}
} // namespace stm
-
namespace pm {
-typedef struct AreaState {
- std::string name;
- std::string category;
- std::string role;
-} AreaState;
-
-typedef std::vector<AreaState> AreaList;
-typedef struct LayoutState {
- std::string name;
- std::map<std::string, int> category_num;
- AreaList area_list;
- std::map<std::string, std::vector<std::string>> role_history;
-} LayoutState;
-
-typedef struct LayerState {
- std::string name;
- LayoutState layout_state;
- int changed;
-} LayerState;
-
-typedef struct CarElement {
- std::string state;
- int changed;
-} CarElement;
-
-struct sd_event* event_loop;
-std::map<int, struct sd_event_source*> event_source_list;
-std::map<int, std::string> g_req_role_list;
-PolicyManager::CallbackTable callback;
-
-std::unordered_map<std::string, CarElement> g_prv_car_elements;
-std::unordered_map<std::string, CarElement> g_crr_car_elements;
-
-std::unordered_map<std::string, LayerState> g_prv_layers;
-std::unordered_map<std::string, LayerState> g_crr_layers;
-
-std::unordered_map<std::string, LayerState> g_prv_layers_car_stop;
-
-std::unordered_map<std::string, LayoutState> g_default_layouts;
+static PolicyManager *g_context;
+
+static int transitionStateWrapper(sd_event_source *source, void *data) {
+ int ret = pm::g_context->transitionState(source, data);
+ return ret;
+}
+
+static int timerEventWrapper(sd_event_source *source, uint64_t usec, void *data) {
+ int ret = pm::g_context->timerEvent(source, usec, data);
+ return ret;
+}
+
} // namespace pm
int ret = 0;
// Create convert map
- for (int i = stm::gStmEventNoMin; i <= stm::gStmEventNoMax; i++) {
- HMI_DEBUG("wm:pm", "event name:%s no:%d", stm::gStmEventName[i], stm::gStmEventNo[i]);
- this->eventname2no[stm::gStmEventName[i]] = stm::gStmEventNo[i];
+ for (int i = stm::StmEvtNoMin; i <= stm::StmEvtNoMax; i++) {
+ HMI_DEBUG("wm:pm", "event name:%s no:%d", stm::kStmEventName[i], i);
+ this->eventname2no[stm::kStmEventName[i]] = i;
}
- for (int i = stm::gStmCategoryNoMin; i <= stm::gStmCategoryNoMax; i++) {
- HMI_DEBUG("wm:pm", "category name:%s no:%d", stm::gStmCategoryName[i], stm::gStmCategoryNo[i]);
- this->categoryname2no[stm::gStmCategoryName[i]] = stm::gStmCategoryNo[i];
+ for (int i = stm::StmCtgNoMin; i <= stm::StmCtgNoMax; i++) {
+ HMI_DEBUG("wm:pm", "category name:%s no:%d", stm::kStmCategoryName[i], i);
+ this->categoryname2no[stm::kStmCategoryName[i]] = i;
}
- for (int i = stm::gStmAreaNoMin; i <= stm::gStmAreaNoMax; i++) {
- HMI_DEBUG("wm:pm", "area name:%s no:%d", stm::gStmAreaName[i], stm::gStmAreaNo[i]);
- this->areaname2no[stm::gStmAreaName[i]] = stm::gStmAreaNo[i];
+ for (int i = stm::StmAreaNoMin; i <= stm::StmAreaNoMax; i++) {
+ HMI_DEBUG("wm:pm", "area name:%s no:%d", stm::kStmAreaName[i], i);
+ this->areaname2no[stm::kStmAreaName[i]] = i;
}
// Load role.db
}
// Initialize state which is managed by PolicyManager
- this->initializeLocalState();
+ this->initializeState();
// Initialize StateTransitioner
stm::stmInitialize();
return ret;
}
+ pm::g_context = this;
+
return ret;
}
-static void initializeLocalCarElementState() {
- pm::CarElement init_car_ele;
+void PolicyManager::initializeCarElementState() {
+ CarElement init_car_ele;
init_car_ele.state = "none";
- init_car_ele.changed = 0;
+ init_car_ele.changed = false;
- for (int i = stm::gStmCarElementNoMin; i <= stm::gStmCarElementNoMax; i++) {
- const char* car_ele_name = stm::gStmCarElementName[i];
- pm::g_crr_car_elements[car_ele_name] = init_car_ele;
+ for (int i = stm::StmCarElementNoMin; i <= stm::StmCarElementNoMax; i++) {
+ const char* car_ele_name = stm::kStmCarElementName[i];
+ this->crr_car_elements[car_ele_name] = init_car_ele;
}
- pm::g_prv_car_elements = pm::g_crr_car_elements;
+ this->prv_car_elements = this->crr_car_elements;
