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/*
Copyright 2016-2023 melonDS team
This file is part of melonDS.
melonDS 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.
melonDS 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 melonDS. If not, see http://www.gnu.org/licenses/.
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <string>
#include <QStandardPaths>
#include <QString>
#include <QDateTime>
#include <QDir>
#include <QThread>
#include <QSemaphore>
#include <QMutex>
#include <QOpenGLContext>
#include <QSharedMemory>
#include <SDL_loadso.h>
#include "Platform.h"
#include "Config.h"
#include "ROMManager.h"
#include "CameraManager.h"
#include "LAN_Socket.h"
#include "LAN_PCap.h"
#include "LocalMP.h"
#include "OSD.h"
#include "SPI_Firmware.h"
#ifdef __WIN32__
#define fseek _fseeki64
#define ftell _ftelli64
#endif // __WIN32__
std::string EmuDirectory;
extern CameraManager* camManager[2];
void emuStop();
namespace Platform
{
QSharedMemory* IPCBuffer = nullptr;
int IPCInstanceID;
void IPCInit()
{
IPCInstanceID = 0;
IPCBuffer = new QSharedMemory("melonIPC");
if (!IPCBuffer->attach())
{
Log(LogLevel::Info, "IPC sharedmem doesn't exist. creating\n");
if (!IPCBuffer->create(1024))
{
Log(LogLevel::Error, "IPC sharedmem create failed :(\n");
delete IPCBuffer;
IPCBuffer = nullptr;
return;
}
IPCBuffer->lock();
memset(IPCBuffer->data(), 0, IPCBuffer->size());
IPCBuffer->unlock();
}
IPCBuffer->lock();
u8* data = (u8*)IPCBuffer->data();
u16 mask = *(u16*)&data[0];
for (int i = 0; i < 16; i++)
{
if (!(mask & (1<<i)))
{
IPCInstanceID = i;
*(u16*)&data[0] |= (1<<i);
break;
}
}
IPCBuffer->unlock();
Log(LogLevel::Info, "IPC: instance ID %d\n", IPCInstanceID);
}
void IPCDeInit()
{
if (IPCBuffer)
{
IPCBuffer->lock();
u8* data = (u8*)IPCBuffer->data();
*(u16*)&data[0] &= ~(1<<IPCInstanceID);
IPCBuffer->unlock();
IPCBuffer->detach();
delete IPCBuffer;
}
IPCBuffer = nullptr;
}
void Init(int argc, char** argv)
{
#if defined(__WIN32__) || defined(PORTABLE)
if (argc > 0 && strlen(argv[0]) > 0)
{
int len = strlen(argv[0]);
while (len > 0)
{
if (argv[0][len] == '/') break;
if (argv[0][len] == '\\') break;
len--;
}
if (len > 0)
{
std::string emudir = argv[0];
EmuDirectory = emudir.substr(0, len);
}
else
{
EmuDirectory = ".";
}
}
else
{
EmuDirectory = ".";
}
#else
QString confdir;
QDir config(QStandardPaths::writableLocation(QStandardPaths::ConfigLocation));
config.mkdir("melonDS");
confdir = config.absolutePath() + "/melonDS/";
EmuDirectory = confdir.toStdString();
#endif
IPCInit();
}
void DeInit()
{
IPCDeInit();
}
void SignalStop(StopReason reason)
{
emuStop();
switch (reason)
{
case StopReason::GBAModeNotSupported:
Log(LogLevel::Error, "!! GBA MODE NOT SUPPORTED\n");
OSD::AddMessage(0xFFA0A0, "GBA mode not supported.");
break;
case StopReason::BadExceptionRegion:
OSD::AddMessage(0xFFA0A0, "Internal error.");
break;
case StopReason::PowerOff:
case StopReason::External:
OSD::AddMessage(0xFFC040, "Shutdown");
default:
break;
}
}
int InstanceID()
{
return IPCInstanceID;
}
std::string InstanceFileSuffix()
{
int inst = IPCInstanceID;
if (inst == 0) return "";
char suffix[16] = {0};
snprintf(suffix, 15, ".%d", inst+1);
return suffix;
}
int GetConfigInt(ConfigEntry entry)
{
const int imgsizes[] = {0, 256, 512, 1024, 2048, 4096};
switch (entry)
{
#ifdef JIT_ENABLED
case JIT_MaxBlockSize: return Config::JIT_MaxBlockSize;
#endif
case DLDI_ImageSize: return imgsizes[Config::DLDISize];
case DSiSD_ImageSize: return imgsizes[Config::DSiSDSize];
case AudioBitDepth: return Config::AudioBitDepth;
#ifdef GDBSTUB_ENABLED
case GdbPortARM7: return Config::GdbPortARM7;
case GdbPortARM9: return Config::GdbPortARM9;
#endif
}
return 0;
}
bool GetConfigBool(ConfigEntry entry)
{
switch (entry)
{
#ifdef JIT_ENABLED
