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|
// Copyright (C) 2014-2017 Bayerische Motoren Werke Aktiengesellschaft (BMW AG)
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
#include <iomanip>
#include <vsomeip/runtime.hpp>
#include <vsomeip/internal/logger.hpp>
#include "../include/routing_manager_base.hpp"
#include "../../endpoints/include/local_client_endpoint_impl.hpp"
#include "../../endpoints/include/local_server_endpoint_impl.hpp"
#include "../../security/include/security.hpp"
#ifdef USE_DLT
#include "../../tracing/include/connector_impl.hpp"
#endif
#include "../../utility/include/byteorder.hpp"
#include "../../utility/include/utility.hpp"
namespace vsomeip_v3 {
routing_manager_base::routing_manager_base(routing_manager_host *_host) :
host_(_host),
io_(host_->get_io()),
client_(host_->get_client()),
configuration_(host_->get_configuration()),
routing_state_(routing_state_e::RS_UNKNOWN)
#ifdef USE_DLT
, tc_(trace::connector_impl::get())
#endif
{
const std::size_t its_max = configuration_->get_io_thread_count(host_->get_name());
const uint32_t its_buffer_shrink_threshold =
configuration_->get_buffer_shrink_threshold();
for (std::size_t i = 0; i < its_max; ++i) {
serializers_.push(
std::make_shared<serializer>(its_buffer_shrink_threshold));
deserializers_.push(
std::make_shared<deserializer>(its_buffer_shrink_threshold));
}
own_uid_ = ANY_UID;
own_gid_ = ANY_GID;
#ifndef _WIN32
own_uid_ = getuid();
own_gid_ = getgid();
#endif
}
boost::asio::io_service & routing_manager_base::get_io() {
return (io_);
}
client_t routing_manager_base::get_client() const {
return client_;
}
void routing_manager_base::set_client(const client_t &_client) {
client_ = _client;
}
session_t routing_manager_base::get_session() {
return host_->get_session();
}
void routing_manager_base::init(const std::shared_ptr<endpoint_manager_base>& _endpoint_manager) {
ep_mgr_ = _endpoint_manager;
}
bool routing_manager_base::offer_service(client_t _client,
service_t _service, instance_t _instance,
major_version_t _major, minor_version_t _minor) {
(void)_client;
// Remote route (incoming only)
auto its_info = find_service(_service, _instance);
if (its_info) {
if (!its_info->is_local()) {
return false;
} else if (its_info->get_major() == _major
&& its_info->get_minor() == _minor) {
its_info->set_ttl(DEFAULT_TTL);
} else {
VSOMEIP_ERROR << "rm_base::offer_service service property mismatch ("
<< std::hex << std::setw(4) << std::setfill('0') << _client <<"): ["
<< std::hex << std::setw(4) << std::setfill('0') << _service << "."
<< std::hex << std::setw(4) << std::setfill('0') << _instance << ":"
<< std::dec << static_cast<std::uint32_t>(its_info->get_major()) << ":"
<< std::dec << its_info->get_minor() << "] passed: "
<< std::dec << static_cast<std::uint32_t>(_major) << ":"
<< std::dec << _minor;
return false;
}
} else {
its_info = create_service_info(_service, _instance, _major, _minor,
DEFAULT_TTL, true);
}
{
std::lock_guard<std::mutex> its_lock(events_mutex_);
// Set major version for all registered events of this service and instance
const auto found_service = events_.find(_service);
if (found_service != events_.end()) {
const auto found_instance = found_service->second.find(_instance);
if (found_instance != found_service->second.end()) {
for (const auto &j : found_instance->second) {
j.second->set_version(_major);
}
}
}
}
return true;
}
void routing_manager_base::stop_offer_service(client_t _client,
service_t _service, instance_t _instance,
major_version_t _major, minor_version_t _minor) {
(void)_client;
(void)_major;
(void)_minor;
std::map<event_t, std::shared_ptr<event> > events;
{
std::lock_guard<std::mutex> its_lock(events_mutex_);
auto its_events_service = events_.find(_service);
if (its_events_service != events_.end()) {
auto its_events_instance = its_events_service->second.find(_instance);
if (its_events_instance != its_events_service->second.end()) {
for (auto &e : its_events_instance->second)
events[e.first] = e.second;
}
}
}
for (auto &e : events) {
e.second->unset_payload();
e.second->clear_subscribers();
}
}
void routing_manager_base::request_service(client_t _client,
service_t _service, instance_t _instance,
major_version_t _major, minor_version_t _minor) {
auto its_info = find_service(_service, _instance);
if (its_info) {
if ((_major == its_info->get_major()
|| DEFAULT_MAJOR == its_info->get_major()
|| ANY_MAJOR == _major)
&& (_minor <= its_info->get_minor()
|| DEFAULT_MINOR == its_info->get_minor()
|| _minor == ANY_MINOR)) {
its_info->add_client(_client);
} else {
VSOMEIP_ERROR << "rm_base::request_service service property mismatch ("
<< std::hex << std::setw(4) << std::setfill('0') << _client <<"): ["
<< std::hex << std::setw(4) << std::setfill('0') << _service << "."