}
-static void initializeLocalLayerState() {
- pm::AreaState init_area;
- pm::LayoutState init_layout;
- init_area.name = stm::gStmAreaName[stm::gStmAreaNoNone];
+void PolicyManager::initializeLayerState() {
+ AreaState init_area;
+ LayoutState init_layout;
+ init_area.name = stm::kStmAreaName[stm::StmAreaNoNone];
init_area.category = "";
init_area.role = "";
- init_layout.name = stm::gStmLayoutName[stm::gStmLayoutNoNone];
+ init_layout.name = stm::kStmLayoutName[stm::StmLayoutNoNone];
init_layout.area_list.push_back(init_area);
- for (int i = stm::gStmLayerNoMin; i <= stm::gStmLayerNoMax; i++) {
- const char* layer_name = stm::gStmLayerName[i];
- pm::g_crr_layers[layer_name].name = layer_name;
- pm::g_crr_layers[layer_name].layout_state = init_layout;
- pm::g_crr_layers[layer_name].changed = 0;
+ for (int i = stm::StmLayerNoMin; i <= stm::StmLayerNoMax; i++) {
+ const char* layer_name = stm::kStmLayerName[i];
+ this->crr_layers[layer_name].name = layer_name;
+ this->crr_layers[layer_name].layout_state = init_layout;
+ this->crr_layers[layer_name].changed = false;
}
- pm::g_prv_layers = pm::g_crr_layers;
+ this->prv_layers = this->crr_layers;
}
-void PolicyManager::initializeLocalState() {
- initializeLocalCarElementState();
- initializeLocalLayerState();
+void PolicyManager::initializeState() {
+ this->initializeCarElementState();
+ this->initializeLayerState();
}
int PolicyManager::initializeSdEventLoop() {
// Get default event loop object
- int ret = sd_event_new(&(pm::event_loop));
+ int ret = sd_event_new(&(this->event_loop));
if (0 > ret) {
HMI_ERROR("wm:pm", "Faild to sd_event_default: errno:%d", ret);
return -1;
// Create thread for sd_event and detach
std::thread sd_event_loop([this]() {
while (1) {
- sd_event_run(pm::event_loop, 1000);
+ sd_event_run(this->event_loop, 1000);
}
});
sd_event_loop.detach();
return 0;
}
-static void addStateToJson(
- const char* name, int changed, std::string state, json_object** json_out) {
- if ((nullptr == name) || (1 < changed) || (nullptr == json_out)) {
+void PolicyManager::addStateToJson(const char* name, bool changed,
+ std::string state, json_object** json_out) {
+ if ((nullptr == name) || (nullptr == json_out)) {
HMI_ERROR("wm:pm", "Invalid argument!!!");
return;
}
json_object_object_add(*json_out, "changed", json_object_new_boolean(changed));
}
-static void addStateToJson(const char* layer_name, unsigned int changed,
- pm::AreaList area_list, json_object** json_out) {
- if ((nullptr == layer_name) || (1 < changed) || (nullptr == json_out)) {
+void PolicyManager::addStateToJson(const char* layer_name, bool changed,
+ AreaList area_list, json_object** json_out) {
+ if ((nullptr == layer_name) || (nullptr == json_out)) {
HMI_ERROR("wm:pm", "Invalid argument!!!");
return;
}
json_object* json_areas = json_object_new_array();
json_object* json_tmp;
- for (pm::AreaState as : area_list) {
+ for (AreaState as : area_list) {
json_tmp = json_object_new_object();
json_object_object_add(json_tmp, "name", json_object_new_string(as.name.c_str()));
json_object_object_add(json_tmp, "role", json_object_new_string(as.role.c_str()));
json_object_object_add(*json_out, "areas", json_areas);
}
-static void updateLocalCarElementState(stm::stm_state_t crr_state) {
+void PolicyManager::updateCarElementState(stm::StmState crr_state) {
int car_state_no;
std::string car_state;
bool changed;
// Store previous layers
- pm::g_prv_car_elements = pm::g_crr_car_elements;
+ this->prv_car_elements = this->crr_car_elements;
// Update car elements
HMI_DEBUG("wm:pm", ">>> CAR ELEMENT");
- for (int car_ele_no = stm::gStmCarElementNoMin;
- car_ele_no <= stm::gStmCarElementNoMax; car_ele_no++) {
- const char* car_ele_name = stm::gStmCarElementName[car_ele_no];
