/*
* This file 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 file 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, see .
*
* Author: Siddharth Bharat Purohit
*/
#include
#if HAL_ENABLE_LIBUAVCAN_DRIVERS
#include "AP_UAVCAN_DNA_Server.h"
#include "AP_UAVCAN.h"
#include
#include
#include
#include
#include
#include "AP_UAVCAN_Clock.h"
#include
extern const AP_HAL::HAL& hal;
#define NODEDATA_MAGIC 0xAC01
#define NODEDATA_MAGIC_LEN 2
#define MAX_NODE_ID 125
#define debug_uavcan(level_debug, fmt, args...) do { AP::can().log_text(level_debug, "UAVCAN", fmt, ##args); } while (0)
//Callback Object Definitions
UC_REGISTRY_BINDER(AllocationCb, uavcan::protocol::dynamic_node_id::Allocation);
UC_REGISTRY_BINDER(NodeStatusCb, uavcan::protocol::NodeStatus);
UC_CLIENT_CALL_REGISTRY_BINDER(GetNodeInfoCb, uavcan::protocol::GetNodeInfo);
static uavcan::ServiceClient* getNodeInfo_client[HAL_MAX_CAN_PROTOCOL_DRIVERS];
static uavcan::Publisher* allocation_pub[HAL_MAX_CAN_PROTOCOL_DRIVERS];
AP_UAVCAN_DNA_Server::AP_UAVCAN_DNA_Server(AP_UAVCAN *ap_uavcan, StorageAccess _storage) :
_ap_uavcan(ap_uavcan),
storage(_storage)
{}
/* Subscribe to all the messages we are going to handle for
Server registry and Node allocation. */
void AP_UAVCAN_DNA_Server::subscribe_msgs(AP_UAVCAN* ap_uavcan)
{
if (ap_uavcan == nullptr) {
return;
}
auto* node = ap_uavcan->get_node();
//Register Allocation Message Handler
uavcan::Subscriber *AllocationListener;
AllocationListener = new uavcan::Subscriber(*node);
if (AllocationListener == nullptr) {
AP_BoardConfig::allocation_error("AP_UAVCAN_DNA: AllocationListener");
}
const int alloc_listener_res = AllocationListener->start(AllocationCb(ap_uavcan, &trampoline_handleAllocation));
if (alloc_listener_res < 0) {
AP_HAL::panic("Allocation Subscriber start problem\n\r");
return;
}
//We allow anonymous transfers, as they are specifically for Node Allocation
AllocationListener->allowAnonymousTransfers();
//Register Node Status Listener
uavcan::Subscriber *NodeStatusListener;
NodeStatusListener = new uavcan::Subscriber(*node);
if (NodeStatusListener == nullptr) {
AP_BoardConfig::allocation_error("AP_UAVCAN_DNA: NodeStatusListener");
}
const int nodestatus_listener_res = NodeStatusListener->start(NodeStatusCb(ap_uavcan, &trampoline_handleNodeStatus));
if (nodestatus_listener_res < 0) {
AP_HAL::panic("NodeStatus Subscriber start problem\n\r");
return;
}
}
/* Method to generate 6byte hash from the Unique ID.
