/****************************************************************/ /* */ /* config.c */ /* DOS-C */ /* */ /* config.sys Processing Functions */ /* */ /* Copyright (c) 1996 */ /* Pasquale J. Villani */ /* All Rights Reserved */ /* */ /* This file is part of DOS-C. */ /* */ /* DOS-C 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, or (at your option) any later version. */ /* */ /* DOS-C 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 DOS-C; see the file COPYING. If not, */ /* write to the Free Software Foundation, Inc., */ /* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. */ /****************************************************************/ #include "portab.h" #include "init-mod.h" #include "dyndata.h" #ifdef VERSION_STRINGS static BYTE *RcsId = "$Id$"; #endif #ifdef DEBUG #define DebugPrintf(x) printf x #else #define DebugPrintf(x) #endif #define para2far(seg) ((mcb FAR *)MK_FP((seg), 0)) /** Menu selection bar struct: x pos, ypos, string */ #define MENULINEMAX 80 #define MENULINESMAX 10 struct MenuSelector { int x; int y; BYTE bSelected; BYTE Text[MENULINEMAX]; }; /** Structure below holds the menu-strings */ STATIC struct MenuSelector MenuStruct[MENULINESMAX] BSS_INIT({0}); int nMenuLine BSS_INIT(0); int MenuColor = -1; STATIC void WriteMenuLine(struct MenuSelector *menu) { iregs r; unsigned char attr = (unsigned char)MenuColor; char *pText = menu->Text; if (pText[0] == 0) return; if(menu->bSelected) attr = ((attr << 4) | (attr >> 4)); /* clear line */ r.a.x = 0x0600; r.b.b.h = attr; r.c.b.l = r.d.b.l = menu->x; r.c.b.h = r.d.b.h = menu->y; r.d.b.l += strlen(pText) - 1; init_call_intr(0x10, &r); /* set cursor position: */ r.a.b.h = 0x02; r.b.b.h = 0; r.d.b.l = menu->x; r.d.b.h = menu->y; init_call_intr(0x10, &r); printf("%s", pText); } /* Deselect the previously selected line */ STATIC void DeselectLastLine(void) { struct MenuSelector *menu; for (menu = MenuStruct; menu < &MenuStruct[MENULINESMAX]; menu++) { if (menu->bSelected) { /* deselect it: */ menu->bSelected = 0; WriteMenuLine(menu); break; } } } STATIC void SelectLine(int MenuSelected) { struct MenuSelector *menu; DeselectLastLine(); /* clear previous selection */ menu = &MenuStruct[MenuSelected]; menu->bSelected = 1; /* set selection flag for this one */ WriteMenuLine(menu); } UWORD umb_start BSS_INIT(0), UMB_top BSS_INIT(0); UWORD ram_top BSS_INIT(0); /* How much ram in Kbytes */ size_t ebda_size BSS_INIT(0); static UBYTE ErrorAlreadyPrinted[128] BSS_INIT({0}); char master_env[128] BSS_INIT({0}); static char *envp = master_env; struct config Config = { 0, NUMBUFF, NFILES, 0, NFCBS, 0, "command.com", " /P /E:256\r\n", NLAST, 0, NSTACKS, 0, STACKSIZE /* COUNTRY= is initialized within DoConfig() */ , 0 /* country ID */ , 0 /* codepage */ , 0 /* amount required memory */ , 0 /* pointer to loaded data */ , 0 /* strategy for command.com is low by default */ , 0xFFFF /* default value for switches=/E:nnnn */ }; STATIC seg base_seg BSS_INIT(0); STATIC seg umb_base_seg BSS_INIT(0); BYTE FAR *lpTop BSS_INIT(0); STATIC unsigned nCfgLine BSS_INIT(0); COUNT UmbState BSS_INIT(0); STATIC BYTE szLine[256] BSS_INIT({0}); STATIC BYTE szBuf[256] BSS_INIT({0}); BYTE singleStep BSS_INIT(FALSE); /* F8 processing */ BYTE SkipAllConfig BSS_INIT(FALSE); /* F5 processing */ BYTE askThisSingleCommand BSS_INIT(FALSE); /* ?device= device?= */ BYTE DontAskThisSingleCommand BSS_INIT(FALSE); /* !files= */ COUNT MenuTimeout = -1; BYTE MenuSelected BSS_INIT(0); UCOUNT MenuLine BSS_INIT(0); UCOUNT Menus BSS_INIT(0); STATIC VOID CfgMenuColor(BYTE * pLine); STATIC VOID Config_Buffers(BYTE * pLine); STATIC VOID sysScreenMode(BYTE * pLine); STATIC VOID sysVersion(BYTE * pLine); STATIC VOID CfgBreak(BYTE * pLine); STATIC VOID Device(BYTE * pLine); STATIC VOID DeviceHigh(BYTE * pLine); STATIC VOID Files(BYTE * pLine); STATIC VOID FilesHigh(BYTE * pLine); STATIC VOID Fcbs(BYTE * pLine); STATIC VOID CfgLastdrive(BYTE * pLine); STATIC VOID CfgLastdriveHigh(BYTE * pLine); STATIC BOOL LoadDevice(BYTE * pLine, char FAR *top, COUNT mode); STATIC VOID Dosmem(BYTE * pLine); STATIC VOID DosData(BYTE * pLine); STATIC VOID Country(BYTE * pLine); STATIC VOID InitPgm(BYTE * pLine); STATIC VOID InitPgmHigh(BYTE * pLine); STATIC VOID CmdInstall(BYTE * pLine); STATIC VOID CmdInstallHigh(BYTE * pLine); STATIC VOID CmdSet(BYTE * pLine); STATIC VOID CfgSwitchar(BYTE * pLine); STATIC VOID CfgSwitches(BYTE * pLine); STATIC VOID CfgFailure(BYTE * pLine); STATIC VOID CfgIgnore(BYTE * pLine); STATIC VOID CfgMenu(BYTE * pLine); STATIC VOID CfgMenuEsc(BYTE * pLine); STATIC VOID DoMenu(void); STATIC VOID CfgMenuDefault(BYTE * pLine); STATIC BYTE * skipwh(BYTE * s); STATIC BYTE * scan(BYTE * s, BYTE * d); STATIC BOOL isnum(char ch); STATIC char * GetNumber(REG const char *p, int *num); #if 0 STATIC COUNT tolower(COUNT c); #endif STATIC unsigned char toupper(unsigned char c); STATIC VOID strupr(char *s); STATIC VOID mcb_init(UCOUNT seg, UWORD size, BYTE type); STATIC VOID mumcb_init(UCOUNT seg, UWORD size); STATIC VOID Stacks(BYTE * pLine); STATIC VOID StacksHigh(BYTE * pLine); STATIC VOID SetAnyDos(BYTE * pLine); STATIC VOID Numlock(BYTE * pLine); STATIC BYTE * GetNumArg(BYTE * pLine, COUNT * pnArg); BYTE *GetStringArg(BYTE * pLine, BYTE * pszString); STATIC int SkipLine(char *pLine); #if 0 STATIC char * stristr(char *s1, char *s2); #endif STATIC int strcasecmp(const char * d, const char * s); STATIC int LoadCountryInfoHardCoded(char *filename, COUNT ctryCode, COUNT codePage); STATIC void umb_init(void); void HMAconfig(int finalize); STATIC void config_init_buffers(int anzBuffers); /* from BLOCKIO.C */ STATIC void config_init_fnodes(int f_nodes_cnt); #ifdef I86 STATIC VOID FAR * AlignParagraph(VOID FAR * lpPtr); #else #define AlignParagraph(x) ((VOID *)x) #endif #define EOF 0x1a STATIC struct table * LookUp(struct table *p, BYTE * token); typedef void config_sys_func_t(BYTE * pLine); struct table { BYTE *entry; signed char pass; config_sys_func_t *func; }; STATIC struct table commands[] = { /* first = switches! this one is special since it is asked for but also checked before F5/F8 */ {"SWITCHES", 0, CfgSwitches}, /* rem is never executed by locking out pass */ {"REM", 0, CfgIgnore}, {";", 0, CfgIgnore}, {"MENUCOLOR",0,CfgMenuColor}, {"MENUDEFAULT", 0, CfgMenuDefault}, {"MENU", 0, CfgMenu}, /* lines to print in pass 0 */ {"ECHO", 2, CfgMenu}, /* lines to print in pass 2 - install(high) */ {"EECHO", 2, CfgMenuEsc}, /* modified ECHO (ea) */ {"BREAK", 1, CfgBreak}, {"BUFFERS", 1, Config_Buffers}, {"COMMAND", 1, InitPgm}, {"COUNTRY", 1, Country}, {"DOS", 1, Dosmem}, {"DOSDATA", 1, DosData}, {"FCBS", 1, Fcbs}, {"FILES", 1, Files}, {"FILESHIGH", 1, FilesHigh}, {"LASTDRIVE", 1, CfgLastdrive}, {"LASTDRIVEHIGH", 1, CfgLastdriveHigh}, {"NUMLOCK", 1, Numlock}, {"SHELL", 1, InitPgm}, {"SHELLHIGH", 1, InitPgmHigh}, {"STACKS", 1, Stacks}, {"STACKSHIGH", 1, StacksHigh}, {"SWITCHAR", 1, CfgSwitchar}, {"SCREEN", 1, sysScreenMode}, /* JPP */ {"VERSION", 1, sysVersion}, /* JPP */ {"ANYDOS", 1, SetAnyDos}, /* tom */ {"DEVICE", 2, Device}, {"DEVICEHIGH", 2, DeviceHigh}, {"INSTALL", 2, CmdInstall}, {"INSTALLHIGH", 2, CmdInstallHigh}, {"SET", 2, CmdSet}, /* default action */ {"", -1, CfgFailure} }; /* RE function for menu. */ int findend(BYTE * s) { int nLen = 0; /* 'marks' end if at least ten spaces, 0, or newline is found. */ while (*s && (*s != 0x0d || *s != 0x0a) ) { BYTE *p= skipwh(s); /* ah, more than 9 whitespaces ? We're done here (hrmph!) */ if(p - s >= 10) break; nLen++; ++s; } return nLen; } BYTE *pLineStart BSS_INIT(0); BYTE HMAState BSS_INIT(0); #define HMA_NONE 0 /* do nothing */ #define HMA_REQ 1 /* DOS = HIGH detected */ #define HMA_DONE 2 /* Moved kernel to HMA */ #define HMA_LOW 3 /* Definitely LOW */ /* Do first time initialization. Store last so that we can reset it */ /* later. */ void PreConfig(void) { /* Initialize the base memory pointers */ #ifdef DEBUG { printf("SDA located at 0x%p\n", internal_data); } #endif /* Begin by initializing our system buffers */ #ifdef DEBUG /* printf("Preliminary %d buffers allocated at 0x%p\n", Config.cfgBuffers, buffers);*/ #endif LoL->DPBp = DynAlloc("DPBp", blk_dev.dh_name[0], sizeof(struct dpb)); /* Initialize the file table */ config_init_fnodes(Config.cfgFiles); LoL->sfthead = MK_FP(FP_SEG(LoL), 0xcc); /* &(LoL->firstsftt) */ /* LoL->FCBp = (sfttbl FAR *)&FcbSft; */ /* LoL->FCBp = (sfttbl FAR *) KernelAlloc(sizeof(sftheader) + Config.cfgFiles * sizeof(sft)); */ config_init_buffers(Config.cfgBuffers); LoL->CDSp = KernelAlloc(sizeof(struct cds) * LoL->lastdrive, 'L', 0); #ifdef DEBUG printf("Preliminary:\n f_node 0x%p\n", LoL->f_nodes); /* printf(" FCB table 0x%p\n",LoL->FCBp);*/ printf(" sft table 0x%p\n", LoL->sfthead); printf(" CDS table 0x%p\n", LoL->CDSp); printf(" DPB table 0x%p\n", LoL->DPBp); #endif /* Done. Now initialize the MCB structure */ /* This next line is 8086 and 80x86 real mode specific */ #ifdef DEBUG printf("Preliminary allocation completed: top at %p\n", lpTop); #endif } /* Do second pass initialization: near allocation and MCBs */ void PreConfig2(void) { struct sfttbl FAR *sp; /* initialize NEAR allocated things */ /* Initialize the base memory pointers from last time. */ /* if the kernel could be moved to HMA, everything behind the dynamic near data is free. otherwise, the kernel is moved down - behind the dynamic allocated data, and allocation starts after the kernel. */ base_seg = LoL->first_mcb = FP_SEG(AlignParagraph((BYTE FAR *) DynLast() + 0x0f)); if (Config.ebda2move) { ebda_size = ebdasize(); ram_top += ebda_size / 1024; if (ebda_size > Config.ebda2move) ebda_size = Config.ebda2move; } /* We expect ram_top as Kbytes, so convert to paragraphs */ mcb_init(base_seg, ram_top * 64 - LoL->first_mcb - 1, MCB_LAST); sp = LoL->sfthead; sp = sp->sftt_next = KernelAlloc(sizeof(sftheader) + 3 * sizeof(sft), 'F', 0); sp->sftt_next = (sfttbl FAR *) - 1; sp->sftt_count = 3; if (ebda_size) /* move the Extended BIOS Data Area from top of RAM here */ movebda(ebda_size, FP_SEG(KernelAlloc(ebda_size, 'I', 0))); if (UmbState == 2) umb_init(); } /* Do third pass initialization. */ /* Also, run config.sys to load drivers. */ void PostConfig(void) { sfttbl FAR *sp; /* We could just have loaded FDXMS or HIMEM */ if (HMAState == HMA_REQ && MoveKernelToHMA()) HMAState = HMA_DONE; if (Config.cfgDosDataUmb) { Config.cfgFilesHigh = TRUE; Config.cfgLastdriveHigh = TRUE; Config.cfgStacksHigh = TRUE; } /* compute lastdrive ... */ LoL->lastdrive = Config.cfgLastdrive; if (LoL->lastdrive < LoL->nblkdev) LoL->lastdrive = LoL->nblkdev; DebugPrintf(("starting FAR allocations at %x\n", base_seg)); /* Initialize the file table */ config_init_fnodes(Config.cfgFiles); /* Begin by initializing our system buffers */ /* dma_scratch = (BYTE FAR *) KernelAllocDma(BUFFERSIZE); */ #ifdef DEBUG /* printf("DMA scratchpad allocated at 0x%p\n", dma_scratch); */ #endif config_init_buffers(Config.cfgBuffers); /* LoL->sfthead = (sfttbl FAR *)&basesft; */ /* LoL->FCBp = (sfttbl FAR *)&FcbSft; */ /* LoL->FCBp = KernelAlloc(sizeof(sftheader) + Config.cfgFiles * sizeof(sft)); */ sp = LoL->sfthead->sftt_next; sp = sp->sftt_next = (sfttbl FAR *) KernelAlloc(sizeof(sftheader) + (Config.cfgFiles - 8) * sizeof(sft), 'F', Config.cfgFilesHigh); sp->sftt_next = (sfttbl FAR *) - 1; sp->sftt_count = Config.cfgFiles - 8; LoL->CDSp = KernelAlloc(sizeof(struct cds) * LoL->lastdrive, 'L', Config.cfgLastdriveHigh); #ifdef DEBUG printf("Final: \n f_node 0x%p\n", LoL->f_nodes); /* printf(" FCB table 0x%p\n",LoL->FCBp);*/ printf(" sft table 0x%p\n", LoL->sfthead->sftt_next); printf(" CDS table 0x%p\n", LoL->CDSp); printf(" DPB table 0x%p\n", LoL->DPBp); #endif if (Config.cfgStacks) { VOID FAR *stackBase = KernelAlloc(Config.cfgStacks * Config.cfgStackSize, 'S', Config.cfgStacksHigh); init_stacks(stackBase, Config.cfgStacks, Config.cfgStackSize); DebugPrintf(("Stacks allocated at %p\n", stackBase)); } DebugPrintf(("Allocation completed: top at 0x%x\n", base_seg)); } /* This code must be executed after device drivers has been loaded */ VOID configDone(VOID) { if (UmbState == 1) para2far(base_seg)->m_type = MCB_LAST; if (HMAState != HMA_DONE) { mcb FAR *p; unsigned short kernel_seg; unsigned short hma_paras = (HMAFree+0xf)/16; allocmem(hma_paras, &kernel_seg); p = para2far(kernel_seg - 1); p->m_name[0] = 'S'; p->m_name[1] = 'C'; p->m_psp = 8; DebugPrintf(("HMA not available, moving text to %x\n", kernel_seg)); MoveKernel(kernel_seg); kernel_seg += hma_paras + 1; DebugPrintf(("kernel is low, start alloc at %x", kernel_seg)); } /* The standard handles should be reopened here, because we may have loaded new console or printer drivers in CONFIG.SYS */ } STATIC seg prev_mcb(seg cur_mcb, seg start) { /* determine prev mcb */ seg mcb_prev, mcb_next; mcb_prev = mcb_next = start; while (mcb_next < cur_mcb && para2far(mcb_next)->m_type == MCB_NORMAL) { mcb_prev = mcb_next; mcb_next += para2far(mcb_prev)->m_size + 1; } return mcb_prev; } STATIC void umb_init(void) { UCOUNT umb_seg, umb_size; seg umb_max; void far *xms_addr; if ((xms_addr = DetectXMSDriver()) == NULL) return; if (UMB_get_largest(xms_addr, &umb_seg, &umb_size)) { UmbState = 1; /* reset root */ LoL->uppermem_root = ram_top * 64 - 1; /* create link mcb (below) */ para2far(base_seg)->m_type = MCB_NORMAL; para2far(base_seg)->m_size--; mumcb_init(LoL->uppermem_root, umb_seg - LoL->uppermem_root - 1); /* setup the real mcb for the devicehigh block */ mcb_init(umb_seg, umb_size - 2, MCB_NORMAL); umb_base_seg = umb_max = umb_start = umb_seg; UMB_top = umb_size; /* there can be more UMB's ! this happens, if memory mapped devces are in between like UMB memory c800..c8ff, d8ff..efff with device at d000..d7ff However some of the xxxHIGH commands still only work with the first UMB. */ while (UMB_get_largest(xms_addr, &umb_seg, &umb_size)) { seg umb_prev, umb_next; /* setup the real mcb for the devicehigh block */ mcb_init(umb_seg, umb_size - 2, MCB_NORMAL); /* determine prev and next umbs */ umb_prev = prev_mcb(umb_seg, LoL->uppermem_root); umb_next = umb_prev + para2far(umb_prev)->m_size + 1; if (umb_seg < umb_max) { if (umb_next - umb_seg - umb_size == 0) { /* should the UMB driver return adjacent memory in several pieces */ umb_size += para2far(umb_next)->m_size + 1; para2far(umb_seg)->m_size = umb_size; } else { /* create link mcb (above) */ mumcb_init(umb_seg + umb_size - 1, umb_next - umb_seg - umb_size); } } else /* umb_seg >= umb_max */ { umb_prev = umb_next; } if (umb_seg - umb_prev - 1 == 0) /* should the UMB driver return adjacent memory in several pieces */ para2far(prev_mcb(umb_prev, LoL->uppermem_root))->m_size += umb_size; else { /* create link mcb (below) */ mumcb_init(umb_prev, umb_seg - umb_prev - 1); } if (umb_seg > umb_max) umb_max = umb_seg; } para2far(umb_max)->m_size++; para2far(umb_max)->m_type = MCB_LAST; DebugPrintf(("UMB Allocation completed: start at 0x%x\n", umb_base_seg)); } } VOID DoConfig(int nPass) { COUNT nFileDesc; BYTE *pLine; BOOL bEof; /* Check to see if we have a config.sys file. If not, just */ /* exit since we don't force the user to have one. */ if ((nFileDesc = open("fdconfig.sys", 0)) >= 0) { DebugPrintf(("Reading FDCONFIG.SYS...\n")); } else { DebugPrintf(("FDCONFIG.SYS not found\n")); if ((nFileDesc = open("config.sys", 0)) < 0) { DebugPrintf(("CONFIG.SYS not found\n")); return; } DebugPrintf(("Reading CONFIG.SYS...