+ for (int car_ele_no = stm::StmCarElementNoMin;
+ car_ele_no <= stm::StmCarElementNoMax; car_ele_no++) {
+ const char* car_ele_name = stm::kStmCarElementName[car_ele_no];
car_state_no = crr_state.car_element[car_ele_no].state;
- car_state = stm::gStmCarStateNameList[car_ele_no][car_state_no];
- changed = crr_state.car_element[car_ele_no].changed;
+ car_state = stm::kStmCarStateNameList[car_ele_no][car_state_no];
+ changed = (crr_state.car_element[car_ele_no].changed) ? true : false;
- pm::g_crr_car_elements[car_ele_name].state = car_state;
- pm::g_crr_car_elements[car_ele_name].changed = changed;
+ this->crr_car_elements[car_ele_name].state = car_state;
+ this->crr_car_elements[car_ele_name].changed = changed;
HMI_DEBUG("wm:pm", ">>> >>> NAME: %s", car_ele_name);
HMI_DEBUG("wm:pm", ">>> >>> >>> STATE:%s", car_state.c_str());
- HMI_DEBUG("wm:pm", ">>> >>> >>> CHANGED:%d", changed);
+ HMI_DEBUG("wm:pm", ">>> >>> >>> CHANGED:%s", (changed) ? "true" : "false");
}
}
-static void updateLocalLayerState(int event_data, stm::stm_state_t crr_state) {
+void PolicyManager::updateLayerState(int event_data, stm::StmState crr_state) {
int event_no, category_no, area_no;
- event_no = (event_data & STM_MSK_EVT_NO) - 1;
- category_no = ((event_data & STM_MSK_CTG_NO) >> 8) - 1;
- area_no = ((event_data & STM_MSK_ARA_NO) >> 16) - 1;
+ event_no = STM_GET_EVENT_FROM_ID(event_data);
+ category_no = STM_GET_CATEGORY_FROM_ID(event_data);
+ area_no = STM_GET_AREA_FROM_ID(event_data);
- std::string req_evt = std::string(stm::gStmEventName[event_no]);
- std::string req_ctg = std::string(stm::gStmCategoryName[category_no]);
- std::string req_area = std::string(stm::gStmAreaName[area_no]);
- std::string req_role = pm::g_req_role_list[event_data];
+ std::string req_evt = stm::kStmEventName[event_no];
+ std::string req_ctg = stm::kStmCategoryName[category_no];
+ std::string req_area = stm::kStmAreaName[area_no];
+ std::string req_role = this->req_role_list[event_data];
HMI_DEBUG("wm:pm", "REQ: event:%s role:%s category:%s area:%s",
req_evt.c_str(), req_role.c_str(), req_ctg.c_str(), req_area.c_str());
// Store previous layers
- pm::g_prv_layers = pm::g_crr_layers;
+ this->prv_layers = this->crr_layers;
// Update layers
- for (int layer_no = stm::gStmLayerNoMin;
- layer_no <= stm::gStmLayerNoMax; layer_no++) {
- const char* layer_name = stm::gStmLayerName[layer_no];
+ for (int layer_no = stm::StmLayerNoMin;
+ layer_no <= stm::StmLayerNoMax; layer_no++) {
+ const char* layer_name = stm::kStmLayerName[layer_no];
HMI_DEBUG("wm:pm", "LAYER:%s", layer_name);
#if 1
// If restriction mode is changed off -> on,
// store current state for state of restriction mode off
- if ((crr_state.car_element[stm::gStmCarElementNoRestrictionMode].changed)
- && (stm::gStmRestrictionModeStateNoOn == crr_state.car_element[stm::gStmCarElementNoRestrictionMode].state)) {
+ if ((crr_state.car_element[stm::StmCarElementNoRestrictionMode].changed)
+ && (stm::StmRestrictionModeSttNoOn == crr_state.car_element[stm::StmCarElementNoRestrictionMode].state)) {
HMI_DEBUG("wm:pm", "Store current state for state of restriction mode off");
- pm::g_prv_layers_car_stop[layer_name] = pm::g_crr_layers[layer_name];
+ this->prv_layers_car_stop[layer_name] = this->crr_layers[layer_name];
}
#else
// If car state is changed car_stop -> car_run,
// store current state for state of car stop
if ((crr_state.car.changed)
- && (stm::gStmRunningNoRun == crr_state.car.state)) {
+ && (stm::StmRunningNoRun == crr_state.car.state)) {
HMI_DEBUG("wm:pm", "Store current state for state of car stop");
- pm::g_prv_layers_car_stop[layer_name] = pm::g_crr_layers[layer_name];
+ this->prv_layers_car_stop[layer_name] = this->crr_layers[layer_name];
}
#endif
-
// This layer is changed?
