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|
/*
* Copyright (C) 2015, 2018 "IoT.bzh"
* Author "Romain Forlot" <romain.forlot@iot.bzh>
* Author "Loic Collignon" <loic.collignon@iot.bzh>
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "low-can-hat.hpp"
#include "low-can-apidef.h"
#include <map>
#include <queue>
#include <mutex>
#include <vector>
#include <thread>
#include <wrap-json.h>
#include <systemd/sd-event.h>
#include "openxc.pb.h"
#include "application.hpp"
#include "../can/can-encoder.hpp"
#include "../can/can-bus.hpp"
#include "../can/signals.hpp"
#include "../can/message/message.hpp"
#include "../utils/signals.hpp"
#include "../diagnostic/diagnostic-message.hpp"
#include "../utils/openxc-utils.hpp"
#ifdef USE_FEATURE_J1939
#include "../can/message/j1939-message.hpp"
#include <linux/can/j1939.h>
#endif
///******************************************************************************
///
/// SystemD event loop Callbacks
///
///*******************************************************************************/
void on_no_clients(std::shared_ptr<low_can_subscription_t> can_subscription, uint32_t pid, std::map<int, std::shared_ptr<low_can_subscription_t> >& s)
{
bool is_permanent_recurring_request = false;
if( ! can_subscription->get_diagnostic_message().empty() && can_subscription->get_diagnostic_message(pid) != nullptr)
{
DiagnosticRequest diag_req = can_subscription->get_diagnostic_message(pid)->build_diagnostic_request();
active_diagnostic_request_t* adr = application_t::instance().get_diagnostic_manager().find_recurring_request(diag_req);
if( adr != nullptr)
{
is_permanent_recurring_request = adr->get_permanent();
if(! is_permanent_recurring_request)
application_t::instance().get_diagnostic_manager().cleanup_request(adr, true);
}
}
if(! is_permanent_recurring_request)
on_no_clients(can_subscription, s);
}
void on_no_clients(std::shared_ptr<low_can_subscription_t> can_subscription, std::map<int, std::shared_ptr<low_can_subscription_t> >& s)
{
auto it = s.find(can_subscription->get_index());
s.erase(it);
}
static void push_n_notify(std::shared_ptr<message_t> m)
{
can_bus_t& cbm = application_t::instance().get_can_bus_manager();
{
std::lock_guard<std::mutex> can_message_lock(cbm.get_can_message_mutex());
cbm.push_new_can_message(m);
}
cbm.get_new_can_message_cv().notify_one();
}
int read_message(sd_event_source *event_source, int fd, uint32_t revents, void *userdata)
{
low_can_subscription_t* can_subscription = (low_can_subscription_t*)userdata;
if ((revents & EPOLLIN) != 0)
{
utils::signals_manager_t& sm = utils::signals_manager_t::instance();
std::lock_guard<std::mutex> subscribed_signals_lock(sm.get_subscribed_signals_mutex());
if(can_subscription->get_index() != -1)
{
std::shared_ptr<utils::socketcan_t> s = can_subscription->get_socket();
if(s->socket() && s->socket() != -1)
{
std::shared_ptr<message_t> message = s->read_message();
// Sure we got a valid CAN message ?
if (! message->get_id() == 0 && ! message->get_length() == 0 && message->get_msg_format() != message_format_t::INVALID)
{
push_n_notify(message);
}
}
}
}
// check if error or hangup
if ((revents & (EPOLLERR|EPOLLRDHUP|EPOLLHUP)) != 0)
{
sd_event_source_unref(event_source);
can_subscription->get_socket()->close();
}
return 0;
}
///******************************************************************************
///
/// Subscription and unsubscription
///
///*******************************************************************************/
/// @brief This will determine if an event handle needs to be created and checks if
/// we got a valid afb_event to get subscribe or unsubscribe. After that launch the subscription or unsubscription
/// against the application framework using that event handle.
static int subscribe_unsubscribe_signal(afb_req_t request,
bool subscribe,
std::shared_ptr<low_can_subscription_t>& can_subscription,
std::map<int, std::shared_ptr<low_can_subscription_t> >& s)
{
int ret = 0;
int sub_index = can_subscription->get_index();
bool subscription_exists = s.count(sub_index);
// Susbcription part
if(subscribe)
{
/* There is no valid request to subscribe so this must be an
* internal permanent diagnostic request. Skip the subscription
* part and don't register it into the current "low-can"
* subsciptions.