\n")); } /* Have one -- initialize. */ nCfgLine = 0; bEof = 0; pLine = szLine; /* Read each line into the buffer and then parse the line, */ /* do the table lookup and execute the handler for that */ /* function. */ for (; !bEof; nCfgLine++) { struct table *pEntry; pLineStart = szLine; /* read in a single line, \n or ^Z terminated */ for (pLine = szLine;;) { if (read(nFileDesc, pLine, 1) <= 0) { bEof = TRUE; break; } if (pLine >= szLine + sizeof(szLine) - 3) { CfgFailure(pLine); printf("error - line overflow line %d \n", nCfgLine); break; } if (*pLine == '\n' || *pLine == EOF) /* end of line */ break; if (*pLine == '\r') /* ignore */ ; else pLine++; } *pLine = 0; pLine = szLine; /* Skip leading white space and get verb. */ pLine = scan(pLine, szBuf); /* If the line was blank, skip it. Otherwise, look up */ /* the verb and execute the appropriate function. */ if (*szBuf == '\0') continue; pEntry = LookUp(commands, szBuf); if (pEntry->pass >= 0 && pEntry->pass != nPass) continue; if (nPass == 0) /* pass 0 always executed (rem Menu prompt switches) */ { pEntry->func(pLine); continue; } else { if (SkipLine(pLineStart)) /* F5/F8 processing */ continue; } if ((pEntry->func != CfgMenu) && (pEntry->func != CfgMenuEsc)) { /* compatibility "device foo.sys" */ if (' ' != *pLine && '\t' != *pLine && '=' != *pLine) { CfgFailure(pLine); continue; } pLine = skipwh(pLine); } if ('=' == *pLine || pEntry->func == CfgMenu || pEntry->func == CfgMenuEsc) pLine = skipwh(pLine+1); /* YES. DO IT */ pEntry->func(pLine); } close(nFileDesc); if (nPass == 0) { DoMenu(); } } STATIC struct table * LookUp(struct table *p, BYTE * token) { while (*(p->entry) != '\0') { if (strcasecmp(p->entry, token) == 0) break; else ++p; } return p; } /* get BIOS key with timeout: timeout < 0: no timeout timeout = 0: poll only once timeout > 0: timeout in seconds return 0xffff : no key hit 0xHH.. : scancode in upper half 0x..LL : asciicode in lower half */ STATIC ULONG GetBiosTime(VOID) { return *(ULONG FAR *) (MK_FP(0x40, 0x6c)); } UWORD GetBiosKey(int timeout) { iregs r; ULONG startTime = GetBiosTime(); for (;;) { r.a.x = 0x0100; /* are there keys available ? */ init_call_intr(0x16, &r); if ((r.flags & 0x40) == 0) /* yes - fetch and return */ { r.a.x = 0x0000; init_call_intr(0x16, &r); return r.a.x; } if (timeout < 0) continue; if (GetBiosTime() - startTime >= (unsigned)timeout * 18) break; } return 0xffff; } STATIC BOOL SkipLine(char *pLine) { short key; if (InitKernelConfig.SkipConfigSeconds >= 0) { if (InitKernelConfig.SkipConfigSeconds > 0) printf("Press F8 to trace or F5 to skip CONFIG.SYS/AUTOEXEC.BAT"); key = GetBiosKey(InitKernelConfig.SkipConfigSeconds); /* wait 2 seconds */ InitKernelConfig.SkipConfigSeconds = -1; if (key == 0x3f00) /* F5 */ { SkipAllConfig = TRUE; } else if (key == 0x4200) /* F8 */ { singleStep = TRUE; } printf("\r%79s\r", ""); /* clear line */ if (SkipAllConfig) printf("Skipping CONFIG.SYS/AUTOEXEC.BAT\n"); } if (SkipAllConfig) return TRUE; /* 1?device=CDROM.SYS */ /* 12?device=OAKROM.SYS */ /* 123?device=EMM386.EXE NOEMS */ if ( MenuLine != 0 && (MenuLine & (1 << MenuSelected)) == 0) return TRUE; if (DontAskThisSingleCommand) /* !files=30 */ return FALSE; if (!askThisSingleCommand && !singleStep) return FALSE; printf("%s[Y,N]?", pLine); for (;;) { key = GetBiosKey(-1); switch (toupper(key & 0x00ff)) { case 'N': case 'n': printf("N\n"); return TRUE; case 0x1b: /* don't know where documented ESCAPE answers all following questions with YES */ singleStep = FALSE; /* and fall through */ case '\r': case '\n': case 'Y': case 'y': printf("Y\n"); return FALSE; } if (key == 0x3f00) /* YES, you may hit F5 here, too */ { printf("N\n"); SkipAllConfig = TRUE; return TRUE; } } } STATIC BYTE * GetNumArg(BYTE * pLine, COUNT * pnArg) { /* look for NUMBER */ pLine = skipwh(pLine); if (!isnum(*pLine) && *pLine != '-') { CfgFailure(pLine); return (BYTE *) 0; } return (BYTE *)GetNumber(pLine, pnArg); } BYTE *GetStringArg(BYTE * pLine, BYTE * pszString) { /* look for STRING */ pLine = skipwh(pLine); /* just return whatever string is there, including null */ return scan(pLine, pszString); } STATIC void Config_Buffers(BYTE * pLine) { COUNT nBuffers; /* Get the argument */ if (GetNumArg(pLine, &nBuffers)) Config.cfgBuffers = nBuffers; } /** Set screen mode - rewritten to use init_call_intr() by RE / ICD */ STATIC VOID sysScreenMode(BYTE * pLine) { iregs r; COUNT nMode; COUNT nFunc = 0x11; /* Get the argument */ if (GetNumArg(pLine, &nMode) == (BYTE *) 0) return; if(nMode<0x10) nFunc = 0; /* set lower screenmode */ else if ((nMode != 0x11) && (nMode != 0x12) && (nMode != 0x14)) return; /* do nothing; invalid screenmode */ /* Modes 0x11 (17) 28 lines 0x12 (18) 43/50 lines 0x14 (20) 25 lines */ /* move cursor to pos 0,0: */ r.a.b.h = nFunc; /* set videomode */ r.a.b.l = nMode; r.b.b.l = 0; init_call_intr(0x10, &r); } STATIC VOID sysVersion(BYTE * pLine) { COUNT major, minor; char *p = strchr(pLine, '.'); if (p == NULL) return; p++; /* Get major number */ if (GetNumArg(pLine, &major) == (BYTE *) 0) return; /* Get minor number */ if (GetNumArg(p, &minor) == (BYTE *) 0) return; printf("Changing reported version to %d.