/* USBnull * Copyright (C) 2002-2010 PCSX2 Dev Team * * PCSX2 is free software: you can redistribute it and/or modify it under the terms * of the GNU Lesser General Public License as published by the Free Software Found- * ation, either version 3 of the License, or (at your option) any later version. * * PCSX2 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 PCSX2. * If not, see . */ #include #include using namespace std; #ifdef _MSC_VER # include "svnrev.h" #endif #include "USB.h" string s_strIniPath="inis"; string s_strLogPath="logs"; const unsigned char version = PS2E_USB_VERSION; const unsigned char revision = 0; const unsigned char build = 7; // increase that with each version static char libraryName[256]; USBcallback USBirq; Config conf; PluginLog USBLog; s8 *usbregs, *ram; void LogInit() { const std::string LogFile(s_strLogPath + "/USBnull.log"); setLoggingState(); USBLog.Open(LogFile); } EXPORT_C_(void) USBsetLogDir(const char* dir) { // Get the path to the log directory. s_strLogPath = (dir==NULL) ? "logs" : dir; // Reload the log file after updated the path USBLog.Close(); LogInit(); } EXPORT_C_(u32) PS2EgetLibType() { return PS2E_LT_USB; } EXPORT_C_(char*) PS2EgetLibName() { #ifdef _MSC_VER sprintf_s( libraryName, "USBnull Driver r%d%s",SVN_REV, SVN_MODS ? "m" : ""); return libraryName; #else return "USBnull Driver"; #endif } EXPORT_C_(u32) PS2EgetLibVersion2(u32 type) { return (version << 16) | (revision << 8) | build; } EXPORT_C_(s32) USBinit() { LoadConfig(); LogInit(); USBLog.WriteLn("USBnull plugin version %d,%d", revision, build); USBLog.WriteLn("Initializing USBnull"); // Initialize memory structures here. usbregs = (s8*)calloc(0x10000, 1); if (usbregs == NULL) { USBLog.Message("Error allocating memory"); return -1; } return 0; } EXPORT_C_(void) USBshutdown() { // Yes, we close things in the Shutdown routine, and // don't do anything in the close routine. USBLog.Close(); free(usbregs); usbregs = NULL; } EXPORT_C_(s32) USBopen(void *pDsp) { USBLog.WriteLn("Opening USBnull."); // Take care of anything else we need on opening, other then initialization. return 0; } EXPORT_C_(void) USBclose() { USBLog.WriteLn("Closing USBnull."); } // Note: actually uncommenting the read/write functions I provided here // caused uLauncher.elf to hang on startup, so careful when experimenting. EXPORT_C_(u8) USBread8(u32 addr) { u8 value = 0; switch(addr) { // Handle any appropriate addresses here. case 0x1f801600: USBLog.WriteLn("(USBnull) 8 bit read at address %lx", addr); break; default: //value = usbRu8(addr); USBLog.WriteLn("*(USBnull) 8 bit read at address %lx", addr); break; } return value; } EXPORT_C_(u16) USBread16(u32 addr) { u16 value = 0; switch(addr) { // Handle any appropriate addresses here. case 0x1f801600: USBLog.WriteLn("(USBnull) 16 bit read at address %lx", addr); break; default: //value = usbRu16(addr); USBLog.WriteLn("(USBnull) 16 bit read at address %lx", addr); } return value; } EXPORT_C_(u32) USBread32(u32 addr) { u32 value = 0; switch(addr) { // Handle any appropriate addresses here. case 0x1f801600: USBLog.WriteLn("(USBnull) 32 bit read at address %lx", addr); break; default: //value = usbRu32(addr); USBLog.WriteLn("(USBnull) 32 bit read at address %lx", addr); } return value; } EXPORT_C_(void) USBwrite8(u32 addr, u8 value) { switch(addr) { // Handle any appropriate addresses here. case 0x1f801600: USBLog.WriteLn("(USBnull) 8 bit write at address %lx value %x", addr, value); break; default: //usbRu8(addr) = value; USBLog.WriteLn("(USBnull) 8 bit write at address %lx value %x", addr, value); } } EXPORT_C_(void) USBwrite16(u32 addr, u16 value) { switch(addr) { // Handle any appropriate addresses here. case 0x1f801600: USBLog.WriteLn("(USBnull) 16 bit write at address %lx value %x", addr, value); break; default: //usbRu16(addr) = value; USBLog.WriteLn("(USBnull) 16 bit write at address %lx value %x", addr, value); } } EXPORT_C_(void) USBwrite32(u32 addr, u32 value) { switch(addr) { // Handle any appropriate addresses here. case 0x1f801600: USBLog.WriteLn("(USBnull) 16 bit write at address %lx value %x", addr, value); break; default: //usbRu32(addr) = value; USBLog.WriteLn("(USBnull) 32 bit write at address %lx value %x", addr, value); } } EXPORT_C_(void) USBirqCallback(USBcallback callback) { // Register USBirq, so we can trigger an interrupt with it later. // It will be called as USBirq(cycles); where cycles is the number // of cycles before the irq is triggered. USBirq = callback; } EXPORT_C_(int) _USBirqHandler(void) { // This is our USB irq handler, so if an interrupt gets triggered, // deal with it here. return 0; } EXPORT_C_(USBhandler) USBirqHandler(void) { // Pass our handler to pcsx2. return (USBhandler)_USBirqHandler; } EXPORT_C_(void) USBsetRAM(void *mem) { ram = (s8*)mem; USBLog.WriteLn("*Setting ram."); } EXPORT_C_(void) USBsetSettingsDir(const char* dir) { // Get the path to the ini directory. s_strIniPath = (dir==NULL) ? "inis" : dir; } // extended funcs EXPORT_C_(s32) USBfreeze(int mode, freezeData *data) { // This should store or retrieve any information, for if emulation // gets suspended, or for savestates. switch(mode) { case FREEZE_LOAD: // Load previously saved data. break; case FREEZE_SAVE: // Save data. break; case FREEZE_SIZE: // return the size of the data. break; } return 0; } /*EXPORT_C_(void) USBasync(u32 cycles) { // Optional function: Called in IopCounter.cpp. }*/ EXPORT_C_(s32) USBtest() { // 0 if the plugin works, non-0 if it doesn't. return 0; } /* For operating systems that need an entry point for a dll/library, here it is. Defined in PS2Eext.h. */ ENTRY_POINT;