pcsx2/common/include/PluginCallbacks.h

973 lines
38 KiB
C

/* Pcsx2 - Pc Ps2 Emulator
* Copyright (C) 2002-2009 Pcsx2 Team
*
* This program 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 2 of the License, or
* (at your option) any later version.
*
* This program 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, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
#ifndef __PLUGINCALLBACKS_H__
#define __PLUGINCALLBACKS_H__
#include "x86caps.h" // fixme: x86caps.h needs to be implemented from the pcsx2 emitter cpucaps structs
//////////////////////////////////////////////////////////////////////////////////////////
// HWND is our only operating system dependent type. For it to be defined as accurately
// as possible, this header file needs to be included after whatever window/GUI platform
// headers you need (wxWidgets, Windows.h, GTK, etc).
//
// We could be lazy with this typedef, because window handles are always a (void*) on all
// platforms that matter to us (windows, gtk, OSX). But Windows has some type strictness
// on its HWND define that could be useful, and well it's probably good practice to use
// platform available defines when they exist.
//
#if defined( _WX_DEFS_H_ )
typedef WXWidget PS2E_HWND;
#elif defined( _WINDEF_ )
// For Windows let's use HWND, since it has some type strictness applied to it.
typedef HWND PS2E_HWND;
#else
// Unsupported platform... use void* as a best guess. Should work fine for almost
// any GUI platform, and certainly works for any currently supported one.
typedef void* PS2E_HWND;
#endif
//////////////////////////////////////////////////////////////////////////////////////////
// PS2E_THISPTR - (ps2 component scope 'this' object pointer type)
//
// This macro provides C++ plugin authors with a reasonably friendly way to automatically
// typecast the session objects for your plugin to your internal type. Just #define
// PS2E_THISPTR to your internal structure type prior to loading this header file, and all
// APIs will assume your struct type in their signature. Since all pointer types are inter-
// changeable, plugin APIs will retain full compatibility as long as PS2E_THISPTR is a
// pointer type.
//
#ifndef PS2E_THISPTR
# define PS2E_THISPTR struct _PS2E_ComponentAPI*
#else
// Ensure the user's defined PS2E_THISPTR retains the correct signature for our
// plugin API.
C_ASSERT( sizeof(PS2E_THISPTR) == sizeof(void*) );
#endif
// PS2E_LIB_THISPTR - (library scope version of PS2E_THISPTR)
#ifndef PS2E_LIB_THISPTR
# define PS2E_LIB_THISPTR void*
#else
// Ensure the user's defined PS2E_THISPTR retains the correct signature for our
// plugin API.
C_ASSERT( sizeof(PS2E_LIB_THISPTR) == sizeof(void*) );
#endif
// Use fastcall by default, since under most circumstances the object-model approach of the
// API will benefit considerably from it.
#define PS2E_CALLBACK __fastcall
#ifndef __cplusplus
extern "C" {
#endif
//////////////////////////////////////////////////////////////////////////////////////////
// Plugin Type / Version Enumerations
//
enum PS2E_ComponentTypes
{
PS2E_TYPE_GS=0,
PS2E_TYPE_PAD,
PS2E_TYPE_SPU2,
PS2E_TYPE_CDVD,
PS2E_TYPE_DEV9,
PS2E_TYPE_USB,
PS2E_TYPE_FW,
PS2E_TYPE_SIO,
};
enum PluginLibVersion
{
PS2E_VER_GS = 0x1000,
PS2E_VER_PAD = 0x1000,
PS2E_VER_SPU2 = 0x1000,
PS2E_VER_CDVD = 0x1000,
PS2E_VER_DEV9 = 0x1000,
PS2E_VER_USB = 0x1000,
PS2E_VER_FW = 0x1000,
PS2E_VER_SIO = 0x1000
};
enum OSDIconTypes
{
OSD_Icon_None = 0,
OSD_Icon_Error,
OSD_Icon_Notice, // An exclamation point maybe?
// [TODO] -- dunno. What else?
// Emulators implementing their own custom non-standard icon extensions should do so
// somewhere after OSD_Icon_ReserveEnd. All values below this are
OSD_Icon_ReserveEnd = 0x1000
};
/////////////////////////////////////////////////////////////////////////////////////////
// PS2E_VersionInfo
//
// This structure is populated by the plugin via the PS2E_PluginLibAPI::GetVersion()
// callback. Specify -1 for any Version or Revision to disable/ignore it. The emulator
// will not factor that info into the display name of the plugin.
//
typedef struct PS2E_VersionInfo
{
// Low/Mid/High versions combine to form a number in the format of: 2.3.1
// ... where 2 is the high version, 3 mid, and 1 low.
s16 VersionLow;
s16 VersionMid;
s16 VersionHigh;
// Revision typically refers a revision control system (such as SVN). When displayed
// by the emulator it will have an 'r' prefixed before it.
s32 Revision;
} PS2E_VersionInfo;
//////////////////////////////////////////////////////////////////////////////////////////
// PS2E_MachineInfo
//
// This struct is populated by the emulator when the application is started, and is passed
// to plugins via PS2E_PluginLibAPI::Init(). Plugins may optionally use this information
// to determine compatibility or to select which special CPU-oriented builds and/or functions
// to bind to callbacks.
