gBar/src/System.cpp

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#include "System.h"
#include "Common.h"
#include "NvidiaGPU.h"
#include "AMDGPU.h"
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#include "PulseAudio.h"
#include "Workspaces.h"
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#include "Config.h"
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#include <cstdlib>
#include <fstream>
#include <string>
#include <sstream>
#include <iomanip>
#include <thread>
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#include <gio/gio.h>
#include <pulse/pulseaudio.h>
#include <dlfcn.h>
#include <sys/statvfs.h>
#include <unistd.h>
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namespace System
{
struct CPUTimestamp
{
size_t total = 0;
size_t idle = 0;
};
static CPUTimestamp curCPUTime;
static CPUTimestamp prevCPUTime;
double GetCPUUsage()
{
// Gather curCPUTime
std::ifstream procstat("/proc/stat");
ASSERT(procstat.is_open(), "Cannot open /proc/stat");
std::string curLine;
while (std::getline(procstat, curLine))
{
if (curLine.find("cpu ") != std::string::npos)
{
// Found it
std::stringstream lineStr(curLine.substr(5));
std::string curLine;
uint32_t idx = 1;
size_t total = 0;
size_t idle = 0;
while (std::getline(lineStr, curLine, ' '))
{
if (idx == 4)
{
// Fourth col is idle
idle = atoi(curLine.c_str());
}
total += atoi(curLine.c_str());
idx++;
}
prevCPUTime = curCPUTime;
curCPUTime.total = total;
curCPUTime.idle = idle;
break;
}
}
// Get diffs and percentage of idle time
size_t diffTotal = curCPUTime.total - prevCPUTime.total;
size_t diffIdle = curCPUTime.idle - prevCPUTime.idle;
return 1 - ((double)diffIdle / (double)diffTotal);
}
double GetCPUTemp()
{
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std::ifstream tempFile(Config::Get().cpuThermalZone);
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if (!tempFile.is_open())
{
return 0.f;
}
std::string tempStr;
std::getline(tempFile, tempStr);
uint32_t intTemp = atoi(tempStr.c_str());
double temp = (double)intTemp / 1000;
return temp;
}
double GetBatteryPercentage()
{
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std::ifstream fullChargeFile(Config::Get().batteryFolder + "/charge_full");
std::ifstream currentChargeFile(Config::Get().batteryFolder + "/charge_now");
if (!fullChargeFile.is_open() || !currentChargeFile.is_open())
{
return -1.f;
}
std::string fullChargeStr;
std::string currentChargeStr;
std::getline(fullChargeFile, fullChargeStr);
std::getline(currentChargeFile, currentChargeStr);
uint32_t intFullCharge = atoi(fullChargeStr.c_str());
uint32_t intCurrentCharge = atoi(currentChargeStr.c_str());
return ((double)intCurrentCharge / (double)intFullCharge);
}
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RAMInfo GetRAMInfo()
{
RAMInfo out{};
std::ifstream procstat("/proc/meminfo");
ASSERT(procstat.is_open(), "Cannot open /proc/meminfo");
std::string curLine;
while (std::getline(procstat, curLine))
{
if (curLine.find("MemTotal: ") != std::string::npos)
{
// Found total
std::string_view withoutMemTotal = std::string_view(curLine).substr(10);
size_t begNum = withoutMemTotal.find_first_not_of(' ');
std::string_view totalKiBStr = withoutMemTotal.substr(begNum, withoutMemTotal.find_last_of(' ') - begNum);
uint32_t totalKiB = std::stoi(std::string(totalKiBStr));
out.totalGiB = (double)totalKiB / (1024 * 1024);
}
else if (curLine.find("MemAvailable: ") != std::string::npos)
{
// Found available
std::string_view withoutMemAvail = std::string_view(curLine).substr(14);
size_t begNum = withoutMemAvail.find_first_not_of(' ');
std::string_view availKiBStr = withoutMemAvail.substr(begNum, withoutMemAvail.find_last_of(' ') - begNum);
uint32_t availKiB = std::stoi(std::string(availKiBStr));
out.freeGiB = (double)availKiB / (1024 * 1024);
}
}
return out;
}
#if defined WITH_NVIDIA || defined WITH_AMD
