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nxdumptool/source/tasks.cpp

295 lines
9.6 KiB
C++

/*
* tasks.cpp
*
* Copyright (c) 2020-2021, DarkMatterCore <pabloacurielz@gmail.com>.
*
* This file is part of nxdumptool (https://github.com/DarkMatterCore/nxdumptool).
*
* nxdumptool is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* nxdumptool is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
#include <nxdt_includes.h>
#include <tasks.hpp>
#include <arpa/inet.h>
#define NXDT_TASK_INTERVAL 100 /* 100 ms. */
namespace i18n = brls::i18n; /* For getStr(). */
using namespace i18n::literals; /* For _i18n. */
namespace nxdt::tasks
{
/* Status info task. */
StatusInfoTask::StatusInfoTask(void) : brls::RepeatingTask(1000)
{
brls::RepeatingTask::start();
brls::Logger::debug("Status info task started.");
}
StatusInfoTask::~StatusInfoTask(void)
{
/* Clear current time string. */
this->cur_time.clear();
brls::Logger::debug("Status info task stopped.");
}
void StatusInfoTask::run(retro_time_t current_time)
{
brls::RepeatingTask::run(current_time);
/* Get current time. */
bool is_am = true;
time_t unix_time = time(NULL);
struct tm *timeinfo = localtime(&unix_time);
if (timeinfo->tm_hour > 12)
{
timeinfo->tm_hour -= 12;
is_am = false;
} else
if (!timeinfo->tm_hour)
{
timeinfo->tm_hour = 12;
}
timeinfo->tm_mon++;
timeinfo->tm_year += 1900;
this->cur_time.clear();
this->cur_time = i18n::getStr("root_view/date"_i18n, timeinfo->tm_year, timeinfo->tm_mon, timeinfo->tm_mday, timeinfo->tm_hour, timeinfo->tm_min, timeinfo->tm_sec, is_am ? "AM" : "PM");
/* Get battery stats. */
psmGetBatteryChargePercentage(&(this->charge_percentage));
psmGetChargerType(&(this->charger_type));
/* Get network connection status. */
Result rc = nifmGetInternetConnectionStatus(&(this->connection_type), &(this->signal_strength), &(this->connection_status));
if (R_SUCCEEDED(rc))
{
if (this->connection_type && this->connection_status == NifmInternetConnectionStatus_Connected)
{
struct in_addr addr = { .s_addr = 0 };
nifmGetCurrentIpAddress(&(addr.s_addr));
this->ip_addr = inet_ntoa(addr);
} else {
this->ip_addr = NULL;
}
} else {
this->connection_type = (NifmInternetConnectionType)0;
this->signal_strength = 0;
this->connection_status = (NifmInternetConnectionStatus)0;
this->ip_addr = NULL;
}
this->status_info_event.fire();
}
std::string StatusInfoTask::GetCurrentTimeString(void)
{
return this->cur_time;
}
void StatusInfoTask::GetBatteryStats(u32 *out_charge_percentage, PsmChargerType *out_charger_type)
{
if (!out_charge_percentage || !out_charger_type) return;
*out_charge_percentage = this->charge_percentage;
*out_charger_type = this->charger_type;
}
void StatusInfoTask::GetNetworkStats(NifmInternetConnectionType *out_connection_type, u32 *out_signal_strength, NifmInternetConnectionStatus *out_connection_status, char **out_ip_addr)
{
if (!out_connection_type || !out_signal_strength || !out_connection_status || !out_ip_addr) return;
*out_connection_type = this->connection_type;
*out_signal_strength = this->signal_strength;
*out_connection_status = this->connection_status;
*out_ip_addr = this->ip_addr;
}
/* Gamecard task. */
GameCardTask::GameCardTask(void) : brls::RepeatingTask(NXDT_TASK_INTERVAL)
{
brls::RepeatingTask::start();
brls::Logger::debug("Gamecard task started.");
}
GameCardTask::~GameCardTask(void)
{
brls::Logger::debug("Gamecard task stopped.");
}
void GameCardTask::run(retro_time_t current_time)
{
brls::RepeatingTask::run(current_time);
this->cur_gc_status = (GameCardStatus)gamecardGetStatus();
if (this->cur_gc_status != this->prev_gc_status)
{
this->gc_status_event.fire(this->cur_gc_status);
this->prev_gc_status = this->cur_gc_status;
brls::Logger::debug("Gamecard status change triggered: {}.", this->cur_gc_status);