//
// Fields marked as Optional can either be NULL or -1, denoting the field is unused/ignored.
//
typedef struct _PS2E_MachineInfo
{
const x86CPU_INFO* x86caps;
// brief name of the emulator (ex: "PCSX2") [required]
// Depending on the design of the emulator, this string may optionally include version
// information, however that is not recommended since it can inhibit backward support.
const char* EmuName;
s16 EmuVersionLow; // [optional]
s16 EmuVersionMid; // [optional]
s16 EmuVersionHigh; // [optional]
s32 EmuRevision; // emulator's revision number. [optional]
} PS2E_MachineInfo;
//////////////////////////////////////////////////////////////////////////////////////////
// PS2E_SessionInfo
//
// This struct is populated by the emulator prior to starting emulation, and is passed to
// each plugin via a call to PS2E_PluginLibAPI::EmuStart().
//
typedef struct _PS2E_SessionInfo
{
PS2E_HWND window;
u32* CycleEE; // current EE cycle count
u32* CycleIOP; // current IOP cycle count
u32 ElfCRC; // CRC of the ELF header for this app/game
// Sony's assigned serial number, valid only for CD/CDVD games (ASCII-Z string).
// Ex: SLUS-2932 (if the running app is not a sony-registered game, the serial
// will be a zero length string).
const char Serial[16];
} PS2E_SessionInfo;
/////////////////////////////////////////////////////////////////////////////////////////
// PS2E_EmulatorAPI
//
// These functions are provided to the PS2 plugins by the emulator. Plugins may call these
// functions to perform operations or retrieve data.
//
typedef struct _PS2E_EmulatorAPI
{
// TODO : Create the ConsoleLogger class.
// Provides a set of basic console functions for writing text to the emulator's
// console. Some emulators may not support a console, in which case these functions
// will be NOPs. For plain and simple to-disk logging, plugins should create and use
// their own logging facilities.
ConsoleLogger* Console;
// OSD_WriteLn
// This function allows the plugin to post messages to the emulator's On-Screen Display.
// The OSD message will be displayed with the specified icon (optional) for the duration
// of a few seconds, or until other messages have scrolled it out of view.
// Implementation of the OSD is emulator specific, and there is no guarantee that the
// OSD will be honored at all. If the emulator does not support OSD then this function
// call is treated as a NOP.
//
// Typically a plugin author should only use the OSD for infrequent notices that are
// potentially useful to users playing games (particularly at fullscreen). Trouble-
// shooting and debug information is best dumped to console or to disk log.
//
// Parameters:
// icon - an icon identifier, typically from the PS2E_OSDIconTypes enumeration. Specific
// versions of emulators may provide their own icon extensions. The emulator will
// silently ignore unrecognized icon identifiers, thus retaining cross-compat.
//
// msg - string message displayed to the user.
void (PS2E_CALLBACK* OSD_WriteLn)( int icon, const char* msg );
} PS2E_EmulatorAPI;
//////////////////////////////////////////////////////////////////////////////////////////
// PS2E_FreezeData
//
// Structure used to pass savestate info between emulator and plugin.
//
typedef struct _PS2E_FreezeData
{
u32 Size; // size of the data being frozen or thawed. This value is allowed to be changed by Freeze().
void* Data; // pointer to the data target (freeze) or source (thaw)
} PS2E_FreezeData;
//////////////////////////////////////////////////////////////////////////////////////////
// PS2E_ComponentAPI
//
// The PluginTypeAPI is provided for every PS2 component plugin (see PS2E_ComponentTypes
// enumeration). For typical dlls which only provide one plugin type of functionality,
// the plugin only needs one instance of this struct. For multi-type plugins, for example
// a plugin that supports both DEV9 and FW together, an interface must be provided for
// each component supported.
//
// These are functions provided to the PS2 emulator from the plugin. The emulator will
// call these functions and expect the plugin to perform defined tasks.
//
typedef struct _PS2E_ComponentAPI
{
// EmuStart
// This function is called by the emulator when an emulation session is started. The
// plugin should take this opportunity to bind itself to the given window handle, open
// necessary audio/video/input devices, etc.
//
// Parameters:
// session - provides relevant emulation session information. Provided pointer is
// valid until after the subsequent call to EmuClose()
//
// Threading: EmuStart is called from the GUI thread. All other emulation threads are
// guaranteed to be suspended or closed at the time of this call (no locks required).
//
void (PS2E_CALLBACK* EmuStart)( PS2E_THISPTR thisptr, const PS2E_SessionInfo *session );
// EmuClose
// This function is called by the emulator prior to stopping emulation. The window
// handle specified in EmuStart is guaranteed to be valid at the time EmuClose is called,
// and the plugin should unload/unbind all window dependencies at this time.
//
// Threading: EmuClose is called from the GUI thread. All other emulation threads are
// guaranteed to be suspended or closed at the time of this call (no locks required).
//
void (PS2E_CALLBACK* EmuClose)( PS2E_THISPTR thisptr );
// CalcFreezeSize
// This function should calculate and return the amount of memory needed for the plugin
// to freeze its complete emulation state. The value can be larger than the required
// amount of space, but cannot be smaller.
