == canbus_assigned_id + 1)
can_id_conflict();
else if (id == CANBUS_ID_ADMIN)
can_process(id, ret, data);
}
// Check for a complete message block and process it
uint_fast8_t rpos = receive_pos, pop_count;
int ret = command_find_and_dispatch(receive_buf, rpos, &pop_count);
if (ret) {
// Move buffer
int needcopy = rpos - pop_count;
if (needcopy) {
memmove(receive_buf, &receive_buf[pop_count], needcopy);
canbus_notify_rx();
}
rpos = needcopy;
}
receive_pos = rpos;
}
DECL_TASK(canbus_rx_task);
/****************************************************************
* Setup and shutdown
****************************************************************/
void
command_get_canbus_id(uint32_t *args)
{
sendf("canbus_id canbus_uuid=%.*s canbus_nodeid=%u"
, sizeof(canbus_uuid), canbus_uuid, can_get_nodeid());
}
DECL_COMMAND_FLAGS(command_get_canbus_id, HF_IN_SHUTDOWN, "get_canbus_id");
void
canbus_set_uuid(void *uuid)
{
memcpy(canbus_uuid, uuid, sizeof(canbus_uuid));
canbus_notify_rx();
}
void
canbus_shutdown(void)
{
canbus_notify_tx();
canbus_notify_rx();
}
DECL_SHUTDOWN(canbus_shutdown);
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