- if (crr_state.layer[layer_no].changed) {
+ int changed = crr_state.layer[layer_no].changed;
+ if (changed) {
+ HMI_DEBUG("wm:pm", "This layer is changed");
+
// Get previous layout name of this layer
- pm::LayoutState prv_layout_state = pm::g_prv_layers[layer_name].layout_state;
+ LayoutState prv_layout_state = this->prv_layers[layer_name].layout_state;
std::string prv_layout_name = prv_layout_state.name;
// Get current layout name of this layer
int crr_layout_state_no = crr_state.layer[layer_no].state;
- std::string crr_layout_name = std::string(stm::gStmLayoutName[crr_layout_state_no]);
+ std::string crr_layout_name = std::string(stm::kStmLayoutName[crr_layout_state_no]);
- pm::LayoutState crr_layout_state;
+ LayoutState crr_layout_state;
#if 1
- if ((crr_state.car_element[stm::gStmCarElementNoRestrictionMode].changed)
- && (stm::gStmRestrictionModeStateNoOff == crr_state.car_element[stm::gStmCarElementNoRestrictionMode].state)) {
+ if ((crr_state.car_element[stm::StmCarElementNoRestrictionMode].changed)
+ && (stm::StmRestrictionModeSttNoOff == crr_state.car_element[stm::StmCarElementNoRestrictionMode].state)) {
// If restriction mode is changed on -> off,
// restore state of restriction mode off
HMI_DEBUG("wm:pm", "Restriction mode is changed on -> off, so restore state of restriction mode off");
- crr_layout_state = pm::g_prv_layers_car_stop[layer_name].layout_state;
#else
- if ((crr_state.car_element[gStmCarElementNoRunning].changed)
- && (stm::gStmCarElementNoStop == crr_state.car_element[gStmCarElementNoRunning].state)) {
+ if ((crr_state.car_element[stm::StmCarElementNoRunning].changed)
+ && (stm::StmCarElementNoStop == crr_state.car_element[stm::StmCarElementNoRunning].state)) {
// If car state is changed car_run -> car_stop,
// restore state of car stop
HMI_DEBUG("wm:pm", "Car state is changed car_run -> car_stop, so restore state of car stop");
- crr_layout_state = pm::g_prv_layers_car_stop[layer_name].layout_state;
#endif
+ crr_layout_state = this->prv_layers_car_stop[layer_name].layout_state;
+ crr_layout_name = crr_layout_state.name;
+ if ((prv_layout_name == crr_layout_name)
+ && (stm::kStmAreaName[stm::StmAreaNoNone] == crr_layout_name)) {
+ changed = 0;
+ }
+ }
+ else if ((prv_layout_name == crr_layout_name)
+ && (stm::kStmAreaName[stm::StmAreaNoNone] == crr_layout_name)) {
+ // Copy previous layout state for current
+ crr_layout_state = prv_layout_state;
+ changed = 0;
}
else {
// Copy previous layout state for current
crr_layout_state = prv_layout_state;
+ HMI_DEBUG("wm:pm", "layout name previous:%s current:%s",
+ prv_layout_name.c_str(), crr_layout_name.c_str());
if (prv_layout_name == crr_layout_name) {
HMI_DEBUG("wm:pm", "Previous layout is same with current");
}
// If previous layout is NOT same with current,
// current areas is set with default value
HMI_DEBUG("wm:pm", "Previous layout is NOT same with current");
- crr_layout_state.name = pm::g_default_layouts[crr_layout_name].name;
- crr_layout_state.category_num = pm::g_default_layouts[crr_layout_name].category_num;
- crr_layout_state.area_list = pm::g_default_layouts[crr_layout_name].area_list;
+ crr_layout_state.name = this->default_layouts[crr_layout_name].name;
+ crr_layout_state.category_num = this->default_layouts[crr_layout_name].category_num;
+ crr_layout_state.area_list = this->default_layouts[crr_layout_name].area_list;
}
// Create candidate list
- std::map<std::string, pm::AreaList> cand_list;
- for (int ctg_no=stm::gStmCategoryNoMin;
- ctg_no<=stm::gStmCategoryNoMax; ctg_no++) {
- const char* ctg = stm::gStmCategoryName[ctg_no];
+ std::map<std::string, AreaList> cand_list;
+ for (int ctg_no=stm::StmCtgNoMin;
+ ctg_no<=stm::StmCtgNoMax; ctg_no++) {
+ const char* ctg = stm::kStmCategoryName[ctg_no];
HMI_DEBUG("wm:pm", "ctg:%s", ctg);
// Create candidate list for category from the previous displayed categories
- pm::AreaList tmp_cand_list;
- for (pm::AreaState area_state : prv_layout_state.area_list) {
+ AreaList tmp_cand_list;
+ for (AreaState area_state : prv_layout_state.area_list) {
if (std::string(ctg) == area_state.category) {