%d\n", major, minor); LoL->os_major = major; LoL->os_minor = minor; } STATIC VOID Files(BYTE * pLine) { COUNT nFiles; /* Get the argument */ if (GetNumArg(pLine, &nFiles) == (BYTE *) 0) return; /* Got the value, assign either default or new value */ Config.cfgFiles = max(Config.cfgFiles, nFiles); Config.cfgFilesHigh = 0; } STATIC VOID FilesHigh(BYTE * pLine) { Files(pLine); Config.cfgFilesHigh = 1; } STATIC VOID CfgLastdrive(BYTE * pLine) { /* Format: LASTDRIVE = letter */ BYTE drv; pLine = skipwh(pLine); drv = *pLine & ~0x20; if (drv < 'A' || drv > 'Z') { CfgFailure(pLine); return; } drv -= 'A'; drv++; /* Make real number */ Config.cfgLastdrive = max(Config.cfgLastdrive, drv); Config.cfgLastdriveHigh = 0; } STATIC VOID CfgLastdriveHigh(BYTE * pLine) { /* Format: LASTDRIVEHIGH = letter */ CfgLastdrive(pLine); Config.cfgLastdriveHigh = 1; } /* UmbState of confidence, 1 is sure, 2 maybe, 4 unknown and 0 no way. */ STATIC VOID Dosmem(BYTE * pLine) { BYTE *pTmp; BYTE UMBwanted = FALSE; pLine = GetStringArg(pLine, szBuf); strupr(szBuf); /* printf("DOS called with %s\n", szBuf); */ for (pTmp = szBuf;;) { if (memcmp(pTmp, "UMB", 3) == 0) { UMBwanted = TRUE; pTmp += 3; } if (memcmp(pTmp, "HIGH", 4) == 0) { HMAState = HMA_REQ; pTmp += 4; } /* if (memcmp(pTmp, "CLAIMINIT",9) == 0) { INITDataSegmentClaimed = 0; pTmp += 9; }*/ pTmp = skipwh(pTmp); if (*pTmp != ',') break; pTmp++; } if (UmbState == 0) { LoL->uppermem_link = 0; LoL->uppermem_root = 0xffff; UmbState = UMBwanted ? 2 : 0; } /* Check if HMA is available straight away */ if (HMAState == HMA_REQ && MoveKernelToHMA()) { HMAState = HMA_DONE; } } STATIC VOID DosData(BYTE * pLine) { pLine = GetStringArg(pLine, szBuf); strupr(szBuf); if (memcmp(szBuf, "UMB", 3) == 0) Config.cfgDosDataUmb = TRUE; } STATIC VOID CfgSwitchar(BYTE * pLine) { /* Format: SWITCHAR = character */ GetStringArg(pLine, szBuf); init_switchar(*szBuf); } STATIC VOID CfgSwitches(BYTE * pLine) { pLine = skipwh(pLine); if (*pLine == '=') { pLine = skipwh(pLine + 1); } while (*pLine) { if (*pLine == '/') { pLine++; switch(toupper(*pLine)) { case 'K': if (commands[0].pass == 1) kbdType = 0; /* force conv keyb */ break; case 'N': InitKernelConfig.SkipConfigSeconds = -1; break; case 'F': InitKernelConfig.SkipConfigSeconds = 0; break; case 'E': /* /E[[:]nnnn] Set the desired EBDA amount to move in bytes */ { /* Note that if there is no EBDA, this will have no effect */ int n = 0; if (*++pLine == ':') pLine++; /* skip optional separator */ if (!isnum(*pLine)) { pLine--; Config.ebda2move = 0; break; } pLine = GetNumArg(pLine, &n) - 1; /* allowed values: [48..1024] bytes, multiples of 16 * e.g. AwardBIOS: 48, AMIBIOS: 1024 * (Phoenix, MRBIOS, Unicore = ????) */ if (n >= 48 && n <= 1024) { Config.ebda2move = (n + 15) & 0xfff0; break; } /* else fall through (failure) */ } default: CfgFailure(pLine); } } else { CfgFailure(pLine); } pLine = skipwh(pLine+1); } commands[0].pass = 1; } STATIC VOID Fcbs(BYTE * pLine) { /* Format: FCBS = totalFcbs [,protectedFcbs] */ COUNT fcbs; if ((pLine = GetNumArg(pLine, &fcbs)) == 0) return; Config.cfgFcbs = fcbs; pLine = skipwh(pLine); if (*pLine == ',') { GetNumArg(++pLine, &fcbs); Config.cfgProtFcbs = fcbs; } if (Config.cfgProtFcbs > Config.cfgFcbs) Config.cfgProtFcbs = Config.cfgFcbs; } /* LoadCountryInfo(): * Searches a file in the COUNTRY.SYS format for an entry * matching the specified code page and country code, and loads * the corresponding information into memory. If code page is 0, * the default code page for the country will be used. * * Returns TRUE if successful, FALSE if not. */ #if 0 STATIC BOOL LoadCountryInfo(char *filename, UWORD ctryCode, UWORD codePage) { printf("Sorry, the COUNTRY= statement has been temporarily disabled\n"); UNREFERENCED_PARAMETER(codePage); UNREFERENCED_PARAMETER(ctryCode); UNREFERENCED_PARAMETER(filename); return FALSE; } #endif STATIC VOID Country(BYTE * pLine) { /* Format: COUNTRY = countryCode, [codePage], filename */ COUNT ctryCode; COUNT codePage = NLS_DEFAULT; char *filename = ""; if ((pLine = GetNumArg(pLine, &ctryCode)) == 0) goto error; /* currently 'implemented' COUNTRY=49 */ #if 0 pLine = skipwh(pLine); if (*pLine == ',') { pLine = skipwh(pLine + 1); if (*pLine != ',') if ((pLine = GetNumArg(pLine, &codePage)) == 0) goto error; pLine = skipwh(pLine); if (*pLine == ',') { GetStringArg(++pLine, szBuf); filename = szBuf; } } #endif if (!LoadCountryInfoHardCoded(filename, ctryCode, codePage)) return; error: CfgFailure(pLine); } STATIC VOID Stacks(BYTE * pLine) { COUNT stacks; /* Format: STACKS = stacks [, stackSize] */ pLine = GetNumArg(pLine, &stacks); Config.cfgStacks = stacks; pLine = skipwh(pLine); if (*pLine == ',') { GetNumArg(++pLine, &stacks); Config.cfgStackSize = stacks; } if (Config.cfgStacks) { if (Config.cfgStackSize < 32) Config.cfgStackSize = 32; if (Config.cfgStackSize > 512) Config.cfgStackSize = 512; if (Config.cfgStacks > 64) Config.cfgStacks = 64; } Config.cfgStacksHigh = 0; } STATIC VOID StacksHigh(BYTE * pLine) { Stacks(pLine); Config.cfgStacksHigh = 1; } STATIC VOID InitPgmHigh(BYTE * pLine) { InitPgm(pLine); Config.cfgP_0_startmode = 0x80; } STATIC VOID InitPgm(BYTE * pLine) { static char init[NAMEMAX]; static char inittail[NAMEMAX]; Config.cfgInit = init; Config.cfgInitTail = inittail; /* Get the string argument that represents the new init pgm */ pLine = GetStringArg(pLine, Config.cfgInit); /* Now take whatever tail is left and add it on as a single */ /* string. */ strcpy(Config.cfgInitTail, pLine); /* and add a DOS new line just to be safe */ strcat(Config.cfgInitTail, "\r\n"); Config.cfgP_0_startmode = 0; } STATIC VOID CfgBreak(BYTE * pLine) { /* Format: BREAK = (ON | OFF) */ GetStringArg(pLine, szBuf); break_ena = strcasecmp(szBuf, "OFF") ? 