*/
if(! request)
{
return 0;
}
// Event doesn't exist , so let's create it
if (! subscription_exists &&
(ret = can_subscription->subscribe(request)) < 0)
return ret;
if(! subscription_exists)
s[sub_index] = can_subscription;
return ret;
}
// Unsubscrition part
if(! subscription_exists)
{
AFB_NOTICE("There isn't any valid subscriptions for that request.");
return ret;
}
else if (subscription_exists &&
! afb_event_is_valid(s[sub_index]->get_event()) )
{
AFB_NOTICE("Event isn't valid, no need to unsubscribed.");
return ret;
}
if( (ret = s[sub_index]->unsubscribe(request)) < 0)
return ret;
s.find(sub_index)->second->set_index(-1);
s.erase(sub_index);
return ret;
}
static int add_to_event_loop(std::shared_ptr<low_can_subscription_t>& can_subscription)
{
struct sd_event_source* event_source = nullptr;
return ( sd_event_add_io(afb_daemon_get_event_loop(),
&event_source,
can_subscription->get_socket()->socket(),
EPOLLIN,
read_message,
can_subscription.get()));
}
static int subscribe_unsubscribe_diagnostic_messages(afb_req_t request,
bool subscribe,
std::vector<std::shared_ptr<diagnostic_message_t> > diagnostic_messages,
struct event_filter_t& event_filter,
std::map<int, std::shared_ptr<low_can_subscription_t> >& s,
bool perm_rec_diag_req)
{
int rets = 0;
application_t& app = application_t::instance();
diagnostic_manager_t& diag_m = app.get_diagnostic_manager();
for(const auto& sig : diagnostic_messages)
{
DiagnosticRequest* diag_req = new DiagnosticRequest(sig->build_diagnostic_request());
event_filter.frequency = event_filter.frequency == 0 ? sig->get_frequency() : event_filter.frequency;
std::shared_ptr<low_can_subscription_t> can_subscription;
auto it = std::find_if(s.begin(), s.end(), [&sig](std::pair<int, std::shared_ptr<low_can_subscription_t> > sub)
{
return (! sub.second->get_diagnostic_message().empty());
});
can_subscription = it != s.end() ?
it->second :
std::make_shared<low_can_subscription_t>(low_can_subscription_t(event_filter));
// If the requested diagnostic message is not supported by the car then unsubcribe it
// no matter what we want, worst case will be a failed unsubscription but at least we won't
// poll a PID for nothing.
