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PX4-Autopilot/libuavcan/src/protocol/uc_network_compat_checker.cpp
T

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5.3 KiB
C++

/*
* Copyright (C) 2014 Pavel Kirienko <pavel.kirienko@gmail.com>
*/
#include <uavcan/impl_constants.hpp>
#if !UAVCAN_TINY
#include <uavcan/protocol/network_compat_checker.hpp>
#include <uavcan/debug.hpp>
#include <uavcan/node/publisher.hpp>
#include <uavcan/protocol/GlobalDiscoveryRequest.hpp>
#include <cassert>
namespace uavcan
{
MonotonicDuration NetworkCompatibilityChecker::getNetworkDiscoveryDelay() const
{
// Base duration is constant - NodeStatus publication period
MonotonicDuration dur = MonotonicDuration::fromMSec(protocol::NodeStatus::PUBLICATION_PERIOD_MS);
// Additional duration depends on the node priority - gets larger with higher Node ID
dur += MonotonicDuration::fromMSec(getNode().getNodeID().get() * 10);
return dur;
}
NodeID NetworkCompatibilityChecker::findNextUncheckedNode()
{
for (int i = 1; i <= NodeID::Max; i++)
{
if (nid_mask_present_.test(i) && !nid_mask_checked_.test(i))
{
nid_mask_checked_[i] = true;
return NodeID(i);
}
}
return NodeID();
}
int NetworkCompatibilityChecker::waitForCATSResponse()
{
while (cats_cln_.isPending())
{
const int res = getNode().spin(MonotonicDuration::fromMSec(10));
if (res < 0 || !result_.isOk())
{
return res;
}
}
return 0;
}
void NetworkCompatibilityChecker::handleNodeStatus(const ReceivedDataStructure<protocol::NodeStatus>& msg)
{
if (!nid_mask_present_.test(msg.getSrcNodeID().get()))
{
UAVCAN_TRACE("NodeInitializer", "New node nid=%i", int(msg.getSrcNodeID().get()));
nid_mask_present_[msg.getSrcNodeID().get()] = true;
}
if (msg.getSrcNodeID() == getNode().getNodeID())
{
UAVCAN_TRACE("NodeInitializer", "Node ID collision; nid=%i", int(msg.getSrcNodeID().get()));
result_.conflicting_node = msg.getSrcNodeID();
}
}
void NetworkCompatibilityChecker::handleCATSResponse(ServiceCallResult<protocol::ComputeAggregateTypeSignature>& resp)
{
last_cats_request_ok_ = resp.isSuccessful();
if (last_cats_request_ok_)
{
const DataTypeSignature sign = GlobalDataTypeRegistry::instance().
computeAggregateSignature(checking_dtkind_, resp.response.mutually_known_ids);
UAVCAN_TRACE("NodeInitializer", "CATS response from nid=%i; local=%llu remote=%llu",
int(resp.server_node_id.get()), static_cast<unsigned long long>(sign.get()),
static_cast<unsigned long long>(resp.response.aggregate_signature));
if (sign.get() != resp.response.aggregate_signature)
{
result_.conflicting_node = resp.server_node_id;
}
}
}
int NetworkCompatibilityChecker::checkOneNodeOneDataTypeKind(NodeID nid, DataTypeKind kind)
{
StaticAssert<DataTypeKindMessage == int(protocol::DataTypeKind::MESSAGE)>::check();
StaticAssert<DataTypeKindService == int(protocol::DataTypeKind::SERVICE)>::check();
assert(nid.isUnicast());
assert(!cats_cln_.isPending());
checking_dtkind_ = kind;
protocol::ComputeAggregateTypeSignature::Request request;
request.kind.value = kind;
GlobalDataTypeRegistry::instance().getDataTypeIDMask(kind, request.known_ids);
int res = cats_cln_.call(nid, request);
if (res < 0)
{
return res;
}
res = waitForCATSResponse();
if (res < 0)
{
return res;
}
if (!last_cats_request_ok_)
{
return -ErrFailure;
}
return 0;
}
int NetworkCompatibilityChecker::checkOneNode(NodeID nid)
{
if (nid == getNode().getNodeID())
{
result_.conflicting_node = nid; // NodeID collision
return 0;
}
const int res = checkOneNodeOneDataTypeKind(nid, DataTypeKindMessage);
if (res < 0 || !result_.isOk())
{
return res;
}
return checkOneNodeOneDataTypeKind(nid, DataTypeKindService);
}
int NetworkCompatibilityChecker::checkNodes()
{
(void)nid_mask_checked_.reset();
result_ = NetworkCompatibilityCheckResult();
while (result_.isOk())
{
const NodeID nid = findNextUncheckedNode();
if (nid.isValid())
{
UAVCAN_TRACE("NodeInitializer", "Checking nid=%i", int(nid.get()));
const int res = checkOneNode(nid);
result_.num_failed_nodes += (res < 0) ? 1U : 0U;
UAVCAN_TRACE("NodeInitializer", "Checked nid=%i result=%i", int(nid.get()), res);
}
else { break; }
}
return 0;
}
int NetworkCompatibilityChecker::execute()
{
int res = 0;
if (!getNode().getNodeID().isUnicast())
{
result_.conflicting_node = getNode().getNodeID();
goto exit;
}
res = ns_sub_.start(NodeStatusCallback(this, &NetworkCompatibilityChecker::handleNodeStatus));
if (res < 0)
{
goto exit;
}
cats_cln_.setCallback(CATSResponseCallback(this, &NetworkCompatibilityChecker::handleCATSResponse));
res = cats_cln_.init();
if (res < 0)
{
goto exit;
}
res = getNode().spin(getNetworkDiscoveryDelay());
if (res < 0)
{
goto exit;
}
res = checkNodes();
exit:
ns_sub_.stop();
cats_cln_.cancel();
return res;
}
int NetworkCompatibilityChecker::publishGlobalDiscoveryRequest(INode& node)
{
Publisher<protocol::GlobalDiscoveryRequest> pub(node);
return pub.broadcast(protocol::GlobalDiscoveryRequest());
}
}
#endif