<< std::hex << std::setw(4) << std::setfill('0') << _instance << ":"
<< std::dec << static_cast<std::uint32_t>(its_info->get_major()) << ":"
<< std::dec << its_info->get_minor() << "] passed: "
<< std::dec << static_cast<std::uint32_t>(_major) << ":"
<< std::dec << _minor;
}
}
}
void routing_manager_base::release_service(client_t _client,
service_t _service, instance_t _instance) {
auto its_info = find_service(_service, _instance);
if (its_info) {
its_info->remove_client(_client);
}
{
std::lock_guard<std::mutex> its_lock(local_services_mutex_);
auto found_service = local_services_history_.find(_service);
if (found_service != local_services_history_.end()) {
auto found_instance = found_service->second.find(_instance);
if (found_instance != found_service->second.end()) {
found_service->second.erase(_instance);
if (found_service->second.empty()) {
local_services_history_.erase(_service);
}
}
}
}
}
void routing_manager_base::register_event(client_t _client,
service_t _service, instance_t _instance,
event_t _notifier,
const std::set<eventgroup_t> &_eventgroups,
const event_type_e _type,
reliability_type_e _reliability,
std::chrono::milliseconds _cycle, bool _change_resets_cycle,
bool _update_on_change,
epsilon_change_func_t _epsilon_change_func,
bool _is_provided, bool _is_shadow, bool _is_cache_placeholder) {
std::lock_guard<std::mutex> its_registration_lock(event_registration_mutex_);
auto determine_event_reliability = [this, &_service, &_instance,
&_notifier, &_reliability]() {
reliability_type_e its_reliability =
configuration_->get_event_reliability(_service, _instance, _notifier);
if (its_reliability != reliability_type_e::RT_UNKNOWN) {
// event was explicitly configured -> overwrite value passed via API
return its_reliability;
} else if (_reliability != reliability_type_e::RT_UNKNOWN) {
// use value provided via API
return _reliability;
} else { // automatic mode, user service' reliability
return configuration_->get_service_reliability(_service, _instance);
}
};
std::shared_ptr<event> its_event = find_event(_service, _instance, _notifier);
bool transfer_subscriptions_from_any_event(false);
if (its_event) {
if (!its_event->is_cache_placeholder()) {
if (_type == its_event->get_type()
|| its_event->get_type() == event_type_e::ET_UNKNOWN
#ifdef VSOMEIP_ENABLE_COMPAT
|| (its_event->get_type() == event_type_e::ET_EVENT
&& _type == event_type_e::ET_SELECTIVE_EVENT)
|| (its_event->get_type() == event_type_e::ET_SELECTIVE_EVENT
&& _type == event_type_e::ET_EVENT && _is_provided)
#endif
) {
#ifdef VSOMEIP_ENABLE_COMPAT
if (its_event->get_type() == event_type_e::ET_EVENT
&& _type == event_type_e::ET_SELECTIVE_EVENT) {
its_event->set_type(_type);
VSOMEIP_INFO << "Event type changed to selective ("
<< std::hex << std::setw(4) << std::setfill('0') << _client << ") ["
<< std::hex << std::setw(4) << std::setfill('0') << _service << "."
<< std::hex << std::setw(4) << std::setfill('0') << _instance << "."
<< std::hex << std::setw(4) << std::setfill('0') << _notifier << "]";
}
#endif
if (_is_provided) {
its_event->set_provided(true);
its_event->set_reliability(determine_event_reliability());
}
if (_is_shadow && _is_provided) {
its_event->set_shadow(_is_shadow);
}
if (_client == host_->get_client() && _is_provided) {
its_event->set_shadow(false);
its_event->set_update_on_change(_update_on_change);
}
for (auto eg : _eventgroups) {
its_event->add_eventgroup(eg);
}
transfer_subscriptions_from_any_event = true;
} else {
#ifdef VSOMEIP_ENABLE_COMPAT
if (!(its_event->get_type() == event_type_e::ET_SELECTIVE_EVENT
&& _type == event_type_e::ET_EVENT))
#endif
VSOMEIP_ERROR << "Event registration update failed. "
"Specified arguments do not match existing registration.";
}
} else {
// the found event was a placeholder for caching.
// update it with the real values
if (_type != event_type_e::ET_FIELD) {
// don't cache payload for non-fields
its_event->unset_payload(true);
}
if (_is_shadow && _is_provided) {
its_event->set_shadow(_is_shadow);
}
if (_client == host_->get_client() && _is_provided) {
its_event->set_shadow(false);
its_event->set_update_on_change(_update_on_change);
}
its_event->set_type(_type);
its_event->set_reliability(determine_event_reliability());
its_event->set_provided(_is_provided);
its_event->set_cache_placeholder(false);
std::shared_ptr<serviceinfo> its_service = find_service(_service, _instance);
if (its_service) {
its_event->set_version(its_service->get_major());
}
if (_eventgroups.size() == 0) { // No eventgroup specified
std::set<eventgroup_t> its_eventgroups;
its_eventgroups.insert(_notifier);
its_event->set_eventgroups(its_eventgroups);
} else {
for (auto eg : _eventgroups) {
its_event->add_eventgroup(eg);
}
}
its_event->set_epsilon_change_function(_epsilon_change_func);
its_event->set_change_resets_cycle(_change_resets_cycle);
its_event->set_update_cycle(_cycle);
}
} else {
its_event = std::make_shared<event>(this, _is_shadow);
its_event->set_service(_service);
its_event->set_instance(_instance);
its_event->set_event(_notifier);
its_event->set_type(_type);
its_event->set_reliability(determine_event_reliability());
its_event->set_provided(_is_provided);
its_event->set_cache_placeholder(_is_cache_placeholder);
std::shared_ptr<serviceinfo> its_service = find_service(_service, _instance);
if (its_service) {
its_event->set_version(its_service->get_major());
}
if (_eventgroups.size() == 0) { // No eventgroup specified
std::set<eventgroup_t> its_eventgroups;
its_eventgroups.insert(_notifier);
its_event->set_eventgroups(its_eventgroups);
} else {
its_event->set_eventgroups(_eventgroups);
}
if (_is_shadow && !_epsilon_change_func) {
std::shared_ptr<cfg::debounce> its_debounce
= configuration_->get_debounce(_service, _instance, _notifier);
if (its_debounce) {
VSOMEIP_WARNING << "Using debounce configuration for "
<< " SOME/IP event "
<< std::hex << std::setw(4) << std::setfill('0')
<< _service << "."
<< std::hex << std::setw(4) << std::setfill('0')
<< _instance << "."
<< std::hex << std::setw(4) << std::setfill('0')
<< _notifier << ".";
std::stringstream its_debounce_parameters;
its_debounce_parameters << "(on_change="
<< (its_debounce->on_change_ ? "true" : "false")
<< ", ignore=[ ";
for (auto i : its_debounce->ignore_)
its_debounce_parameters << "(" << std::dec << i.first
<< ", " << std::hex << (int)i.second << ") ";
its_debounce_parameters << "], interval="
<< std::dec << its_debounce->interval_ << ")";
VSOMEIP_WARNING << "Debounce parameters: "
<< its_debounce_parameters.str();
_epsilon_change_func = [its_debounce](
const std::shared_ptr<payload> &_old,
const std::shared_ptr<payload> &_new) {
bool is_changed(false), is_elapsed(false);
// Check whether we should forward because of changed data
if (its_debounce->on_change_) {
length_t its_min_length, its_max_length;
if (_old->get_length() < _new->get_length()) {
its_min_length = _old->get_length();
its_max_length = _new->get_length();
} else {
its_min_length = _new->get_length();
its_max_length = _old->get_length();
}
// Check whether all additional bytes (if any) are excluded
for (length_t i = its_min_length; i < its_max_length; i++) {
auto j = its_debounce->ignore_.find(i);
// A change is detected when an additional byte is not
// excluded at all or if its exclusion does not cover
// all its bits.
