/* * Copyright (C) 2002-2009 The DOSBox 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* $Id: callback.cpp,v 1.40 2009/03/03 18:30:41 c2woody Exp $ */ #include #include #include "dosbox.h" #include "callback.h" #include "mem.h" #include "cpu.h" /* CallBack are located at 0xF100:0 (see CB_SEG in callback.h) And they are 16 bytes each and you can define them to behave in certain ways like a far return or and IRET */ CallBack_Handler CallBack_Handlers[CB_MAX]; char* CallBack_Description[CB_MAX]; static Bitu call_stop,call_idle,call_default,call_default2; Bitu call_priv_io; static Bitu illegal_handler(void) { E_Exit("Illegal CallBack Called"); return 1; } Bitu CALLBACK_Allocate(void) { for (Bitu i=1;(i0) CPU_Cycles=0; } static Bitu default_handler(void) { LOG(LOG_CPU,LOG_ERROR)("Illegal Unhandled Interrupt Called %X",lastint); return CBRET_NONE; } static Bitu stop_handler(void) { return CBRET_STOP; } void CALLBACK_RunRealFar(Bit16u seg,Bit16u off) { reg_sp-=4; mem_writew(SegPhys(ss)+reg_sp,call_stop*CB_SIZE); mem_writew(SegPhys(ss)+reg_sp+2,CB_SEG); Bit32u oldeip=reg_eip; Bit16u oldcs=SegValue(cs); reg_eip=off; SegSet16(cs,seg); DOSBOX_RunMachine(); reg_eip=oldeip; SegSet16(cs,oldcs); } void CALLBACK_RunRealInt(Bit8u intnum) { Bit32u oldeip=reg_eip; Bit16u oldcs=SegValue(cs); reg_eip=(CB_MAX*CB_SIZE)+(intnum*6); SegSet16(cs,CB_SEG); DOSBOX_RunMachine(); reg_eip=oldeip; SegSet16(cs,oldcs); } void CALLBACK_SZF(bool val) { Bit16u tempf=mem_readw(SegPhys(ss)+reg_sp+4) & 0xFFBF; Bit16u newZF=(val==true) << 6; mem_writew(SegPhys(ss)+reg_sp+4,(tempf | newZF)); } void CALLBACK_SCF(bool val) { Bit16u tempf=mem_readw(SegPhys(ss)+reg_sp+4) & 0xFFFE; Bit16u newCF=(val==true); mem_writew(SegPhys(ss)+reg_sp+4,(tempf | newCF)); } void CALLBACK_SetDescription(Bitu nr, const char* descr) { if (descr) { CallBack_Description[nr] = new char[strlen(descr)+1]; strcpy(CallBack_Description[nr],descr); } else CallBack_Description[nr] = 0; } const char* CALLBACK_GetDescription(Bitu nr) { if (nr>=CB_MAX) return 0; return CallBack_Description[nr]; } Bitu CALLBACK_SetupExtra(Bitu callback, Bitu type, PhysPt physAddress, bool use_cb=true) { if (callback>=CB_MAX) return 0; switch (type) { case CB_RETN: if (use_cb) { phys_writeb(physAddress+0x00,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x01,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x02, callback); //The immediate word physAddress+=4; } phys_writeb(physAddress+0x00,(Bit8u)0xC3); //A RETN Instruction return (use_cb?5:1); case CB_RETF: if (use_cb) { phys_writeb(physAddress+0x00,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x01,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x02, callback); //The immediate word physAddress+=4; } phys_writeb(physAddress+0x00,(Bit8u)0xCB); //A RETF Instruction return (use_cb?5:1); case CB_RETF8: if (use_cb) { phys_writeb(physAddress+0x00,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x01,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x02, callback); //The immediate word physAddress+=4; } phys_writeb(physAddress+0x00,(Bit8u)0xCA); //A RETF 8 Instruction phys_writew(physAddress+0x01,(Bit16u)0x0008); return (use_cb?7:3); case CB_IRET: if (use_cb) { phys_writeb(physAddress+0x00,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x01,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x02,callback); //The immediate word