//
// The emulation state when this function is called is guaranteed to be the same as
// the following call to Freeze.
//
// Thread Safety:
// May be called from any thread (GUI, Emu, GS, Unknown, etc).
// All Emulation threads are halted at a PS2 logical vsync-end event.
// No locking is necessary.
u32 (PS2E_CALLBACK* CalcFreezeSize)( PS2E_THISPTR thisptr );
// Freeze
// This function should make a complete copy of the plugin's emulation state into the
// provided dest->Data pointer. The plugin is allowed to reduce the dest->Size value
// but is not allowed to make it larger. The plugin will only receive calls to Freeze
// and Thaw while a plugin is in an EmuStart() state.
//
// Parameters:
// dest - a pointer to the Data/Size destination buffer (never NULL).
//
// Thread Safety:
// May be called from any thread (GUI, Emu, GS, Unknown, etc).
// All Emulation threads are halted at a PS2 logical vsync-end event.
// No locking is necessary.
void (PS2E_CALLBACK* Freeze)( PS2E_THISPTR thisptr, PS2E_FreezeData* dest );
// Thaw
// Plugin should restore a complete emulation state from the given FreezeData. The
// plugin will only receive calls to Freeze and Thaw while a plugin is in an EmuStart()
// state.
//
// Thread Safety:
// May be called from any thread (GUI, Emu, GS, Unknown, etc).
// All Emulation threads are halted at a PS2 logical vsync-end event.
// No locking is necessary.
void (PS2E_CALLBACK* Thaw)( PS2E_THISPTR thisptr, const PS2E_FreezeData* src );
// Configure
// The plugin should open a modal dialog box with plugin-specific settings and prop-
// erties. This function can be NULL, in which case the user's Configure option for
// this plugin is grayed out.
//
// All emulation is suspended and the plugin's state is saved to memory prior to this
// function being called. Configure is only called outside the context of EmuStart()
// (after a call to EmuClose()).
//
// Plugin authors should ensure to re-read and re-apply all settings on EmuStart(),
// which will ensure that any user changes will be applied immediately. For changes
// that can be applied without emulation suspension, see/use the GUI extensions for
// menu and toolbar shortcuts.
//
// Thread Safety:
// Always called from the GUI thread, with emulation in a halted state (no locks
// needed).
void (PS2E_CALLBACK* Configure)( PS2E_THISPTR thisptr );
// Reserved area at the end of the structure, for future API expansion.
void* reserved[16];
} PS2E_ComponentAPI;
/////////////////////////////////////////////////////////////////////////////////////////
// PS2E_LibraryAPI
//
// The LibraryAPI is an overall library-scope set of functions that perform basic Init,
// Shutdown, and global configuration operations.
//
// These are functions provided to the PS2 emulator from the plugin. The emulator will
// call these functions and expect the plugin to perform defined tasks.
//
// Threading:
// - get* callbacks in this struct are not bound to any particular thread. Implementations
// should not assume any specific thread affinity.
//
// - set* callbacks in this struct are bound to the GUI thread of the emulator, and will
// always be invoked from that thread.
//
typedef struct _PS2E_LibraryAPI
{
// GetName
// Returns an ASCII-Z (zero-terminated) string name of the plugin. The name should
// *not* include version or build information. That info is returned separately
// via GetVersion. The return value cannot be NULL (if it is NULL, the emulator
// will assume the DLL is invalid and ignore it).
//
// The pointer should reference a static/global scope char array, or an allocated
// heap pointer (not recommended).
//
// This function may be called multiple times by the emulator, so it should accommodate
// for such if it performs heap allocations or other initialization procedures.
const char* (PS2E_CALLBACK* GetName)();
// GetVersion
// This function returns name and version information for the requested PS2 component.
// If the plugin does not support the requested component, it should return NULL.
// The returned pointer, if non-NULL, must be either a static value [recommended] or a
// heap-allocated value, and valid for the lifetime of the plugin.
//
// This function may be called multiple times by the emulator, so it should accommodate
// for such if it performs heap allocations or other initialization procedures.
//
// Typically a plugin will return the same version for all supported components. The
// component parameter is mostly provided to allow this function to serve a dual purpose
// of both component versioning and as a component enumerator.
//
// See PS2E_VersionInfo for more details.
//
// Parameters:
// component - indicates the ps2 component plugin to be versioned. If the plugin
// does not support the requested component, the function should return NULL.
//
const PS2E_VersionInfo* (PS2E_CALLBACK* GetVersion)( u32 component );
// Test
// Called by the plugin enumerator to check the hardware availability of the specified
// component. The function should return 1 if the plugin appears to be supported, or
// 0 if the test failed.
//
// While a plugin is welcome to use its own CPU capabilities information, it is recommended
// that you use the emulator provided CPU capabilities structure instead. The emulator may
// have provisions in its interface to allow for the forced disabling of extended CPU cap-
// abilities, for testing purposes.
//
// Exceptions:
// C++ Plugins may alternately use exception handling to return more detailed
// information on why the plugin failed it's availability test. [TODO]
//
s32 (PS2E_CALLBACK* Test)( u32 component, const PS2E_MachineInfo* xinfo );
// NewComponentInstance
// The emulator calls this function to fetch the API for the requested component.