// If there is the category which is same with new category in previous layout,
// push it to list
bool updated = false;
if ((ctg == req_ctg) && ("activate" == req_evt) ) {
HMI_DEBUG("wm:pm", "requested event is activate");
- for (pm::AreaState &as : crr_layout_state.area_list) {
+ for (AreaState &as : crr_layout_state.area_list) {
if (as.category == req_ctg) {
request_for_this_layer = true;
// so push requested role to candidate list
if (request_for_this_layer && (!updated)) {
HMI_DEBUG("wm:pm", "Push request to candidate list");
- pm::AreaState area_state;
+ AreaState area_state;
area_state.name = req_area;
area_state.category = req_ctg;
area_state.role = req_role;
// Refer history stack
// and add to the top of tmp_cand_list in order to the newest
while (candidate_num != blank_num) {
- pm::AreaState area_state;
+ AreaState area_state;
area_state.name = "";
area_state.category = ctg;
if (0 != crr_layout_state.role_history[ctg].size()) {
- HMI_ERROR("wm:pm", "Use role in history stack:%s",
+ HMI_DEBUG("wm:pm", "Use role in history stack:%s",
crr_layout_state.role_history[ctg].back().c_str());
area_state.role = crr_layout_state.role_history[ctg].back();
crr_layout_state.role_history[ctg].pop_back();
}
// Update areas
- for (pm::AreaState &as : crr_layout_state.area_list) {
+ for (AreaState &as : crr_layout_state.area_list) {
HMI_DEBUG("wm:pm", "Current area info area:%s category:%s",
as.name.c_str(), as.category.c_str());
if ("" == as.role) {
}
}
// Update current layout of this layer
- pm::g_crr_layers[layer_name].layout_state = crr_layout_state;
- pm::g_crr_layers[layer_name].changed = crr_state.layer[layer_no].changed;
+ this->crr_layers[layer_name].layout_state = crr_layout_state;
}
+ // Update changed flag
+ this->crr_layers[layer_name].changed = (changed) ? true : false;
}
// Erase role for the event_data from list
- pm::g_req_role_list.erase(event_data);
+ this->req_role_list.erase(event_data);
// Check
- for (auto itr : pm::g_crr_layers) {
- pm::LayerState ls = itr.second;
+ for (auto itr : this->crr_layers) {
+ LayerState ls = itr.second;
HMI_DEBUG("wm:pm", ">>> LAYER:%s",ls.name.c_str());
HMI_DEBUG("wm:pm", ">>> >>> LAYOUT:%s", ls.layout_state.name.c_str());
- for (pm::AreaState as : ls.layout_state.area_list) {
+ for (AreaState as : ls.layout_state.area_list) {
HMI_DEBUG("wm:pm", ">>> >>> >>> AREA:%s", as.name.c_str());
HMI_DEBUG("wm:pm", ">>> >>> >>> >>> CTG:%s", as.category.c_str());
HMI_DEBUG("wm:pm", ">>> >>> >>> >>> ROLE:%s", as.role.c_str());
}
- HMI_DEBUG("wm:pm", ">>> >>> CHANGED:%d", ls.changed);
+ HMI_DEBUG("wm:pm", ">>> >>> CHANGED:%s", (ls.changed) ? "true" : "false");
}
}
-static void updateLocalState(int event_data, stm::stm_state_t crr_state) {
- updateLocalCarElementState(crr_state);
- updateLocalLayerState(event_data, crr_state);
+void PolicyManager::updateState(int event_data, stm::StmState crr_state) {
+ this->updateCarElementState(crr_state);
+ this->updateLayerState(event_data, crr_state);
}
-static void createOutputInformation(stm::stm_state_t crr_state, json_object **json_out) {
+void PolicyManager::createOutputInformation(stm::StmState crr_state, json_object **json_out) {
json_object* json_tmp;
// Create car element information
// },
json_object* json_car_ele = json_object_new_array();
const char* car_ele_name;
- for (int car_ele_no = stm::gStmCarElementNoMin;
- car_ele_no <= stm::gStmCarElementNoMax; car_ele_no++) {
- car_ele_name = stm::gStmCarElementName[car_ele_no];
+ for (int car_ele_no = stm::StmCarElementNoMin;
+ car_ele_no <= stm::StmCarElementNoMax; car_ele_no++) {
+ car_ele_name = stm::kStmCarElementName[car_ele_no];
json_tmp = json_object_new_object();
- addStateToJson(car_ele_name,
- pm::g_crr_car_elements[car_ele_name].changed,
- pm::g_crr_car_elements[car_ele_name].state,
- &json_tmp);
+ this->addStateToJson(car_ele_name,
+ this->crr_car_elements[car_ele_name].changed,
+ this->crr_car_elements[car_ele_name].state,
+ &json_tmp);
json_object_array_add(json_car_ele, json_tmp);
}
json_object_object_add(*json_out, "car_elements", json_car_ele);
// ...