We return it packed inside the referenced NodeData structure */
void AP_UAVCAN_DNA_Server::getHash(NodeData &node_data, const uint8_t unique_id[], uint8_t size) const
{
uint64_t hash = FNV_1_OFFSET_BASIS_64;
hash_fnv_1a(size, unique_id, &hash);
// xor-folding per http://www.isthe.com/chongo/tech/comp/fnv/
hash = (hash>>56) ^ (hash&(((uint64_t)1<<56)-1));
// write it to ret
for (uint8_t i=0; i<6; i++) {
node_data.hwid_hash[i] = (hash >> (8*i)) & 0xff;
}
}
//Read Node Data from Storage Region
bool AP_UAVCAN_DNA_Server::readNodeData(NodeData &data, uint8_t node_id)
{
if (node_id > MAX_NODE_ID) {
return false;
}
WITH_SEMAPHORE(storage_sem);
if (!storage.read_block(&data, (node_id * sizeof(struct NodeData)) + NODEDATA_MAGIC_LEN, sizeof(struct NodeData))) {
//This will fall through to Prearm Check
server_state = STORAGE_FAILURE;
return false;
}
return true;
}
//Write Node Data to Storage Region
bool AP_UAVCAN_DNA_Server::writeNodeData(const NodeData &data, uint8_t node_id)
{
if (node_id > MAX_NODE_ID) {
return false;
}
WITH_SEMAPHORE(storage_sem);
if (!storage.write_block((node_id * sizeof(struct NodeData)) + NODEDATA_MAGIC_LEN,
&data, sizeof(struct NodeData))) {
server_state = STORAGE_FAILURE;
return false;
}
return true;
}
/* Set Occupation Mask, handy for keeping track of all node ids that
are allocated and all that are available. */
bool AP_UAVCAN_DNA_Server::setOccupationMask(uint8_t node_id)
{
if (node_id > MAX_NODE_ID) {
return false;
}
occupation_mask.set(node_id);
return true;
}
/* Remove Node Data from Server Record in Storage,
and also clear Occupation Mask */
bool AP_UAVCAN_DNA_Server::freeNodeID(uint8_t node_id)
{
if (node_id > MAX_NODE_ID) {
return false;
}
struct NodeData node_data;
//Eliminate from Server Record
memset(&node_data, 0, sizeof(node_data));
writeNodeData(node_data, node_id);
//Clear Occupation Mask
occupation_mask.clear(node_id);
return true;
}
/* Sets the verification mask. This is to be called, once
The Seen Node has been both registered and verified against the
Server Records. */
void AP_UAVCAN_DNA_Server::setVerificationMask(uint8_t node_id)
{
if (node_id > MAX_NODE_ID) {
return;
}
verified_mask.set(node_id);
}
/* Checks if the NodeID is occupied, i.e. its recorded
in the Server Records against a unique ID */
bool AP_UAVCAN_DNA_Server::isNodeIDOccupied(uint8_t node_id) const
{
if (node_id > MAX_NODE_ID) {
return false;
}
return occupation_mask.get(node_id);
}
/* Checks if NodeID is verified, i.e. the unique id in
Storage Records matches the one provided by Device with this node id. */
bool AP_UAVCAN_DNA_Server::isNodeIDVerified(uint8_t node_id) const
{
if (node_id > MAX_NODE_ID) {
return false;
}
return verified_mask.get(node_id);
}
/* Go through Server Records, and fetch node id that matches the provided
Unique IDs hash.
Returns 255 if no Node ID was detected */
uint8_t AP_UAVCAN_DNA_Server::getNodeIDForUniqueID(const uint8_t unique_id[], uint8_t size)
{
uint8_t node_id = 255;
NodeData node_data, cmp_node_data;
getHash(cmp_node_data, unique_id, size);
for (int i = MAX_NODE_ID; i >= 0; i--) {
if (!isNodeIDOccupied(i)) { // No point in checking NodeID that's not taken
continue;
}
if (!readNodeData(node_data, i)) {
break; //Storage module has failed, report that as no NodeID detected
}
if (memcmp(node_data.hwid_hash, cmp_node_data.hwid_hash, sizeof(NodeData::hwid_hash)) == 0) {
node_id = i;
break;
}
}
return node_id;
}
/* Hash the Unique ID and add it to the Server Record
for specified Node ID. */
bool AP_UAVCAN_DNA_Server::addNodeIDForUniqueID(uint8_t node_id, const uint8_t unique_id[], uint8_t size)
{
NodeData node_data;
getHash(node_data, unique_id, size);
//Generate CRC for validating the data when read back
node_data.crc = crc_crc8(node_data.hwid_hash, sizeof(node_data.hwid_hash));