// The plugin is expected to perform an "availability test" (the same test as performed
// by Test()) and return NULL if the plugin does not support the host machine's hardware
// or software installations.
//
// This function is only called for components which the plugin returned a non-NULL
// version information struct for in GetVersion().
//
// Plugin Allocation Strategy:
// The Component API has been designed with function invocation efficiency in mind.
// To allocate your plugin's component instance you should create a structure that
// contains PS2E_ComponentAPI_* as the first member (where * refers to the PS2
// component type), and plugin-specific instance data is stored as any number of
// subsequent members in the struct.
//
// Parameters:
// component - indicates the ps2 component API to return.
// dest - structure to fill with plugin function implementations. Dest should
// be manually typecast by the plugin to match the requested component.
//
// Exceptions:
// C++ Plugins may alternately use exception handling to return more detailed
// information on why the plugin failed it's availability test. [TODO]
//
PS2E_THISPTR (PS2E_CALLBACK* NewComponentInstance)( u32 component );
// DeleteComponentInstance
// Called by the emulator when the plugin component is to be shutdown. The component API
// instance pointer can be safely deleted here.
void (PS2E_CALLBACK* DeleteComponentInstance)( PS2E_THISPTR instance );
// SetSettingsFolder
// Callback is passed an ASCII-Z string representing the folder where the emulator's
// settings files are stored (may either be under the user's documents folder, or a
// location relative to the CWD of the emu application).
//
// Typically this callback is only issued once per plugin session, aand prior to the
// opening of any PS2 components. It is the responsibility of the emu to save the
// emulation state, shutdown plugins, and restart everything anew from the new settings
// in such an event as a dynamic change of the settings folder.
//
void (PS2E_CALLBACK* SetSettingsFolder)( const char* folder );
// SetLogFolder
// This callback may be issued at any time. It is the responsibility of the plugin
// to do the necessary actions to close existing disk logging facilities and re-open
// new facilities.
//
// Thread Safety:
// This function is always called from the GUI thread. All emulation threads are
// suspended during the call, so no locking is required.
//
void (PS2E_CALLBACK* SetLogFolder)( const char* folder );
// Reserved area at the end of the structure, for future API expansion. This area
// should always be zeroed out, so that future versions of emulators that may have
// defined functions here will recognize the functions as not supported.
void* reserved[12];
} PS2E_LibraryAPI;
//////////////////////////////////////////////////////////////////////////////////////////
// PS2E_Image
//
// Simple RGBA image data container, for passing surface textures to the GS plugin, and
// for receiving snapshots from the GS plugin.
//
// fixme - this might be more ideal as BGRA or ABGR format on Windows platforms?
//
typedef struct _PS2E_Image
{
u32 width
u32 height;
u8* data; // RGBA data. top to bottom.
} PS2E_Image;
//////////////////////////////////////////////////////////////////////////////////////////
// PS2E_ComponentAPI_GS
//
// Thread Safety:
// All GS callbacks are issued from the GS thread only, and are always called synchronously
// with all other component API functions. No locks are needed, and DirectX-based GS
// plugins can safely disable DX multithreading support for speedup (unless the plugin
// utilizes multiple threads of its own internally).
//
typedef struct _PS2E_ComponentAPI_GS
{
// Base Component API (inherited structure)
struct _PS2E_ComponentAPI Base;
// SetSnapshotsFolder
// Callback is passed an ASCII-Z string representing the folder where the emulator's
// snapshots are to be saved (typically located under user documents, but may be CWD
// or any user-specified location).
//
// Thread Safety:
// This function is only called from the GUI thread, however other threads are not
// suspended.
//
void (PS2E_CALLBACK* SetSnapshotsFolder)( PS2E_THISPTR thisptr, const char* folder );
// TakeSnapshot
// The GS plugin is to save the current frame into the given target image. This
// function is always called immediately after a GSvsync(), ensuring that the current
// framebuffer is safely intact for capture.
void (PS2E_CALLBACK* TakeSnapshot)( PS2E_THISPTR thisptr, PS2E_Image* dest );
// OSD_SetTexture
// Uploads a new OSD texture to the GS. Display of the OSD should be performed at
// the next soonest possible vsync.
void (PS2E_CALLBACK* OSD_SetTexture)( PS2E_THISPTR thisptr, PS2E_Image* src );
// OSD_SetAlpha
//
// Parameters:
// alphOverall - Specifies the 'full' opacity of the OSD. The alphaFade setting
// effectively slides from alphaOverall to 0.0.