json_object* json_layer = json_object_new_array();
const char* layer_name;
- for (int layer_no = stm::gStmLayerNoMin;
- layer_no <= stm::gStmLayerNoMax; layer_no++) {
- layer_name = stm::gStmLayerName[layer_no];
+ for (int layer_no = stm::StmLayerNoMin;
+ layer_no <= stm::StmLayerNoMax; layer_no++) {
+ layer_name = stm::kStmLayerName[layer_no];
json_tmp = json_object_new_object();
- addStateToJson(layer_name,
- pm::g_crr_layers[layer_name].changed,
- pm::g_crr_layers[layer_name].layout_state.area_list,
- &json_tmp);
+ this->addStateToJson(layer_name,
+ this->crr_layers[layer_name].changed,
+ this->crr_layers[layer_name].layout_state.area_list,
+ &json_tmp);
json_object_array_add(json_layer, json_tmp);
}
json_object_object_add(*json_out, "layers", json_layer);
}
-static int checkPolicyEntry(int event, uint64_t delay_ms, std::string role);
-static void controlTimerEvent(stm::stm_state_t crr_state) {
- if (crr_state.car_element[stm::gStmCarElementNoRunning].changed) {
- if (stm::gStmRunningNoRun == crr_state.car_element[stm::gStmCarElementNoRunning].state) {
+void PolicyManager::controlTimerEvent(stm::StmState crr_state) {
+ if (crr_state.car_element[stm::StmCarElementNoRunning].changed) {
+ if (stm::StmRunningNoRun == crr_state.car_element[stm::StmCarElementNoRunning].state) {
// Set delay event(restriction mode on)
- checkPolicyEntry(STM_EVT_NO_RESTRICTION_MODE_ON, 3000, "");
+ this->setStateTransitionProcessToSystemd(stm::StmEvtNoRestrictionModeOn, 3000, "");
}
- else if (stm::gStmRunningNoStop == crr_state.car_element[stm::gStmCarElementNoRunning].state) {
+ else if (stm::StmRunningNoStop == crr_state.car_element[stm::StmCarElementNoRunning].state) {
// Stop timer for restriction on event
- if (pm::event_source_list.find(STM_EVT_NO_RESTRICTION_MODE_ON)
- != pm::event_source_list.end()) {
+ if (this->event_source_list.find(stm::StmEvtNoRestrictionModeOn)
+ != this->event_source_list.end()) {
HMI_DEBUG("wm:pm", "Stop timer for restriction on");
sd_event_source *event_source
- = pm::event_source_list[STM_EVT_NO_RESTRICTION_MODE_ON];
+ = this->event_source_list[stm::StmEvtNoRestrictionModeOn];
int ret = sd_event_source_set_enabled(event_source, SD_EVENT_OFF);
if (0 > ret) {
HMI_ERROR("wm:pm", "Failed to stop timer");
}
// Set event(restriction mode off)
- checkPolicyEntry(STM_EVT_NO_RESTRICTION_MODE_OFF, 0, "");
+ this->setStateTransitionProcessToSystemd(stm::StmEvtNoRestrictionModeOff, 0, "");
}
}
}
-static int checkPolicy(sd_event_source *source, void *data) {
+int PolicyManager::transitionState(sd_event_source *source, void *data) {
HMI_DEBUG("wm:pm", "Call");
HMI_DEBUG("wm:pm", ">>>>>>>>>> START CHECK POLICY");
int event_data = *((int*)data);
int event_no, category_no, area_no;
- event_no = (event_data & STM_MSK_EVT_NO) - 1;
- category_no = ((event_data & STM_MSK_CTG_NO) >> 8) - 1;
- area_no = ((event_data & STM_MSK_ARA_NO) >> 16) - 1;
+ event_no = STM_GET_EVENT_FROM_ID(event_data);
+ category_no = STM_GET_CATEGORY_FROM_ID(event_data);
+ area_no = STM_GET_AREA_FROM_ID(event_data);
HMI_DEBUG("wm:pm", ">>>>>>>>>> event:%s category:%s area:%s",
- stm::gStmEventName[event_no],
- stm::gStmCategoryName[category_no],
- stm::gStmAreaName[area_no]);
+ stm::kStmEventName[event_no],
+ stm::kStmCategoryName[category_no],
+ stm::kStmAreaName[area_no]);
// Transition state
- stm::stm_state_t crr_state;
+ stm::StmState crr_state;
int ret = stm::stmTransitionState(event_data, &crr_state);
if (0 > ret) {
HMI_ERROR("wm:pm", "Failed transition state");
- if (nullptr != pm::callback.onError) {
+ if (nullptr != this->callback.onError) {
json_object* json_out = json_object_new_object();
json_object_object_add(json_out, "message",
json_object_new_string("Failed to transition state"));
json_object_object_add(json_out, "event",
- json_object_new_string(stm::gStmEventName[event_no]));
+ json_object_new_string(stm::kStmEventName[event_no]));
json_object_object_add(json_out, "role",
- json_object_new_string(pm::g_req_role_list[event_data].c_str()));
+ json_object_new_string(this->req_role_list[event_data].c_str()));