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GPUInfo GetGPUInfo()
{
#ifdef WITH_NVIDIA
if (RuntimeConfig::Get().hasNvidia)
{
NvidiaGPU::GPUUtilization util = NvidiaGPU::GetUtilization();
GPUInfo out;
out.utilisation = util.gpu;
out.coreTemp = NvidiaGPU::GetTemperature();
return out;
}
#endif
#ifdef WITH_AMD
if (RuntimeConfig::Get().hasAMD)
{
uint32_t util = AMDGPU::GetUtilization();
GPUInfo out;
out.utilisation = util;
out.coreTemp = AMDGPU::GetTemperature();
return out;
}
#endif
return {};
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}
VRAMInfo GetVRAMInfo()
{
#ifdef WITH_NVIDIA
if (RuntimeConfig::Get().hasNvidia)
{
NvidiaGPU::VRAM vram = NvidiaGPU::GetVRAM();
VRAMInfo out;
out.totalGiB = (double)vram.totalB / (1024 * 1024 * 1024);
out.usedGiB = out.totalGiB - ((double)vram.freeB / (1024 * 1024 * 1024));
return out;
}
#endif
#ifdef WITH_AMD
if (RuntimeConfig::Get().hasAMD)
{
AMDGPU::VRAM vram = AMDGPU::GetVRAM();
VRAMInfo out;
out.totalGiB = (double)vram.totalB / (1024 * 1024 * 1024);
out.usedGiB = (double)vram.usedB / (1024 * 1024 * 1024);
return out;
}
#endif
return {};
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}
#endif
DiskInfo GetDiskInfo()
{
struct statvfs stat;
int err = statvfs("/", &stat);
ASSERT(err == 0, "Cannot stat root!");
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DiskInfo out{};
out.totalGiB = (double)(stat.f_blocks * stat.f_frsize) / (1024 * 1024 * 1024);
out.usedGiB = (double)((stat.f_blocks - stat.f_bfree) * stat.f_frsize) / (1024 * 1024 * 1024);
return out;
}
#ifdef WITH_BLUEZ
void InitBluetooth()
{
// Try connecting to d-bus and org.bluez
GDBusConnection* connection = g_bus_get_sync(G_BUS_TYPE_SYSTEM, nullptr, nullptr);
if (!connection)
{
LOG("Can't connect to d-bus! Disabling Bluetooth!");
// dbus not found, disable bluetooth
RuntimeConfig::Get().hasBlueZ = false;
}
GError* err = nullptr;
GVariant* objects = g_dbus_connection_call_sync(connection, "org.bluez", "/", "org.freedesktop.DBus.ObjectManager", "GetManagedObjects",
nullptr, G_VARIANT_TYPE("(a{oa{sa{sv}}})"), G_DBUS_CALL_FLAGS_NONE, -1, nullptr, &err);
if (!objects)
{
LOG("Can't connect to BlueZ d-bus! Disabling Bluetooth!");
LOG(err->message);
g_error_free(err);
// Not found, disable bluetooth
RuntimeConfig::Get().hasBlueZ = false;
}
}
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BluetoothInfo GetBluetoothInfo()
{
BluetoothInfo out{};
if (!RuntimeConfig::Get().hasBlueZ)
{
LOG("Error: GetBluetoothInfo called, but bluetooth isn't available");
return out;
}
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// Init D-Bus
GDBusConnection* connection = g_bus_get_sync(G_BUS_TYPE_SYSTEM, nullptr, nullptr);
ASSERT(connection, "Failed to connect to d-bus!");
GError* err = nullptr;
GVariant* objects = g_dbus_connection_call_sync(connection, "org.bluez", "/", "org.freedesktop.DBus.ObjectManager", "GetManagedObjects",
nullptr, G_VARIANT_TYPE("(a{oa{sa{sv}}})"), G_DBUS_CALL_FLAGS_NONE, -1, nullptr, &err);
if (!objects)
{
LOG(err->message);
g_error_free(err);
exit(-1);
}
// First array
GVariantIter* topArray;
g_variant_get(objects, "(a{oa{sa{sv}}})", &topArray);
// Iterate the objects
GVariantIter* objectDescs;
while (g_variant_iter_next(topArray, "{oa{sa{sv}}}", NULL, &objectDescs))
{
// Iterate the descs
char* type = nullptr;
GVariantIter* propIter;
while (g_variant_iter_next(objectDescs, "{sa{sv}}", &type, &propIter))
{
if (strstr(type, "org.bluez.Adapter1"))
{
std::string adapterName;
bool powered = false;
// This is a controller/adapter -> The "host"
char* str = nullptr;
GVariant* var = nullptr;
while (g_variant_iter_next(propIter, "{sv}", &str, &var))
{
if (strstr(str, "Name"))
{
const char* name = g_variant_get_string(var, nullptr);
// Copy it for us
adapterName = name;
}
else if (strstr(str, "Powered"))
{
powered = g_variant_get_boolean(var);
}
g_free(str);
