/*****************************************************************/ /** Microsoft LAN Manager **/ /** Copyright(c) Microsoft Corp., 1988-1990 **/ /*****************************************************************/ /**** hexedit.c - Generic sector based hex editor function call * * Fill out a HexEditParm structure, and call HexEdit. It provides * a simple hex editor with a few misc features. * * Is single threaded & non-reentrant, but can be called from any thread. * * External uses: * he - allows editing of a file * * Written: Ken Reneris 2/25/91 * */ #include #include #include #include #include #include "hexedit.h" #include #define LOCAL static // #define LOCAL #define BUFSZ (HeGbl.BufferSize) #define SECTORMASK (HeGbl.SectorMask) #define SECTORSHIFT (HeGbl.SectorShift) static UCHAR rghexc[] = "0123456789ABCDEF"; struct Buffer { struct Buffer *next; ULONGLONG offset; ULONGLONG physloc; USHORT flag; USHORT len; UCHAR *data; UCHAR orig[0]; } ; #define FB_DIRTY 0x0001 // Buffer may be dirty #define FB_BAD 0x0002 // Buffer had an error when read in #define LINESZ 16 // 16 bytes per display line #define LINESHIFT 4L #define LINEMASK 0xFFFFFFFFFFFFFFF0 #define CELLPERLINE 88 struct Global { struct HexEditParm *Parm; HANDLE Console; // Internal console handle HANDLE StdIn; NTSTATUS (*Read)(HANDLE, ULONGLONG, PUCHAR, DWORD); // Copy of HeGbl.Parm->read ULONG Flag; // Copy of HeGbl.Parm->flag ULONGLONG TotLen; // Sizeof item being editted ULONGLONG TotLen1; // Sizeof item being editted - 1 USHORT Lines; // # of lines in edit screen USHORT LineTot; // # of lines totaly in use USHORT PageSz; // sizeof page in bytes USHORT TopLine; // TopLine edit starts at ULONGLONG CurOffset; // Relative offset of first line ULONGLONG CurEditLoc; // Location with cursor UCHAR *CurPT; // Pointer to data where cursor is UCHAR CurAscIndent; UCHAR DWidth; // width of dispalymode UCHAR na; struct Buffer *CurBuf; // Buffer which cursor is in ULONG CurFlag; // Cursor info ULONG DisplayMode; // Mask of displaymode ULONG ItemWrap; // Mask of displaymode wrap UCHAR rgCols[LINESZ]; // Location within lines ULONGLONG UpdatePos; // Location waitin to be updated struct Buffer *Buf; // List of buffer's read in PCHAR_INFO pVioBuf; // Virtual screen COORD dwVioBufSize; // Dimensions of HeGbl.pVioBuf COORD CursorPos; // Position of cursor WORD AttrNorm; // Attribute of plain text WORD AttrHigh; // Attribute of highlighted text WORD AttrReverse; // Attribute of reverse text WORD na3; COORD dwSize; // Original screen size ULONG OrigMode; // Original screen mode CONSOLE_CURSOR_INFO CursorInfo; // Original cursor info PUCHAR SearchPattern; USHORT BufferSize; ULONGLONG SectorMask; ULONG SectorShift; } HeGbl; #define D_BYTE 0 // DisplayMode #define D_WORD 1 #define D_DWORD 3 #define FC_NIBBLE 0x0001 // Cursor on lower or upper nibble? #define FC_TEXT 0x0002 // Cursor on Hex or Text #define FC_INFLUSHBUF 0x1000 // So we don't recurse #define FC_CURCENTER 0x2000 // if jumping to cursor, put in center #define PUTCHAR(a,b,c) { a->Char.AsciiChar=b; a->Attributes=c; a++; } // // Internal prototypes // int heUpdateStats(), hePositionCursor(), heRefresh(), heSetDisp(); int heInitConsole(), heUpdateAllLines(), heInitScr(), heSetCursorBuf(), heUpdateFncs(); VOID __cdecl heDisp (USHORT, USHORT, PUCHAR, ...); USHORT heIOErr (UCHAR *str, ULONGLONG loc, ULONGLONG ploc, ULONG errcd); int heFlushBuf (struct Buffer *pBuf); VOID heEndConsole(), heGotoPosition(), heJumpToLink(); VOID heUpdateCurLine(), heUndo(), heCopyOut(), heCopyIn(), heSearch(); VOID heBox (USHORT x, USHORT y, USHORT len_x, USHORT len_y); UCHAR heGetChar (PUCHAR keys); VOID heFlushAllBufs (USHORT update); VOID heFindMousePos (COORD); VOID heShowBuf (ULONG, ULONG); VOID heSetDisplayMode (ULONG mode); #define RefreshDisp() heShowBuf(0, HeGbl.LineTot) #define SetCurPos(a,b) { \ HeGbl.CursorPos.X = b; \ HeGbl.CursorPos.Y = a + HeGbl.TopLine; \ SetConsoleCursorPosition (HeGbl.Console, HeGbl.CursorPos); \ } int (*vrgUpdateFnc[])() = { NULL, // 0 - No update heUpdateStats, // 1 - Update stats hePositionCursor, // 2 - Cursor has new position heUpdateAllLines, // 3 - Update all lines heUpdateFncs, // 4 - hePositionCursor, // 5 - Calc cursor before AllLines heRefresh, // 6 - Clear lines heSetDisp, // 7 - Draws init screen // the following functions are only called once during init heInitScr, // 8 - get's video mode, etc. heInitConsole // 9 - setup console handle } ; #define U_NONE 0 #define U_NEWPOS 2 #define U_SCREEN 5 #define U_REDRAW 9 #define TOPLINE 4 #define LINEINDENT 1 #define FILEINDEXWIDTH 16 #define HEXINDENT (FILEINDEXWIDTH + 2 + LINEINDENT) #define ASCINDENT_BYTE (3*16 + HEXINDENT + 1) #define ASCINDENT_WORD (5*8 + HEXINDENT + 1) #define ASCINDENT_DWORD (9*4 + HEXINDENT + 1) #define POS(l,c) (HeGbl.pVioBuf+CELLPERLINE*(l)+c) USHORT vrgAscIndent[] = { ASCINDENT_BYTE, ASCINDENT_WORD, 0, ASCINDENT_DWORD }; UCHAR vrgDWidth[] = { 2, 4, 0, 8 }; LOCAL struct Buffer *vBufFree; // List of free buffers LOCAL USHORT vUpdate; LOCAL USHORT vRecurseLevel = 0; LOCAL BOOL vInSearch = FALSE; /* * Prototypes */ struct Buffer *heGetBuf (ULONGLONG); void heSetUpdate (USHORT); void heHexLine (struct Buffer *, USHORT, USHORT); void heHexDWord (PCHAR_INFO, ULONG, WORD); void heHexQWord (PCHAR_INFO, ULONGLONG, WORD); USHORT heLtoa (PCHAR_INFO, ULONG); ULONG heHtou (UCHAR *); ULONGLONG heHtoLu (UCHAR *); VOID heCalcCursorPosition (); VOID heGetString (PUCHAR s, USHORT len); VOID heRightOne (); VOID heLeftOne (); NTSTATUS heWriteFile (HANDLE h, PUCHAR buffer, ULONG len); NTSTATUS heReadFile (HANDLE h, PUCHAR buffer, ULONG len, PULONG br); NTSTATUS heOpenFile (PUCHAR Name, PHANDLE handle, ULONG access); ULONG HighBit ( ULONG Word ) /*++ Routine Description: This routine discovers the highest set bit of the input word. It is equivalent to the integer logarithim base 2. Arguments: Word - word to check Return Value: Bit offset of highest set bit. If no bit is set, return is zero. --*/ { ULONG Offset = 31; ULONG Mask = (ULONG)(1 << 31); if (Word == 0) { return 0; } while ((Word & Mask) == 0) { Offset--; Mask >>= 1; } return Offset; } /*** * * HexEdit - Full screen HexEdit of data * * ename - pointer to name of what's being edited * totlen - length of item being edited * pRead - function which can read data from item * pWrite - function which can write data to item * handle - handle to pass to pRead & pWrite * flag - * * * All IO is assumed to be done on in 512 bytes on 512 byte boundrys * * pRead (handle, offset, data, &physloc) * pWrite (handle, offset, data, &physloc) * */ void HexEdit (struct HexEditParm *pParm) { USHORT rc; INPUT_RECORD Kd; USHORT SkipCnt; DWORD cEvents; USHORT RepeatCnt; BOOL bSuccess; struct Global *PriorGlobal; // code is not multi-threaded capable, but it can resurse. vRecurseLevel++; if (vRecurseLevel > 1) { PriorGlobal = (struct Global *) GlobalAlloc (0, sizeof (HeGbl)); if (!PriorGlobal) { return; } memcpy ((PUCHAR) PriorGlobal, (PUCHAR) &HeGbl, sizeof (HeGbl)); } memset (&HeGbl, 0, sizeof (HeGbl)); if (pParm->ioalign != 1) { // operating on a device HeGbl.BufferSize = (USHORT)pParm->ioalign; HeGbl.SectorMask = ~(((ULONGLONG)pParm->ioalign) - 1); HeGbl.SectorShift = HighBit( pParm->ioalign); } else { // operating on a file, so just use 1k byte units HeGbl.BufferSize = 0x400; HeGbl.SectorMask = 0xfffffffffffffc00; HeGbl.SectorShift = 9; } pParm->ioalign = 0; HeGbl.Parm = pParm; HeGbl.Flag = pParm->flag; HeGbl.TotLen = pParm->totlen; HeGbl.Read = pParm->read; HeGbl.TotLen1 = HeGbl.TotLen ? HeGbl.TotLen - 1L : 0L; pParm->flag = 0; HeGbl.CurEditLoc = pParm->start; // Cursor starts here HeGbl.CurOffset = HeGbl.CurEditLoc & LINEMASK; // Start at valid offset HeGbl.CurFlag = FC_NIBBLE; HeGbl.Console = INVALID_HANDLE_VALUE; heSetDisplayMode ((HeGbl.Flag & FHE_DWORD) ? D_DWORD : D_BYTE); HeGbl.AttrNorm = pParm->AttrNorm ? pParm->AttrNorm : 0x07; HeGbl.AttrHigh = pParm->AttrHigh ? pParm->AttrHigh : 0x70; HeGbl.AttrReverse = pParm->AttrReverse ? pParm->AttrReverse : 0xf0; HeGbl.SearchPattern = GlobalAlloc (0, BUFSZ); if (!HeGbl.SearchPattern) { memcpy((PUCHAR) &HeGbl, (PUCHAR) PriorGlobal, sizeof(HeGbl)); GlobalFree(PriorGlobal); return; } memset (HeGbl.SearchPattern, 0, BUFSZ); RepeatCnt = 0; vUpdate = U_REDRAW; heSetUpdate (U_NONE); // get screen to redraw for (; ;) { if (RepeatCnt <= 1) { if (vUpdate != U_NONE) { // Something to update? if (SkipCnt++ > 10) { SkipCnt = 0; heSetUpdate (U_NONE); continue; } cEvents = 0; bSuccess = PeekConsoleInput( HeGbl.StdIn, &Kd, 1, &cEvents ); if (!bSuccess || cEvents == 0) { heSetUpdate ((USHORT)(vUpdate-1)); continue; } } else { SkipCnt = 0; } ReadConsoleInput (HeGbl.StdIn, &Kd, 1, &cEvents); if (Kd.EventType != KEY_EVENT) { if (Kd.EventType == MOUSE_EVENT && (Kd.Event.MouseEvent.dwButtonState & FROM_LEFT_1ST_BUTTON_PRESSED)) { heFindMousePos(Kd.Event.MouseEvent.dwMousePosition); } continue; // Not a key } if (!Kd.Event.KeyEvent.bKeyDown) continue; // Not a down stroke if (Kd.Event.KeyEvent.wVirtualKeyCode == 0 || // ALT Kd.Event.KeyEvent.wVirtualKeyCode == 0x10 || // SHIFT Kd.Event.KeyEvent.wVirtualKeyCode == 0x11 || // CONTROL Kd.Event.KeyEvent.wVirtualKeyCode == 0x14) // CAPITAL continue; RepeatCnt = Kd.Event.KeyEvent.wRepeatCount; if (RepeatCnt > 20) RepeatCnt = 20; } else RepeatCnt--; switch (Kd.Event.KeyEvent.wVirtualKeyCode) { case 0x21: /* PgUp */ if (HeGbl.CurOffset < HeGbl.PageSz) HeGbl.CurOffset = 0L; else HeGbl.CurOffset -= HeGbl.PageSz; if (HeGbl.CurEditLoc < HeGbl.PageSz) HeGbl.CurEditLoc = 0L; else HeGbl.CurEditLoc -= HeGbl.PageSz; heSetUpdate (U_SCREEN); continue; case 0x26: /* Up */ if (HeGbl.CurEditLoc >= LINESZ) { HeGbl.CurEditLoc -= LINESZ; heSetUpdate (U_NEWPOS); } continue; case 0x22: /* PgDn */ if (HeGbl.TotLen > HeGbl.PageSz) { if (HeGbl.CurOffset+HeGbl.PageSz+HeGbl.PageSz > HeGbl.TotLen1) HeGbl.CurOffset = ((HeGbl.TotLen1-HeGbl.PageSz) & LINEMASK)+LINESZ; else HeGbl.CurOffset += HeGbl.PageSz; if (HeGbl.CurEditLoc+HeGbl.PageSz > HeGbl.TotLen1) { HeGbl.CurEditLoc = HeGbl.TotLen1; HeGbl.CurFlag &= ~FC_NIBBLE; } else HeGbl.CurEditLoc += HeGbl.PageSz; heSetUpdate (U_SCREEN); } continue; case 0x28: /* Down */ if (HeGbl.CurEditLoc+LINESZ <= HeGbl.TotLen1) { HeGbl.CurEditLoc += LINESZ; heSetUpdate (U_NEWPOS); } continue; case 0x08: /* backspace */ case 0x25: /* Left */ if (HeGbl.CurFlag & FC_TEXT) { if (HeGbl.CurEditLoc == 0L) continue; HeGbl.CurEditLoc--; heSetUpdate (U_NEWPOS); continue; } if (!(HeGbl.CurFlag & FC_NIBBLE)) { HeGbl.CurFlag |= FC_NIBBLE; heSetUpdate (U_NEWPOS); continue; } HeGbl.CurFlag &= ~FC_NIBBLE; heLeftOne (); heSetUpdate (U_NEWPOS); continue; case 0x27: /* Right */ if (HeGbl.CurFlag & FC_TEXT) { if (HeGbl.CurEditLoc >= HeGbl.TotLen1) continue; HeGbl.CurEditLoc++; heSetUpdate (U_NEWPOS); continue; } if (HeGbl.CurFlag & FC_NIBBLE) { HeGbl.CurFlag &= ~FC_NIBBLE; heSetUpdate (U_NEWPOS); continue; } HeGbl.CurFlag |= FC_NIBBLE; heRightOne (); heSetUpdate (U_NEWPOS); continue; case 0x24: /* HOME */ if (Kd.Event.KeyEvent.dwControlKeyState & (RIGHT_CTRL_PRESSED | LEFT_CTRL_PRESSED)) { HeGbl.CurEditLoc = 0L; } else { HeGbl.CurEditLoc &= LINEMASK; } if ((HeGbl.CurFlag & FC_TEXT) == 0) HeGbl.CurEditLoc += HeGbl.DisplayMode; if (HeGbl.CurEditLoc > HeGbl.TotLen1) HeGbl.CurEditLoc = HeGbl.TotLen1; HeGbl.CurFlag |= FC_NIBBLE; heSetUpdate (U_NEWPOS); continue; case 0x23: /* END */ if (Kd.Event.KeyEvent.dwControlKeyState & (RIGHT_CTRL_PRESSED | LEFT_CTRL_PRESSED)) { HeGbl.CurEditLoc = HeGbl.TotLen1; } else { HeGbl.CurEditLoc = (HeGbl.CurEditLoc & LINEMASK) + LINESZ - 1; } HeGbl.CurFlag &= ~FC_NIBBLE; if ((HeGbl.CurFlag & FC_TEXT) == 0) HeGbl.CurEditLoc -= HeGbl.DisplayMode; if (HeGbl.CurEditLoc > HeGbl.TotLen1) HeGbl.CurEditLoc = HeGbl.TotLen1; heSetUpdate (U_NEWPOS); continue; case 0x70: /* F1 */ switch (HeGbl.DisplayMode) { case D_BYTE: heSetDisplayMode(D_WORD); break; case D_WORD: heSetDisplayMode(D_DWORD); break; case D_DWORD: heSetDisplayMode(D_BYTE); break; } heSetDisp (); heSetUpdate (U_SCREEN); continue; case 0x71: /* F2 */ heGotoPosition (); continue; case 0x72: /* F3 */ heSearch (); break; case 0x73: /* F4 */ heCopyOut (); heSetDisp (); heSetUpdate (U_SCREEN); continue; case 0x74: /* F5 */ heCopyIn (); heSetDisp (); heSetUpdate (U_SCREEN); continue; case 0x75: /* F6 */ heJumpToLink (); break; case 0x79: /* F10 */ heUndo (); continue; case 0x0d: if (HeGbl.Flag & FHE_ENTER) { HeGbl.Parm->flag |= FHE_ENTER; Kd.Event.KeyEvent.uChar.AsciiChar = 27; // fake an exit } break; //case 0x75: /* F6 */ // if (HeGbl.Flag & FHE_F6) { // HeGbl.Parm->flag |= FHE_F6; // Kd.Event.KeyEvent.uChar.AsciiChar = 27; // fake an exit // } // break; } // Now check for a known char code... if (Kd.Event.KeyEvent.uChar.AsciiChar == 27) break; if (Kd.Event.KeyEvent.uChar.AsciiChar == 9) { HeGbl.CurFlag ^= FC_TEXT; HeGbl.CurFlag |= FC_NIBBLE; heSetUpdate (U_NEWPOS); continue; } if (HeGbl.CurFlag & FC_TEXT) { if (Kd.Event.KeyEvent.uChar.AsciiChar == 0) continue; heSetCursorBuf (); *HeGbl.CurPT = Kd.Event.KeyEvent.uChar.AsciiChar; heUpdateCurLine (); if (HeGbl.CurEditLoc < HeGbl.TotLen1) HeGbl.CurEditLoc++; } else { if (Kd.Event.KeyEvent.uChar.AsciiChar >= 'a' && Kd.Event.KeyEvent.uChar.AsciiChar <= 'z') Kd.Event.KeyEvent.uChar.AsciiChar -= ('a' - 'A'); if (!((Kd.Event.KeyEvent.uChar.AsciiChar >= '0' && Kd.Event.KeyEvent.uChar.AsciiChar <= '9') || (Kd.Event.KeyEvent.uChar.AsciiChar >= 'A' && Kd.Event.KeyEvent.uChar.AsciiChar <= 'F'))) continue; heSetCursorBuf (); if (Kd.Event.KeyEvent.uChar.AsciiChar >= 'A') Kd.Event.KeyEvent.uChar.AsciiChar -= 'A' - 10; else Kd.Event.KeyEvent.uChar.AsciiChar -= '0'; if (HeGbl.CurFlag & FC_NIBBLE) { *HeGbl.CurPT = (*HeGbl.CurPT & 0x0F) | (Kd.Event.KeyEvent.uChar.AsciiChar << 4); heUpdateCurLine (); } else { *HeGbl.CurPT = (*HeGbl.CurPT & 0xF0) | Kd.Event.KeyEvent.uChar.AsciiChar; heUpdateCurLine (); heRightOne (); } HeGbl.CurFlag ^= FC_NIBBLE; } } /* * Free buffer memory */ for (; ;) { rc = 0; while (HeGbl.Buf) { rc |= heFlushBuf (HeGbl.Buf); HeGbl.CurBuf = HeGbl.Buf->next; GlobalFree (HeGbl.Buf); HeGbl.Buf = HeGbl.CurBuf; } if (!rc) // If something was flushed, break; // then update the screen heSetUpdate (U_SCREEN); heSetUpdate (U_NONE); } // and loop to free buffers (again) vRecurseLevel--; GlobalFree (HeGbl.SearchPattern); heEndConsole (); if (vRecurseLevel == 0) { while (vBufFree) { HeGbl.CurBuf = vBufFree->next; GlobalFree (vBufFree); vBufFree = HeGbl.CurBuf; } } else { memcpy ((PUCHAR) &HeGbl, (PUCHAR) PriorGlobal, sizeof (HeGbl)); GlobalFree (PriorGlobal); } } VOID heSetDisplayMode (ULONG mode) { PUCHAR p; UCHAR d,i,j,h,len; HeGbl.DisplayMode = mode; HeGbl.CurAscIndent = (UCHAR)vrgAscIndent[HeGbl.DisplayMode]; HeGbl.DWidth = vrgDWidth[HeGbl.DisplayMode]; HeGbl.ItemWrap = (HeGbl.DisplayMode << 1) | 1; i = HeGbl.DWidth; j = i >> 1; h = HEXINDENT; len = LINESZ; p = HeGbl.rgCols; while (len) { for (d=0; d < i; d += 2) { len--; *(p++) = i - (d+2) + h; } h += i + 1; } } VOID heRightOne () { if (HeGbl.CurEditLoc & HeGbl.DisplayMode) { HeGbl.CurEditLoc--; } else { HeGbl.CurEditLoc += HeGbl.ItemWrap; } if (HeGbl.CurEditLoc > HeGbl.TotLen1) { HeGbl.CurEditLoc = HeGbl.TotLen1 & ~(ULONGLONG)HeGbl.DisplayMode; } } VOID heLeftOne () { if ((HeGbl.CurEditLoc & HeGbl.DisplayMode) != HeGbl.DisplayMode) { if (HeGbl.CurEditLoc < HeGbl.TotLen1) { HeGbl.CurEditLoc++; return ; } if (HeGbl.TotLen1 > HeGbl.DisplayMode) { HeGbl.CurEditLoc |= HeGbl.DisplayMode; } } if (HeGbl.CurEditLoc > HeGbl.ItemWrap) { HeGbl.CurEditLoc -= HeGbl.ItemWrap; return ; } HeGbl.CurEditLoc = HeGbl.TotLen1 > HeGbl.DisplayMode ? HeGbl.DisplayMode : HeGbl.TotLen1; } VOID heUpdateCurLine () { USHORT line; for (; ;) { HeGbl.CurBuf->flag |= FB_DIRTY; line = (USHORT) ((HeGbl.CurEditLoc - HeGbl.CurOffset) >> LINESHIFT); if (line+TOPLINE < HeGbl.LineTot - 1) break; heSetUpdate (U_NEWPOS); heSetUpdate (U_NONE); HeGbl.CurBuf = heGetBuf (HeGbl.CurEditLoc); } if (HeGbl.CurBuf) { heHexLine (HeGbl.CurBuf, (USHORT)((HeGbl.CurEditLoc & LINEMASK) - HeGbl.CurBuf->offset), line); heShowBuf (line+TOPLINE, 1); heSetUpdate (U_NEWPOS); if (HeGbl.Flag & FHE_KICKDIRTY) { HeGbl.Parm->flag |= FHE_DIRTY; SetEvent (HeGbl.Parm->Kick); } } } void heFindMousePos (Pos) COORD Pos; { ULONGLONG HoldLocation; USHORT HoldFlag; USHORT i; if (Pos.Y < TOPLINE || Pos.Y >= TOPLINE+HeGbl.Lines) return ; heSetUpdate (U_NONE); HoldLocation = HeGbl.CurEditLoc; HoldFlag = (USHORT)HeGbl.CurFlag; // // Take the cheap way out - simply run all the possibilities for the // target line looking for a match // HeGbl.CurEditLoc = HeGbl.CurOffset + ((Pos.Y-TOPLINE) << LINESHIFT); for (i=0; i < LINESZ; i++, HeGbl.CurEditLoc++) { HeGbl.CurFlag &= ~(FC_NIBBLE | FC_TEXT); heCalcCursorPosition (); if (Pos.X == HeGbl.CursorPos.X) break; HeGbl.CurFlag |= FC_NIBBLE; heCalcCursorPosition (); if (Pos.X == HeGbl.CursorPos.X) break; HeGbl.CurFlag |= FC_TEXT; heCalcCursorPosition (); if (Pos.X == HeGbl.CursorPos.X) break; } if (Pos.X == HeGbl.CursorPos.X) { heSetUpdate (U_NEWPOS); } else { HeGbl.CurEditLoc = HoldLocation; HeGbl.CurFlag = HoldFlag; heCalcCursorPosition (); } } VOID heSetUpdate (USHORT i) { USHORT u; if (vUpdate) { /* * There's already some outstanding update going on * Get updat level down to current one. */ while (vUpdate > i) { vrgUpdateFnc [u=vUpdate] (); if (u == vUpdate) // If vUpdate changed, then vUpdate--; // we might have recursed } } vUpdate = i; } int heSetCursorBuf () { // Calc HeGbl.CurBuf, HeGbl.CurPT if (HeGbl.CurBuf) { if (HeGbl.CurEditLoc >= HeGbl.CurBuf->offset && HeGbl.CurEditLoc < HeGbl.CurBuf->offset+BUFSZ ) { HeGbl.CurPT = HeGbl.CurBuf->data + (HeGbl.CurEditLoc - HeGbl.CurBuf->offset); return 0; } } HeGbl.CurBuf = heGetBuf (HeGbl.CurEditLoc); if (HeGbl.CurBuf) HeGbl.CurPT = HeGbl.CurBuf->data + (HeGbl.CurEditLoc - HeGbl.CurBuf->offset); return 0; } int hePositionCursor () { heCalcCursorPosition (); SetConsoleCursorPosition (HeGbl.Console, HeGbl.CursorPos); if ((HeGbl.Flag & FHE_KICKMOVE) && (HeGbl.CurEditLoc != HeGbl.Parm->editloc)) { HeGbl.Parm->editloc = HeGbl.CurEditLoc; SetEvent (HeGbl.Parm->Kick); } return 0; } VOID heCalcCursorPosition () { USHORT lin, col; // Verify HeGbl.CurOffset if (HeGbl.CurEditLoc < HeGbl.CurOffset) { HeGbl.CurOffset = HeGbl.CurEditLoc & LINEMASK; if (HeGbl.CurFlag & FC_CURCENTER) { if (HeGbl.CurOffset > (ULONG) HeGbl.PageSz / 2) { HeGbl.CurOffset -= (HeGbl.PageSz / 2) & LINEMASK; } else { HeGbl.CurOffset = 0; } } heSetUpdate (U_SCREEN); } if (HeGbl.CurEditLoc >= HeGbl.CurOffset+HeGbl.PageSz) { HeGbl.CurOffset = ((HeGbl.CurEditLoc - HeGbl.PageSz) & LINEMASK) + LINESZ; if (HeGbl.CurFlag & FC_CURCENTER) { if (HeGbl.CurOffset+HeGbl.PageSz < HeGbl.TotLen) { HeGbl.CurOffset += (HeGbl.PageSz / 2) & LINEMASK; } else { if (HeGbl.TotLen > HeGbl.PageSz) { HeGbl.CurOffset = ((HeGbl.TotLen - HeGbl.PageSz) & LINEMASK) + LINESZ; } } } heSetUpdate (U_SCREEN); } lin = (USHORT) ((ULONG) HeGbl.CurEditLoc - HeGbl.CurOffset) >> LINESHIFT; if (HeGbl.CurFlag & FC_TEXT) { col = (USHORT) (HeGbl.CurEditLoc & ~LINEMASK) + HeGbl.CurAscIndent+1; } else { col = HeGbl.rgCols [HeGbl.CurEditLoc & ~LINEMASK] + (HeGbl.CurFlag & FC_NIBBLE ? 0 : 1); } HeGbl.CursorPos.Y = lin + TOPLINE + HeGbl.TopLine; HeGbl.CursorPos.X = col; } heUpdateAllLines () { struct Buffer *next, *pBuf; USHORT line, u; ULONGLONG loc; HeGbl.CurBuf = pBuf = NULL; /* * Free up any buffers which are before the HeGbl.CurOffset */ if (!(HeGbl.CurFlag & FC_INFLUSHBUF)) { while (HeGbl.Buf) { if (HeGbl.Buf->offset+BUFSZ >= HeGbl.CurOffset) break; heFlushBuf (HeGbl.Buf); /* * Unlink buffer & put it on the free list */ next = HeGbl.Buf->next; HeGbl.Buf->next = vBufFree; vBufFree = HeGbl.Buf; HeGbl.Buf = next; } } /* * Display each hex line now */ loc = HeGbl.CurOffset; // starting offset for (line=0; lineoffset); // calc offset into this buffer } if (pBuf) { heHexLine (pBuf, u, line); // dump this line loc += LINESZ; // move offsets foreward one line u += LINESZ; if (u >= BUFSZ) { // did we exceed the current buf? pBuf = pBuf->next; // yes, move to next one u = 0; if (pBuf && loc < pBuf->offset) // verify buffer is right offs pBuf = NULL; // no, let heGetBuf find it } } } // Cause screen to be refreshed heShowBuf (TOPLINE, HeGbl.Lines); /* * All lines have been displayed, free up any extra buffers * at the end of the chain */ if (pBuf && !(HeGbl.CurFlag & FC_INFLUSHBUF)) { next = pBuf->next; // get extra buffers pBuf->next = NULL; // terminate active list pBuf = next; while (pBuf) { heFlushBuf (pBuf); // flush this buffer next = pBuf->next; // move it to the free list // and get next buffer to flush pBuf->next = vBufFree; vBufFree = pBuf; pBuf = next; } } HeGbl.CurFlag &= ~FC_CURCENTER; return 0; } int heFlushBuf (pBuf) struct Buffer *pBuf; { ULONGLONG loc, ploc; USHORT c; NTSTATUS status; if ((pBuf->flag & FB_DIRTY) == 0 || memcmp (pBuf->data, pBuf->orig, pBuf->len) == 0) return (0); // buffer isn't dirty, return // We may need to call heSetUpdate - setting this bit will // stop FlushBuf from being recursed. HeGbl.CurFlag |= FC_INFLUSHBUF; loc = pBuf->offset; ploc = pBuf->physloc; if (HeGbl.Flag & (FHE_VERIFYONCE | FHE_VERIFYALL)) { heSetUpdate (U_NONE); // make sure screen current heBox (12, TOPLINE+1, 63, 8); heDisp (TOPLINE+3, 14, "%HWrite changes to %S?", HeGbl.Parm->ename); heDisp (TOPLINE+7, 14, "Press '%HY%N'es or '%HN%N'o"); if (HeGbl.Flag & FHE_VERIFYALL) { if (HeGbl.Flag & FHE_PROMPTSEC) { heDisp (TOPLINE+4, 14, "Sector %H%D%N has been modifed",(ULONG)(ploc/BUFSZ)); } else { heDisp (TOPLINE+4, 14, "Location %H%Q%Nh-%H%Q%Nh has been modifed",ploc,ploc+BUFSZ); } heDisp (TOPLINE+8, 14, "Press '%HA%N' to save all updates"); } RefreshDisp (); c = heGetChar ("YNA"); // wait for key stroke heSetDisp (); // Get heBox off of screen heSetUpdate (U_SCREEN); // we will need to update display if (c == 'N') { memcpy (pBuf->data, pBuf->orig, pBuf->len); HeGbl.CurFlag &= ~FC_INFLUSHBUF; if (HeGbl.Flag & FHE_KICKDIRTY) { HeGbl.Parm->flag |= FHE_DIRTY; SetEvent (HeGbl.Parm->Kick); } return (0); } if (c == 'A') HeGbl.Flag &= ~FHE_VERIFYALL; } if (HeGbl.Parm->write) { /* * Write new buffer. */ do { status = HeGbl.Parm->write(HeGbl.Parm->handle, loc, pBuf->data,pBuf->len); if (!status) { pBuf->flag &= ~FB_DIRTY; break; } } while (heIOErr ("WRITE ERROR!", loc, ploc, status) == 'R'); } HeGbl.Flag &= ~FHE_VERIFYONCE; HeGbl.CurFlag &= ~FC_INFLUSHBUF; return (1); } VOID heJumpToLink () { PULONG p; ULONG l; if (HeGbl.DisplayMode != D_DWORD || (HeGbl.Flag & FHE_JUMP) == 0) return; if (((HeGbl.CurEditLoc & ~3) + 3) > HeGbl.TotLen1) return; heSetCursorBuf (); p = (PULONG) (((ULONG_PTR) HeGbl.CurPT) & ~3); // Round to dword location l = *p; if ((l & 3) == 0) l += 3; if (l > HeGbl.TotLen1) { Beep (500, 100); return; } HeGbl.CurFlag |= FC_NIBBLE | FC_CURCENTER; HeGbl.CurEditLoc = l; heSetDisp (); // clear & restore orig screen (does not