if (j == its_debounce->ignore_.end() || j->second != 0xFF) {
is_changed = true;
break;
}
}
if (!is_changed) {
const byte_t *its_old = _old->get_data();
const byte_t *its_new = _new->get_data();
for (length_t i = 0; i < its_min_length; i++) {
auto j = its_debounce->ignore_.find(i);
if (j == its_debounce->ignore_.end()) {
if (its_old[i] != its_new[i]) {
is_changed = true;
break;
}
} else if (j->second != 0xFF) {
if ((its_old[i] & ~(j->second)) != (its_new[i] & ~(j->second))) {
is_changed = true;
break;
}
}
}
}
}
if (its_debounce->interval_ > -1) {
// Check whether we should forward because of the elapsed time since
// we did last time
std::chrono::steady_clock::time_point its_current
= std::chrono::steady_clock::now();
long elapsed = std::chrono::duration_cast<std::chrono::milliseconds>(
its_current - its_debounce->last_forwarded_).count();
is_elapsed = (its_debounce->last_forwarded_ == (std::chrono::steady_clock::time_point::max)()
|| elapsed >= its_debounce->interval_);
if (is_elapsed || (is_changed && its_debounce->on_change_resets_interval_))
its_debounce->last_forwarded_ = its_current;
}
return (is_changed || is_elapsed);
};
} else {
_epsilon_change_func = [](const std::shared_ptr<payload> &_old,
const std::shared_ptr<payload> &_new) {
(void)_old;
(void)_new;
return true;
};
}
}
its_event->set_epsilon_change_function(_epsilon_change_func);
its_event->set_change_resets_cycle(_change_resets_cycle);
its_event->set_update_cycle(_cycle);
its_event->set_update_on_change(_update_on_change);
if (_is_provided) {
transfer_subscriptions_from_any_event = true;
}
}
if (transfer_subscriptions_from_any_event) {
// check if someone subscribed to ANY_EVENT and the subscription
// was stored in the cache placeholder. Move the subscribers
// into new event
std::shared_ptr<event> its_any_event =
find_event(_service, _instance, ANY_EVENT);
if (its_any_event) {
std::set<eventgroup_t> any_events_eventgroups =
its_any_event->get_eventgroups();
for (eventgroup_t eventgroup : _eventgroups) {
auto found_eg = any_events_eventgroups.find(eventgroup);
if (found_eg != any_events_eventgroups.end()) {
std::set<client_t> its_any_event_subscribers =
its_any_event->get_subscribers(eventgroup);
for (const client_t subscriber : its_any_event_subscribers) {
its_event->add_subscriber(eventgroup, subscriber, true);
}
}
}
}
}
if (!its_event->is_cache_placeholder()) {
its_event->add_ref(_client, _is_provided);
}
for (auto eg : _eventgroups) {
std::shared_ptr<eventgroupinfo> its_eventgroupinfo
= find_eventgroup(_service, _instance, eg);
if (!its_eventgroupinfo) {
its_eventgroupinfo = std::make_shared<eventgroupinfo>();
its_eventgroupinfo->set_service(_service);
its_eventgroupinfo->set_instance(_instance);
its_eventgroupinfo->set_eventgroup(eg);
its_eventgroupinfo->set_max_remote_subscribers(
configuration_->get_max_remote_subscribers());
std::lock_guard<std::mutex> its_lock(eventgroups_mutex_);
eventgroups_[_service][_instance][eg] = its_eventgroupinfo;
}
its_eventgroupinfo->add_event(its_event);
}
std::lock_guard<std::mutex> its_lock(events_mutex_);
events_[_service][_instance][_notifier] = its_event;
}
void routing_manager_base::unregister_event(client_t _client, service_t _service, instance_t _instance,
event_t _event, bool _is_provided) {
(void)_client;
std::shared_ptr<event> its_unrefed_event;
{
std::lock_guard<std::mutex> its_lock(events_mutex_);
auto found_service = events_.find(_service);
if (found_service != events_.end()) {
auto found_instance = found_service->second.find(_instance);
if (found_instance != found_service->second.end()) {
auto found_event = found_instance->second.find(_event);
if (found_event != found_instance->second.end()) {
auto its_event = found_event->second;
its_event->remove_ref(_client, _is_provided);
if (!its_event->has_ref()) {
its_unrefed_event = its_event;
found_instance->second.erase(found_event);
} else if (_is_provided) {
its_event->set_provided(false);
}
}
}
}
}
if (its_unrefed_event) {
auto its_eventgroups = its_unrefed_event->get_eventgroups();
for (auto eg : its_eventgroups) {
std::shared_ptr<eventgroupinfo> its_eventgroup_info
= find_eventgroup(_service, _instance, eg);
if (its_eventgroup_info) {
its_eventgroup_info->remove_event(its_unrefed_event);
if (0 == its_eventgroup_info->get_events().size()) {
remove_eventgroup_info(_service, _instance, eg);
}
}
}
}
}
std::set<std::shared_ptr<event>> routing_manager_base::find_events(
service_t _service, instance_t _instance,
eventgroup_t _eventgroup) const {
std::lock_guard<std::mutex> its_lock(eventgroups_mutex_);
std::set<std::shared_ptr<event> > its_events;
auto found_service = eventgroups_.find(_service);
if (found_service != eventgroups_.end()) {
auto found_instance = found_service->second.find(_instance);
if (found_instance != found_service->second.end()) {
auto found_eventgroup = found_instance->second.find(_eventgroup);
if (found_eventgroup != found_instance->second.end()) {
return (found_eventgroup->second->get_events());
}
}
}
return (its_events);
}
std::vector<event_t> routing_manager_base::find_events(
service_t _service, instance_t _instance) const {
std::vector<event_t> its_events;
std::lock_guard<std::mutex> its_lock(events_mutex_);
const auto found_service = events_.find(_service);
if (found_service != events_.end()) {
const auto found_instance = found_service->second.find(_instance);
if (found_instance != found_service->second.end()) {
for (const auto& e : found_instance->second) {
its_events.push_back(e.first);
}
}
}
return (its_events);
}
bool routing_manager_base::is_response_allowed(client_t _sender, service_t _service,
instance_t _instance, method_t _method) {
const auto its_security(security::get());
if (!its_security->is_enabled()) {
return true;
}
{
std::lock_guard<std::mutex> its_lock(local_services_mutex_);
if (_sender == find_local_client_unlocked(_service, _instance)) {
// sender is still offering the service
return true;
}