g_variant_unref(var);
}
if (powered)
{
out.defaultController = std::move(adapterName);
}
}
else if (strstr(type, "org.bluez.Device1"))
{
std::string deviceMac;
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std::string deviceName;
std::string deviceType;
bool connected = false;
bool paired = false;
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// This is a device -> One "client"
char* str = nullptr;
GVariant* var = nullptr;
while (g_variant_iter_next(propIter, "{sv}", &str, &var))
{
if (strcmp(str, "Address") == 0)
{
const char* mac = g_variant_get_string(var, nullptr);
// Copy it for us
deviceMac = mac;
}
else if (strstr(str, "Name"))
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{
const char* name = g_variant_get_string(var, nullptr);
// Copy it for us
deviceName = name;
}
else if (strstr(str, "Icon"))
{
const char* icon = g_variant_get_string(var, nullptr);
// Copy it for us
deviceType = icon;
}
else if (strstr(str, "Connected"))
{
connected = g_variant_get_boolean(var);
}
else if (strstr(str, "Paired"))
{
paired = g_variant_get_boolean(var);
}
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g_free(str);
g_variant_unref(var);
}
out.devices.push_back(BluetoothDevice{connected, paired, std::move(deviceMac), std::move(deviceName), std::move(deviceType)});
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}
g_variant_iter_free(propIter);
g_free(type);
}
g_variant_iter_free(objectDescs);
}
g_variant_iter_free(topArray);
g_variant_unref(objects);
return out;
}
static Process btctlProcess{-1};
void StartBTScan()
{
StopBTScan();
btctlProcess = OpenProcess("/bin/sh -c \"bluetoothctl scan on\"");
}
void StopBTScan()
{
if (btctlProcess.pid != -1)
{
// Ctrl-C stops bluetoothctl
kill(btctlProcess.pid, SIGINT);
btctlProcess = {-1};
}
}
void ConnectBTDevice(BluetoothDevice& device, std::function<void(bool, BluetoothDevice&)> onFinish)
{
auto thread = [&, mac = device.mac, onFinish]()
{
// 1. Pair
if (!device.paired)
{
int success = system(("bluetoothctl pair " + mac).c_str());
if (success != 0)
{
onFinish(false, device);
return;
}
}
// 2. Connect
if (!device.connected)
{
int success = system(("bluetoothctl connect " + mac).c_str());
if (success != 0)
{
onFinish(false, device);
return;
}
}
onFinish(true, device);
};
std::thread worker(thread);
worker.detach();
}
void DisconnectBTDevice(BluetoothDevice& device, std::function<void(bool, BluetoothDevice&)> onFinish)
{
auto thread = [&, mac = device.mac, onFinish]()
{
// 1. Disconnect
if (device.connected)
{
int success = system(("bluetoothctl disconnect " + mac).c_str());
if (success != 0)
{
onFinish(false, device);
return;
}
}
onFinish(true, device);
};
std::thread worker(thread);
worker.detach();
}
void OpenBTWidget()
{
OpenProcess("/bin/sh -c \"gBar bluetooth\"");
}
std::string BTTypeToIcon(const BluetoothDevice& dev)
{
if (dev.type == "input-keyboard")
{
return "";
}
else if (dev.type == "input-mouse")
{
return "";
}
else if (dev.type == "audio-headset")
{
return "";
}
else if (dev.type == "input-gaming")
{
return "";
}
return "";
}
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#endif
AudioInfo GetAudioInfo()
{
return PulseAudio::GetInfo();
}
void SetVolumeSink(double volume)
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{
PulseAudio::SetVolumeSink(volume);
}
void SetVolumeSource(double volume)
{
PulseAudio::SetVolumeSource(volume);
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}
#ifdef WITH_WORKSPACES
void PollWorkspaces(uint32_t monitor, uint32_t numWorkspaces)
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{
Workspaces::PollStatus(monitor, numWorkspaces);
}
WorkspaceStatus GetWorkspaceStatus(uint32_t workspace)
{
return Workspaces::GetStatus(workspace);
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}
void GotoWorkspace(uint32_t workspace)
{
return Workspaces::Goto(workspace);