draw) heSetUpdate (U_SCREEN); // redraw hex area } VOID heSearch () { struct Buffer *pBuf; ULONGLONG j, sec, off, slen, len, upd; ULONG i; ULONGLONG iQ; struct HexEditParm ei; PUCHAR data, data2; if (vInSearch || HeGbl.Lines < 25) { return ; } vInSearch = TRUE; heFlushAllBufs (1); // Before we start flush & free all buffers heSetUpdate (U_NONE); memset ((PUCHAR) &ei, 0, sizeof (ei)); ei.ename = "Entering Search"; ei.flag = FHE_EDITMEM | FHE_ENTER; ei.mem = HeGbl.SearchPattern; ei.totlen = BUFSZ; ei.ioalign = 1; ei.Console = HeGbl.Console; ei.AttrNorm = HeGbl.AttrNorm; ei.AttrHigh = HeGbl.AttrHigh; ei.AttrReverse = HeGbl.AttrReverse; ei.CursorSize = HeGbl.Parm->CursorSize; i = 24; if (HeGbl.Lines < i) { if (HeGbl.Lines < 12) { goto abort; } i = HeGbl.Lines - 8; } ei.TopLine = HeGbl.Lines + TOPLINE - i; ei.MaxLine = i + 1; if (HeGbl.DisplayMode == D_DWORD) { ei.flag |= FHE_DWORD; } HexEdit (&ei); // Get search parameters vInSearch = FALSE; if (!(ei.flag & FHE_ENTER)) goto abort; for (i=0, slen=0; i < BUFSZ; i++) { // find last non-zero byte if (HeGbl.SearchPattern[i]) { // in search patter slen = i+1; } } if (slen == 0) { goto abort; } heBox (12, TOPLINE+1, 48, 6); heDisp (TOPLINE+3, 14, "Searching for pattern"); SetCurPos (TOPLINE+5, 24); RefreshDisp (); iQ = HeGbl.CurEditLoc + 1; sec = iQ & SECTORMASK; // current sector off = iQ - sec; // offset within sector checking upd = 0; while (sec < HeGbl.TotLen) { if (++upd >= 50) { upd = 0; heFlushAllBufs (0); // free memory heDisp (TOPLINE+6, 14, "Searching offset %H%Qh ", sec); heShowBuf (TOPLINE+6, 1); } pBuf = heGetBuf(sec); if (pBuf) { data = pBuf->data; nextoff: while (off < BUFSZ && data[off] != HeGbl.SearchPattern[0]) { off++; } if (off >= BUFSZ) { // next sector... sec += BUFSZ; off = 0; continue; } len = (off + slen) > BUFSZ ? BUFSZ - off : slen; for (i=0; i < len; i++) { if (data[off+i] != HeGbl.SearchPattern[i]) { off += 1; goto nextoff; } } if (i < slen) { // data is continued in next buffer.. if (sec+BUFSZ >= HeGbl.TotLen) { off += 1; goto nextoff; } data2 = heGetBuf (sec+BUFSZ)->data; if (data2) { j = (BUFSZ-off); len = slen - j; for (i=0; i < len; i++) { if (data2[i] != HeGbl.SearchPattern[j+i]) { off += 1; goto nextoff; } } } } // found match if (sec + off + slen > HeGbl.TotLen1) { break; } } else { sec+=off; } HeGbl.CurEditLoc = sec + off; heSetDisp (); // clear & restore orig screen (does not draw) heSetUpdate (U_SCREEN); // redraw hex area return ; } heBox (12, TOPLINE+1, 48, 6); heDisp (TOPLINE+3, 14, "Data was not found"); heDisp (TOPLINE+5, 17, "Press %HEnter%N to continue"); SetCurPos (TOPLINE+6, 17); RefreshDisp (); heGetChar ("\r"); abort: heSetDisp (); // clear & restore orig screen (does not draw) heSetUpdate (U_SCREEN); // redraw hex area return ; } VOID heGotoPosition () { UCHAR s[24]; ULONGLONG l; heSetUpdate (U_NONE); heBox (12, TOPLINE+1, 49, 6); heDisp (TOPLINE+3, 14, "Enter offset from %H%X%N - %H%Q", 0L, HeGbl.TotLen1); heDisp (TOPLINE+5, 14, "Offset: "); SetCurPos (TOPLINE+5, 22); RefreshDisp (); heGetString (s, 18); if (s[0]) { l = heHtoLu (s); if (l <= HeGbl.TotLen1) { HeGbl.CurFlag |= FC_NIBBLE; HeGbl.CurEditLoc = l; } } if (!(HeGbl.CurFlag & FC_TEXT) && !(HeGbl.CurEditLoc & HeGbl.DisplayMode)) { // On xword boundry and not in text mode, adjust so cursor // is on the first byte which is being displayed of this // xword HeGbl.CurEditLoc += HeGbl.DisplayMode; if (HeGbl.CurEditLoc > HeGbl.TotLen1) HeGbl.CurEditLoc = HeGbl.TotLen1; } HeGbl.CurFlag |= FC_CURCENTER; // set cursor to center in window moves heSetDisp (); // clear & restore orig screen (does not draw) heSetUpdate (U_SCREEN); // redraw hex area } VOID heGetString (PUCHAR s, USHORT len) { UCHAR i[50]; DWORD cb; if (!ReadFile( HeGbl.StdIn, i, 50, &cb, NULL )) return; if(cb >= 2 && (i[cb - 2] == 0x0d || i[cb - 2] == 0x0a) ) { i[cb - 2] = 0; // Get rid of CR LF } i[ cb - 1] = 0; memcpy (s, i, len); s[len] = 0; } /*** * heCopyOut - Copies data to output filename */ VOID heCopyOut () { UCHAR s[64]; ULONGLONG len, rem, upd; ULONG u; HANDLE h; NTSTATUS status; struct Buffer *pB; heFlushAllBufs (1); // Before we start flush & free all buffers heSetUpdate (U_NONE); heBox (12, TOPLINE+1, 48, 6); heDisp (TOPLINE+3, 14, "Copy stream to filename (%H%D%Q Bytes)", HeGbl.TotLen); heDisp (TOPLINE+5, 14, "Filename: "); SetCurPos (TOPLINE+5, 24); RefreshDisp (); heGetString (s, 59); if (s[0] == 0) return; status = heOpenFile (s, &h, GENERIC_WRITE); if (NT_SUCCESS(status)) { len = upd = 0; rem = HeGbl.TotLen; while (NT_SUCCESS(status) && rem){ if (upd++ > 50) { upd = 0; heFlushAllBufs (0); // free memory heDisp (TOPLINE+6, 14, "Bytes written %H%Q ", len); heShowBuf (TOPLINE+6, 1); RefreshDisp (); } u = rem > BUFSZ ? BUFSZ : (ULONG)rem; pB = heGetBuf (len); if (pB) { status = heWriteFile (h, pB->data, u); rem -= u; len += BUFSZ; } } CloseHandle(h); } if (!NT_SUCCESS(status)) { heBox (15, TOPLINE+1, 33, 6); heDisp (TOPLINE+3, 17, "%HCopy failed"); heDisp (TOPLINE+4, 17, "Error code %X", status); heDisp (TOPLINE+5, 17, "Press %HA%N to abort"); RefreshDisp (); heGetChar ("A"); } } /*** * heCopyIn - Copies data to output filename */ VOID heCopyIn () { UCHAR s[64]; ULONGLONG holdEditLoc, rem; ULONG u, br; struct Buffer *pB; char *pErr; HANDLE h; NTSTATUS status; heSetUpdate (U_NONE); heBox (12, TOPLINE+1, 48, 6); heDisp (TOPLINE+3, 14, "Input from filename (%H%D%Q Bytes)", HeGbl.TotLen); heDisp (TOPLINE+5, 14, "Filename: "); SetCurPos (TOPLINE+5, 24); RefreshDisp (); heGetString (s, 59); heSetDisp (); // Get heBox off of screen if (s[0] == 0) { return; } status = heOpenFile (s, &h, GENERIC_READ); if (NT_SUCCESS(status)) { rem = HeGbl.TotLen; holdEditLoc = HeGbl.CurEditLoc; HeGbl.CurEditLoc = 0; while (NT_SUCCESS(status) && rem) { pB = heGetBuf (HeGbl.CurEditLoc); if (pB) { u = rem > BUFSZ ? BUFSZ : (ULONG)rem; status = heReadFile (h, pB->data, u, &br); if (memcmp (pB->data, pB->orig, pB->len)) { pB->flag |= FB_DIRTY; // it's changed HeGbl.CurFlag |= FC_CURCENTER; heSetUpdate (U_SCREEN); heSetUpdate (U_NONE); // Update screen if (HeGbl.Flag & FHE_KICKDIRTY) { HeGbl.Parm->flag |= FHE_DIRTY; } } heFlushAllBufs (1); if (NT_SUCCESS(status) && br != u) { pErr = "Smaller then data"; } rem -= u; HeGbl.CurEditLoc += BUFSZ; } } if (NT_SUCCESS(status)) { heReadFile (h, s, 1, &br); if (br) // then what we are editting pErr = "Larger then data"; } CloseHandle(h); } if (!NT_SUCCESS(status) || pErr) { heBox (15, TOPLINE+1, 33, 6); if (pErr) { heDisp (TOPLINE+3, 17, "Import file is:"); heDisp (TOPLINE+4, 17, pErr); heDisp (TOPLINE+5, 17, "Press %HC%N to continue"); } else { heDisp (TOPLINE+3, 17, "%HImport failed"); heDisp (TOPLINE+4, 17, "Error code %X", status); heDisp (TOPLINE+5, 17, "Press %HA%N to abort"); } RefreshDisp (); heGetChar ("CA"); } HeGbl.CurEditLoc = holdEditLoc; } VOID heFlushAllBufs (USHORT update) { struct Buffer *next; USHORT rc; for (; ;) { rc = 0; while (HeGbl.Buf) { rc |= heFlushBuf (HeGbl.Buf); next = HeGbl.Buf->next; HeGbl.Buf->next = vBufFree; vBufFree = HeGbl.Buf; HeGbl.Buf = next; } if (!rc) // If something was flushed, break; // then update the screen if (update) { heSetUpdate (U_SCREEN); heSetUpdate (U_NONE); } } // and loop to free buffers (again) } VOID heBox (x, y, len_x, len_y) USHORT x, y, len_x, len_y; { CHAR_INFO blank[CELLPERLINE]; PCHAR_INFO pt, pt1; USHORT c, lc; pt = blank; for (c=len_x; c; c--) { /* Construct blank line */ PUTCHAR (pt, ' ', HeGbl.AttrNorm); /* with background color*/ } blank[0].Char.AsciiChar = blank[lc=len_x-1].Char.AsciiChar = 'º'; for (c=0; c <= len_y; c++) /* blank each line */ memcpy (POS(c+y,x), blank, (int)((pt - blank) * sizeof (CHAR_INFO))); pt = POS(y,x); pt1 = POS(y+len_y, x); for (c=0; c < len_x; c++) /* Draw horz lines */ pt[c].Char.AsciiChar = pt1[c].Char.AsciiChar = 'Í'; pt [ 0].Char.AsciiChar = 'É'; /* Put corners on */ pt [lc].Char.AsciiChar = '»'; pt1 [ 0].Char.AsciiChar = 'È'; pt1 [lc].Char.AsciiChar = '¼'; } VOID heUndo () { struct Buffer *pBuf; USHORT flag; flag = 0; for (pBuf=HeGbl.Buf; pBuf; pBuf = pBuf->next) if (pBuf->flag & FB_DIRTY) { flag = 1; pBuf->flag &= ~FB_DIRTY; memcpy (pBuf->data, pBuf->orig, pBuf->len); } if (flag) { heSetUpdate (U_SCREEN); if (HeGbl.Flag & FHE_KICKDIRTY) { HeGbl.Parm->flag |= FHE_DIRTY; SetEvent (HeGbl.Parm->Kick); } } } void heHexLine (pBuf, u, line) struct Buffer *pBuf; USHORT u, line; { PCHAR_INFO pt, hex, asc; UCHAR *data, *orig; UCHAR len, mlen, c, d, i, j; WORD a; ULONGLONG l; WORD AttrNorm = HeGbl.AttrNorm; data = pBuf->data + u; orig = pBuf->orig + u; pt = HeGbl.pVioBuf + (line+TOPLINE) * CELLPERLINE; hex = pt + HEXINDENT; asc = pt + HeGbl.CurAscIndent; // // Write the file index. Highlight words falling on buffer (sector) // boundries in white. // l = pBuf->offset + u; if (l & ((ULONGLONG) BUFSZ-1)) { heHexQWord (pt+LINEINDENT, pBuf->physloc + u, AttrNorm); } else { heHexQWord (pt+LINEINDENT, pBuf->physloc + u, HeGbl.AttrHigh); } if (pBuf->flag & FB_BAD) { // If read error on pt[LINEINDENT+FILEINDEXWIDTH].Char.AsciiChar = 'E'; // this sector, then pt[LINEINDENT+FILEINDEXWIDTH].Attributes = HeGbl.AttrHigh; // flag it } else pt[LINEINDENT+FILEINDEXWIDTH].Char.AsciiChar = ' '; if (l + LINESZ > HeGbl.TotLen) { // if EOF if (l >= HeGbl.TotLen) { // Totally blankline? PUTCHAR (asc, ' ', AttrNorm); PUTCHAR (asc, ' ', AttrNorm); mlen = 0; for (len=0; len < 9; len++) pt[len].Char.AsciiChar = ' '; goto blankline; } len = mlen = (UCHAR) (HeGbl.TotLen - l); // Clip line } else len = mlen = (UCHAR) LINESZ; // Full line PUTCHAR (asc, '*', AttrNorm); switch (HeGbl.DisplayMode) { case D_BYTE: while (len--) { c = *(data++); a = c == *(orig++) ? AttrNorm : HeGbl.AttrReverse; PUTCHAR (hex, rghexc [c >> 4], a); PUTCHAR (hex, rghexc [c & 0x0F], a); hex++; PUTCHAR (asc, (c < ' ' || c > '~') ? '.' : c, a); } pt[((LINESZ/2)*3+HEXINDENT)-1].Char.AsciiChar = '-'; break; default: hex--; i = HeGbl.DWidth; j = i >> 1; while (len) { hex += i; for (d=0; dAttributes = a; hex->Char.AsciiChar = rghexc[c & 0x0F]; hex--; hex->Attributes = a; hex->Char.AsciiChar = rghexc[c >> 4]; hex--; PUTCHAR (asc, (c < ' ' || c > '~') ? '.' : c, a); } else { hex->Attributes = AttrNorm; hex->Char.AsciiChar = '?'; hex--; hex->Attributes = AttrNorm; hex->Char.AsciiChar = '?'; hex--; } } hex += i + 1; } break; } PUTCHAR (asc, '*', AttrNorm); blankline: while (mlen++ < LINESZ) PUTCHAR (asc, ' ', AttrNorm); asc = pt + HeGbl.CurAscIndent; while (hex < asc) PUTCHAR (hex, ' ', AttrNorm); } heInitScr () { CONSOLE_SCREEN_BUFFER_INFO Mode; CONSOLE_CURSOR_INFO CursorInfo; USHORT li; GetConsoleScreenBufferInfo(HeGbl.Console, &Mode); if (HeGbl.Parm->MaxLine) { HeGbl.TopLine = (USHORT)HeGbl.Parm->TopLine; li = (USHORT)HeGbl.Parm->MaxLine; // +1; adjust for no fnc key line } else { li = Mode.srWindow.Bottom - Mode.srWindow.Top + 1; if (li < 10) li = 10; Mode.dwSize.Y = li; } if (Mode.dwSize.X < CELLPERLINE) Mode.dwSize.X = CELLPERLINE; if (!SetConsoleScreenBufferSize(HeGbl.Console, Mode.dwSize)) { Mode.srWindow.Bottom -= Mode.srWindow.Top; Mode.srWindow.Right -= Mode.srWindow.Left; Mode.srWindow.Top = 0; Mode.srWindow.Left = 0; SetConsoleWindowInfo(HeGbl.Console, TRUE, &Mode.srWindow); SetConsoleScreenBufferSize(HeGbl.Console, Mode.dwSize); } HeGbl.Lines = li - TOPLINE - 1; HeGbl.PageSz = HeGbl.Lines * LINESZ; HeGbl.LineTot = li; if (HeGbl.pVioBuf) GlobalFree (HeGbl.pVioBuf); HeGbl.pVioBuf = (PCHAR_INFO) GlobalAlloc (0, (HeGbl.LineTot+1)*CELLPERLINE*sizeof(CHAR_INFO)); if (!HeGbl.pVioBuf) { return 1; } HeGbl.dwVioBufSize.X = CELLPERLINE; HeGbl.dwVioBufSize.Y = HeGbl.LineTot + 1; GetConsoleCursorInfo (HeGbl.Console, &CursorInfo); CursorInfo.bVisible = TRUE; CursorInfo.dwSize = (ULONG) HeGbl.Parm->CursorSize ? HeGbl.Parm->CursorSize : 100; SetConsoleCursorInfo (HeGbl.Console, &CursorInfo); return heSetDisp (); } int heInitConsole () { CONSOLE_SCREEN_BUFFER_INFO screenMode; DWORD mode = 0; HeGbl.StdIn = GetStdHandle (STD_INPUT_HANDLE); GetConsoleMode (HeGbl.StdIn, &mode); HeGbl.OrigMode = mode; SetConsoleMode (HeGbl.StdIn, mode | ENABLE_LINE_INPUT | ENABLE_ECHO_INPUT | ENABLE_MOUSE_INPUT | ENABLE_WINDOW_INPUT ); if (HeGbl.Flag & FHE_SAVESCRN) { HeGbl.Console = CreateConsoleScreenBuffer( GENERIC_WRITE | GENERIC_READ, FILE_SHARE_WRITE | FILE_SHARE_READ, NULL, CONSOLE_TEXTMODE_BUFFER, NULL ); SetConsoleActiveScreenBuffer (HeGbl.Console); } else { HeGbl.Console = HeGbl.Parm->Console; if (HeGbl.Console == INVALID_HANDLE_VALUE) HeGbl.Console = GetStdHandle( STD_OUTPUT_HANDLE ); GetConsoleScreenBufferInfo(HeGbl.Console, &screenMode); HeGbl.dwSize = screenMode.dwSize; } GetConsoleCursorInfo(HeGbl.Console, &HeGbl.CursorInfo); return 0; } VOID heEndConsole () { CONSOLE_SCREEN_BUFFER_INFO Mode; PCHAR_INFO pt; ULONG u; SetConsoleMode (HeGbl.StdIn, HeGbl.OrigMode); if (HeGbl.Flag & FHE_SAVESCRN) { CloseHandle (HeGbl.Console); if (HeGbl.Parm->Console == INVALID_HANDLE_VALUE) SetConsoleActiveScreenBuffer (GetStdHandle(STD_OUTPUT_HANDLE)); else SetConsoleActiveScreenBuffer (HeGbl.Parm->Console); } else { if (!SetConsoleScreenBufferSize(HeGbl.Console, HeGbl.dwSize)) { GetConsoleScreenBufferInfo(HeGbl.Console, &Mode); Mode.srWindow.Bottom -= Mode.srWindow.Top; Mode.srWindow.Right -= Mode.srWindow.Left; Mode.srWindow.Top = 0; Mode.srWindow.Left = 0; SetConsoleWindowInfo(HeGbl.Console, TRUE, &Mode.srWindow); SetConsoleScreenBufferSize(HeGbl.Console, HeGbl.dwSize); } if (HeGbl.LineTot <= HeGbl.dwSize.Y) { HeGbl.dwSize.Y--; pt = POS(HeGbl.LineTot - 1,0); for (u=HeGbl.dwSize.X; u; u--) { PUTCHAR (pt, ' ', HeGbl.AttrNorm); } heShowBuf (HeGbl.LineTot - 1, 1); } HeGbl.dwSize.X = 0; SetConsoleCursorPosition (HeGbl.Console, HeGbl.dwSize); SetConsoleCursorInfo (HeGbl.Console, &HeGbl.CursorInfo); } if (HeGbl.pVioBuf) { GlobalFree (HeGbl.pVioBuf); HeGbl.pVioBuf = NULL; } } heRefresh () { RefreshDisp (); if (HeGbl.Flag & FHE_KICKDIRTY) { HeGbl.Parm->flag |= FHE_DIRTY; SetEvent (HeGbl.Parm->Kick); } return 0; } int heSetDisp () { PCHAR_INFO pt, pt1; USHORT u; pt = POS(0,0); for (u=HeGbl.LineTot * CELLPERLINE; u; u--) { PUTCHAR (pt, ' ', HeGbl.AttrNorm); } heDisp (1, 5, "Edit: %H%S", HeGbl.Parm->ename); heDisp (2, 5, "Size: %Q ", HeGbl.TotLen); if (HeGbl.TotLen < 0x100000000) { heDisp (2, 28, "(%D)", (ULONG)HeGbl.TotLen); } heDisp (1, 40, "Position:"); for (pt1=POS(1,50), u=0; u<30; u++, pt1++) pt1->Attributes = HeGbl.AttrHigh; //if (HeGbl.Parm->MaxLine == 0) { u = HeGbl.LineTot - 1; heDisp (u, 0, "%HF1%N:Toggle"); heDisp (u,11, "%HF2%N:Goto"); if (!vInSearch) { heDisp (u,20, "%HF3%N:Search"); } heDisp (u,31, "%HF4%N:Export"); heDisp (u,42, "%HF5%N:Import"); if (HeGbl.DisplayMode == D_DWORD && (HeGbl.Flag & FHE_JUMP) != 0) heDisp (u,53, "%HF6%N:Jump"); else heDisp (u,53, " "); heDisp (u,66, "%HF10%N:Undo"); //if (HeGbl.Flag & FHE_F6) // heDisp (u,51, "%HF6%N:PSec"); //} return 0; } int heUpdateFncs () { heShowBuf (HeGbl.LineTot - 1, 1); return 0; } int heUpdateStats () { COORD dwBufferCoord; SMALL_RECT lpWriteRegion; heHexQWord (POS(1, 50), HeGbl.CurEditLoc, HeGbl.AttrHigh); if (HeGbl.TotLen < 0x100000000) { heLtoa( POS(2, 50), (ULONG)HeGbl.CurEditLoc); } dwBufferCoord.X = 50; dwBufferCoord.Y = 1; lpWriteRegion.Left = 50; lpWriteRegion.Top = HeGbl.TopLine + 1; lpWriteRegion.Right = 74; lpWriteRegion.Bottom = HeGbl.TopLine + 2; WriteConsoleOutputA ( HeGbl.Console, HeGbl.pVioBuf, HeGbl.dwVioBufSize, // size of VioBuf dwBufferCoord, // location in VioBuf to write &lpWriteRegion // location to write on display ); SetConsoleCursorPosition (HeGbl.Console, HeGbl.CursorPos); // redisplay cursor return 0; } VOID heShowBuf (ULONG StartingLine, ULONG NoLines) { COORD dwBufferCoord; SMALL_RECT lpWriteRegion; dwBufferCoord.X = (SHORT)0; dwBufferCoord.Y = (SHORT)StartingLine; StartingLine += HeGbl.TopLine; lpWriteRegion.Left = (SHORT)0; lpWriteRegion.Top = (SHORT)StartingLine; lpWriteRegion.Right = (SHORT)(CELLPERLINE-1); lpWriteRegion.Bottom = (SHORT)(StartingLine+NoLines-1); WriteConsoleOutputA ( HeGbl.Console, HeGbl.pVioBuf, HeGbl.dwVioBufSize, // size of VioBuf dwBufferCoord, // location in VioBuf to write &lpWriteRegion // location to write on display ); } struct Buffer *heGetBuf (ULONGLONG loc) { struct Buffer **ppBuf, *pBuf; USHORT len; NTSTATUS status; loc &= SECTORMASK; ppBuf = &HeGbl.Buf; while (pBuf = *ppBuf) { if (pBuf->offset >= loc) { if (pBuf->offset == loc) // buffer the correct offset? return pBuf; // yup - all done break; // it's not here } ppBuf = &pBuf->next; // try the next one } /* * buffer was not in list - it should be insterted before ppBuf */ if (vBufFree) { pBuf = vBufFree; vBufFree = vBufFree->next; } else { pBuf = (struct Buffer *) GlobalAlloc (0, sizeof(struct Buffer)+2*BUFSZ); if (!pBuf) { return NULL; } } pBuf->data = (PUCHAR)(((ULONG_PTR)pBuf+sizeof(struct Buffer)+BUFSZ)); pBuf->offset = loc; pBuf->physloc= loc; // Assume physloc is logical offset pBuf->flag = 0; // Link this buffer in now! In case we recurse (due to read-error) pBuf->next = *ppBuf; // link in this new buffer *ppBuf = pBuf; if (loc + BUFSZ > HeGbl.TotLen) { // are we going to hit the EOF? if (loc >= HeGbl.TotLen) { // is buffer completely passed EOF? pBuf->len = 0; goto