auto found_service = local_services_history_.find(_service);
if (found_service != local_services_history_.end()) {
auto found_instance = found_service->second.find(_instance);
if (found_instance != found_service->second.end()) {
auto found_client = found_instance->second.find(_sender);
if (found_client != found_instance->second.end()) {
// sender was offering the service and is still connected
return true;
}
}
}
}
// service is now offered by another client
// or service is not offered at all
std::string security_mode_text = "!";
if (!its_security->is_audit()) {
security_mode_text = ", but will be allowed due to audit mode is active!";
}
VSOMEIP_WARNING << "vSomeIP Security: Client 0x" << std::hex << get_client()
<< " : routing_manager_base::is_response_allowed: "
<< "received a response from client 0x" << _sender
<< " which does not offer service/instance/method "
<< _service << "/" << _instance << "/" << _method
<< security_mode_text;
return !its_security->is_audit();
}
bool routing_manager_base::is_subscribe_to_any_event_allowed(credentials_t _credentials, client_t _client,
service_t _service, instance_t _instance, eventgroup_t _eventgroup) {
const auto its_security(security::get());
const uid_t its_uid(std::get<0>(_credentials));
const gid_t its_gid(std::get<1>(_credentials));
bool is_allowed(true);
auto its_eventgroup = find_eventgroup(_service, _instance, _eventgroup);
if (its_eventgroup) {
for (const auto& e : its_eventgroup->get_events()) {
if (!its_security->is_client_allowed(its_uid, its_gid,
_client, _service, _instance, e->get_event())) {
VSOMEIP_WARNING << "vSomeIP Security: Client 0x" << std::hex
<< _client << " : routing_manager_base::is_subscribe_to_any_event_allowed: "
<< "subscribes to service/instance/event "
<< _service << "/" << _instance << "/" << e->get_event()
<< " which violates the security policy!";
is_allowed = false;
break;
}
}
}
return is_allowed;
}
void routing_manager_base::subscribe(client_t _client, uid_t _uid, gid_t _gid,
service_t _service, instance_t _instance, eventgroup_t _eventgroup,
major_version_t _major, event_t _event) {
(void) _major;
(void)_uid;
(void)_gid;
std::set<event_t> its_already_subscribed_events;
bool inserted = insert_subscription(_service, _instance, _eventgroup,
_event, _client, &its_already_subscribed_events);
if (inserted) {
notify_one_current_value(_client, _service, _instance, _eventgroup,
_event, its_already_subscribed_events);
}
}
void routing_manager_base::unsubscribe(client_t _client, uid_t _uid, gid_t _gid,
service_t _service, instance_t _instance, eventgroup_t _eventgroup,event_t _event) {
(void)_uid;
(void)_gid;
if (_event != ANY_EVENT) {
auto its_event = find_event(_service, _instance, _event);
if (its_event) {
its_event->remove_subscriber(_eventgroup, _client);
}
} else {
auto its_eventgroup = find_eventgroup(_service, _instance, _eventgroup);
if (its_eventgroup) {
for (const auto &e : its_eventgroup->get_events()) {
if (e)
e->remove_subscriber(_eventgroup, _client);
}
}
}
}
void
routing_manager_base::unsubscribe_all(
service_t _service, instance_t _instance) {
std::lock_guard<std::mutex> its_guard(events_mutex_);
auto find_service = events_.find(_service);
if (find_service != events_.end()) {
auto find_instance = find_service->second.find(_instance);
if (find_instance != find_service->second.end()) {
for (auto &e : find_instance->second)
e.second->clear_subscribers();
}
}
}
void routing_manager_base::notify(service_t _service, instance_t _instance,
event_t _event, std::shared_ptr<payload> _payload,
bool _force) {
std::shared_ptr<event> its_event = find_event(_service, _instance, _event);
if (its_event) {
its_event->set_payload(_payload, _force);
} else {
VSOMEIP_WARNING << "Attempt to update the undefined event/field ["
<< std::hex << _service << "." << _instance << "." << _event
<< "]";
}
}
void routing_manager_base::notify_one(service_t _service, instance_t _instance,
event_t _event, std::shared_ptr<payload> _payload,
client_t _client, bool _force
#ifdef VSOMEIP_ENABLE_COMPAT
, bool _remote_subscriber
#endif
) {
std::shared_ptr<event> its_event = find_event(_service, _instance, _event);
if (its_event) {
// Event is valid for service/instance
bool found_eventgroup(false);
bool already_subscribed(false);
#ifdef VSOMEIP_ENABLE_COMPAT
eventgroup_t valid_group = 0;
subscription_state_e its_subscription_state(subscription_state_e::SUBSCRIPTION_NOT_ACKNOWLEDGED);
#endif
// Iterate over all groups of the event to ensure at least
// one valid eventgroup for service/instance exists.
for (auto its_group : its_event->get_eventgroups()) {
auto its_eventgroup = find_eventgroup(_service, _instance, its_group);
if (its_eventgroup) {
// Eventgroup is valid for service/instance
found_eventgroup = true;
#ifdef VSOMEIP_ENABLE_COMPAT
valid_group = its_group;
its_subscription_state = get_incoming_subscription_state(_client, _service,
_instance, valid_group, _event);
#endif
if (ep_mgr_->find_local(_client)) {
already_subscribed = its_event->has_subscriber(its_group, _client);
#ifdef VSOMEIP_ENABLE_COMPAT
} else if (subscription_state_e::IS_SUBSCRIBING != its_subscription_state
|| _remote_subscriber) {
// Remotes always needs to be marked as subscribed here if they are not currently subscribing
#else
} else {
// Remotes always needs to be marked as subscribed here
#endif
already_subscribed = true;
}
break;
}
}
if (found_eventgroup) {
if (already_subscribed) {
its_event->set_payload(_payload, _client, _force);
}
#ifdef VSOMEIP_ENABLE_COMPAT
else {
// cache notification if subscription is in progress
if (subscription_state_e::IS_SUBSCRIBING == its_subscription_state) {
VSOMEIP_INFO << "routing_manager_base::notify_one("
<< std::hex << std::setw(4) << std::setfill('0') << _client << "): ["
<< std::hex << std::setw(4) << std::setfill('0') << _service << "."
<< std::hex << std::setw(4) << std::setfill('0') << _instance << "."
<< std::hex << std::setw(4) << std::setfill('0') << valid_group << "."