//
// alphaFade - Specifies the fadeout status of the OSD. This value can be loosely
// interpreted by the GS plugin. The only requirement is that the GS plugin
// honor the fade value of 0.0 (OSD is not displayed).
void (PS2E_CALLBACK* OSD_SetAlpha)( PS2E_THISPTR thisptr, float alphaOverall, float alphaFade );
void (PS2E_CALLBACK* OSD_SetPosition)( PS2E_THISPTR thisptr, int xpos, int ypos );
void (PS2E_CALLBACK* GSvsync)(int field);
//
//
void (PS2E_CALLBACK* GSreadFIFO)(u128 *pMem, int qwc);
// GStransferTag
// Sends a set of GIFtags. Note that SIGNAL, FINISH, and LABEL tags are handled
// internally by the emulator in a thread-safe manner -- the GS plugin can safely
// ignore the tags (and there is no guarantee the emulator will even bother to
// pass the tags onto the GS).
void (PS2E_CALLBACK* GStransferTags)(u128 *pMem, int tagcnt);
// GStransferPackedTag
// Sends a set of packed GIFtags. Note that SIGNAL, FINISH, and LABEL tags are handled
// internally by the emulator in a thread-safe manner -- the GS plugin can safely
// ignore the tags (and there is no guarantee the emulator will even bother to
// pass the tags onto the GS).
void (PS2E_CALLBACK* GStransferPackedTags)(u128 *pMem, int tagcnt);
// GStransferImage
// Uploads GIFtag image data.
void (PS2E_CALLBACK* GStransferImage)(u128 *pMem, u32 len_qwc);
void* reserved[8];
} PS2E_ComponentAPI_GS;
// PS2E_InitAPI
// Called by the emulator when the plugin is loaded into memory. The emulator uses the
// presence of this function to detect PS2E-v2 plugin API, and will direct all subsequent
// calls through the returned LibraryAPI. The function is allowed to return NULL if the
// emulator's version information or machine capabilities are insufficient for the
// plugin's needs.
//
// This function is called *once* for the duration of a loaded plugin.
//
// Parameters:
// xinfo - Machine info and capabilities, usable for cpu detection. This pointer is
// valid for the duration of the plugin's tenure in memory.
//
// Returns:
// A pointer to a static structure that contains the API for this plugin, or NULL if
// the plugin explicitly does not support the emulator version.
//
// Exceptions:
// C++ Plugins can use exceptions instead of NULL to return additional information on
// why the plugin failed to init the API. [TODO]
//
typedef const PS2E_LibraryAPI* (PS2E_CALLBACK* _PS2E_InitAPI)( const PS2E_MachineInfo* xinfo );
//////////////////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////
// Begin old legacy API here (present for reference purposes only, until all plugin API
// specifics have been accounted for)
//////////////////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////
// PAD
typedef s32 (CALLBACK* _PADinit)(char *configpath, u32 flags);
typedef s32 (CALLBACK* _PADopen)(void *pDisplay);
typedef void (CALLBACK* _PADclose)();
typedef void (CALLBACK* _PADshutdown)();
typedef keyEvent* (CALLBACK* _PADkeyEvent)();
typedef u8 (CALLBACK* _PADstartPoll)(u8 pad);
typedef u8 (CALLBACK* _PADpoll)(u8 value);
typedef u32 (CALLBACK* _PADquery)();
typedef void (CALLBACK* _PADupdate)(u8 pad);
typedef void (CALLBACK* _PADgsDriverInfo)(GSdriverInfo *info);
typedef s32 (CALLBACK* _PADfreeze)(u8 mode, freezeData *data);
typedef void (CALLBACK* _PADconfigure)();
typedef s32 (CALLBACK* _PADtest)();
typedef void (CALLBACK* _PADabout)();
typedef s32 (CALLBACK* _PADsetSlot)(u8 port, u8 slot);
typedef s32 (CALLBACK* _PADqueryMtap)(u8 port);
// SIO
typedef s32 (CALLBACK* _SIOinit)(int types, SIOchangeSlotCB f);
typedef s32 (CALLBACK* _SIOopen)(void *pDisplay);
typedef void (CALLBACK* _SIOclose)();
typedef void (CALLBACK* _SIOshutdown)();
typedef s32 (CALLBACK* _SIOstartPoll)(u8 deviceType, u32 port, u32 slot, u8 *returnValue);
typedef s32 (CALLBACK* _SIOpoll)(u8 value, u8 *returnValue);
typedef u32 (CALLBACK* _SIOquery)();