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}
void GotoNextWorkspace(char direction)
{
return Workspaces::GotoNext(direction);
}
std::string GetWorkspaceSymbol(int index)
{
if (index < 0 || index > 9)
{
LOG("Workspace Symbol Index Out Of Bounds: " + std::to_string(index));
return "";
}
if (Config::Get().workspaceSymbols[index].empty())
{
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return Config::Get().defaultWorkspaceSymbol + " ";
}
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return Config::Get().workspaceSymbols[index] + " ";
}
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#endif
void CheckNetwork()
{
std::ifstream bytes("/sys/class/net/" + Config::Get().networkAdapter + "/statistics/tx_bytes");
if (!bytes.is_open())
{
LOG("Cannot open network device! Disabling Network widget.");
RuntimeConfig::Get().hasNet = false;
}
}
double GetNetworkBpsCommon(double dt, uint64_t& prevBytes, const std::string& deviceFile)
{
if (!RuntimeConfig::Get().hasNet)
{
return 0.f;
}
std::ifstream bytes(deviceFile);
std::string bytesStr;
std::getline(bytes, bytesStr);
uint64_t curBytes = std::stoull(bytesStr);
if (prevBytes == UINT64_MAX)
{
prevBytes = curBytes;
return 0;
}
else
{
uint64_t diffBytes = curBytes - prevBytes;
prevBytes = curBytes;
// Is double precision a problem here?
return diffBytes / dt;
}
}
double GetNetworkBpsUpload(double dt)
{
// Better safe than sorry. Isn't 32bit max only a few GB?
static uint64_t prevUploadBytes = UINT64_MAX;
// Apparently /sys/class/net/.../statistics/[t/r]x_bytes is valid for all net devices under Linux
// https://www.kernel.org/doc/Documentation/ABI/testing/sysfs-class-net-statistics
return GetNetworkBpsCommon(dt, prevUploadBytes, "/sys/class/net/" + Config::Get().networkAdapter + "/statistics/tx_bytes");
}
double GetNetworkBpsDownload(double dt)
{
// Better safe than sorry. Isn't 32bit max only a few GB?
static uint64_t prevDownloadBytes = UINT64_MAX;
// Apparently /sys/class/net/.../statistics/[t/r]x_bytes is valid for all net devices under Linux
// https://www.kernel.org/doc/Documentation/ABI/testing/sysfs-class-net-statistics
return GetNetworkBpsCommon(dt, prevDownloadBytes, "/sys/class/net/" + Config::Get().networkAdapter + "/statistics/rx_bytes");
}
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std::string GetTime()
{
time_t stdTime = time(NULL);
tm* localTime = localtime(&stdTime);
std::stringstream str;
str << std::put_time(localTime, "%a %D - %H:%M:%S %Z");
return str.str();
}
void Shutdown()
{
system("shutdown 0");
}
void Reboot()
{
system("reboot");
}
void ExitWM()
{
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system(Config::Get().exitCommand.c_str());
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}
void Lock()
{
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system(Config::Get().lockCommand.c_str());
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}
void Suspend()
{
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system(Config::Get().suspendCommand.c_str());
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}
void Init()
{
Logging::Init();
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Config::Load();
#ifdef WITH_NVIDIA
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NvidiaGPU::Init();
#endif
#ifdef WITH_AMD
AMDGPU::Init();
#endif
#ifdef WITH_WORKSPACES
Workspaces::Init();
#endif
#ifdef WITH_BLUEZ
InitBluetooth();
#endif
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PulseAudio::Init();
CheckNetwork();
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}
void FreeResources()
{
#ifdef WITH_NVIDIA
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NvidiaGPU::Shutdown();
#endif
PulseAudio::Shutdown();
#ifdef WITH_WORKSPACES
Workspaces::Shutdown();
#endif
#ifdef WITH_BLUEZ
StopBTScan();
#endif
Logging::Shutdown();
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}
}