<< std::hex << std::setw(4) << std::setfill('0') << _event << "]"
<< " insert pending notification!";
std::shared_ptr<message> its_notification
= runtime::get()->create_notification();
its_notification->set_service(_service);
its_notification->set_instance(_instance);
its_notification->set_method(_event);
its_notification->set_payload(_payload);
auto service_info = find_service(_service, _instance);
if (service_info) {
its_notification->set_interface_version(service_info->get_major());
}
{
std::lock_guard<std::recursive_mutex> its_lock(pending_notify_ones_mutex_);
pending_notify_ones_[_service][_instance][valid_group] = its_notification;
}
}
}
#endif
}
} else {
VSOMEIP_WARNING << "Attempt to update the undefined event/field ["
<< std::hex << _service << "." << _instance << "." << _event
<< "]";
}
}
#ifdef VSOMEIP_ENABLE_COMPAT
void routing_manager_base::send_pending_notify_ones(service_t _service, instance_t _instance,
eventgroup_t _eventgroup, client_t _client, bool _remote_subscriber) {
std::lock_guard<std::recursive_mutex> its_lock(pending_notify_ones_mutex_);
auto its_service = pending_notify_ones_.find(_service);
if (its_service != pending_notify_ones_.end()) {
auto its_instance = its_service->second.find(_instance);
if (its_instance != its_service->second.end()) {
auto its_group = its_instance->second.find(_eventgroup);
if (its_group != its_instance->second.end()) {
VSOMEIP_INFO << "routing_manager_base::send_pending_notify_ones("
<< std::hex << std::setw(4) << std::setfill('0') << _client << "): ["
<< std::hex << std::setw(4) << std::setfill('0') << _service << "."
<< std::hex << std::setw(4) << std::setfill('0') << _instance << "."
<< std::hex << std::setw(4) << std::setfill('0') << _eventgroup << "."
<< std::hex << std::setw(4) << std::setfill('0') << its_group->second->get_method() << "]";
notify_one(_service, _instance, its_group->second->get_method(),
its_group->second->get_payload(), _client, false, _remote_subscriber);
its_instance->second.erase(_eventgroup);
}
}
}
}
#endif
void routing_manager_base::unset_all_eventpayloads(service_t _service,
instance_t _instance) {
std::set<std::shared_ptr<event>> its_events;
{
std::lock_guard<std::mutex> its_lock(eventgroups_mutex_);
const auto found_service = eventgroups_.find(_service);
if (found_service != eventgroups_.end()) {
const auto found_instance = found_service->second.find(_instance);
if (found_instance != found_service->second.end()) {
for (const auto &eventgroupinfo : found_instance->second) {
for (const auto &event : eventgroupinfo.second->get_events()) {
its_events.insert(event);
}
}
}
}
}
for (const auto &e : its_events) {
e->unset_payload(true);
}
}
void routing_manager_base::unset_all_eventpayloads(service_t _service,
instance_t _instance,
eventgroup_t _eventgroup) {
std::set<std::shared_ptr<event>> its_events;
{
std::lock_guard<std::mutex> its_lock(eventgroups_mutex_);
const auto found_service = eventgroups_.find(_service);
if (found_service != eventgroups_.end()) {
const auto found_instance = found_service->second.find(_instance);
if (found_instance != found_service->second.end()) {
const auto found_eventgroup = found_instance->second.find(_eventgroup);
if (found_eventgroup != found_instance->second.end()) {
for (const auto &event : found_eventgroup->second->get_events()) {
its_events.insert(event);
}
}
}
}
}
for (const auto &e : its_events) {
e->unset_payload(true);
}
}
void routing_manager_base::notify_one_current_value(
client_t _client, service_t _service, instance_t _instance,
eventgroup_t _eventgroup, event_t _event,
const std::set<event_t> &_events_to_exclude) {
if (_event != ANY_EVENT) {
std::shared_ptr<event> its_event = find_event(_service, _instance, _event);
if (its_event && its_event->is_field())
its_event->notify_one(_client);
} else {
auto its_eventgroup = find_eventgroup(_service, _instance, _eventgroup);
if (its_eventgroup) {
std::set<std::shared_ptr<event> > its_events = its_eventgroup->get_events();
for (const auto &e : its_events) {
if (e->is_field()
&& _events_to_exclude.find(e->get_event())
== _events_to_exclude.end()) {
e->notify_one(_client);
}
}
}
}
}
bool routing_manager_base::send(client_t _client,
std::shared_ptr<message> _message) {
bool is_sent(false);
if (utility::is_request(_message->get_message_type())) {
_message->set_client(_client);
}
std::shared_ptr<serializer> its_serializer(get_serializer());
if (its_serializer->serialize(_message.get())) {
is_sent = send(_client, its_serializer->get_data(),
its_serializer->get_size(), _message->get_instance(),
_message->is_reliable(), get_client(), std::make_pair(ANY_UID, ANY_GID), 0, false);
its_serializer->reset();
put_serializer(its_serializer);
} else {
VSOMEIP_ERROR << "Failed to serialize message. Check message size!";
}
return (is_sent);
}
// ********************************* PROTECTED **************************************
std::shared_ptr<serviceinfo> routing_manager_base::create_service_info(
service_t _service, instance_t _instance, major_version_t _major,
minor_version_t _minor, ttl_t _ttl, bool _is_local_service) {
std::shared_ptr<serviceinfo> its_info =
std::make_shared<serviceinfo>(_service, _instance,
_major, _minor, _ttl, _is_local_service);
{
std::lock_guard<std::mutex> its_lock(services_mutex_);
services_[_service][_instance] = its_info;
}
if (!_is_local_service) {
std::lock_guard<std::mutex> its_lock(services_remote_mutex_);
services_remote_[_service][_instance] = its_info;
}
return its_info;
}
std::shared_ptr<serviceinfo> routing_manager_base::find_service(
service_t _service, instance_t _instance) const {
std::shared_ptr<serviceinfo> its_info;
std::lock_guard<std::mutex> its_lock(services_mutex_);
auto found_service = services_.find(_service);
if (found_service != services_.end()) {
auto found_instance = found_service->second.find(_instance);
if (found_instance != found_service->second.end()) {
its_info = found_instance->second;
}
}
return (its_info);
}
void routing_manager_base::clear_service_info(service_t _service, instance_t _instance,
bool _reliable) {
std::shared_ptr<serviceinfo> its_info(find_service(_service, _instance));
if (!its_info) {
return;
}
bool deleted_instance(false);
bool deleted_service(false);
{
std::lock_guard<std::mutex> its_lock(services_mutex_);
// Clear service_info and service_group
std::shared_ptr<endpoint> its_empty_endpoint;
if (!its_info->get_endpoint(!_reliable)) {
if (1 >= services_[_service].size()) {
services_.erase(_service);
deleted_service = true;
} else {
services_[_service].erase(_instance);
deleted_instance = true;
}
} else {
its_info->set_endpoint(its_empty_endpoint, _reliable);
}