case JIT_Enable: return Config::JIT_Enable != 0;
case JIT_LiteralOptimizations: return Config::JIT_LiteralOptimisations != 0;
case JIT_BranchOptimizations: return Config::JIT_BranchOptimisations != 0;
case JIT_FastMemory: return Config::JIT_FastMemory != 0;
#endif
case ExternalBIOSEnable: return Config::ExternalBIOSEnable != 0;
case DLDI_Enable: return Config::DLDIEnable != 0;
case DLDI_ReadOnly: return Config::DLDIReadOnly != 0;
case DLDI_FolderSync: return Config::DLDIFolderSync != 0;
case DSiSD_Enable: return Config::DSiSDEnable != 0;
case DSiSD_ReadOnly: return Config::DSiSDReadOnly != 0;
case DSiSD_FolderSync: return Config::DSiSDFolderSync != 0;
case DSi_FullBIOSBoot: return Config::DSiFullBIOSBoot != 0;
#ifdef GDBSTUB_ENABLED
case GdbEnabled: return Config::GdbEnabled;
case GdbARM7BreakOnStartup: return Config::GdbARM7BreakOnStartup;
case GdbARM9BreakOnStartup: return Config::GdbARM9BreakOnStartup;
#endif
}
return false;
}
std::string GetConfigString(ConfigEntry entry)
{
switch (entry)
{
case DLDI_ImagePath: return Config::DLDISDPath;
case DLDI_FolderPath: return Config::DLDIFolderPath;
case DSiSD_ImagePath: return Config::DSiSDPath;
case DSiSD_FolderPath: return Config::DSiSDFolderPath;
case WifiSettingsPath: return Config::WifiSettingsPath;
}
return "";
}
bool GetConfigArray(ConfigEntry entry, void* data)
{
switch (entry)
{
case Firm_MAC:
{
std::string& mac_in = Config::FirmwareMAC;
u8* mac_out = (u8*)data;
int o = 0;
u8 tmp = 0;
for (int i = 0; i < 18; i++)
{
char c = mac_in[i];
if (c == '\0') break;
int n;
if (c >= '0' && c <= '9') n = c - '0';
else if (c >= 'a' && c <= 'f') n = c - 'a' + 10;
else if (c >= 'A' && c <= 'F') n = c - 'A' + 10;
else continue;
if (!(o & 1))
tmp = n;
else
mac_out[o >> 1] = n | (tmp << 4);
o++;
if (o >= 12) return true;
}
}
return false;
}
return false;
}
constexpr char AccessMode(FileMode mode, bool file_exists)
{
if (!(mode & FileMode::Write))
// If we're only opening the file for reading...
return 'r';
if (mode & (FileMode::NoCreate))
// If we're not allowed to create a new file...
return 'r'; // Open in "r+" mode (IsExtended will add the "+")
if ((mode & FileMode::Preserve) && file_exists)
// If we're not allowed to overwrite a file that already exists...
return 'r'; // Open in "r+" mode (IsExtended will add the "+")
return 'w';
}
constexpr bool IsExtended(FileMode mode)
{
// fopen's "+" flag always opens the file for read/write
return (mode & FileMode::ReadWrite) == FileMode::ReadWrite;
}
static std::string GetModeString(FileMode mode, bool file_exists)
{
std::string modeString;
modeString += AccessMode(mode, file_exists);
if (IsExtended(mode))
modeString += '+';
if (!(mode & FileMode::Text))
modeString += 'b';
return modeString;
}
FileHandle* OpenFile(const std::string& path, FileMode mode)
{
if ((mode & FileMode::ReadWrite) == FileMode::None)
{ // If we aren't reading or writing, then we can't open the file
Log(LogLevel::Error, "Attempted to open \"%s\" in neither read nor write mode (FileMode 0x%x)\n", path.c_str(), mode);
return nullptr;
}
bool file_exists = QFile::exists(QString::fromStdString(path));
std::string modeString = GetModeString(mode, file_exists);
FILE* file = fopen(path.c_str(), modeString.c_str());
if (file)
{
Log(LogLevel::Debug, "Opened \"%s\" with FileMode 0x%x (effective mode \"%s\")\n", path.c_str(), mode, modeString.c_str());
return reinterpret_cast<FileHandle *>(file);
}
else
{
Log(LogLevel::Warn, "Failed to open \"%s\" with FileMode 0x%x (effective mode \"%s\")\n", path.c_str(), mode, modeString.c_str());
return nullptr;
}
}
FileHandle* OpenLocalFile(const std::string& path, FileMode mode)
{
QString qpath = QString::fromStdString(path);
QDir dir(qpath);
QString fullpath;
if (dir.isAbsolute())
{
// If it's an absolute path, just open that.