//Write Data to the records
if (!writeNodeData(node_data, node_id)) {
server_state = FAILED_TO_ADD_NODE;
fault_node_id = node_id;
return false;
}
setOccupationMask(node_id);
return true;
}
//Checks if a valid Server Record is present for specified Node ID
bool AP_UAVCAN_DNA_Server::isValidNodeDataAvailable(uint8_t node_id)
{
NodeData node_data;
readNodeData(node_data, node_id);
uint8_t crc = crc_crc8(node_data.hwid_hash, sizeof(node_data.hwid_hash));
if (crc == node_data.crc && node_data.crc != 0) {
return true;
}
return false;
}
/* Initialises Publishers for respective UAVCAN Instance
Also resets the Server Record in case there is a mismatch
between specified node id and unique id against the existing
Server Record. */
bool AP_UAVCAN_DNA_Server::init()
{
//Read the details from ap_uavcan
uavcan::Node<0>* _node = _ap_uavcan->get_node();
uint8_t node_id = _node->getNodeID().get();
uint8_t own_unique_id[16] = {0};
uint8_t own_unique_id_len = 16;
driver_index = _ap_uavcan->get_driver_index();
//copy unique id from node to uint8_t array
uavcan::copy(_node->getHardwareVersion().unique_id.begin(),
_node->getHardwareVersion().unique_id.end(),
own_unique_id);
server_state = HEALTHY;
//Setup publisher for this driver index
allocation_pub[driver_index] = new uavcan::Publisher(*_node, true);
if (allocation_pub[driver_index] == nullptr) {
AP_BoardConfig::allocation_error("AP_UAVCAN_DNA: allocation_pub[%d]", driver_index);
}
int res = allocation_pub[driver_index]->init(uavcan::TransferPriority::Default);
if (res < 0) {
return false;
}
allocation_pub[driver_index]->setTxTimeout(uavcan::MonotonicDuration::fromMSec(uavcan::protocol::dynamic_node_id::Allocation::FOLLOWUP_TIMEOUT_MS));
//Setup GetNodeInfo Client
getNodeInfo_client[driver_index] = new uavcan::ServiceClient(*_node, GetNodeInfoCb(_ap_uavcan, &trampoline_handleNodeInfo));
if (getNodeInfo_client[driver_index] == nullptr) {
AP_BoardConfig::allocation_error("AP_UAVCAN_DNA: getNodeInfo_client[%d]", driver_index);
}
/* Go through our records and look for valid NodeData, to initialise
occupation mask */
for (uint8_t i = 0; i <= MAX_NODE_ID; i++) {
if (isValidNodeDataAvailable(i)) {
occupation_mask.set(i);
}
}
// Check if the magic is present
uint16_t magic;
{
WITH_SEMAPHORE(storage_sem);
storage.read_block(&magic, 0, NODEDATA_MAGIC_LEN);
}
if (magic != NODEDATA_MAGIC) {
//Its not there a reset should write it in the Storage
reset();
}
if (_ap_uavcan->check_and_reset_option(AP_UAVCAN::Options::DNA_CLEAR_DATABASE)) {
GCS_SEND_TEXT(MAV_SEVERITY_INFO, "UC DNA database reset");
reset();
}
// Making sure that the server is started with the same node ID
const uint8_t stored_own_node_id = getNodeIDForUniqueID(own_unique_id, own_unique_id_len);
static bool reset_done;
if (stored_own_node_id != 255) {
if (stored_own_node_id != node_id) {
/* We have a different node id recorded against our own unique id
This calls for a reset */
if (!reset_done) {
/* ensure we only reset once per power cycle
else we will wipe own record on next init(s) */
reset();
reset_done = true;
}
//Add ourselves to the Server Record
if (!addNodeIDForUniqueID(node_id, own_unique_id, own_unique_id_len)) {
return false;
}
}
} else {
//We have no record of our own Unique ID do a reset
if (!reset_done) {
/* ensure we only reset once per power cycle
else we will wipe own record on next init(s) */
reset();
reset_done = true;
}
//Add ourselves to the Server Record
if (!addNodeIDForUniqueID(node_id, own_unique_id, own_unique_id_len)) {
return false;
}
}
/* Also add to seen node id this is to verify
if any duplicates are on the bus carrying our Node ID */
addToSeenNodeMask(node_id);
setVerificationMask(node_id);
node_healthy_mask.set(node_id);
self_node_id[driver_index] = node_id;