physAddress+=4; } phys_writeb(physAddress+0x00,(Bit8u)0xCF); //An IRET Instruction return (use_cb?5:1); case CB_IRETD: if (use_cb) { phys_writeb(physAddress+0x00,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x01,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x02,callback); //The immediate word physAddress+=4; } phys_writeb(physAddress+0x00,(Bit8u)0x66); //An IRETD Instruction phys_writeb(physAddress+0x01,(Bit8u)0xCF); return (use_cb?6:2); case CB_IRET_STI: phys_writeb(physAddress+0x00,(Bit8u)0xFB); //STI if (use_cb) { phys_writeb(physAddress+0x01,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x02,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x03, callback); //The immediate word physAddress+=4; } phys_writeb(physAddress+0x01,(Bit8u)0xCF); //An IRET Instruction return (use_cb?6:2); case CB_IRET_EOI_PIC1: if (use_cb) { phys_writeb(physAddress+0x00,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x01,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x02,callback); //The immediate word physAddress+=4; } phys_writeb(physAddress+0x00,(Bit8u)0x50); // push ax phys_writeb(physAddress+0x01,(Bit8u)0xb0); // mov al, 0x20 phys_writeb(physAddress+0x02,(Bit8u)0x20); phys_writeb(physAddress+0x03,(Bit8u)0xe6); // out 0x20, al phys_writeb(physAddress+0x04,(Bit8u)0x20); phys_writeb(physAddress+0x05,(Bit8u)0x58); // pop ax phys_writeb(physAddress+0x06,(Bit8u)0xcf); //An IRET Instruction return (use_cb?0x0b:0x07); case CB_IRQ0: // timer int8 if (use_cb) { phys_writeb(physAddress+0x00,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x01,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x02,callback); //The immediate word physAddress+=4; } phys_writeb(physAddress+0x00,(Bit8u)0x50); // push ax phys_writeb(physAddress+0x01,(Bit8u)0x52); // push dx phys_writeb(physAddress+0x02,(Bit8u)0x1e); // push ds phys_writew(physAddress+0x03,(Bit16u)0x1ccd); // int 1c phys_writeb(physAddress+0x05,(Bit8u)0xfa); // cli phys_writeb(physAddress+0x06,(Bit8u)0x1f); // pop ds phys_writeb(physAddress+0x07,(Bit8u)0x5a); // pop dx phys_writew(physAddress+0x08,(Bit16u)0x20b0); // mov al, 0x20 phys_writew(physAddress+0x0a,(Bit16u)0x20e6); // out 0x20, al phys_writeb(physAddress+0x0c,(Bit8u)0x58); // pop ax phys_writeb(physAddress+0x0d,(Bit8u)0xcf); //An IRET Instruction return (use_cb?0x12:0x0e); case CB_IRQ1: // keyboard int9 phys_writeb(physAddress+0x00,(Bit8u)0x50); // push ax phys_writew(physAddress+0x01,(Bit16u)0x60e4); // in al, 0x60 phys_writew(physAddress+0x03,(Bit16u)0x4fb4); // mov ah, 0x4f phys_writeb(physAddress+0x05,(Bit8u)0xf9); // stc phys_writew(physAddress+0x06,(Bit16u)0x15cd); // int 15 if (use_cb) { phys_writew(physAddress+0x08,(Bit16u)0x0473); // jc skip phys_writeb(physAddress+0x0a,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x0b,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x0c,callback); //The immediate word // jump here to (skip): physAddress+=6; } phys_writeb(physAddress+0x08,(Bit8u)0xfa); // cli phys_writew(physAddress+0x09,(Bit16u)0x20b0); // mov al, 0x20 phys_writew(physAddress+0x0b,(Bit16u)0x20e6); // out 0x20, al phys_writeb(physAddress+0x0d,(Bit8u)0x58); // pop ax phys_writeb(physAddress+0x0e,(Bit8u)0xcf); //An IRET Instruction return (use_cb?0x15:0x0f); case CB_IRQ9: // pic cascade interrupt if (use_cb) { phys_writeb(physAddress+0x00,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x01,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x02,callback); //The