}
if ((deleted_instance || deleted_service) && !its_info->is_local()) {
std::lock_guard<std::mutex> its_lock(services_remote_mutex_);
if (deleted_service) {
services_remote_.erase(_service);
} else if (deleted_instance) {
services_remote_[_service].erase(_instance);
}
}
}
services_t routing_manager_base::get_services() const {
std::lock_guard<std::mutex> its_lock(services_mutex_);
return services_;
}
services_t routing_manager_base::get_services_remote() const {
std::lock_guard<std::mutex> its_lock(services_remote_mutex_);
return services_remote_;
}
bool routing_manager_base::is_available(service_t _service, instance_t _instance,
major_version_t _major) {
bool available(false);
std::lock_guard<std::mutex> its_lock(local_services_mutex_);
auto its_service = local_services_.find(_service);
if (its_service != local_services_.end()) {
if (_instance == ANY_INSTANCE) {
return true;
}
auto its_instance = its_service->second.find(_instance);
if (its_instance != its_service->second.end()) {
if (_major == ANY_MAJOR) {
return true;
}
if (std::get<0>(its_instance->second) == _major) {
available = true;
}
}
}
return available;
}
std::set<client_t> routing_manager_base::find_local_clients(service_t _service, instance_t _instance) {
std::set<client_t> its_clients;
std::lock_guard<std::mutex> its_lock(local_services_mutex_);
auto its_service = local_services_.find(_service);
if (its_service != local_services_.end()) {
if (_instance == ANY_INSTANCE) {
for (auto its_instance : its_service->second) {
its_clients.insert(std::get<2>(its_instance.second));
}
} else {
auto its_instance = its_service->second.find(_instance);
if (its_instance != its_service->second.end()) {
its_clients.insert(std::get<2>(its_instance->second));
}
}
}
return its_clients;
}
client_t routing_manager_base::find_local_client(service_t _service,
instance_t _instance) const {
std::lock_guard<std::mutex> its_lock(local_services_mutex_);
return find_local_client_unlocked(_service, _instance);
}
client_t routing_manager_base::find_local_client_unlocked(service_t _service,
instance_t _instance) const {
client_t its_client(VSOMEIP_ROUTING_CLIENT);
auto its_service = local_services_.find(_service);
if (its_service != local_services_.end()) {
auto its_instance = its_service->second.find(_instance);
if (its_instance != its_service->second.end()) {
its_client = std::get<2>(its_instance->second);
}
}
return its_client;
}
void routing_manager_base::remove_local(client_t _client, bool _remove_uid) {
remove_local(_client, get_subscriptions(_client), _remove_uid);
}
void routing_manager_base::remove_local(client_t _client,
const std::set<std::tuple<service_t, instance_t, eventgroup_t>>& _subscribed_eventgroups,
bool _remove_uid) {
std::pair<uid_t, gid_t> its_uid_gid(ANY_UID, ANY_GID);
security::get()->get_client_to_uid_gid_mapping(_client, its_uid_gid);
if (_remove_uid) {
security::get()->remove_client_to_uid_gid_mapping(_client);
}
for (auto its_subscription : _subscribed_eventgroups) {
host_->on_subscription(std::get<0>(its_subscription), std::get<1>(its_subscription),
std::get<2>(its_subscription), _client, its_uid_gid.first, its_uid_gid.second, false, [](const bool _subscription_accepted){ (void)_subscription_accepted; });
routing_manager_base::unsubscribe(_client, its_uid_gid.first, its_uid_gid.second, std::get<0>(its_subscription),
std::get<1>(its_subscription), std::get<2>(its_subscription), ANY_EVENT);
}
ep_mgr_->remove_local(_client);
{
std::lock_guard<std::mutex> its_lock(local_services_mutex_);
// Finally remove all services that are implemented by the client.
std::set<std::pair<service_t, instance_t>> its_services;
for (auto& s : local_services_) {
for (auto& i : s.second) {
if (std::get<2>(i.second) == _client) {
its_services.insert({ s.first, i.first });
host_->on_availability(s.first, i.first, false,
std::get<0>(i.second), std::get<1>(i.second));
}
}
}
for (auto& si : its_services) {
local_services_[si.first].erase(si.second);
if (local_services_[si.first].size() == 0)
local_services_.erase(si.first);
}
// remove disconnected client from offer service history
std::set<std::tuple<service_t, instance_t, client_t>> its_clients;
for (auto& s : local_services_history_) {
for (auto& i : s.second) {
for (auto& c : i.second) {
if (c == _client) {
its_clients.insert(std::make_tuple(s.first, i.first, c));
}
}
}
}
for (auto& sic : its_clients) {
local_services_history_[std::get<0>(sic)][std::get<1>(sic)].erase(std::get<2>(sic));
if (local_services_history_[std::get<0>(sic)][std::get<1>(sic)].size() == 0) {
local_services_history_[std::get<0>(sic)].erase(std::get<1>(sic));
if (local_services_history_[std::get<0>(sic)].size() == 0)
local_services_history_.erase(std::get<0>(sic));
}
}
}
}
std::shared_ptr<event> routing_manager_base::find_event(service_t _service,
instance_t _instance, event_t _event) const {
std::lock_guard<std::mutex> its_lock(events_mutex_);
std::shared_ptr<event> its_event;
auto find_service = events_.find(_service);
if (find_service != events_.end()) {
auto find_instance = find_service->second.find(_instance);
if (find_instance != find_service->second.end()) {
auto find_event = find_instance->second.find(_event);
if (find_event != find_instance->second.end()) {
its_event = find_event->second;
}
}
}
return (its_event);
}
std::shared_ptr<eventgroupinfo> routing_manager_base::find_eventgroup(
service_t _service, instance_t _instance,
eventgroup_t _eventgroup) const {
std::lock_guard<std::mutex> its_lock(eventgroups_mutex_);
std::shared_ptr<eventgroupinfo> its_info(nullptr);
auto found_service = eventgroups_.find(_service);
if (found_service != eventgroups_.end()) {
auto found_instance = found_service->second.find(_instance);
if (found_instance != found_service->second.end()) {
auto found_eventgroup = found_instance->second.find(_eventgroup);
if (found_eventgroup != found_instance->second.end()) {
its_info = found_eventgroup->second;
std::shared_ptr<serviceinfo> its_service_info
= find_service(_service, _instance);
if (its_service_info) {
std::string its_multicast_address;
uint16_t its_multicast_port;
if (configuration_->get_multicast(_service, _instance,
_eventgroup,
its_multicast_address, its_multicast_port)) {
try {
its_info->set_multicast(
boost::asio::ip::address::from_string(
its_multicast_address),
its_multicast_port);
}
catch (...) {
VSOMEIP_ERROR << "Eventgroup ["
<< std::hex << std::setw(4) << std::setfill('0')
<< _service << "." << _instance << "." << _eventgroup
<< "] is configured as multicast, but no valid "
"multicast address is configured!";
}
}
// LB: THIS IS STRANGE. A "FIND" - METHOD SHOULD NOT ADD INFORMATION...