json_object_object_add(json_out, "area",
- json_object_new_string(stm::gStmAreaName[area_no]));
- pm::callback.onError(json_out);
+ json_object_new_string(stm::kStmAreaName[area_no]));
+ this->callback.onError(json_out);
json_object_put(json_out);
}
return -1;
}
// Update state which is managed by PolicyManager
- updateLocalState(event_data, crr_state);
+ this->updateState(event_data, crr_state);
// Create output information for ResourceManager
json_object* json_out = json_object_new_object();
- createOutputInformation(crr_state, &json_out);
+ this->createOutputInformation(crr_state, &json_out);
// Notify changed state
- if (nullptr != pm::callback.onStateTransitioned) {
- pm::callback.onStateTransitioned(json_out);
+ if (nullptr != this->callback.onStateTransitioned) {
+ this->callback.onStateTransitioned(json_out);
}
// Start/Stop timer events
- controlTimerEvent(crr_state);
+ this->controlTimerEvent(crr_state);
// Release json_object
json_object_put(json_out);
sd_event_source_unref(source);
// Remove event source from list
- if (pm::event_source_list.find(event_data) != pm::event_source_list.end()) {
- pm::event_source_list.erase(event_data);
+ if (this->event_source_list.find(event_data) != this->event_source_list.end()) {
+ this->event_source_list.erase(event_data);
}
HMI_DEBUG("wm:pm", ">>>>>>>>>> FINISH CHECK POLICY");
return 0;
}
-static int timerEvent(sd_event_source *source, uint64_t usec, void *data) {
+int PolicyManager::timerEvent(sd_event_source *source, uint64_t usec, void *data) {
HMI_DEBUG("wm:pm", "Call");
- int ret = checkPolicy(source, data);
+ int ret = this->transitionState(source, data);
return ret;
}
-static int checkPolicyEntry(int event, uint64_t delay_ms, std::string role)
+int PolicyManager::setStateTransitionProcessToSystemd(int event, uint64_t delay_ms, std::string role)
{
HMI_DEBUG("wm:pm", "Call");
HMI_DEBUG("wm:pm", "event:0x%x delay:%d role:%s", event, delay_ms, role.c_str());
// Store requested role
- pm::g_req_role_list[event] = role;
+ this->req_role_list[event] = role;
if (0 == delay_ms) {
- int ret = sd_event_add_defer(pm::event_loop, NULL,
- &checkPolicy, new int(event));
+ int ret = sd_event_add_defer(this->event_loop, NULL,
+ &pm::transitionStateWrapper, new int(event));
if (0 > ret) {
HMI_ERROR("wm:pm", "Faild to sd_event_add_defer: errno:%d", ret);
- pm::g_req_role_list.erase(event);
+ this->req_role_list.erase(event);
return -1;
}
}
// Set timer
struct sd_event_source* event_source;
- int ret = sd_event_add_time(pm::event_loop, &event_source, CLOCK_MONOTONIC, usec, 1,
- &timerEvent, new int(event));
+ int ret = sd_event_add_time(this->event_loop, &event_source, CLOCK_MONOTONIC, usec, 1,
+ &pm::timerEventWrapper, new int(event));
if (0 > ret) {
HMI_ERROR("wm:pm", "Faild to sd_event_add_time: errno:%d", ret);
- pm::g_req_role_list.erase(event);
+ this->req_role_list.erase(event);
return -1;
}
// Store event source
- pm::event_source_list[event] = event_source;
+ this->event_source_list[event] = event_source;
}
return 0;
void PolicyManager::registerCallback(CallbackTable callback) {
HMI_DEBUG("wm:pm", "Call");
- pm::callback.onStateTransitioned = callback.onStateTransitioned;
- pm::callback.onError = callback.onError;
+ this->callback.onStateTransitioned = callback.onStateTransitioned;
+ this->callback.onError = callback.onError;
}
int PolicyManager::setInputEventData(json_object* json_in) {
// Get event from json_object
const char* event = this->getStringFromJson(json_in, "event");
- int event_no = 0;
+ int event_no = stm::StmEvtNoNone;
if (nullptr != event) {
// Convert name to number
- event_no = this->eventname2no[event];
- HMI_DEBUG("wm:pm", "event(%s:%d)", event, event_no);
+ auto itr = this->eventname2no.find(event);
+ if (this->eventname2no.end() != itr) {
+ event_no = this->eventname2no[event];
+ HMI_DEBUG("wm:pm", "event(%s:%d)", event, event_no);
+ }
+ else {
+ HMI_ERROR("wm:pm", "Invalid event name!!");
+ return -1;
+ }
+ }
+ else {
+ HMI_ERROR("wm:pm", "Event is not set!!");
+ return -1;
}
// Get role from json_object
const char* role = this->getStringFromJson(json_in, "role");