if(sig->get_supported() && subscribe)
{
if (!app.isEngineOn())
AFB_WARNING("signal: Engine is off, %s won't received responses until it's on", sig->get_name().c_str());
diag_m.add_recurring_request(diag_req, sig->get_name().c_str(), false, sig->get_decoder(), sig->get_callback(), event_filter.frequency, perm_rec_diag_req);
if(can_subscription->create_rx_filter(sig) < 0)
{return -1;}
AFB_DEBUG("Signal: %s subscribed", sig->get_name().c_str());
if(it == s.end() && add_to_event_loop(can_subscription) < 0)
{
diag_m.cleanup_request(
diag_m.find_recurring_request(*diag_req), true);
AFB_WARNING("signal: %s isn't supported. Canceling operation.", sig->get_name().c_str());
return -1;
}
}
else
{
if(sig->get_supported())
{
AFB_DEBUG("%s cancelled due to unsubscribe", sig->get_name().c_str());
}
else
{
AFB_WARNING("signal: %s isn't supported. Canceling operation.", sig->get_name().c_str());
return -1;
}
}
int ret = subscribe_unsubscribe_signal(request, subscribe, can_subscription, s);
if(ret < 0)
return ret;
rets++;
}
return rets;
}
static int subscribe_unsubscribe_signals(afb_req_t request,
bool subscribe,
std::vector<std::shared_ptr<signal_t> > signals,
struct event_filter_t& event_filter,
std::map<int, std::shared_ptr<low_can_subscription_t> >& s)
{
int rets = 0;
for(const auto& sig: signals)
{
auto it = std::find_if(s.begin(), s.end(), [&sig, &event_filter](std::pair<int, std::shared_ptr<low_can_subscription_t> > sub)
{
return sub.second->is_signal_subscription_corresponding(sig, event_filter) ;
});
std::shared_ptr<low_can_subscription_t> can_subscription;
if(it != s.end())
{can_subscription = it->second;}
else
{
can_subscription = std::make_shared<low_can_subscription_t>(low_can_subscription_t(event_filter));
if(can_subscription->create_rx_filter(sig) < 0)
{return -1;}
if(add_to_event_loop(can_subscription) < 0)
{return -1;}
}
if(subscribe_unsubscribe_signal(request, subscribe, can_subscription, s) < 0)
{return -1;}
rets++;
AFB_DEBUG("%s Signal: %s %ssubscribed", sig->get_message()->is_fd() ? "FD": "", sig->get_name().c_str(), subscribe ? "":"un");
}
return rets;
}
///
/// @brief subscribe to all signals in the vector signals
///
/// @param[in] afb_req request : contains original request use to subscribe or unsubscribe
/// @param[in] subscribe boolean value, which chooses between a subscription operation or an unsubscription
/// @param[in] signals - struct containing vectors with signal_t and diagnostic_messages to subscribe
///
/// @return Number of correctly subscribed signal
///
static int subscribe_unsubscribe_signals(afb_req_t request,
bool subscribe,
const struct utils::signals_found& signals,
struct event_filter_t& event_filter)
{
int rets = 0;
utils::signals_manager_t& sm = utils::signals_manager_t::instance();
std::lock_guard<std::mutex> subscribed_signals_lock(sm.get_subscribed_signals_mutex());
std::map<int, std::shared_ptr<low_can_subscription_t> >& s = sm.get_subscribed_signals();
rets += subscribe_unsubscribe_diagnostic_messages(request, subscribe, signals.diagnostic_messages, event_filter, s, false);
rets += subscribe_unsubscribe_signals(request, subscribe, signals.signals, event_filter, s);
return rets;
}
static event_filter_t generate_filter(json_object* args)
{
event_filter_t event_filter;
struct json_object *filter, *obj;
// computes the filter
if (json_object_object_get_ex(args, "filter", &filter))
{
if (json_object_object_get_ex(filter, "frequency", &obj)
&& (json_object_is_type(obj, json_type_double) || json_object_is_type(obj, json_type_int)))
{event_filter.frequency = (float)json_object_get_double(obj);}
if (json_object_object_get_ex(filter, "min", &obj)
&& (json_object_is_type(obj, json_type_double) || json_object_is_type(obj, json_type_int)))
{event_filter.min = (float)json_object_get_double(obj);}
if (json_object_object_get_ex(filter, "max", &obj)
&& (json_object_is_type(obj, json_type_double) || json_object_is_type(obj, json_type_int)))