nodata; // yes, then no data at all } len = (USHORT) (HeGbl.TotLen - loc); // else, clip to EOF } else len = BUFSZ; // not pass eof, get a full buffer pBuf->len = len; if (HeGbl.Flag & FHE_EDITMEM) // Direct memory edit? pBuf->data = HeGbl.Parm->mem + loc; // memory location of buffer if (HeGbl.Read) { /* * Read buffer from file */ status = HeGbl.Read (HeGbl.Parm->handle, loc, pBuf->data, len); if (status) { // If read error, we will always retry once. Also clear buffer // before retry in case read retreives some info for (; ;) { memset (pBuf->data, 0, len); // Clear read area memset (pBuf->orig,0xff, len); // good effect status = HeGbl.Read (HeGbl.Parm->handle, loc, pBuf->data, len); if (!status) break; if (heIOErr ("READ ERROR!", loc, pBuf->physloc, status) == 'I') { pBuf->flag |= FB_BAD; break; } } } } memcpy (pBuf->orig, pBuf->data, len); // make a copy of the data nodata: return pBuf; } USHORT heIOErr (UCHAR *str, ULONGLONG loc, ULONGLONG ploc, ULONG errcd) { USHORT c; if (errcd == 0xFFFFFFFF) return 'I'; heSetUpdate (U_NONE); heBox (12, TOPLINE+1, 55, 8); heDisp (TOPLINE+3, 14, str); heDisp (TOPLINE+4, 14, "Error code %H%D%N, Offset %Qh, Sector %D", errcd, loc, (ULONG)(ploc / BUFSZ)); heDisp (TOPLINE+7, 14, "Press '%HR%N' to retry IO, or '%HI%N' to ignore"); RefreshDisp (); c = heGetChar ("RI"); heSetDisp (); // Get heBox off of screen heSetUpdate (U_SCREEN); return c; } UCHAR heGetChar (keys) PUCHAR keys; { INPUT_RECORD Kd; DWORD cEvents; UCHAR *pt; for (; ;) { Beep (500, 100); for (; ;) { ReadConsoleInput (HeGbl.StdIn, &Kd, 1, &cEvents); if (Kd.EventType != KEY_EVENT) continue; // Not a key if (!Kd.Event.KeyEvent.bKeyDown) continue; // Not a down stroke if (Kd.Event.KeyEvent.wVirtualKeyCode == 0 || // ALT Kd.Event.KeyEvent.wVirtualKeyCode == 0x10 || // SHIFT Kd.Event.KeyEvent.wVirtualKeyCode == 0x11 || // CONTROL Kd.Event.KeyEvent.wVirtualKeyCode == 0x14) // CAPITAL continue; break; } if (Kd.Event.KeyEvent.wVirtualKeyCode >= 'a' && Kd.Event.KeyEvent.wVirtualKeyCode <= 'z') Kd.Event.KeyEvent.wVirtualKeyCode -= ('a' - 'A'); for (pt=keys; *pt; pt++) // Is this a key we are if (Kd.Event.KeyEvent.wVirtualKeyCode == *pt) return *pt; // looking for? } } VOID __cdecl heDisp (USHORT line, USHORT col, PUCHAR pIn, ...) { register char c; PCHAR_INFO pOut; WORD attr; USHORT u; UCHAR *pt; va_list args; attr = HeGbl.AttrNorm; pOut = POS(line,col); va_start(args,pIn); while (c = *(pIn++)) { if (c != '%') { PUTCHAR (pOut, c, attr); continue; } switch (*(pIn++)) { case 'S': pt = va_arg(args, CHAR *); while (*pt) { PUTCHAR (pOut, *(pt++), attr); } break; case 'X': /* Long HEX, fixed len */ heHexDWord (pOut, va_arg(args, ULONG), attr); pOut += 8; break; case 'Q': /* LongLong HEX, fixed len */ heHexQWord (pOut, va_arg(args, ULONGLONG), attr); pOut += 16; break; case 'D': /* Long dec, varible len */ u = heLtoa (pOut, va_arg(args, ULONG)); while (u--) { pOut->Attributes = attr; pOut++; } break; case 'H': attr = HeGbl.AttrHigh; break; case 'N': attr = HeGbl.AttrNorm; break; } } } void heHexDWord (s, l, attr) PCHAR_INFO s; ULONG l; WORD attr; { UCHAR d, c; UCHAR *pt; s += 8-1; pt = (UCHAR *) &l; for (d=0; d<4; d++) { c = *(pt++); s->Attributes = attr; s->Char.AsciiChar = rghexc[c & 0x0F]; s--; s->Attributes = attr; s->Char.AsciiChar = rghexc[c >> 4]; s--; } } void heHexQWord (s, l, attr) PCHAR_INFO s; ULONGLONG l; WORD attr; { UCHAR d, c; UCHAR *pt; s += 16-1; pt = (UCHAR *) &l; for (d=0; d<8; d++) { c = *(pt++); s->Attributes = attr; s->Char.AsciiChar = rghexc[c & 0x0F]; s--; s->Attributes = attr; s->Char.AsciiChar = rghexc[c >> 4]; s--; } } USHORT heLtoa (s, l) PCHAR_INFO s; ULONG l; { static ULONG mask[] = { 0L, 1L, 10L, 100L, 1000L, 10000L, 100000L, 1000000L, 10000000L, 100000000L, 1000000000L, }; static UCHAR comm[] = "xxxx,xx,xx,xx,xx"; PCHAR_INFO os; UCHAR c; USHORT i, j; ULONG m; if (l < 1000000000L) { for (i=1; mask[i] <= l; i++) ; if (l == 0L) // Make Zeros i++; } else i = 11; os = s; j = i; while (m = mask[--i]) { c = (UCHAR) ((ULONG) l / m); l -= m * c; s->Char.AsciiChar = c + '0'; s->Attributes = HeGbl.AttrNorm; if (comm[i] == ',') { s++; s->Attributes = HeGbl.AttrNorm; s->Char.AsciiChar = ','; } s++; } i = (USHORT)(s - os); // remember how long the number was while (j++ < 11) { /* Clear off some blank space after */ s->Char.AsciiChar = ' '; /* the number. */ s++; } return i; } ULONG heHtou (s) UCHAR *s; { UCHAR c; ULONG l; l = 0; for (; ;) { c = *(s++); if (c == 's' || c == 'S') { // Sector multiplier? l = l * (ULONG)BUFSZ; break; } if (c >= 'a') c -= 'a' - 10; else if (c >= 'A') c -= 'A' - 10; else c -= '0'; if (c > 15) break; l = (l<<4) + c; } return l; } ULONGLONG heHtoLu (s) UCHAR *s; { UCHAR c; ULONGLONG l; l = 0; for (; ;) { c = *(s++); if (c == 's' || c == 'S') { // Sector multiplier? l = l * (ULONG)BUFSZ; break; } if (c >= 'a') c -= 'a' - 10; else if (c >= 'A') c -= 'A' - 10; else c -= '0'; if (c > 15) break; l = (l<<4) + c; } return l; } NTSTATUS heOpenFile (PUCHAR name, PHANDLE fhan, ULONG access) { *fhan = CreateFile ( name, access, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, 0, NULL ); if (*fhan == INVALID_HANDLE_VALUE && (access & GENERIC_WRITE)) { *fhan = CreateFile ( name, access, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, CREATE_NEW, 0, NULL ); } return *fhan == INVALID_HANDLE_VALUE ? GetLastError() : STATUS_SUCCESS; } NTSTATUS heReadFile (HANDLE h, PUCHAR buffer, ULONG len, PULONG br) { if (!ReadFile (h, buffer, len, br, NULL)) return GetLastError(); return STATUS_SUCCESS; } NTSTATUS heWriteFile (HANDLE h, PUCHAR buffer, ULONG len) { ULONG bw; if (!WriteFile (h, buffer, len, &bw, NULL)) return GetLastError(); return (bw != len ? ERROR_WRITE_FAULT : STATUS_SUCCESS); }