fullpath = qpath;
}
else
{
#ifdef PORTABLE
fullpath = QString::fromStdString(EmuDirectory) + QDir::separator() + qpath;
#else
// Check user configuration directory
QDir config(QStandardPaths::writableLocation(QStandardPaths::GenericConfigLocation));
config.mkdir("melonDS");
fullpath = config.absolutePath() + "/melonDS/";
fullpath.append(qpath);
#endif
}
return OpenFile(fullpath.toStdString(), mode);
}
bool CloseFile(FileHandle* file)
{
return fclose(reinterpret_cast<FILE *>(file)) == 0;
}
bool IsEndOfFile(FileHandle* file)
{
return feof(reinterpret_cast<FILE *>(file)) != 0;
}
bool FileReadLine(char* str, int count, FileHandle* file)
{
return fgets(str, count, reinterpret_cast<FILE *>(file)) != nullptr;
}
bool FileExists(const std::string& name)
{
FileHandle* f = OpenFile(name, FileMode::Read);
if (!f) return false;
CloseFile(f);
return true;
}
bool LocalFileExists(const std::string& name)
{
FileHandle* f = OpenLocalFile(name, FileMode::Read);
if (!f) return false;
CloseFile(f);
return true;
}
bool FileSeek(FileHandle* file, s64 offset, FileSeekOrigin origin)
{
int stdorigin;
switch (origin)
{
case FileSeekOrigin::Start: stdorigin = SEEK_SET; break;
case FileSeekOrigin::Current: stdorigin = SEEK_CUR; break;
case FileSeekOrigin::End: stdorigin = SEEK_END; break;
}
return fseek(reinterpret_cast<FILE *>(file), offset, stdorigin) == 0;
}
void FileRewind(FileHandle* file)
{
rewind(reinterpret_cast<FILE *>(file));
}
u64 FileRead(void* data, u64 size, u64 count, FileHandle* file)
{
return fread(data, size, count, reinterpret_cast<FILE *>(file));
}
bool FileFlush(FileHandle* file)
{
return fflush(reinterpret_cast<FILE *>(file)) == 0;
}
u64 FileWrite(const void* data, u64 size, u64 count, FileHandle* file)
{
return fwrite(data, size, count, reinterpret_cast<FILE *>(file));
}
u64 FileWriteFormatted(FileHandle* file, const char* fmt, ...)
{
if (fmt == nullptr)
return 0;
va_list args;
va_start(args, fmt);
u64 ret = vfprintf(reinterpret_cast<FILE *>(file), fmt, args);
va_end(args);
return ret;
}
u64 FileLength(FileHandle* file)
{
FILE* stdfile = reinterpret_cast<FILE *>(file);
long pos = ftell(stdfile);
fseek(stdfile, 0, SEEK_END);
long len = ftell(stdfile);
fseek(stdfile, pos, SEEK_SET);
return len;
}
void Log(LogLevel level, const char* fmt, ...)
{
if (fmt == nullptr)
return;
va_list args;
va_start(args, fmt);
vprintf(fmt, args);
va_end(args);
}
Thread* Thread_Create(std::function<void()> func)
{
QThread* t = QThread::create(func);
t->start();
return (Thread*) t;
}
void Thread_Free(Thread* thread)
{
QThread* t = (QThread*) thread;
t->terminate();
delete t;
}
void Thread_Wait(Thread* thread)
{
((QThread*) thread)->wait();
}
Semaphore* Semaphore_Create()
{
return (Semaphore*)new QSemaphore();
}
void Semaphore_Free(Semaphore* sema)
{
delete (QSemaphore*) sema;
}
void Semaphore_Reset(Semaphore* sema)
{
QSemaphore* s = (QSemaphore*) sema;
s->acquire(s->available());
}
void Semaphore_Wait(Semaphore* sema)
{
((QSemaphore*) sema)->acquire();
}
void Semaphore_Post(Semaphore* sema, int count)
{
((QSemaphore*) sema)->release(count);
}
Mutex* Mutex_Create()
{
return (Mutex*)new QMutex();
}
void Mutex_Free(Mutex* mutex)
{
delete (QMutex*) mutex;
}
void Mutex_Lock(Mutex* mutex)
{
((QMutex*) mutex)->lock();
}
void Mutex_Unlock(Mutex* mutex)
{
((QMutex*) mutex)->unlock();
}
bool Mutex_TryLock(Mutex* mutex)
{
return ((QMutex*) mutex)->try_lock();
}
void Sleep(u64 usecs)
{
QThread::usleep(usecs);
}
void WriteNDSSave(const u8* savedata, u32 savelen, u32 writeoffset, u32 writelen)
{
if (ROMManager::NDSSave)
ROMManager::NDSSave->RequestFlush(savedata, savelen, writeoffset, writelen);
}
void WriteGBASave(const u8* savedata, u32 savelen, u32 writeoffset, u32 writelen)
{
if (ROMManager::GBASave)
ROMManager::GBASave->RequestFlush(savedata, savelen, writeoffset, writelen);
}
void WriteFirmware(const Firmware& firmware, u32 writeoffset, u32 writelen)
{
if (!ROMManager::FirmwareSave)
return;
if (firmware.GetHeader().Identifier != GENERATED_FIRMWARE_IDENTIFIER)
{ // If this is not the default built-in firmware...