{event_filter.max = (float)json_object_get_double(obj);}
}
return event_filter;
}
static int one_subscribe_unsubscribe_events(afb_req_t request, bool subscribe, const std::string& tag, json_object* args)
{
int ret = 0;
struct utils::signals_found sf;
// subscribe or unsubscribe
openxc_DynamicField search_key = build_DynamicField(tag);
sf = utils::signals_manager_t::instance().find_signals(search_key);
if (sf.signals.empty() && sf.diagnostic_messages.empty())
{
AFB_NOTICE("No signal(s) found for %s.", tag.c_str());
ret = -1;
}
else
{
event_filter_t event_filter = generate_filter(args);
ret = subscribe_unsubscribe_signals(request, subscribe, sf, event_filter);
}
return ret;
}
static int one_subscribe_unsubscribe_id(afb_req_t request, bool subscribe, const uint32_t& id ,json_object *args)
{
int ret = 0;
std::shared_ptr<message_definition_t> message_definition = application_t::instance().get_message_definition(id);
struct utils::signals_found sf;
if(message_definition)
{
sf.signals = message_definition->get_signals();
}
if(sf.signals.empty())
{
AFB_NOTICE("No signal(s) found for %d.", id);
ret = -1;
}
else
{
event_filter_t event_filter = generate_filter(args);
ret = subscribe_unsubscribe_signals(request, subscribe, sf, event_filter);
}
return ret;
}
static int process_one_subscribe_args(afb_req_t request, bool subscribe, json_object *args)
{
int rc = 0, rc2=0;
json_object *x = nullptr, *event = nullptr, *id = nullptr;
// 2 cases : ID(PGN) and event
json_object_object_get_ex(args,"event",&event);
json_bool test_id = json_object_object_get_ex(args,"id",&id);
if(!test_id)
{
test_id = json_object_object_get_ex(args,"pgn",&id);
}
if( args == NULL || (id && ((std::string)json_object_get_string(id)).compare("*") == 0))
{
rc = one_subscribe_unsubscribe_events(request, subscribe, "*", args);
}
else
{
if(event)
{
if (json_object_get_type(event) != json_type_array) // event is set before and check if it's an array
{
rc = one_subscribe_unsubscribe_events(request, subscribe, json_object_get_string(event), args);
}
else // event is set and it's not an array
{
for (int i = 0 ; i < json_object_array_length(event); i++)
{
x = json_object_array_get_idx(event, i);
rc2 = one_subscribe_unsubscribe_events(request, subscribe, json_object_get_string(x), args);
if (rc >= 0)
rc = rc2 >= 0 ? rc + rc2 : rc2;
}
}
}
if(id)
{
if (json_object_get_type(id) != json_type_array) // id is set before and check if it's an array
{
rc = one_subscribe_unsubscribe_id(request, subscribe, json_object_get_int(id), args);
}
else // event is set and it's not an array
{
for (int i = 0 ; i < json_object_array_length(id); i++)
{
x = json_object_array_get_idx(id, i);
rc2 = one_subscribe_unsubscribe_id(request, subscribe, json_object_get_int(x), args);
if (rc >= 0)
rc = rc2 >= 0 ? rc + rc2 : rc2;
}
}
}
}
return rc;
}
static void do_subscribe_unsubscribe(afb_req_t request, bool subscribe)
{
int rc = 0;
struct json_object *args, *x;
args = afb_req_json(request);
if (json_object_get_type(args) == json_type_array)
{
for(int i = 0; i < json_object_array_length(args); i++)
{
x = json_object_array_get_idx(args, i);
rc += process_one_subscribe_args(request, subscribe, x);
}
}
else
{
rc += process_one_subscribe_args(request, subscribe, args);
}
if (rc >= 0)
afb_req_success(request, NULL, NULL);
else
afb_req_fail(request, "error", NULL);
}
void auth(afb_req_t request)
{
afb_req_session_set_LOA(request, 1);
afb_req_success(request, NULL, NULL);
}
void subscribe(afb_req_t request)
{
do_subscribe_unsubscribe(request, true);
}
void unsubscribe(afb_req_t request)
{
do_subscribe_unsubscribe(request, false);
}
/*
static int send_frame(struct canfd_frame& cfd, const std::string& bus_name, socket_type type)
{
if(bus_name.empty())
{
return -1;
}
std::map<std::string, std::shared_ptr<low_can_subscription_t> >& cd = application_t::instance().get_can_devices();
if( cd.count(bus_name) == 0)
{