immediate word physAddress+=4; } phys_writeb(physAddress+0x00,(Bit8u)0x50); // push ax phys_writew(physAddress+0x01,(Bit16u)0x61b0); // mov al, 0x61 phys_writew(physAddress+0x03,(Bit16u)0xa0e6); // out 0xa0, al phys_writew(physAddress+0x05,(Bit16u)0x0acd); // int a phys_writeb(physAddress+0x07,(Bit8u)0xfa); // cli phys_writeb(physAddress+0x08,(Bit8u)0x58); // pop ax phys_writeb(physAddress+0x09,(Bit8u)0xcf); //An IRET Instruction return (use_cb?0x0e:0x0a); case CB_IRQ12: // ps2 mouse int74 if (!use_cb) E_Exit("int74 callback must implement a callback handler!"); phys_writeb(physAddress+0x00,(Bit8u)0x1e); // push ds phys_writeb(physAddress+0x01,(Bit8u)0x06); // push es phys_writew(physAddress+0x02,(Bit16u)0x6066); // pushad phys_writeb(physAddress+0x04,(Bit8u)0xfc); // cld phys_writeb(physAddress+0x05,(Bit8u)0xfb); // sti phys_writeb(physAddress+0x06,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x07,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x08,callback); //The immediate word return 0x0a; case CB_IRQ12_RET: // ps2 mouse int74 return if (use_cb) { phys_writeb(physAddress+0x00,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x01,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x02,callback); //The immediate word physAddress+=4; } phys_writeb(physAddress+0x00,(Bit8u)0xfa); // cli phys_writew(physAddress+0x01,(Bit16u)0x20b0); // mov al, 0x20 phys_writew(physAddress+0x03,(Bit16u)0xa0e6); // out 0xa0, al phys_writew(physAddress+0x05,(Bit16u)0x20e6); // out 0x20, al phys_writew(physAddress+0x07,(Bit16u)0x6166); // popad phys_writeb(physAddress+0x09,(Bit8u)0x07); // pop es phys_writeb(physAddress+0x0a,(Bit8u)0x1f); // pop ds phys_writeb(physAddress+0x0b,(Bit8u)0xcf); //An IRET Instruction return (use_cb?0x10:0x0c); case CB_IRQ6_PCJR: // pcjr keyboard interrupt phys_writeb(physAddress+0x00,(Bit8u)0x50); // push ax phys_writew(physAddress+0x01,(Bit16u)0x60e4); // in al, 0x60 phys_writew(physAddress+0x03,(Bit16u)0xe03c); // cmp al, 0xe0 if (use_cb) { phys_writew(physAddress+0x05,(Bit16u)0x0674); // je skip phys_writeb(physAddress+0x07,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x08,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x09,callback); //The immediate word physAddress+=4; } else { phys_writew(physAddress+0x05,(Bit16u)0x0274); // je skip } phys_writew(physAddress+0x07,(Bit16u)0x09cd); // int 9 // jump here to (skip): phys_writeb(physAddress+0x09,(Bit8u)0xfa); // cli phys_writew(physAddress+0x0a,(Bit16u)0x20b0); // mov al, 0x20 phys_writew(physAddress+0x0c,(Bit16u)0x20e6); // out 0x20, al phys_writeb(physAddress+0x0e,(Bit8u)0x58); // pop ax phys_writeb(physAddress+0x0f,(Bit8u)0xcf); //An IRET Instruction return (use_cb?0x14:0x10); case CB_MOUSE: phys_writew(physAddress+0x00,(Bit16u)0x07eb); // jmp i33hd physAddress+=9; // jump here to (i33hd): if (use_cb) { phys_writeb(physAddress+0x00,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x01,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x02,callback); //The immediate word physAddress+=4; } phys_writeb(physAddress+0x00,(Bit8u)0xCF); //An IRET Instruction return (use_cb?0x0e:0x0a); case CB_INT16: phys_writeb(physAddress+0x00,(Bit8u)0xFB); //STI if (use_cb) { phys_writeb(physAddress+0x01,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x02,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x03, callback); //The