📄 pm.c
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PM_int386(0x31, &r, &r); return ((ulong)r.x.cx << 16) + r.x.dx;}int PMAPI DPMI_setSelectorLimit(ushort sel,ulong limit){ PMREGS r; r.x.ax = 8; /* DPMI set selector limit */ r.x.bx = sel; r.x.cx = limit >> 16; r.x.dx = limit & 0xFFFF; PM_int386(0x31, &r, &r); if (r.x.cflag) return 0; return 1;}uint PMAPI DPMI_createSelector(ulong base,ulong limit){ uint sel; PMREGS r; /* Allocate 1 descriptor */ r.x.ax = 0; r.x.cx = 1; PM_int386(0x31, &r, &r); if (r.x.cflag) return 0; sel = r.x.ax; /* Set the descriptor access rights (for a 32 bit page granular * segment, ring 0). */ r.x.ax = 9; r.x.bx = sel; r.x.cx = 0x4093; PM_int386(0x31, &r, &r); /* Map physical memory and create selector */ if ((base = DPMI_mapPhysicalToLinear(base,limit)) == 0xFFFFFFFFUL) return 0; if (!DPMI_setSelectorBase(sel,base)) return 0; if (!DPMI_setSelectorLimit(sel,limit)) return 0; return sel;}void PMAPI DPMI_freeSelector(uint sel){ PMREGS r; r.x.ax = 1; r.x.bx = sel; PM_int386(0x31, &r, &r);}int PMAPI DPMI_lockLinearPages(ulong linear,ulong len){ PMREGS r; r.x.ax = 0x600; /* DPMI Lock Linear Region */ r.x.bx = (linear >> 16); /* Linear address in BX:CX */ r.x.cx = (linear & 0xFFFF); r.x.si = (len >> 16); /* Length in SI:DI */ r.x.di = (len & 0xFFFF); PM_int386(0x31, &r, &r); return (!r.x.cflag);}int PMAPI DPMI_unlockLinearPages(ulong linear,ulong len){ PMREGS r; r.x.ax = 0x601; /* DPMI Unlock Linear Region */ r.x.bx = (linear >> 16); /* Linear address in BX:CX */ r.x.cx = (linear & 0xFFFF); r.x.si = (len >> 16); /* Length in SI:DI */ r.x.di = (len & 0xFFFF); PM_int386(0x31, &r, &r); return (!r.x.cflag);}void * PMAPI DPMI_mapPhysicalAddr(ulong base,ulong limit,ibool isCached){ PMSREGS sregs; ulong linAddr; ulong DSBaseAddr; /* Get the base address for the default DS selector */ PM_segread(&sregs); DSBaseAddr = DPMI_getSelectorBase(sregs.ds); if ((base < 0x100000) && (DSBaseAddr == 0)) { /* DS is zero based, so we can directly access the first 1Mb of * system memory (like under DOS4GW). */ return (void*)base; } /* Map the memory to a linear address using DPMI function 0x800 */ if ((linAddr = DPMI_mapPhysicalToLinear(base,limit)) == 0) { if (base >= 0x100000) return NULL; /* If the linear address mapping fails but we are trying to * map an area in the first 1Mb of system memory, then we must * be running under a Windows or OS/2 DOS box. Under these * environments we can use the segment wrap around as a fallback * measure, as this does work properly. */ linAddr = base; } /* Now expand the default DS selector to 4Gb so we can access it */ if (!DPMI_setSelectorLimit(sregs.ds,0xFFFFFFFFUL)) return NULL; /* Finally enable caching for the page tables that we just mapped in, * since DOS4GW and PMODE/W create the page table entries without * caching enabled which hurts the performance of the linear framebuffer * as it disables write combining on Pentium Pro and above processors. * * For those processors cache disabling is better handled through the * MTRR registers anyway (we can write combine a region but disable * caching) so that MMIO register regions do not screw up. */ if (isCached) { if ((PDB = _PM_getPDB()) != 0 && DSBaseAddr == 0) { int startPDB,endPDB,iPDB,startPage,endPage,start,end,iPage; ulong