1 : 0; } STATIC VOID Numlock(BYTE * pLine) { /* Format: NUMLOCK = (ON | OFF) */ BYTE FAR *keyflags = (BYTE FAR *) MK_FP(0x40, 0x17); GetStringArg(pLine, szBuf); *keyflags &= ~32; *keyflags |= strcasecmp(szBuf, "OFF") ? 32 : 0; keycheck(); } STATIC VOID DeviceHigh(BYTE * pLine) { if (UmbState == 1) { if (LoadDevice(pLine, MK_FP(umb_start + UMB_top, 0), TRUE) == DE_NOMEM) { printf("Not enough free memory in UMB's: loading low\n"); LoadDevice(pLine, lpTop, FALSE); } } else { printf("UMB's unavailable!\n"); LoadDevice(pLine, lpTop, FALSE); } } STATIC void Device(BYTE * pLine) { LoadDevice(pLine, lpTop, FALSE); } STATIC BOOL LoadDevice(BYTE * pLine, char FAR *top, COUNT mode) { exec_blk eb; struct dhdr FAR *dhp; struct dhdr FAR *next_dhp; BOOL result; seg base, start; if (mode) { base = umb_base_seg; start = umb_start; } else { base = base_seg; start = LoL->first_mcb; } if (base == start) base++; base++; /* Get the device driver name */ GetStringArg(pLine, szBuf); /* The driver is loaded at the top of allocated memory. */ /* The device driver is paragraph aligned. */ eb.load.reloc = eb.load.load_seg = base; #ifdef DEBUG printf("Loading device driver %s at segment %04x\n", szBuf, base); #endif if ((result = init_DosExec(3, &eb, szBuf)) != SUCCESS) { CfgFailure(pLine); return result; } strcpy(szBuf, pLine); /* uppercase the device driver command */ strupr(szBuf); /* TE this fixes the loading of devices drivers with multiple devices in it. NUMEGA's SoftIce is such a beast */ /* add \r\n to the command line */ strcat(szBuf, " \r\n"); dhp = MK_FP(base, 0); /* NOTE - Modification for multisegmented device drivers: */ /* In order to emulate the functionallity experienced with other */ /* DOS operating systems, the original 'top' end address is */ /* updated with the end address returned from the INIT request. */ /* The updated end address is then used when issuing the next */ /* INIT request for the following device driver within the file */ for (next_dhp = NULL; FP_OFF(next_dhp) != 0xffff && (result = init_device(dhp, szBuf, mode, &top)) == SUCCESS; dhp = next_dhp) { next_dhp = MK_FP(FP_SEG(dhp), FP_OFF(dhp->dh_next)); /* Link in device driver and save LoL->nul_dev pointer to next */ dhp->dh_next = LoL->nul_dev.dh_next; LoL->nul_dev.dh_next = dhp; } /* might have been the UMB driver or DOS=UMB */ if (UmbState == 2) umb_init(); return result; } STATIC VOID CfgFailure(BYTE * pLine) { BYTE *pTmp = pLineStart; /* suppress multiple printing of same unrecognized lines */ if (nCfgLine < sizeof(ErrorAlreadyPrinted)*8) { if (ErrorAlreadyPrinted[nCfgLine/8] & (1 << (nCfgLine%8))) return; ErrorAlreadyPrinted[nCfgLine/8] |= (1 << (nCfgLine%8)); } printf("CONFIG.SYS error in line %d\n", nCfgLine); printf(">>>%s\n ", pTmp); while (++pTmp != pLine) printf(" "); printf("^\n"); } struct submcb { char type; unsigned short start; unsigned short size; char unused[3]; char name[8]; }; void FAR * KernelAllocPara(size_t nPara, char type, char *name, int mode) { seg base, start; struct submcb FAR *p; if (UmbState != 1) mode = 0; if (mode) { base = umb_base_seg; start = umb_start; } else { base = base_seg; start = LoL->first_mcb; } /* create the special DOS data MCB if it doesn't exist yet */ DebugPrintf(("kernelallocpara: %x %x %x %c %d\n", start, base, nPara, type, mode)); if (base == start) { mcb FAR *p = para2far(base); base++; mcb_init(base, p->m_size - 1, p->m_type); mumcb_init(FP_SEG(p), 0); p->m_name[1] = 'D'; } nPara++; mcb_init(base + nPara, para2far(base)->m_size - nPara, para2far(base)->m_type); para2far(start)->m_size += nPara; p = (struct submcb FAR *)para2far(base); p->type = type; p->start = FP_SEG(p)+1; p->size = nPara-1; if (name) fmemcpy(p->name, name, 8); base += nPara; if (mode) umb_base_seg = base; else base_seg = base; return MK_FP(FP_SEG(p)+1, 0); } void FAR * KernelAlloc(size_t nBytes, char type, int mode) { void FAR *p; size_t nPara = (nBytes + 15)/16; if (LoL->first_mcb == 0) { /* prealloc */ lpTop = MK_FP(FP_SEG(lpTop) - nPara, FP_OFF(lpTop)); return AlignParagraph(lpTop); } else { p = KernelAllocPara(nPara, type, NULL, mode); } fmemset(p, 0, nBytes); return p; } #ifdef I86 #if 0 STATIC BYTE FAR * KernelAllocDma(WORD bytes, char type) { if ((base_seg & 0x0fff) + (bytes >> 4) > 0x1000) { KernelAllocPara((base_seg + 0x0fff) & 0xf000 - base_seg, type, NULL, 0); } return KernelAlloc(bytes, type); } #endif STATIC void FAR * AlignParagraph(VOID FAR * lpPtr) { UWORD uSegVal; /* First, convert the segmented pointer to linear address */ uSegVal = FP_SEG(lpPtr); uSegVal += (FP_OFF(lpPtr) + 0xf) >> 4; if (FP_OFF(lpPtr) > 0xfff0) uSegVal += 0x1000; /* handle overflow */ /* and return an adddress adjusted to the nearest paragraph */ /* boundary. */ return MK_FP(uSegVal, 0); } #endif