cd[bus_name] = std::make_shared<low_can_subscription_t>(low_can_subscription_t());
}
if(type == socket_type::BCM)
{
return low_can_subscription_t::tx_send(*cd[bus_name], cfd, bus_name);
}
else if(type == socket_type::J1939)
{
return low_can_subscription_t::j1939_send(*cd[bus_name], cfd, bus_name);
}
else{
return -1;
}
}
*/
static int send_message(message_t *message, const std::string& bus_name, socket_type type)
{
if(bus_name.empty())
{
return -1;
}
std::map<std::string, std::shared_ptr<low_can_subscription_t> >& cd = application_t::instance().get_can_devices();
if( cd.count(bus_name) == 0)
{
cd[bus_name] = std::make_shared<low_can_subscription_t>(low_can_subscription_t());
}
if(type == socket_type::BCM)
{
return low_can_subscription_t::tx_send(*cd[bus_name], message, bus_name);
}
#ifdef USE_FEATURE_J1939
else if(type == socket_type::J1939)
{
return low_can_subscription_t::j1939_send(*cd[bus_name], message, bus_name);
}
#endif
else
{
return -1;
}
}
static void write_raw_frame(afb_req_t request, const std::string& bus_name, message_t *message, struct json_object *can_data, socket_type type)
{
if((message->get_length() <= 8 && message->get_length() > 0 && type == socket_type::BCM)
#ifdef USE_FEATURE_J1939
|| (message->get_length() < J1939_MAX_DLEN && type == socket_type::J1939)
#endif
)
{
std::vector<uint8_t> data;
for (int i = 0 ; i < message->get_length() ; i++)
{
struct json_object *one_can_data = json_object_array_get_idx(can_data, i);
data.push_back((json_object_is_type(one_can_data, json_type_int)) ?
(uint8_t)json_object_get_int(one_can_data) : 0);
}
message->set_data(data);
}
else
{
if(type == socket_type::BCM)
{
afb_req_fail(request, "Invalid", "Data array must hold 1 to 8 values.");
}
else if(type == socket_type::J1939)
{
afb_req_fail(request, "Invalid", "Data array too large");
}
else
{
afb_req_fail(request, "Invalid", "Invalid socket type");
}
return;
}
if(! send_message(message, application_t::instance().get_can_bus_manager().get_can_device_name(bus_name),type))
{
afb_req_success(request, nullptr, "Message correctly sent");
}
else
{
afb_req_fail(request, "Error", "sending the message. See the log for more details.");
}
}
static void write_frame(afb_req_t request, const std::string& bus_name, json_object *json_value)
{
message_t *message;
int id;
int length;
struct json_object *can_data = nullptr;
std::vector<uint8_t> data;
AFB_DEBUG("JSON content %s",json_object_get_string(json_value));
if(!wrap_json_unpack(json_value, "{si, si, so !}",
"can_id", &id,
"can_dlc", &length,
"can_data", &can_data))
{
message = new can_message_t(CANFD_MAX_DLEN,(uint32_t)id,(uint32_t)length,message_format_t::STANDARD,false,0,data,0);
write_raw_frame(request,bus_name,message,can_data,socket_type::BCM);
}
#ifdef USE_FEATURE_J1939
else if(!wrap_json_unpack(json_value, "{si, si, so !}",
"pgn", &id,
"length", &length,
"data", &can_data))
{
message = new j1939_message_t(J1939_MAX_DLEN,(uint32_t)length,message_format_t::J1939,data,0,J1939_NO_NAME,(pgn_t)id,J1939_NO_ADDR);
write_raw_frame(request,bus_name,message,can_data,socket_type::J1939);
}
#endif
else
{
afb_req_fail(request, "Invalid", "Frame object malformed");
return;
}
delete message;
}
static void write_signal(afb_req_t request, const std::string& name, json_object *json_value)
{
struct canfd_frame cfd;
struct utils::signals_found sf;
signal_encoder encoder = nullptr;
bool send = true;
::memset(&cfd, 0, sizeof(cfd));
openxc_DynamicField search_key = build_DynamicField(name);
sf = utils::signals_manager_t::instance().find_signals(search_key);
openxc_DynamicField dynafield_value = build_DynamicField(json_value);
if (sf.signals.empty())
{
afb_req_fail_f(request, "No signal(s) found for %s. Message not sent.", name.c_str());
return;
}
std::shared_ptr<signal_t>& sig = sf.signals[0];
if(! sig->get_writable())
{
afb_req_fail_f(request, "%s isn't writable. Message not sent.", sig->get_name().c_str());
return;
}
uint64_t value = (encoder = sig->get_encoder()) ?