pageTable,*pPageTable; if (!pPDB) { if (PDB >= 0x100000) pPDB = (ulong*)DPMI_mapPhysicalToLinear(PDB,0xFFF); else pPDB = (ulong*)PDB; } if (pPDB) { startPDB = (linAddr >> 22) & 0x3FF; startPage = (linAddr >> 12) & 0x3FF; endPDB = ((linAddr+limit) >> 22) & 0x3FF; endPage = ((linAddr+limit) >> 12) & 0x3FF; for (iPDB = startPDB; iPDB <= endPDB; iPDB++) { pageTable = pPDB[iPDB] & ~0xFFF; if (pageTable >= 0x100000) pPageTable = (ulong*)DPMI_mapPhysicalToLinear(pageTable,0xFFF); else pPageTable = (ulong*)pageTable; start = (iPDB == startPDB) ? startPage : 0; end = (iPDB == endPDB) ? endPage : 0x3FF; for (iPage = start; iPage <= end; iPage++) pPageTable[iPage] &= ~0x18; } } } } /* Now return the base address of the memory into the default DS */ return (void*)(linAddr - DSBaseAddr);}/* Some DOS extender implementations do not directly support calling a * real mode procedure from protected mode. However we can simulate what * we need temporarily hooking the INT 6Ah vector with a small real mode * stub that will call our real mode code for us. */static uchar int6AHandler[] = { 0x00,0x00,0x00,0x00, /* __PMODE_callReal variable */ 0xFB, /* sti */ 0x2E,0xFF,0x1E,0x00,0x00, /* call [cs:__PMODE_callReal] */ 0xCF, /* iretf */ };static uchar *crPtr = NULL; /* Pointer to of int 6A handler */static uint crRSeg,crROff; /* Real mode seg:offset of handler */void PMAPI PM_callRealMode(uint seg,uint off, RMREGS *in, RMSREGS *sregs){ uchar *p; uint oldSeg,oldOff; if (!crPtr) { /* Allocate and copy the memory block only once */ crPtr = PM_allocRealSeg(sizeof(int6AHandler), &crRSeg, &crROff); memcpy(crPtr,int6AHandler,sizeof(int6AHandler)); } PM_setWord(crPtr,off); /* Plug in address to call */ PM_setWord(crPtr+2,seg); p = PM_mapRealPointer(0,0x6A * 4); oldOff = PM_getWord(p); /* Save old handler address */ oldSeg = PM_getWord(p+2); PM_setWord(p,crROff+4); /* Hook 6A handler */ PM_setWord(p+2,crRSeg); PM_int86x(0x6A, in, in, sregs); /* Call real mode code */ PM_setWord(p,oldOff); /* Restore old handler */ PM_setWord(p+2,oldSeg);}void * PMAPI PM_getBIOSPointer(void){ return PM_mapPhysicalAddr(0x400,0xFFFF,true); }void * PMAPI PM_getA0000Pointer(void){ return PM_mapPhysicalAddr(0xA0000,0xFFFF,true); }void * PMAPI PM_mapPhysicalAddr(ulong base,ulong limit,ibool isCached){ return DPMI_mapPhysicalAddr(base,limit,isCached); }void PMAPI PM_freePhysicalAddr(void *ptr,ulong limit){ /* Mapping cannot be free */}ulong PMAPI PM_getPhysicalAddr(void *p){ /* TODO: This function should find the physical address of a linear */ /* address. */ (void)p; return 0xFFFFFFFFUL;}void * PMAPI PM_mapToProcess(void *base,ulong limit){ (void)limit; return (void*)base;}void * PMAPI PM_mapRealPointer(uint r_seg,uint r_off){ static uchar *zeroPtr = NULL; if (!zeroPtr) zeroPtr = PM_mapPhysicalAddr(0,0xFFFFF,true); return (void*)(zeroPtr + MK_PHYS(r_seg,r_off));}void * PMAPI PM_allocRealSeg(uint size,uint *r_seg,uint *r_off){ PMREGS r; void *p; r.x.ax = 0x100; /* DPMI allocate DOS memory */ r.x.bx = (size + 0xF) >> 4; /* number of paragraphs */ PM_int386(0x31, &r, &r); if (r.x.cflag) return NULL; /* DPMI call failed */ *r_seg = r.x.ax; /* Real mode segment */ *r_off = 0; p = PM_mapRealPointer(*r_seg,*r_off); _PM_addRealModeBlock(p,r.x.dx); return p;}void PMAPI PM_freeRealSeg(void *mem){ PMREGS