typedef void (CALLBACK* _SIOkeyEvent)(keyEvent* ev);
typedef s32 (CALLBACK* _SIOfreeze)(u8 mode, freezeData *data);
typedef void (CALLBACK* _SIOconfigure)();
typedef s32 (CALLBACK* _SIOtest)();
typedef void (CALLBACK* _SIOabout)();
// SPU2
// NOTE: The read/write functions CANNOT use XMM/MMX regs
// If you want to use them, need to save and restore current ones
typedef s32 (CALLBACK* _SPU2init)(char *configpath);
typedef s32 (CALLBACK* _SPU2open)(void *pDisplay);
typedef void (CALLBACK* _SPU2close)();
typedef void (CALLBACK* _SPU2shutdown)();
typedef void (CALLBACK* _SPU2write)(u32 mem, u16 value);
typedef u16 (CALLBACK* _SPU2read)(u32 mem);
typedef void (CALLBACK* _SPU2readDMA4Mem)(u16 *pMem, u32 size);
typedef void (CALLBACK* _SPU2writeDMA4Mem)(u16 *pMem, u32 size);
typedef void (CALLBACK* _SPU2interruptDMA4)();
typedef void (CALLBACK* _SPU2readDMA7Mem)(u16 *pMem, u32 size);
typedef void (CALLBACK* _SPU2writeDMA7Mem)(u16 *pMem, u32 size);
typedef void (CALLBACK* _SPU2interruptDMA7)();
typedef void (CALLBACK* _SPU2readDMAMem)(u16 *pMem, u32 size, u8 core);
typedef void (CALLBACK* _SPU2writeDMAMem)(u16 *pMem, u32 size, u8 core);
typedef void (CALLBACK* _SPU2interruptDMA)(u8 core);
typedef void (CALLBACK* _SPU2setDMABaseAddr)(uptr baseaddr);
typedef void (CALLBACK* _SPU2irqCallback)(void (*SPU2callback)(),void (*DMA4callback)(),void (*DMA7callback)());
typedef bool (CALLBACK* _SPU2setupRecording)(bool start);
typedef void (CALLBACK* _SPU2setClockPtr)(u32*ptr);
typedef void (CALLBACK* _SPU2setTimeStretcher)(short int enable);
typedef u32 (CALLBACK* _SPU2ReadMemAddr)(u8 core);
typedef void (CALLBACK* _SPU2WriteMemAddr)(u8 core,u32 value);
typedef void (CALLBACK* _SPU2async)(u32 cycles);
typedef s32 (CALLBACK* _SPU2freeze)(u8 mode, freezeData *data);
typedef void (CALLBACK* _SPU2keyEvent)(keyEvent* ev);
typedef void (CALLBACK* _SPU2configure)();
typedef s32 (CALLBACK* _SPU2test)();
typedef void (CALLBACK* _SPU2about)();
// CDVD
// NOTE: The read/write functions CANNOT use XMM/MMX regs
// If you want to use them, need to save and restore current ones
typedef s32 (CALLBACK* _CDVDinit)(char *configpath);
typedef s32 (CALLBACK* _CDVDopen)(const char* pTitleFilename);
typedef void (CALLBACK* _CDVDclose)();
typedef void (CALLBACK* _CDVDshutdown)();
typedef s32 (CALLBACK* _CDVDreadTrack)(u32 lsn, int mode);
typedef u8* (CALLBACK* _CDVDgetBuffer)();
typedef s32 (CALLBACK* _CDVDreadSubQ)(u32 lsn, cdvdSubQ* subq);
typedef s32 (CALLBACK* _CDVDgetTN)(cdvdTN *Buffer);
typedef s32 (CALLBACK* _CDVDgetTD)(u8 Track, cdvdTD *Buffer);
typedef s32 (CALLBACK* _CDVDgetTOC)(void* toc);
typedef s32 (CALLBACK* _CDVDgetDiskType)();
typedef s32 (CALLBACK* _CDVDgetTrayStatus)();
typedef s32 (CALLBACK* _CDVDctrlTrayOpen)();
typedef s32 (CALLBACK* _CDVDctrlTrayClose)();
typedef void (CALLBACK* _CDVDkeyEvent)(keyEvent* ev);
typedef s32 (CALLBACK* _CDVDfreeze)(u8 mode, freezeData *data);
typedef void (CALLBACK* _CDVDconfigure)();
typedef s32 (CALLBACK* _CDVDtest)();
typedef void (CALLBACK* _CDVDabout)();
typedef void (CALLBACK* _CDVDnewDiskCB)(void (*callback)());
// DEV9
// NOTE: The read/write functions CANNOT use XMM/MMX regs
// If you want to use them, need to save and restore current ones
typedef s32 (CALLBACK* _DEV9init)(char *configpath);
typedef s32 (CALLBACK* _DEV9open)(void *pDisplay);
typedef void (CALLBACK* _DEV9close)();
typedef void (CALLBACK* _DEV9shutdown)();
typedef u8 (CALLBACK* _DEV9read8)(u32 mem);
typedef u16 (CALLBACK* _DEV9read16)(u32 mem);
typedef u32 (CALLBACK* _DEV9read32)(u32 mem);
typedef void (CALLBACK* _DEV9write8)(u32 mem, u8 value);
typedef void (CALLBACK* _DEV9write16)(u32 mem, u16 value);
typedef void (CALLBACK* _DEV9write32)(u32 mem, u32 value);
typedef void (CALLBACK* _DEV9readDMA8Mem)(u32 *pMem, int size);
typedef void (CALLBACK* _DEV9writeDMA8Mem)(u32 *pMem, int size);