- int category_no = 0;
+ int category_no = stm::StmCtgNoNone;
if (nullptr != role) {
HMI_DEBUG("wm:pm", "role(%s)", role);
// Convert role to category
- const char* category = this->role2category[role].c_str();
- if (0 == strcmp("", category)) {
- HMI_ERROR("wm:pm", "Error!!");
- return -1;
+ std::string category;
+ auto itr = this->role2category.find(role);
+ if (this->role2category.end() != itr) {
+ category = this->role2category[role];
+
+ // Convert name to number
+ category_no = categoryname2no[category];
+ HMI_DEBUG("wm:pm", "role(%s), category(%s:%d)", role, category.c_str(), category_no);
}
- HMI_DEBUG("wm:pm", "category(%s)", category);
+ }
- // Convert name to number
- category_no = categoryname2no[category];
- HMI_DEBUG("wm:pm", "role(%s), category(%s:%d)", role, category, category_no);
+ if (stm::StmCtgNoNone == category_no) {
+ role = "";
}
// Get areat from json_object
const char* area = this->getStringFromJson(json_in, "area");
- int area_no = 0;
+ int area_no = stm::StmAreaNoNone;
if (nullptr != area) {
- area_no = this->areaname2no[area];
- HMI_DEBUG("wm:pm", "area(%s:%d)", area, area_no);
+ auto itr = this->areaname2no.find(area);
+ if (this->areaname2no.end() != itr) {
+ area_no = this->areaname2no[area];
+ HMI_DEBUG("wm:pm", "area(%s:%d)", area, area_no);
+ }
}
- else if (nullptr != role) {
- area_no = this->areaname2no[this->role2defaultarea[role]];
- HMI_DEBUG("wm:pm", "area(%s:%d)", this->role2defaultarea[role].c_str(), area_no);
+
+ // If role is set and area is not set, use default area
+ if ((stm::StmAreaNoNone == area_no)
+ && (stm::StmCtgNoNone != category_no)) {
+ std::string def_area = this->role2defaultarea[role];
+ area_no = this->areaname2no[def_area];
+ HMI_DEBUG("wm:pm", "area(%s:%d)", def_area.c_str(), area_no);
}
// Set event info to the queue
EventInfo event_info;
- event_info.event = (event_no | category_no | area_no);
- if (nullptr == role) {
- event_info.role = std::string("");
- }
- else {
- event_info.role = std::string(role);
- }
+ int event_id = STM_CREATE_EVENT_ID(event_no, category_no, area_no);
+ event_info.event = event_id;
+ event_info.role = std::string(role);
event_info.delay = 0;
this->event_info_queue.push(event_info);
this->event_info_queue.pop();
// Set event info for checking policy
- ret = checkPolicyEntry(event_info.event, event_info.delay, event_info.role);
+ ret = this->setStateTransitionProcessToSystemd(event_info.event, event_info.delay, event_info.role);
}
return ret;
}
// Undo state of STM
stm::stmUndoState();
- pm::g_crr_layers = pm::g_prv_layers;
+ this->crr_layers = this->prv_layers;
}
extern const char* kDefaultRoleDb;
HMI_DEBUG("wm:pm", "json_area_array len:%d", len_area);
HMI_DEBUG("wm:pm", "json_area_array dump:%s", json_object_get_string(json_area_array));
- pm::LayoutState layout_state;
- pm::AreaState area_state;
+ LayoutState layout_state;
+ AreaState area_state;
std::map<std::string, int> category_num;
- for (int ctg_no = stm::gStmCategoryNoMin;
- ctg_no <= stm::gStmCategoryNoMax; ctg_no++) {
- const char* ctg_name = stm::gStmCategoryName[ctg_no];
+ for (int ctg_no = stm::StmCtgNoMin;
+ ctg_no <= stm::StmCtgNoMax; ctg_no++) {
+ const char* ctg_name = stm::kStmCategoryName[ctg_no];
category_num[ctg_name] = 0;
}
layout_state.name = layout;
layout_state.category_num = category_num;
- pm::g_default_layouts[layout] = layout_state;
+ this->default_layouts[layout] = layout_state;
}
// initialize for none layout
- pm::LayoutState none_layout_state;
+ LayoutState none_layout_state;
memset(&none_layout_state, 0, sizeof(none_layout_state));
none_layout_state.name = "none";
- pm::g_default_layouts["none"] = none_layout_state;
+ this->default_layouts["none"] = none_layout_state;
// Check
- for(auto itr_layout = pm::g_default_layouts.begin();
- itr_layout != pm::g_default_layouts.end(); ++itr_layout) {
+ for(auto itr_layout = this->default_layouts.begin();
+ itr_layout != this->default_layouts.end(); ++itr_layout) {
HMI_DEBUG("wm:pm", ">>> layout:%s", itr_layout->first.c_str());
for (auto itr_area = itr_layout->second.area_list.begin();