immediate word physAddress+=4; } phys_writeb(physAddress+0x01,(Bit8u)0xCF); //An IRET Instruction for (Bitu i=0;i<=0x0b;i++) phys_writeb(physAddress+0x02+i,0x90); phys_writew(physAddress+0x0e,(Bit16u)0xedeb); //jmp callback return (use_cb?0x10:0x0c); case CB_INT29: // fast console output if (use_cb) { phys_writeb(physAddress+0x00,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x01,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x02,callback); //The immediate word physAddress+=4; } phys_writeb(physAddress+0x00,(Bit8u)0x50); // push ax phys_writew(physAddress+0x01,(Bit16u)0x0eb4); // mov ah, 0x0e phys_writew(physAddress+0x03,(Bit16u)0x10cd); // int 10 phys_writeb(physAddress+0x05,(Bit8u)0x58); // pop ax phys_writeb(physAddress+0x06,(Bit8u)0xcf); //An IRET Instruction return (use_cb?0x0b:0x07); case CB_HOOKABLE: phys_writeb(physAddress+0x00,(Bit8u)0xEB); //jump near phys_writeb(physAddress+0x01,(Bit8u)0x03); //offset phys_writeb(physAddress+0x02,(Bit8u)0x90); //NOP phys_writeb(physAddress+0x03,(Bit8u)0x90); //NOP phys_writeb(physAddress+0x04,(Bit8u)0x90); //NOP if (use_cb) { phys_writeb(physAddress+0x05,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x06,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x07,callback); //The immediate word physAddress+=4; } phys_writeb(physAddress+0x05,(Bit8u)0xCB); //A RETF Instruction return (use_cb?0x0a:0x06); case CB_TDE_IRET: // TandyDAC end transfer if (use_cb) { phys_writeb(physAddress+0x00,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x01,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x02,callback); //The immediate word physAddress+=4; } phys_writeb(physAddress+0x00,(Bit8u)0x50); // push ax phys_writeb(physAddress+0x01,(Bit8u)0xb8); // mov ax, 0x91fb phys_writew(physAddress+0x02,(Bit16u)0x91fb); phys_writew(physAddress+0x04,(Bit16u)0x15cd); // int 15 phys_writeb(physAddress+0x06,(Bit8u)0xfa); // cli phys_writew(physAddress+0x07,(Bit16u)0x20b0); // mov al, 0x20 phys_writew(physAddress+0x09,(Bit16u)0x20e6); // out 0x20, al phys_writeb(physAddress+0x0b,(Bit8u)0x58); // pop ax phys_writeb(physAddress+0x0c,(Bit8u)0xcf); //An IRET Instruction return (use_cb?0x11:0x0d); /* case CB_IPXESR: // IPX ESR if (!use_cb) E_Exit("ipx esr must implement a callback handler!"); phys_writeb(physAddress+0x00,(Bit8u)0x1e); // push ds phys_writeb(physAddress+0x01,(Bit8u)0x06); // push es phys_writew(physAddress+0x02,(Bit16u)0xa00f); // push fs phys_writew(physAddress+0x04,(Bit16u)0xa80f); // push gs phys_writeb(physAddress+0x06,(Bit8u)0x60); // pusha phys_writeb(physAddress+0x07,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x08,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x09,callback); //The immediate word phys_writeb(physAddress+0x0b,(Bit8u)0xCB); //A RETF Instruction return 0x0c; case CB_IPXESR_RET: // IPX ESR return if (use_cb) E_Exit("ipx esr return must not implement a callback handler!"); phys_writeb(physAddress+0x00,(Bit8u)0xfa); // cli phys_writew(physAddress+0x01,(Bit16u)0x20b0); // mov al, 0x20 phys_writew(physAddress+0x03,(Bit16u)0xa0e6); // out 0xa0, al phys_writew(physAddress+0x05,(Bit16u)0x20e6); // out 0x20, al phys_writeb(physAddress+0x07,(Bit8u)0x61); // popa phys_writew(physAddress+0x08,(Bit16u)0xA90F); // pop gs phys_writew(physAddress+0x0a,(Bit16u)0xA10F); // pop fs phys_writeb(physAddress+0x0c,(Bit8u)0x07); // pop es phys_writeb(physAddress+0x0d,(Bit8u)0x1f); // pop