its_info->set_major(its_service_info->get_major());
its_info->set_ttl(its_service_info->get_ttl());
its_info->set_threshold(configuration_->get_threshold(
_service, _instance, _eventgroup));
}
}
}
}
return (its_info);
}
void routing_manager_base::remove_eventgroup_info(service_t _service,
instance_t _instance, eventgroup_t _eventgroup) {
std::lock_guard<std::mutex> its_lock(eventgroups_mutex_);
auto found_service = eventgroups_.find(_service);
if (found_service != eventgroups_.end()) {
auto found_instance = found_service->second.find(_instance);
if (found_instance != found_service->second.end()) {
found_instance->second.erase(_eventgroup);
}
}
}
bool routing_manager_base::send_local_notification(client_t _client,
const byte_t *_data, uint32_t _size, instance_t _instance,
bool _reliable, uint8_t _status_check) {
#ifdef USE_DLT
bool has_local(false);
#endif
bool has_remote(false);
method_t its_method = VSOMEIP_BYTES_TO_WORD(_data[VSOMEIP_METHOD_POS_MIN],
_data[VSOMEIP_METHOD_POS_MAX]);
service_t its_service = VSOMEIP_BYTES_TO_WORD(
_data[VSOMEIP_SERVICE_POS_MIN], _data[VSOMEIP_SERVICE_POS_MAX]);
std::shared_ptr<event> its_event = find_event(its_service, _instance, its_method);
if (its_event && !its_event->is_shadow()) {
for (auto its_client : its_event->get_subscribers()) {
// local
if (its_client == VSOMEIP_ROUTING_CLIENT) {
has_remote = true;
continue;
}
#ifdef USE_DLT
else {
has_local = true;
}
#endif
std::shared_ptr<endpoint> its_local_target = ep_mgr_->find_local(its_client);
if (its_local_target) {
send_local(its_local_target, _client, _data, _size,
_instance, _reliable, VSOMEIP_SEND, _status_check);
}
}
}
#ifdef USE_DLT
// Trace the message if a local client but will _not_ be forwarded to the routing manager
if (has_local && !has_remote) {
const uint16_t its_data_size
= uint16_t(_size > USHRT_MAX ? USHRT_MAX : _size);
trace::header its_header;
if (its_header.prepare(nullptr, true, _instance))
tc_->trace(its_header.data_, VSOMEIP_TRACE_HEADER_SIZE,
_data, its_data_size);
}
#endif
return has_remote;
}
bool routing_manager_base::send_local(
std::shared_ptr<endpoint>& _target, client_t _client,
const byte_t *_data, uint32_t _size, instance_t _instance,
bool _reliable, uint8_t _command, uint8_t _status_check) const {
const std::size_t its_complete_size = VSOMEIP_SEND_COMMAND_SIZE
- VSOMEIP_COMMAND_HEADER_SIZE + _size;
const client_t sender = get_client();
std::vector<byte_t> its_command_header(VSOMEIP_SEND_COMMAND_SIZE);
its_command_header[VSOMEIP_COMMAND_TYPE_POS] = _command;
std::memcpy(&its_command_header[VSOMEIP_COMMAND_CLIENT_POS],
&sender, sizeof(client_t));
std::memcpy(&its_command_header[VSOMEIP_COMMAND_SIZE_POS_MIN],
&its_complete_size, sizeof(_size));
std::memcpy(&its_command_header[VSOMEIP_SEND_COMMAND_INSTANCE_POS_MIN],
&_instance, sizeof(instance_t));
std::memcpy(&its_command_header[VSOMEIP_SEND_COMMAND_RELIABLE_POS],
&_reliable, sizeof(bool));
std::memcpy(&its_command_header[VSOMEIP_SEND_COMMAND_CHECK_STATUS_POS],
&_status_check, sizeof(uint8_t));
// Add target client, only relevant for selective notifications
std::memcpy(&its_command_header[VSOMEIP_SEND_COMMAND_DST_CLIENT_POS_MIN],
&_client, sizeof(client_t));
return _target->send(its_command_header, _data, _size);
}
bool routing_manager_base::insert_subscription(
service_t _service, instance_t _instance, eventgroup_t _eventgroup,
event_t _event, client_t _client, std::set<event_t> *_already_subscribed_events) {
bool is_inserted(false);
if (_event != ANY_EVENT) { // subscribe to specific event
std::shared_ptr<event> its_event = find_event(_service, _instance, _event);
if (its_event) {
is_inserted = its_event->add_subscriber(_eventgroup, _client,
host_->is_routing());
} else {
VSOMEIP_WARNING << "routing_manager_base::insert_subscription("
<< std::hex << std::setw(4) << std::setfill('0') << _client << "): ["
<< std::hex << std::setw(4) << std::setfill('0') << _service << "."
<< std::hex << std::setw(4) << std::setfill('0') << _instance << "."
<< std::hex << std::setw(4) << std::setfill('0') << _eventgroup << "."
<< std::hex << std::setw(4) << std::setfill('0') << _event << "]"
<< " received subscription for unknown (unrequested / "
<< "unoffered) event. Creating placeholder event holding "
<< "subscription until event is requested/offered.";
is_inserted = create_placeholder_event_and_subscribe(_service,
_instance, _eventgroup, _event, _client);
}
} else { // subscribe to all events of the eventgroup
std::shared_ptr<eventgroupinfo> its_eventgroup
= find_eventgroup(_service, _instance, _eventgroup);
bool create_place_holder(false);
if (its_eventgroup) {
std::set<std::shared_ptr<event>> its_events = its_eventgroup->get_events();
if (!its_events.size()) {
create_place_holder = true;
} else {
for (const auto &e : its_events) {
if (e->is_subscribed(_client)) {
// client is already subscribed to event from eventgroup
// this can happen if events are members of multiple
// eventgroups
_already_subscribed_events->insert(e->get_event());
}
is_inserted = e->add_subscriber(_eventgroup, _client,
host_->is_routing()) || is_inserted;
}
}
} else {
create_place_holder = true;
}
if (create_place_holder) {
VSOMEIP_WARNING << "routing_manager_base::insert_subscription("
<< std::hex << std::setw(4) << std::setfill('0') << _client << "): ["
<< std::hex << std::setw(4) << std::setfill('0') << _service << "."
<< std::hex << std::setw(4) << std::setfill('0') << _instance << "."
<< std::hex << std::setw(4) << std::setfill('0') << _eventgroup << "."