encoder(*sig, dynafield_value, &send) :
encoder_t::encode_DynamicField(*sig, dynafield_value, &send);
socket_type type = socket_type::INVALID;
if(sig->get_message()->is_j1939())
{
type = socket_type::J1939;
}
else
{
type = socket_type::BCM;
}
// cfd = encoder_t::build_frame(sig, value);
message_t *message = encoder_t::build_message(sig,value);
if(! send_message(message, sig->get_message()->get_bus_device_name(), type) && send)
{
afb_req_success(request, nullptr, "Message correctly sent");
}
else
{
afb_req_fail(request, "Error", "Sending the message. See the log for more details.");
}
if(sig->get_message()->is_j1939())
{
#ifdef USE_FEATURE_J1939
delete (j1939_message_t*) message;
#endif
}
else
{
delete (can_message_t*) message;
}
}
void write(afb_req_t request)
{
struct json_object* args = nullptr, *json_value = nullptr;
const char *name = nullptr;
args = afb_req_json(request);
// Process about Raw CAN message on CAN bus directly
if (args != NULL && ! wrap_json_unpack(args, "{ss, so !}",
"bus_name", &name,
"frame", &json_value))
write_frame(request, name, json_value);
// Search signal then encode value.
else if(args != NULL &&
! wrap_json_unpack(args, "{ss, so !}",
"signal_name", &name,
"signal_value", &json_value))
write_signal(request, std::string(name), json_value);
else
afb_req_fail(request, "Error", "Request argument malformed");
}
static struct json_object *get_signals_value(const std::string& name)
{
struct utils::signals_found sf;
struct json_object *ans = nullptr;
openxc_DynamicField search_key = build_DynamicField(name);
sf = utils::signals_manager_t::instance().find_signals(search_key);
if (sf.signals.empty())
{
AFB_WARNING("No signal(s) found for %s.", name.c_str());
return NULL;
}
ans = json_object_new_array();
for(const auto& sig: sf.signals)
{
struct json_object *jobj = json_object_new_object();
json_object_object_add(jobj, "event", json_object_new_string(sig->get_name().c_str()));
json_object_object_add(jobj, "value", json_object_new_double(sig->get_last_value()));
json_object_array_add(ans, jobj);
}
return ans;
}
void get(afb_req_t request)
{
int rc = 0;
struct json_object* args = nullptr,
*json_name = nullptr;
json_object *ans = nullptr;
args = afb_req_json(request);
// Process about Raw CAN message on CAN bus directly
if (args != nullptr &&
(json_object_object_get_ex(args, "event", &json_name) && json_object_is_type(json_name, json_type_string) ))
{
ans = get_signals_value(json_object_get_string(json_name));
if (!ans)
rc = -1;
}
else
{
AFB_ERROR("Request argument malformed. Please use the following syntax:");
rc = -1;
}
if (rc >= 0)
afb_req_success(request, ans, NULL);
else
afb_req_fail(request, "error", NULL);
}
static struct json_object *list_can_message(const std::string& name)
{
struct utils::signals_found sf;
struct json_object *ans = nullptr;
openxc_DynamicField search_key = build_DynamicField(name);
sf = utils::signals_manager_t::instance().find_signals(search_key);
if (sf.signals.empty() && sf.diagnostic_messages.empty())
{
AFB_WARNING("No signal(s) found for %s.", name.c_str());
return NULL;
}
ans = json_object_new_array();
for(const auto& sig: sf.signals)