typedef void (CALLBACK* _DEV9irqCallback)(DEV9callback callback);
typedef DEV9handler (CALLBACK* _DEV9irqHandler)(void);
typedef void (CALLBACK* _DEV9keyEvent)(keyEvent* ev);
typedef s32 (CALLBACK* _DEV9freeze)(int mode, freezeData *data);
typedef void (CALLBACK* _DEV9configure)();
typedef s32 (CALLBACK* _DEV9test)();
typedef void (CALLBACK* _DEV9about)();
// USB
// NOTE: The read/write functions CANNOT use XMM/MMX regs
// If you want to use them, need to save and restore current ones
typedef s32 (CALLBACK* _USBinit)(char *configpath);
typedef s32 (CALLBACK* _USBopen)(void *pDisplay);
typedef void (CALLBACK* _USBclose)();
typedef void (CALLBACK* _USBshutdown)();
typedef u8 (CALLBACK* _USBread8)(u32 mem);
typedef u16 (CALLBACK* _USBread16)(u32 mem);
typedef u32 (CALLBACK* _USBread32)(u32 mem);
typedef void (CALLBACK* _USBwrite8)(u32 mem, u8 value);
typedef void (CALLBACK* _USBwrite16)(u32 mem, u16 value);
typedef void (CALLBACK* _USBwrite32)(u32 mem, u32 value);
typedef void (CALLBACK* _USBasync)(u32 cycles);
typedef void (CALLBACK* _USBirqCallback)(USBcallback callback);
typedef USBhandler (CALLBACK* _USBirqHandler)(void);
typedef void (CALLBACK* _USBsetRAM)(void *mem);
typedef void (CALLBACK* _USBkeyEvent)(keyEvent* ev);
typedef s32 (CALLBACK* _USBfreeze)(int mode, freezeData *data);
typedef void (CALLBACK* _USBconfigure)();
typedef s32 (CALLBACK* _USBtest)();
typedef void (CALLBACK* _USBabout)();
//FW
typedef s32 (CALLBACK* _FWinit)(char *configpath);
typedef s32 (CALLBACK* _FWopen)(void *pDisplay);
typedef void (CALLBACK* _FWclose)();
typedef void (CALLBACK* _FWshutdown)();
typedef u32 (CALLBACK* _FWread32)(u32 mem);
typedef void (CALLBACK* _FWwrite32)(u32 mem, u32 value);
typedef void (CALLBACK* _FWirqCallback)(void (*callback)());
typedef void (CALLBACK* _FWkeyEvent)(keyEvent* ev);
typedef s32 (CALLBACK* _FWfreeze)(int mode, freezeData *data);
typedef void (CALLBACK* _FWconfigure)();
typedef s32 (CALLBACK* _FWtest)();
typedef void (CALLBACK* _FWabout)();
// General
extern _PS2EgetLibType PS2EgetLibType;
extern _PS2EgetLibVersion2 PS2EgetLibVersion2;
extern _PS2EgetLibName PS2EgetLibName;
extern _PS2EpassConfig PS2EpassConfig;
// GS
extern _GSinit GSinit;
extern _GSopen GSopen;
extern _GSclose GSclose;
extern _GSshutdown GSshutdown;
extern _GSvsync GSvsync;
extern _GSgifTransfer1 GSgifTransfer1;
extern _GSgifTransfer2 GSgifTransfer2;
extern _GSgifTransfer3 GSgifTransfer3;
extern _GSgetLastTag GSgetLastTag;
extern _GSgifSoftReset GSgifSoftReset;
extern _GSreadFIFO GSreadFIFO;
extern _GSreadFIFO2 GSreadFIFO2;
extern _GSkeyEvent GSkeyEvent;
extern _GSchangeSaveState GSchangeSaveState;
extern _GSmakeSnapshot GSmakeSnapshot;
extern _GSmakeSnapshot2 GSmakeSnapshot2;
extern _GSirqCallback GSirqCallback;
extern _GSprintf GSprintf;
extern _GSsetBaseMem GSsetBaseMem;
extern _GSsetGameCRC GSsetGameCRC;
extern _GSsetFrameSkip GSsetFrameSkip;
extern _GSsetupRecording GSsetupRecording;
extern _GSreset GSreset;
extern _GSwriteCSR GSwriteCSR;
extern _GSgetDriverInfo GSgetDriverInfo;
#ifdef _WINDOWS_
extern _GSsetWindowInfo GSsetWindowInfo;
#endif
extern _GSfreeze GSfreeze;
extern _GSconfigure GSconfigure;
extern _GStest GStest;
extern _GSabout GSabout;
// PAD1
extern _PADinit PAD1init;
extern _PADopen PAD1open;
extern _PADclose PAD1close;
extern _PADshutdown PAD1shutdown;
extern _PADkeyEvent PAD1keyEvent;
extern _PADstartPoll PAD1startPoll;
extern _PADpoll PAD1poll;
extern _PADquery PAD1query;
extern _PADupdate PAD1update;
extern _PADfreeze PAD1freeze;
extern _PADgsDriverInfo PAD1gsDriverInfo;
extern _PADconfigure PAD1configure;
extern _PADtest PAD1test;
extern _PADabout PAD1about;
// PAD2
extern _PADinit PAD2init;
extern _PADopen PAD2open;
extern _PADclose PAD2close;
extern _PADshutdown PAD2shutdown;
extern _PADkeyEvent PAD2keyEvent;
extern _PADstartPoll PAD2startPoll;
extern _PADpoll PAD2poll;
extern _PADquery PAD2query;