// ...then write the whole thing back.
ROMManager::FirmwareSave->RequestFlush(firmware.Buffer(), firmware.Length(), writeoffset, writelen);
}
else
{
u32 eapstart = firmware.GetExtendedAccessPointOffset();
u32 eapend = eapstart + sizeof(firmware.GetExtendedAccessPoints());
u32 apstart = firmware.GetWifiAccessPointOffset();
u32 apend = apstart + sizeof(firmware.GetAccessPoints());
// assert that the extended access points come just before the regular ones
assert(eapend == apstart);
if (eapstart <= writeoffset && writeoffset < apend)
{ // If we're writing to the access points...
const u8* buffer = firmware.GetExtendedAccessPointPosition();
u32 length = sizeof(firmware.GetExtendedAccessPoints()) + sizeof(firmware.GetAccessPoints());
ROMManager::FirmwareSave->RequestFlush(buffer, length, writeoffset - eapstart, writelen);
}
}
}
void WriteDateTime(int year, int month, int day, int hour, int minute, int second)
{
QDateTime hosttime = QDateTime::currentDateTime();
QDateTime time = QDateTime(QDate(year, month, day), QTime(hour, minute, second));
Config::RTCOffset = hosttime.secsTo(time);
Config::Save();
}
bool MP_Init()
{
return LocalMP::Init();
}
void MP_DeInit()
{
return LocalMP::DeInit();
}
void MP_Begin()
{
return LocalMP::Begin();
}
void MP_End()
{
return LocalMP::End();
}
int MP_SendPacket(u8* data, int len, u64 timestamp)
{
return LocalMP::SendPacket(data, len, timestamp);
}
int MP_RecvPacket(u8* data, u64* timestamp)
{
return LocalMP::RecvPacket(data, timestamp);
}
int MP_SendCmd(u8* data, int len, u64 timestamp)
{
return LocalMP::SendCmd(data, len, timestamp);
}
int MP_SendReply(u8* data, int len, u64 timestamp, u16 aid)
{
return LocalMP::SendReply(data, len, timestamp, aid);
}
int MP_SendAck(u8* data, int len, u64 timestamp)
{
return LocalMP::SendAck(data, len, timestamp);
}
int MP_RecvHostPacket(u8* data, u64* timestamp)
{
return LocalMP::RecvHostPacket(data, timestamp);
}
u16 MP_RecvReplies(u8* data, u64 timestamp, u16 aidmask)
{
return LocalMP::RecvReplies(data, timestamp, aidmask);
}
bool LAN_Init()
{
if (Config::DirectLAN)
{
if (!LAN_PCap::Init(true))
return false;
}
else
{
if (!LAN_Socket::Init())
return false;
}
return true;
}
void LAN_DeInit()
{
// checkme. blarg
//if (Config::DirectLAN)
// LAN_PCap::DeInit();
//else
// LAN_Socket::DeInit();
LAN_PCap::DeInit();
LAN_Socket::DeInit();
}
int LAN_SendPacket(u8* data, int len)
{
if (Config::DirectLAN)
return LAN_PCap::SendPacket(data, len);
else
return LAN_Socket::SendPacket(data, len);
}
int LAN_RecvPacket(u8* data)
{
if (Config::DirectLAN)
return LAN_PCap::RecvPacket(data);
else
return LAN_Socket::RecvPacket(data);
}
void Camera_Start(int num)
{
return camManager[num]->start();
}
void Camera_Stop(int num)
{
return camManager[num]->stop();
}
void Camera_CaptureFrame(int num, u32* frame, int width, int height, bool yuv)
{
return camManager[num]->captureFrame(frame, width, height, yuv);
}
DynamicLibrary* DynamicLibrary_Load(const char* lib)
{
return (DynamicLibrary*) SDL_LoadObject(lib);
}
void DynamicLibrary_Unload(DynamicLibrary* lib)
{
SDL_UnloadObject(lib);
}
void* DynamicLibrary_LoadFunction(DynamicLibrary* lib, const char* name)
{
return SDL_LoadFunction(lib, name);
}
}
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