r; r.x.ax = 0x101; /* DPMI free DOS memory */ r.x.dx = _PM_findRealModeBlock(mem);/* DX := selector from 0x100 */ PM_int386(0x31, &r, &r);}static DPMI_handler_t DPMI_int10 = NULL;void PMAPI DPMI_setInt10Handler(DPMI_handler_t handler){ DPMI_int10 = handler;}void PMAPI DPMI_int86(int intno, DPMI_regs *regs){ PMREGS r; PMSREGS sr; if (intno == 0x10 && DPMI_int10) { if (DPMI_int10(regs)) return; } PM_segread(&sr); r.x.ax = 0x300; /* DPMI issue real interrupt */ r.h.bl = intno; r.h.bh = 0; r.x.cx = 0; sr.es = sr.ds; r.e.edi = (uint)regs; PM_int386x(0x31, &r, &r, &sr); /* Issue the interrupt */}#define IN(reg) rmregs.reg = in->e.reg#define OUT(reg) out->e.reg = rmregs.regint PMAPI PM_int86(int intno, RMREGS *in, RMREGS *out){ DPMI_regs rmregs; memset(&rmregs, 0, sizeof(rmregs)); IN(eax); IN(ebx); IN(ecx); IN(edx); IN(esi); IN(edi);/* These real mode ints may cause crashes. *//*AM: DPMI_int86(intno,&rmregs); /###* DPMI issue real interrupt */ OUT(eax); OUT(ebx); OUT(ecx); OUT(edx); OUT(esi); OUT(edi); out->x.cflag = rmregs.flags & 0x1; return out->x.ax;}int PMAPI PM_int86x(int intno, RMREGS *in, RMREGS *out, RMSREGS *sregs){ DPMI_regs rmregs; memset(&rmregs, 0, sizeof(rmregs)); IN(eax); IN(ebx); IN(ecx); IN(edx); IN(esi); IN(edi); rmregs.es = sregs->es; rmregs.ds = sregs->ds;/*AM: DPMI_int86(intno,&rmregs); /###* DPMI issue real interrupt */ OUT(eax); OUT(ebx); OUT(ecx); OUT(edx); OUT(esi); OUT(edi); sregs->es = rmregs.es; sregs->cs = rmregs.cs; sregs->ss = rmregs.ss; sregs->ds = rmregs.ds; out->x.cflag = rmregs.flags & 0x1; return out->x.ax;}#pragma pack(1)typedef struct { uint LargestBlockAvail; uint MaxUnlockedPage; uint LargestLockablePage; uint LinAddrSpace; uint NumFreePagesAvail; uint NumPhysicalPagesFree; uint TotalPhysicalPages; uint FreeLinAddrSpace; uint SizeOfPageFile; uint res[3]; } MemInfo;#pragma pack()void PMAPI PM_availableMemory(ulong *physical,ulong *total){ PMREGS r; PMSREGS sr; MemInfo memInfo; PM_segread(&sr); r.x.ax = 0x500; /* DPMI get free memory info */ sr.es = sr.ds; r.e.edi = (uint)&memInfo; PM_int386x(0x31, &r, &r, &sr); /* Issue the interrupt */ *physical = memInfo.NumPhysicalPagesFree * 4096; *total = memInfo.LargestBlockAvail; if (*total < *physical) *physical = *total;}/****************************************************************************REMARKS:Function to get the file attributes for a specific file.****************************************************************************/uint PMAPI PM_getFileAttr( const char *filename){ /* TODO: Implement this! */ return 0;}/****************************************************************************REMARKS:Function to get the file time and date for a specific file.****************************************************************************/ibool PMAPI PM_getFileTime( const char *filename, ibool gmTime, PM_time *time){ /* TODO: Implement this! */ return false;}/****************************************************************************REMARKS:Function to set the file time and date for a specific file.****************************************************************************/ibool PMAPI PM_setFileTime( const char *filename, ibool gmTime, PM_time *time){ /* TODO: Implement this! */ return false;}⌨️ 快捷键说明
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