ds phys_writeb(physAddress+0x0e,(Bit8u)0xcf); //An IRET Instruction return 0x0f; */ case CB_INT21: phys_writeb(physAddress+0x00,(Bit8u)0xFB); //STI if (use_cb) { phys_writeb(physAddress+0x01,(Bit8u)0xFE); //GRP 4 phys_writeb(physAddress+0x02,(Bit8u)0x38); //Extra Callback instruction phys_writew(physAddress+0x03, callback); //The immediate word physAddress+=4; } phys_writeb(physAddress+0x01,(Bit8u)0xCF); //An IRET Instruction phys_writeb(physAddress+0x02,(Bit8u)0xCB); //A RETF Instruction return (use_cb?7:3); default: E_Exit("CALLBACK:Setup:Illegal type %d",type); } return 0; } bool CALLBACK_Setup(Bitu callback,CallBack_Handler handler,Bitu type,const char* descr) { if (callback>=CB_MAX) return false; CALLBACK_SetupExtra(callback,type,CALLBACK_PhysPointer(callback)+0,(handler!=NULL)); CallBack_Handlers[callback]=handler; CALLBACK_SetDescription(callback,descr); return true; } Bitu CALLBACK_Setup(Bitu callback,CallBack_Handler handler,Bitu type,PhysPt addr,const char* descr) { if (callback>=CB_MAX) return 0; Bitu csize=CALLBACK_SetupExtra(callback,type,addr,(handler!=NULL)); if (csize>0) { CallBack_Handlers[callback]=handler; CALLBACK_SetDescription(callback,descr); } return csize; } void CALLBACK_RemoveSetup(Bitu callback) { for (Bitu i = 0;i < 16;i++) { phys_writeb(CALLBACK_PhysPointer(callback)+i ,(Bit8u) 0x00); } } CALLBACK_HandlerObject::~CALLBACK_HandlerObject(){ if(!installed) return; if(m_type == CALLBACK_HandlerObject::SETUP) { if(vectorhandler.installed){ //See if we are the current handler. if so restore the old one if(RealGetVec(vectorhandler.interrupt) == Get_RealPointer()) { RealSetVec(vectorhandler.interrupt,vectorhandler.old_vector); } else LOG(LOG_MISC,LOG_WARN)("Interrupt vector changed on %X %s",vectorhandler.interrupt,CALLBACK_GetDescription(m_callback)); } CALLBACK_RemoveSetup(m_callback); } else if(m_type == CALLBACK_HandlerObject::SETUPAT){ E_Exit("Callback:SETUP at not handled yet."); } else if(m_type == CALLBACK_HandlerObject::NONE){ //Do nothing. Merely DeAllocate the callback } else E_Exit("what kind of callback is this!"); if(CallBack_Description[m_callback]) delete [] CallBack_Description[m_callback]; CallBack_Description[m_callback] = 0; CALLBACK_DeAllocate(m_callback); } void CALLBACK_HandlerObject::Install(CallBack_Handler handler,Bitu type,const char* description){ if(!installed) { installed=true; m_type=SETUP; m_callback=CALLBACK_Allocate(); CALLBACK_Setup(m_callback,handler,type,description); } else E_Exit("Allready installed"); } void CALLBACK_HandlerObject::Install(CallBack_Handler handler,Bitu type,PhysPt addr,const char* description){ if(!installed) { installed=true; m_type=SETUP; m_callback=CALLBACK_Allocate(); CALLBACK_Setup(m_callback,handler,type,addr,description); } else E_Exit("Allready installed"); } void CALLBACK_HandlerObject::Allocate(CallBack_Handler handler,const char* description) { if(!installed) { installed=true; m_type=NONE; m_callback=CALLBACK_Allocate(); CALLBACK_SetDescription(m_callback,description); CallBack_Handlers[m_callback]=handler; } else E_Exit("Allready installed"); } void CALLBACK_HandlerObject::Set_RealVec(Bit8u vec){ if(!vectorhandler.installed) { vectorhandler.installed=true; vectorhandler.interrupt=vec; RealSetVec(vec,Get_RealPointer(),vectorhandler.old_vector); } else E_Exit ("double usage of vector handler"); } void CALLBACK_Init(Section* sec) { Bitu i; for (i=0;i