return true;
}
//Reset the Server Records
void AP_UAVCAN_DNA_Server::reset()
{
NodeData node_data;
memset(&node_data, 0, sizeof(node_data));
occupation_mask.clearall();
//Just write empty Node Data to the Records
for (uint8_t i = 0; i <= MAX_NODE_ID; i++) {
writeNodeData(node_data, i);
}
WITH_SEMAPHORE(storage_sem);
//Ensure we mark magic at the end
uint16_t magic = NODEDATA_MAGIC;
storage.write_block(0, &magic, NODEDATA_MAGIC_LEN);
}
/* Go through the Occupation mask for available Node ID
based on pseudo code provided in
uavcan/protocol/dynamic_node_id/1.Allocation.uavcan */
uint8_t AP_UAVCAN_DNA_Server::findFreeNodeID(uint8_t preferred)
{
// Search up
uint8_t candidate = (preferred > 0) ? preferred : 125;
while (candidate <= 125) {
if (!isNodeIDOccupied(candidate)) {
return candidate;
}
candidate++;
}
//Search down
candidate = (preferred > 0) ? preferred : 125;
while (candidate > 0) {
if (!isNodeIDOccupied(candidate)) {
return candidate;
}
candidate--;
}
// Not found
return 255;
}
//Check if we have received Node Status from this node_id
bool AP_UAVCAN_DNA_Server::isNodeSeen(uint8_t node_id)
{
if (node_id > MAX_NODE_ID) {
return false;
}
return node_seen_mask.get(node_id);
}
/* Set the Seen Node Mask, to be called when received
Node Status from the node id */
void AP_UAVCAN_DNA_Server::addToSeenNodeMask(uint8_t node_id)
{
if (node_id > MAX_NODE_ID) {
return;
}
node_seen_mask.set(node_id);
}
/* Run through the list of seen node ids for verification no more
than once per 5 second. We continually verify the nodes in our
seen list, So that we can raise issue if there are duplicates
on the bus. */
void AP_UAVCAN_DNA_Server::verify_nodes()
{
uint32_t now = uavcan::SystemClock::instance().getMonotonic().toMSec();
if ((now - last_verification_request) < 5000) {
return;
}
uint8_t log_count = AP::logger().get_log_start_count();
if (log_count != last_logging_count) {
last_logging_count = log_count;
logged.clearall();
}
//Check if we got acknowledgement from previous request
//except for requests using our own node_id
if (curr_verifying_node == self_node_id[driver_index]) {
nodeInfo_resp_rcvd = true;
}
if (!nodeInfo_resp_rcvd) {
/* Also notify GCS about this
Reason for this could be either the node was disconnected
Or a node with conflicting ID appeared and is sending response
at the same time. */
/* Only report if the node was verified, otherwise ignore
as this could be just Bootloader to Application transition. */
if (isNodeIDVerified(curr_verifying_node)) {
// remove verification flag for this node
verified_mask.clear(curr_verifying_node);
}
}
last_verification_request = now;
//Find the next registered Node ID to be verified.
for (uint8_t i = 0; i <= MAX_NODE_ID; i++) {
curr_verifying_node = (curr_verifying_node + 1) % (MAX_NODE_ID + 1);
if (isNodeSeen(curr_verifying_node)) {
break;
}
}
if (getNodeInfo_client[driver_index] != nullptr && isNodeIDOccupied(curr_verifying_node)) {
uavcan::protocol::GetNodeInfo::Request request;
getNodeInfo_client[driver_index]->call(curr_verifying_node, request);
nodeInfo_resp_rcvd = false;
}
}
/* Handles Node Status Message, adds to the Seen Node list
Also starts the Service call for Node Info to complete the
Verification process. */
void AP_UAVCAN_DNA_Server::handleNodeStatus(uint8_t node_id, const NodeStatusCb &cb)
{
if (node_id > MAX_NODE_ID) {
return;
}
if ((cb.msg->health != uavcan::protocol::NodeStatus::HEALTH_OK ||
cb.msg->mode != uavcan::protocol::NodeStatus::MODE_OPERATIONAL) &&
!_ap_uavcan->option_is_set(AP_UAVCAN::Options::DNA_IGNORE_UNHEALTHY_NODE)) {
//if node is not healthy or operational, clear resp health mask, and set fault_node_id
fault_node_id = node_id;
server_state = NODE_STATUS_UNHEALTHY;
node_healthy_mask.clear(node_id);
} else {