}
}
/* Title task. */
TitleTask::TitleTask(void) : brls::RepeatingTask(NXDT_TASK_INTERVAL)
{
/* Get system metadata entries. */
this->PopulateApplicationMetadataVector(true);
/* Get user metadata entries. */
this->PopulateApplicationMetadataVector(false);
/* Start task. */
brls::RepeatingTask::start();
brls::Logger::debug("Title task started.");
}
TitleTask::~TitleTask(void)
{
/* Clear application metadata vectors. */
this->system_metadata.clear();
this->user_metadata.clear();
brls::Logger::debug("Title task stopped.");
}
void TitleTask::PopulateApplicationMetadataVector(bool is_system)
{
TitleApplicationMetadata **app_metadata = NULL;
u32 app_metadata_count = 0;
/* Get pointer to output vector. */
TitleApplicationMetadataVector *vector = (is_system ? &(this->system_metadata) : &(this->user_metadata));
if (vector->size()) vector->clear();
/* Get application metadata entries. */
app_metadata = titleGetApplicationMetadataEntries(is_system, &app_metadata_count);
if (!app_metadata) return;
/* Fill output vector. */
for(u32 i = 0; i < app_metadata_count; i++) vector->push_back(app_metadata[i]);
/* Free application metadata array. */
free(app_metadata);
brls::Logger::debug("Retrieved {} {} metadata {}.", app_metadata_count, is_system ? "system" : "user", app_metadata_count == 1 ? "entry" : "entries");
}
void TitleTask::run(retro_time_t current_time)
{
brls::RepeatingTask::run(current_time);
if (titleIsGameCardInfoUpdated())
{
/* Update user metadata vector. */
this->PopulateApplicationMetadataVector(false);
/* Fire task event. */
this->title_event.fire();
brls::Logger::debug("Title info updated.");
}
}
TitleApplicationMetadataVector* TitleTask::GetApplicationMetadata(bool is_system)
{
return (is_system ? &(this->system_metadata) : &(this->user_metadata));
}
/* USB Mass Storage task. */
UmsTask::UmsTask(void) : brls::RepeatingTask(NXDT_TASK_INTERVAL)
{
brls::RepeatingTask::start();
brls::Logger::debug("UMS task started.");
}
UmsTask::~UmsTask(void)
{
/* Clear UMS device vector. */
this->ums_devices.clear();
brls::Logger::debug("UMS task stopped.");
}
void UmsTask::PopulateUmsDeviceVector(void)
{
UsbHsFsDevice *ums_devices = NULL;
u32 ums_device_count = 0;
/* Clear UMS device vector (if needed). */
if (this->ums_devices.size()) this->ums_devices.clear();
/* Get UMS devices. */
ums_devices = umsGetDevices(&ums_device_count);
if (!ums_devices) return;
/* Fill UMS device vector. */
for(u32 i = 0; i < ums_device_count; i++) this->ums_devices.push_back(ums_devices[i]);
/* Free UMS devices array. */
free(ums_devices);
brls::Logger::debug("Retrieved info for {} UMS {}.", ums_device_count, ums_device_count == 1 ? "device" : "devices");
}
void UmsTask::run(retro_time_t current_time)
{
brls::RepeatingTask::run(current_time);
if (umsIsDeviceInfoUpdated())
{
/* Update UMS device vector. */
this->PopulateUmsDeviceVector();
/* Fire task event. */
this->ums_event.fire();
brls::Logger::debug("UMS device info updated.");
}
}
UmsDeviceVector* UmsTask::GetUmsDevices(void)
{
return &(this->ums_devices);
}
/* USB host device connection task. */
UsbHostTask::UsbHostTask(void) : brls::RepeatingTask(NXDT_TASK_INTERVAL)
{
brls::RepeatingTask::start();
brls::Logger::debug("USB host task started.");
}
UsbHostTask::~UsbHostTask(void)
{
brls::Logger::debug("USB host task stopped.");
}
void UsbHostTask::run(retro_time_t current_time)
{
brls::RepeatingTask::run(current_time);
this->cur_usb_host_status = usbIsReady();
if (this->cur_usb_host_status != this->prev_usb_host_status)
{
this->usb_host_event.fire(this->cur_usb_host_status);
this->prev_usb_host_status = this->cur_usb_host_status;
brls::Logger::debug("USB host status change triggered: {}.", this->cur_usb_host_status);
}
}
}