STATIC int iswh(unsigned char c) { return (c == '\r' || c == '\n' || c == '\t' || c == ' '); } STATIC BYTE * skipwh(BYTE * s) { while (iswh(*s)) ++s; return s; } STATIC BYTE * scan(BYTE * s, BYTE * d) { askThisSingleCommand = FALSE; DontAskThisSingleCommand = FALSE; s = skipwh(s); MenuLine = 0; /* does the line start with "123?" */ if (isnum(*s)) { unsigned numbers = 0; for ( ; isnum(*s); s++) numbers |= 1 << (*s -'0'); if (*s == '?') { MenuLine = numbers; Menus |= numbers; s = skipwh(s+1); } } /* !dos=high,umb ?? */ if (*s == '!') { DontAskThisSingleCommand = TRUE; s = skipwh(s+1); } if (*s == ';') { /* semicolon is a synonym for rem */ *d++ = *s++; } else while (*s && !iswh(*s) && *s != '=') { if (*s == '?') askThisSingleCommand = TRUE; else *d++ = *s; s++; } *d = '\0'; return s; } STATIC BOOL isnum(char ch) { return (ch >= '0' && ch <= '9'); } /* JPP - changed so will accept hex number. */ /* ea - changed to accept hex digits in hex numbers */ STATIC char * GetNumber(REG const char *p, int *num) { unsigned char base = 10; int sign = 1; int n = 0; if (*p == '-') { p++; sign = -1; } for(;;p++) { unsigned char ch = toupper(*p); if (ch == 'X') { base = 16; continue; } if (isnum(ch)) { n = n * base + ch - '0'; } else if (base == 16 && (ch<='F') && (ch>='A')) { n = n * base + 10 + ch - 'A'; } else { break; } } *num = n * sign; return (char *)p; } /* Yet another change for true portability (PJV) */ STATIC unsigned char toupper(unsigned char c) { if (c >= 'a' && c <= 'z') return (c - ('a' - 'A')); else return c; } /* Convert string s to uppercase */ STATIC VOID strupr(char *s) { while (*s) { *s = toupper(*s); s++; } } /* The following code is 8086 dependant */ #if 1 /* ifdef KERNEL */ STATIC VOID mcb_init_copy(UCOUNT seg, UWORD size, mcb *near_mcb) { near_mcb->m_size = size; fmemcpy(MK_FP(seg, 0), near_mcb, sizeof(mcb)); } STATIC VOID mcb_init(UCOUNT seg, UWORD size, BYTE type) { static mcb near_mcb BSS_INIT({0}); near_mcb.m_type = type; mcb_init_copy(seg, size, &near_mcb); } STATIC VOID mumcb_init(UCOUNT seg, UWORD size) { static mcb near_mcb = { MCB_NORMAL, 8, 0, {0,0,0}, {"SC"} }; mcb_init_copy(seg, size, &near_mcb); } #endif char *strcat(register char * d, register const char * s) { strcpy(d + strlen(d), s); return d; } /* compare two ASCII strings ignoring case */ STATIC int strcasecmp(const char * d, const char * s) { int ret; for (;; s++, d++) { ret = toupper(*d) - toupper(*s); if (ret != 0 || *d == '\0') break; } return ret; } /* moved from BLOCKIO.C here. that saves some relocation problems */ STATIC void config_init_buffers(int wantedbuffers) { struct buffer FAR *pbuffer; unsigned buffers = 0; /* fill HMA with buffers if BUFFERS count >=0 and DOS in HMA */ if (wantedbuffers < 0) wantedbuffers = -wantedbuffers; else if (HMAState == HMA_DONE) buffers = (0xfff0 - HMAFree) / sizeof(struct buffer); if (wantedbuffers < 6) /* min 6 buffers */ wantedbuffers = 6; if (wantedbuffers > 99) /* max 99 buffers */ { printf("BUFFERS=%u not supported, reducing to 99\n", wantedbuffers); wantedbuffers = 99; } if (wantedbuffers > buffers) /* more specified than available -> get em */ buffers = wantedbuffers; LoL->nbuffers = buffers; LoL->inforecptr = &LoL->firstbuf; { size_t bytes = sizeof(struct buffer) * buffers; pbuffer = HMAalloc(bytes); if (pbuffer == NULL) { pbuffer = KernelAlloc(bytes, 'B', 0); if (HMAState == HMA_DONE) firstAvailableBuf = MK_FP(0xffff, HMAFree); } else { LoL->bufloc = LOC_HMA; LoL->deblock_buf = KernelAlloc(SEC_SIZE, 'B', 0); /* space in HMA beyond requested buffers available as user space */ firstAvailableBuf = pbuffer + wantedbuffers; } } LoL->firstbuf = pbuffer; DebugPrintf(("init_buffers (size %u) at", sizeof(struct buffer))); DebugPrintf((" (%p)", LoL->firstbuf)); buffers--; pbuffer->b_prev = FP_OFF(pbuffer + buffers); { int i = buffers; do { pbuffer->b_next = FP_OFF(pbuffer + 1); pbuffer++; pbuffer->b_prev = FP_OFF(pbuffer - 1); } while (--i); } pbuffer->b_next = FP_OFF(pbuffer - buffers); /* now, we can have quite some buffers in HMA -- up to 50 for KE38616. so we fill the HMA with buffers but not if the BUFFERS count is negative ;-) */ DebugPrintf((" done\n")); if (FP_SEG(pbuffer) == 0xffff) { buffers++; printf("Kernel: allocated %d Diskbuffers = %u Bytes in HMA\n", buffers, buffers * sizeof(struct buffer)); } } STATIC void config_init_fnodes(int f_nodes_cnt) { struct f_node FAR *p; size_t bytes; /* number of allocated files */ LoL->f_nodes_cnt = f_nodes_cnt; bytes = f_nodes_cnt * sizeof(struct f_node); p = HMAalloc(bytes); if (p == NULL) p = KernelAlloc(bytes, 'F', 0); LoL->f_nodes = p; } /* Undocumented feature: ANYDOS will report to MSDOS programs just the version number they expect. be careful with it! */ STATIC VOID SetAnyDos(BYTE * pLine) { UNREFERENCED_PARAMETER(pLine); ReturnAnyDosVersionExpected = TRUE; } STATIC VOID CfgIgnore(BYTE * pLine) { UNREFERENCED_PARAMETER(pLine); } /* 'MENU'ing stuff although it's worse then MSDOS's , its better then nothing */ STATIC void ClearScreen(unsigned char attr); STATIC VOID CfgMenu(BYTE * pLine) { int nLen; BYTE *pNumber = pLine; printf("%s\n",pLine); if (MenuColor == -1) return; pLine = skipwh(pLine); /* skip drawing