node_healthy_mask.set(node_id);
if (node_healthy_mask == verified_mask) {
server_state = HEALTHY;
}
}
if (!isNodeIDVerified(node_id)) {
//immediately begin verification of the node_id
if (getNodeInfo_client[driver_index] != nullptr) {
uavcan::protocol::GetNodeInfo::Request request;
getNodeInfo_client[driver_index]->call(node_id, request);
}
}
//Add node to seen list if not seen before
addToSeenNodeMask(node_id);
}
//Trampoline call for handleNodeStatus member method
void AP_UAVCAN_DNA_Server::trampoline_handleNodeStatus(AP_UAVCAN* ap_uavcan, uint8_t node_id, const NodeStatusCb &cb)
{
if (ap_uavcan == nullptr) {
return;
}
ap_uavcan->_dna_server->handleNodeStatus(node_id, cb);
}
/* Node Info message handler
Handle responses from GetNodeInfo Request. We verify the node info
against our records. Marks Verification mask if already recorded,
Or register if the node id is available and not recorded for the
received Unique ID */
void AP_UAVCAN_DNA_Server::handleNodeInfo(uint8_t node_id, uint8_t unique_id[], char name[], uint8_t major, uint8_t minor, uint32_t vcs_commit)
{
if (node_id > MAX_NODE_ID) {
return;
}
/*
if we haven't logged this node then log it now
*/
if (!logged.get(node_id) && AP::logger().logging_started()) {
logged.set(node_id);
uint64_t uid[2];
memcpy(uid, unique_id, sizeof(uid));
// @LoggerMessage: CAND
// @Description: Info from GetNodeInfo request
// @Field: TimeUS: Time since system startup
// @Field: NodeId: Node ID
// @Field: UID1: Hardware ID, part 1
// @Field: UID2: Hardware ID, part 2
// @Field: Name: Name string
// @Field: Major: major revision id
// @Field: Minor: minor revision id
// @Field: Version: AP_Periph git hash
AP::logger().Write("CAND", "TimeUS,NodeId,UID1,UID2,Name,Major,Minor,Version",
"s#------", "F-------", "QBQQZBBI",
AP_HAL::micros64(),
node_id,
uid[0], uid[1],
name,
major,
minor,
vcs_commit);
}
if (isNodeIDOccupied(node_id)) {
//if node_id already registered, just verify if Unique ID matches as well
if (node_id == getNodeIDForUniqueID(unique_id, 16)) {
if (node_id == curr_verifying_node) {
nodeInfo_resp_rcvd = true;
}
setVerificationMask(node_id);
} else if (!_ap_uavcan->option_is_set(AP_UAVCAN::Options::DNA_IGNORE_DUPLICATE_NODE)) {
/* This is a device with node_id already registered
for another device */
server_state = DUPLICATE_NODES;
fault_node_id = node_id;
memcpy(fault_node_name, name, sizeof(fault_node_name));
}
} else {
/* Node Id was not allocated by us, or during this boot, let's register this in our records
Check if we allocated this Node before */
uint8_t prev_node_id = getNodeIDForUniqueID(unique_id, 16);
if (prev_node_id != 255) {
//yes we did, remove this registration
freeNodeID(prev_node_id);
}
//add a new server record
addNodeIDForUniqueID(node_id, unique_id, 16);
//Verify as well
setVerificationMask(node_id);
if (node_id == curr_verifying_node) {
nodeInfo_resp_rcvd = true;
}
}
}
//Trampoline call for handleNodeInfo member call
void AP_UAVCAN_DNA_Server::trampoline_handleNodeInfo(AP_UAVCAN* ap_uavcan, uint8_t node_id, const GetNodeInfoCb& resp)
{
uint8_t unique_id[16] = {0};
char name[50] = {0};
//copy the unique id from message to uint8_t array
auto &r = resp.rsp->getResponse();
uavcan::copy(r.hardware_version.unique_id.begin(),
r.hardware_version.unique_id.end(),
unique_id);
strncpy_noterm(name, r.name.c_str(), sizeof(name)-1);
ap_uavcan->_dna_server->handleNodeInfo(node_id, unique_id, name,
r.software_version.major,
r.software_version.minor,
r.software_version.vcs_commit);
}
/* Handle the allocation message from the devices supporting
dynamic node allocation. */
void AP_UAVCAN_DNA_Server::handleAllocation(uint8_t node_id, const AllocationCb &cb)
{
if (allocation_pub[driver_index] == nullptr) {
//init has not been called for this driver.