<< std::hex << std::setw(4) << std::setfill('0') << _event << "]"
<< " received subscription for unknown (unrequested / "
<< "unoffered) eventgroup. Creating placeholder event holding "
<< "subscription until event is requested/offered.";
is_inserted = create_placeholder_event_and_subscribe(_service,
_instance, _eventgroup, _event, _client);
}
}
return is_inserted;
}
std::shared_ptr<serializer> routing_manager_base::get_serializer() {
std::unique_lock<std::mutex> its_lock(serializer_mutex_);
while (serializers_.empty()) {
VSOMEIP_INFO << __func__ << ": Client "
<< std::hex << std::setw(4) << std::setfill('0')
<< get_client()
<< " has no available serializer. Waiting...";
serializer_condition_.wait(its_lock);
VSOMEIP_INFO << __func__ << ": Client "
<< std::hex << std::setw(4) << std::setfill('0')
<< get_client()
<< " now checking for available serializer.";
}
auto its_serializer = serializers_.front();
serializers_.pop();
return (its_serializer);
}
void routing_manager_base::put_serializer(
const std::shared_ptr<serializer> &_serializer) {
std::lock_guard<std::mutex> its_lock(serializer_mutex_);
serializers_.push(_serializer);
serializer_condition_.notify_one();
}
std::shared_ptr<deserializer> routing_manager_base::get_deserializer() {
std::unique_lock<std::mutex> its_lock(deserializer_mutex_);
while (deserializers_.empty()) {
VSOMEIP_INFO << std::hex << "client " << get_client() <<
"routing_manager_base::get_deserializer ~> all in use!";
deserializer_condition_.wait(its_lock);
VSOMEIP_INFO << std::hex << "client " << get_client() <<
"routing_manager_base::get_deserializer ~> wait finished!";
}
auto its_deserializer = deserializers_.front();
deserializers_.pop();
return (its_deserializer);
}
void routing_manager_base::put_deserializer(
const std::shared_ptr<deserializer> &_deserializer) {
std::lock_guard<std::mutex> its_lock(deserializer_mutex_);
deserializers_.push(_deserializer);
deserializer_condition_.notify_one();
}
void routing_manager_base::send_pending_subscriptions(service_t _service,
instance_t _instance, major_version_t _major) {
for (auto &ps : pending_subscriptions_) {
if (ps.service_ == _service &&
ps.instance_ == _instance && ps.major_ == _major) {
send_subscribe(client_, ps.service_, ps.instance_,
ps.eventgroup_, ps.major_, ps.event_);
}
}
}
void routing_manager_base::remove_pending_subscription(service_t _service,
instance_t _instance, eventgroup_t _eventgroup, event_t _event) {
if (_eventgroup == 0xFFFF) {
for (auto it = pending_subscriptions_.begin();
it != pending_subscriptions_.end();) {
if (it->service_ == _service
&& it->instance_ == _instance) {
it = pending_subscriptions_.erase(it);
} else {
it++;
}
}
} else if (_event == ANY_EVENT) {
for (auto it = pending_subscriptions_.begin();
it != pending_subscriptions_.end();) {
if (it->service_ == _service
&& it->instance_ == _instance
&& it->eventgroup_ == _eventgroup) {
it = pending_subscriptions_.erase(it);
} else {
it++;
}
}
} else {
for (auto it = pending_subscriptions_.begin();
it != pending_subscriptions_.end();) {
if (it->service_ == _service
&& it->instance_ == _instance
&& it->eventgroup_ == _eventgroup
&& it->event_ == _event) {
it = pending_subscriptions_.erase(it);
break;
} else {
it++;
}
}
}
}
std::set<std::tuple<service_t, instance_t, eventgroup_t>>
routing_manager_base::get_subscriptions(const client_t _client) {
std::set<std::tuple<service_t, instance_t, eventgroup_t>> result;
std::lock_guard<std::mutex> its_lock(events_mutex_);
for (const auto& its_service : events_) {
for (const auto& its_instance : its_service.second) {
for (const auto& its_event : its_instance.second) {
auto its_eventgroups = its_event.second->get_eventgroups(_client);
for (const auto& e : its_eventgroups) {
result.insert(std::make_tuple(
its_service.first,
its_instance.first,
e));
}
}
}
}
return result;
}
routing_state_e
routing_manager_base::get_routing_state() {
return routing_state_;
}
#ifdef VSOMEIP_ENABLE_COMPAT
void routing_manager_base::set_incoming_subscription_state(client_t _client, service_t _service, instance_t _instance,
eventgroup_t _eventgroup, event_t _event, subscription_state_e _state) {
std::lock_guard<std::recursive_mutex> its_lock(incoming_subscription_state_mutex_);
incoming_subscription_state_[_client][_service][_instance][_eventgroup][_event] = _state;
}
subscription_state_e routing_manager_base::get_incoming_subscription_state(client_t _client,
service_t _service, instance_t _instance,
eventgroup_t _eventgroup, event_t _event) {
std::lock_guard<std::recursive_mutex> its_lock(incoming_subscription_state_mutex_);
const auto its_client = incoming_subscription_state_.find(_client);
if (its_client != incoming_subscription_state_.end()) {
const auto its_service = its_client->second.find(_service);
if (its_service != its_client->second.end()) {
const auto its_instance = its_service->second.find(_instance);
if (its_instance != its_service->second.end()) {
const auto its_group = its_instance->second.find(_eventgroup);
if (its_group != its_instance->second.end()) {
const auto its_event = its_group->second.find(_event);
if (its_event != its_group->second.end()) {
return its_event->second;
}
// If a specific event was not found, check if there is a remote subscriber to ANY_EVENT
const auto its_any_event = its_group->second.find(ANY_EVENT);
if (its_any_event != its_group->second.end()) {
return its_any_event->second;
}
}
}
}
}
return subscription_state_e::SUBSCRIPTION_NOT_ACKNOWLEDGED;
}
void routing_manager_base::erase_incoming_subscription_state(client_t _client, service_t _service, instance_t _instance,
eventgroup_t _eventgroup, event_t _event) {
std::lock_guard<std::recursive_mutex> its_lock(incoming_subscription_state_mutex_);
const auto its_client = incoming_subscription_state_.find(_client);
if (its_client != incoming_subscription_state_.end()) {
const auto its_service = its_client->second.find(_service);
if (its_service != its_client->second.end()) {
const auto its_instance = its_service->second.find(_instance);
if (its_instance != its_service->second.end()) {
const auto its_group = its_instance->second.find(_eventgroup);
if (its_group != its_instance->second.end()) {
const auto its_event = its_group->second.find(_event);
if (its_event != its_group->second.end()) {
its_group->second.erase(_event);
if (its_group->second.empty()) {
its_instance->second.erase(its_group);
if (its_instance->second.empty()) {
its_service->second.erase(its_instance);
if (its_service->second.empty()) {
its_client->second.erase(its_service);
if (its_client->second.empty()) {
incoming_subscription_state_.erase(its_client);
}
}
}
}
}
}
}
}
}
}
#endif
} // namespace vsomeip_v3
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