characters in cp437, which is what we'll have just after booting! */ while ((unsigned char)*pLine >= 0xb0 && (unsigned char)*pLine < 0xe0) pLine++; pLine = skipwh(pLine); /* skip more whitespaces... */ /* now I'm expecting a number here if this is a menu-choice line. */ if (isnum(pLine[0])) { struct MenuSelector *menu = &MenuStruct[pLine[0]-'0']; menu->x = (pLine-pNumber); /* xpos is at start of number */ menu->y = nMenuLine; /* copy menu text: */ nLen = findend(pLine); /* length is until cr/lf, null or three spaces */ /* max 40 chars including nullterminator (change struct at top of file if you want more...) */ if (nLen > MENULINEMAX-1) nLen = MENULINEMAX-1; memcpy(menu->Text, pLine, nLen); menu->Text[nLen] = 0; /* nullTerminate */ } nMenuLine++; } STATIC VOID CfgMenuEsc(BYTE * pLine) { BYTE * check; for (check = pLine; check[0]; check++) if (check[0] == '$') check[0] = 27; /* translate $ to ESC */ printf("%s\n",pLine); } STATIC VOID DoMenu(void) { iregs r; int key = -1; if (Menus == 0) return; InitKernelConfig.SkipConfigSeconds = -1; if (MenuColor == -1) Menus |= 1 << 0; /* '0' Menu always allowed */ nMenuLine+=2; /* use this to position "select menu" text (ypos): */ for (;;) { int i, j; RestartInput: if (MenuColor != -1) { SelectLine(MenuSelected); /* select current line. */ /* set new cursor position: */ r.a.b.h = 0x02; r.b.b.h = 0; r.d.b.l = 3; r.d.b.h = nMenuLine; init_call_intr(0x10, &r); /* set cursor pos */ } printf("Select from Menu ["); for (i = 0, j = 1; i <= 9; i++, j<<=1) if (Menus & j) printf("%c", '0' + i); printf("], or press [ENTER]"); if (MenuColor != -1) printf(" (Selection=%d) ", MenuSelected); if (MenuTimeout >= 0) printf("- %d \b", MenuTimeout); else printf(" \b\b\b\b\b"); if (MenuColor != -1) printf("\r\n\n "); else printf(" -"); printf(" Singlestepping (F8) is: %s \r", singleStep ? "ON " : "OFF"); key = GetBiosKey(MenuTimeout >= 0 ? 1 : -1); if (key == -1) /* timeout, take default */ { if (MenuTimeout > 0) { MenuTimeout--; goto RestartInput; } break; } else MenuTimeout = -1; if (key == 0x3f00) /* F5 */ { SkipAllConfig = TRUE; break; } if (key == 0x4200) /* F8 */ { singleStep = !singleStep; } else if(key == 0x4800 && MenuColor != -1) /* arrow up */ { if(MenuSelected>=1 && (Menus & (1 << (MenuSelected-1))) ) { MenuSelected--; } } else if(key == 0x5000 && MenuColor != -1) /* arrow down */ { if(MenuSelected LENGTH(InstallCommands)) { printf("Too many Install commands given (%d max)\n",LENGTH(InstallCommands)); CfgFailure(pLine); return; } cmd = &InstallCommands[numInstallCmds]; memcpy(cmd->buffer,pLine,127); cmd->buffer[127] = 0; cmd->mode = mode; numInstallCmds++; } STATIC VOID CmdInstall(BYTE * pLine) { _CmdInstall(pLine,0); } STATIC VOID CmdInstallHigh(BYTE * pLine) { _CmdInstall(pLine,0x80); /* load high, if possible */ } STATIC VOID InstallExec(struct instCmds *icmd) { BYTE filename[128], *args, *d, *cmd = icmd->buffer; exec_blk exb; InstallPrintf(("installing %s\n",cmd)); cmd=skipwh(cmd); for (args = cmd, d = filename; ;args++,d++) { *d = *args; if (*d <= 0x020 || *d == '/') break; } *d = 0; args--; *args = strlen(&args[1]); args[*args+1] = '\r'; args[*args+2] = 0; exb.exec.env_seg = 0; exb.exec.cmd_line = (CommandTail FAR *) args; exb.exec.fcb_1 = exb.exec.fcb_2 = (fcb FAR *) 0xfffffffful; InstallPrintf(("cmd[%s] args [%u,%s]\n",filename,*args,args+1)); if (init_DosExec(icmd->mode, &exb, filename) != SUCCESS) { CfgFailure(cmd); } } STATIC void free(seg segment) { iregs r; r.a.b.h = 0x49; /* free memory */ r.es = segment; init_call_intr(0x21, &r); } /* set memory allocation strategy */ STATIC void set_strategy(unsigned char strat) { iregs r; r.a.x = 0x5801; r.b.b.l = strat; init_call_intr(0x21, &r); } VOID DoInstall(void) { int i; unsigned short installMemory; struct instCmds *cmd; if (numInstallCmds == 0) return; InstallPrintf(("Installing commands now\n")); /* grab memory for this install code we KNOW, that we are executing somewhere at top of memory we need to protect the INIT_CODE from other programs that will be executing soon */ set_strategy(LAST_FIT); allocmem(((unsigned)_init_end + ebda_size + 15) / 16, &installMemory); InstallPrintf(("allocated memory at %x\n",installMemory)); for (i = 0, cmd = InstallCommands; i < numInstallCmds; i++, cmd++) { InstallPrintf(("%d:%s\n",i,cmd->buffer)); set_strategy(cmd->mode); InstallExec(cmd); } set_strategy(FIRST_FIT); free(installMemory); InstallPrintf(("Done with installing commands\n")); return; } STATIC VOID CmdSet(BYTE *pLine) { pLine = GetStringArg(pLine, szBuf); pLine = skipwh(pLine); /* scan() stops at the equal sign or space */ if (*pLine == '=') /* equal sign is required */ { int size; strupr(szBuf); /* all environment variables must be uppercase */ strcat(szBuf, "="); pLine = skipwh(++pLine); strcat(szBuf, pLine); /* append the variable value (may include spaces) */ size = strlen(szBuf); if (size < master_env + sizeof(master_env) - envp - 1) { /* must end with two consequtive zeros */ strcpy(envp, szBuf); envp += size + 1; /* add next variables starting at the second zero */ } else printf("Master environment is full - can't add \"%s\"\n", szBuf); } else printf("Invalid SET command: \"%s\"\n", szBuf); }