extern _PADupdate PAD2update;
extern _PADfreeze PAD2freeze;
extern _PADgsDriverInfo PAD2gsDriverInfo;
extern _PADconfigure PAD2configure;
extern _PADtest PAD2test;
extern _PADabout PAD2about;
// SIO[2]
extern _SIOinit SIOinit[2][9];
extern _SIOopen SIOopen[2][9];
extern _SIOclose SIOclose[2][9];
extern _SIOshutdown SIOshutdown[2][9];
extern _SIOstartPoll SIOstartPoll[2][9];
extern _SIOpoll SIOpoll[2][9];
extern _SIOquery SIOquery[2][9];
extern _SIOkeyEvent SIOkeyEvent;
extern _SIOfreeze SIOfreeze[2][9];
extern _SIOconfigure SIOconfigure[2][9];
extern _SIOtest SIOtest[2][9];
extern _SIOabout SIOabout[2][9];
// SPU2
extern _SPU2init SPU2init;
extern _SPU2open SPU2open;
extern _SPU2close SPU2close;
extern _SPU2shutdown SPU2shutdown;
extern _SPU2write SPU2write;
extern _SPU2read SPU2read;
extern _SPU2readDMA4Mem SPU2readDMA4Mem;
extern _SPU2writeDMA4Mem SPU2writeDMA4Mem;
extern _SPU2interruptDMA4 SPU2interruptDMA4;
extern _SPU2readDMA7Mem SPU2readDMA7Mem;
extern _SPU2writeDMA7Mem SPU2writeDMA7Mem;
extern _SPU2setDMABaseAddr SPU2setDMABaseAddr;
extern _SPU2interruptDMA7 SPU2interruptDMA7;
extern _SPU2ReadMemAddr SPU2ReadMemAddr;
extern _SPU2setupRecording SPU2setupRecording;
extern _SPU2WriteMemAddr SPU2WriteMemAddr;
extern _SPU2irqCallback SPU2irqCallback;
extern _SPU2setClockPtr SPU2setClockPtr;
extern _SPU2setTimeStretcher SPU2setTimeStretcher;
extern _SPU2keyEvent SPU2keyEvent;
extern _SPU2async SPU2async;
extern _SPU2freeze SPU2freeze;
extern _SPU2configure SPU2configure;
extern _SPU2test SPU2test;
extern _SPU2about SPU2about;
// CDVD
extern _CDVDinit CDVDinit;
extern _CDVDopen CDVDopen;
extern _CDVDclose CDVDclose;
extern _CDVDshutdown CDVDshutdown;
extern _CDVDreadTrack CDVDreadTrack;
extern _CDVDgetBuffer CDVDgetBuffer;
extern _CDVDreadSubQ CDVDreadSubQ;
extern _CDVDgetTN CDVDgetTN;
extern _CDVDgetTD CDVDgetTD;
extern _CDVDgetTOC CDVDgetTOC;
extern _CDVDgetDiskType CDVDgetDiskType;
extern _CDVDgetTrayStatus CDVDgetTrayStatus;
extern _CDVDctrlTrayOpen CDVDctrlTrayOpen;
extern _CDVDctrlTrayClose CDVDctrlTrayClose;
extern _CDVDkeyEvent CDVDkeyEvent;
extern _CDVDfreeze CDVDfreeze;
extern _CDVDconfigure CDVDconfigure;
extern _CDVDtest CDVDtest;
extern _CDVDabout CDVDabout;
extern _CDVDnewDiskCB CDVDnewDiskCB;
// DEV9
extern _DEV9init DEV9init;
extern _DEV9open DEV9open;
extern _DEV9close DEV9close;
extern _DEV9shutdown DEV9shutdown;
extern _DEV9read8 DEV9read8;
extern _DEV9read16 DEV9read16;
extern _DEV9read32 DEV9read32;
extern _DEV9write8 DEV9write8;
extern _DEV9write16 DEV9write16;
extern _DEV9write32 DEV9write32;
extern _DEV9readDMA8Mem DEV9readDMA8Mem;
extern _DEV9writeDMA8Mem DEV9writeDMA8Mem;
extern _DEV9irqCallback DEV9irqCallback;
extern _DEV9irqHandler DEV9irqHandler;
extern _DEV9keyEvent DEV9keyEvent;
extern _DEV9configure DEV9configure;
extern _DEV9freeze DEV9freeze;
extern _DEV9test DEV9test;
extern _DEV9about DEV9about;
// USB
extern _USBinit USBinit;
extern _USBopen USBopen;
extern _USBclose USBclose;
extern _USBshutdown USBshutdown;
extern _USBread8 USBread8;
extern _USBread16 USBread16;
extern _USBread32 USBread32;
extern _USBwrite8 USBwrite8;
extern _USBwrite16 USBwrite16;
extern _USBwrite32 USBwrite32;
extern _USBasync USBasync;
extern _USBirqCallback USBirqCallback;
extern _USBirqHandler USBirqHandler;
extern _USBsetRAM USBsetRAM;
extern _USBkeyEvent USBkeyEvent;
extern _USBconfigure USBconfigure;
extern _USBfreeze USBfreeze;
extern _USBtest USBtest;
extern _USBabout USBabout;
// FW
extern _FWinit FWinit;
extern _FWopen FWopen;
extern _FWclose FWclose;
extern _FWshutdown FWshutdown;
extern _FWread32 FWread32;
extern _FWwrite32 FWwrite32;
extern _FWirqCallback FWirqCallback;
extern _FWkeyEvent FWkeyEvent;
extern _FWconfigure FWconfigure;
extern _FWfreeze FWfreeze;
extern _FWtest FWtest;
extern _FWabout FWabout;
#ifndef __cplusplus
}
#endif
#endif // __PLUGINCALLBACKS_H__