{
json_object_array_add(ans,
json_object_new_string(sig->get_name().c_str()));
}
for(const auto& sig: sf.diagnostic_messages)
{
json_object_array_add(ans,
json_object_new_string(sig->get_name().c_str()));
}
return ans;
}
void list(afb_req_t request)
{
int rc = 0;
json_object *ans = nullptr;
struct json_object* args = nullptr,
*json_name = nullptr;
args = afb_req_json(request);
const char *name;
if ((args != nullptr) &&
(json_object_object_get_ex(args, "event", &json_name) && json_object_is_type(json_name, json_type_string)))
{
name = json_object_get_string(json_name);
}
else
{
name = "*";
}
ans = list_can_message(name);
if (!ans)
rc = -1;
if (rc >= 0)
{
afb_req_success(request, ans, NULL);
}
else
{
afb_req_fail(request, "error", NULL);
}
}
/// @brief Initialize the binding.
///
/// @param[in] service Structure which represent the Application Framework Binder.
///
/// @return Exit code, zero if success.
int init_binding(afb_api_t api)
{
int ret = 1;
application_t& application = application_t::instance();
can_bus_t& can_bus_manager = application.get_can_bus_manager();
can_bus_manager.set_can_devices();
can_bus_manager.start_threads();
utils::signals_manager_t& sm = utils::signals_manager_t::instance();
/// Initialize Diagnostic manager that will handle obd2 requests.
/// We pass by default the first CAN bus device to its Initialization.
/// TODO: be able to choose the CAN bus device that will be use as Diagnostic bus.
if(application_t::instance().get_diagnostic_manager().initialize())
ret = 0;
// Add a recurring dignostic message request to get engine speed at all times.
openxc_DynamicField search_key = build_DynamicField("diagnostic_messages.engine.speed");
struct utils::signals_found sf = sm.find_signals(search_key);
if(sf.signals.empty() && sf.diagnostic_messages.size() == 1)
{
afb_req_t request = nullptr;
struct event_filter_t event_filter;
event_filter.frequency = sf.diagnostic_messages.front()->get_frequency();
std::map<int, std::shared_ptr<low_can_subscription_t> >& s = sm.get_subscribed_signals();
subscribe_unsubscribe_diagnostic_messages(request, true, sf.diagnostic_messages, event_filter, s, true);
}
#ifdef USE_FEATURE_J1939
std::vector<std::shared_ptr<message_definition_t>> current_messages_definition = application.get_messages_definition();
for(std::shared_ptr<message_definition_t> message_definition: current_messages_definition)
{
if(message_definition->is_j1939())
{
std::shared_ptr<low_can_subscription_t> low_can_j1939 = std::make_shared<low_can_subscription_t>();
application.set_subscription_address_claiming(low_can_j1939);
ret = low_can_subscription_t::open_socket(*low_can_j1939,
message_definition->get_bus_device_name(),
socket_type::J1939_ADDR_CLAIM);
if(ret < 0)
{
AFB_ERROR("Error open socket address claiming for j1939 protocol");
return -1;
}
// std::shared_ptr<low_can_subscription_t> saddrclaim = application.get_subscription_address_claiming();
add_to_event_loop(low_can_j1939);
break;
}
}
#endif
if(ret)
{
AFB_ERROR("There was something wrong with CAN device Initialization.");
}
return ret;
}
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