return;
}
if (!cb.msg->isAnonymousTransfer()) {
//Ignore Allocation messages that are not DNA requests
return;
}
uint32_t now = uavcan::SystemClock::instance().getMonotonic().toMSec();
if (rcvd_unique_id_offset == 0 ||
(now - last_alloc_msg_ms) > 500) {
if (cb.msg->first_part_of_unique_id) {
rcvd_unique_id_offset = 0;
memset(rcvd_unique_id, 0, sizeof(rcvd_unique_id));
} else {
//we are only accepting first part
return;
}
} else if (cb.msg->first_part_of_unique_id) {
// we are only accepting follow up messages
return;
}
if (rcvd_unique_id_offset) {
debug_uavcan(AP_CANManager::LOG_DEBUG, "TIME: %ld -- Accepting Followup part! %u\n",
long(uavcan::SystemClock::instance().getMonotonic().toUSec()/1000),
unsigned((now - last_alloc_msg_ms)));
} else {
debug_uavcan(AP_CANManager::LOG_DEBUG, "TIME: %ld -- Accepting First part! %u\n",
long(uavcan::SystemClock::instance().getMonotonic().toUSec()/1000),
unsigned((now - last_alloc_msg_ms)));
}
last_alloc_msg_ms = now;
if ((rcvd_unique_id_offset + cb.msg->unique_id.size()) > 16) {
//This request is malformed, Reset!
rcvd_unique_id_offset = 0;
memset(rcvd_unique_id, 0, sizeof(rcvd_unique_id));
return;
}
//copy over the unique_id
for (uint8_t i=rcvd_unique_id_offset; i<(rcvd_unique_id_offset + cb.msg->unique_id.size()); i++) {
rcvd_unique_id[i] = cb.msg->unique_id[i - rcvd_unique_id_offset];
}
rcvd_unique_id_offset += cb.msg->unique_id.size();
//send follow up message
uavcan::protocol::dynamic_node_id::Allocation msg;
/* Respond with the message containing the received unique ID so far
or with node id if we successfully allocated one. */
for (uint8_t i = 0; i < rcvd_unique_id_offset; i++) {
msg.unique_id.push_back(rcvd_unique_id[i]);
}
if (rcvd_unique_id_offset == 16) {
//We have received the full Unique ID, time to do allocation
uint8_t resp_node_id = getNodeIDForUniqueID((const uint8_t*)rcvd_unique_id, 16);
if (resp_node_id == 255) {
resp_node_id = findFreeNodeID(cb.msg->node_id);
if (resp_node_id != 255) {
if (addNodeIDForUniqueID(resp_node_id, (const uint8_t*)rcvd_unique_id, 16)) {
msg.node_id = resp_node_id;
}
} else {
GCS_SEND_TEXT(MAV_SEVERITY_ERROR, "UC Node Alloc Failed!");
}
} else {
msg.node_id = resp_node_id;
}
//reset states as well
rcvd_unique_id_offset = 0;
memset(rcvd_unique_id, 0, sizeof(rcvd_unique_id));
}
allocation_pub[driver_index]->broadcast(msg);
}
//Trampoline Call for handleAllocation member call
void AP_UAVCAN_DNA_Server::trampoline_handleAllocation(AP_UAVCAN* ap_uavcan, uint8_t node_id, const AllocationCb &cb)
{
if (ap_uavcan == nullptr) {
return;
}
ap_uavcan->_dna_server->handleAllocation(node_id, cb);
}
//report the server state, along with failure message if any
bool AP_UAVCAN_DNA_Server::prearm_check(char* fail_msg, uint8_t fail_msg_len) const
{
switch (server_state) {
case HEALTHY:
return true;
case STORAGE_FAILURE: {
snprintf(fail_msg, fail_msg_len, "Failed to access storage!");
return false;
}
case DUPLICATE_NODES: {
if (_ap_uavcan->option_is_set(AP_UAVCAN::Options::DNA_IGNORE_DUPLICATE_NODE)) {
// ignore error
return true;
}
snprintf(fail_msg, fail_msg_len, "Duplicate Node %s../%d!", fault_node_name, fault_node_id);
return false;
}
case FAILED_TO_ADD_NODE: {
snprintf(fail_msg, fail_msg_len, "Failed to add Node %d!", fault_node_id);
return false;
}
case NODE_STATUS_UNHEALTHY: {
if (_ap_uavcan->option_is_set(AP_UAVCAN::Options::DNA_IGNORE_UNHEALTHY_NODE)) {
// ignore error
return true;
}
snprintf(fail_msg, fail_msg_len, "Node %d unhealthy!", fault_node_id);
return false;
}
}
// should never get; compiler should enforce all server_states are covered
return false;
}
#endif //HAL_NUM_CAN_IFACES