/* $Id: boot.c $ */ /** @file * PC BIOS - ??? */ /* * Copyright (C) 2006-2019 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. * -------------------------------------------------------------------- * * This code is based on: * * ROM BIOS for use with Bochs/Plex86/QEMU emulation environment * * Copyright (C) 2002 MandrakeSoft S.A. * * MandrakeSoft S.A. * 43, rue d'Aboukir * 75002 Paris - France * http://www.linux-mandrake.com/ * http://www.mandrakesoft.com/ * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * */ /* * Oracle LGPL Disclaimer: For the avoidance of doubt, except that if any license choice * other than GPL or LGPL is available it will apply instead, Oracle elects to use only * the Lesser General Public License version 2.1 (LGPLv2) at this time for any software where * a choice of LGPL license versions is made available with the language indicating * that LGPLv2 or any later version may be used, or where a choice of which version * of the LGPL is applied is otherwise unspecified. */ #include #include #include "inlines.h" #include "biosint.h" #include "ebda.h" /* Sanity check the LAN boot segment definition. */ #if VBOX_LANBOOT_SEG < 0xA000 #error VBOX_LANBOOT_SEG incorrect! #endif /* PnP header used with LAN boot ROMs. */ typedef struct { uint32_t sig; uint8_t revision; uint8_t length; uint16_t next_s; uint8_t pad1; uint8_t checksum; uint32_t dev_id; uint16_t mfg_string; uint16_t prod_string; uint8_t base_class; uint8_t subclass; uint8_t interface; uint8_t dev_ind; uint16_t boot_code; uint16_t dv; uint16_t bev; uint16_t pad2; uint16_t sriv; } pnp_exp_t; int read_boot_sec(uint8_t bootdrv, uint16_t segment); #pragma aux read_boot_sec = \ "mov ax,0201h" \ "mov dh,0" \ "mov cx,1" \ "xor bx,bx" \ "int 13h" \ "mov ax,0" \ "sbb ax,0" \ parm [dl] [es] modify [ax bx cx dx]; //-------------------------------------------------------------------------- // print_boot_device // displays the boot device //-------------------------------------------------------------------------- static const char drivetypes[][10]={"Floppy","Hard Disk","CD-ROM","LAN"}; /// @todo pass inputs as bit flags rather than bytes? void print_boot_device(uint8_t cdboot, uint8_t lanboot, uint8_t drive) { int i; // cdboot contains 0 if lan/floppy/harddisk, 1 otherwise // lanboot contains 0 if floppy/harddisk, 1 otherwise // drive contains real/emulated boot drive if(cdboot)i=2; // CD-Rom else if(lanboot)i=3; // LAN else if((drive&0x0080)==0x00)i=0; // Floppy else if((drive&0x0080)==0x80)i=1; // Hard drive else return; BX_INFO("Booting from %s...\n",drivetypes[i]); } //-------------------------------------------------------------------------- // print_boot_failure // displays the reason why boot failed //-------------------------------------------------------------------------- /// @todo pass inputs as bit flags rather than bytes? void print_boot_failure(uint8_t cdboot, uint8_t lanboot, uint8_t drive, uint8_t reason, uint8_t lastdrive) { uint16_t drivenum = drive&0x7f; // cdboot: 1 if boot from cd, 0 otherwise // lanboot: 1 if boot from lan, 0 otherwise // drive : drive number // reason: 0 signature check failed, 1 read error // lastdrive: 1 boot drive is the last one in boot sequence if (cdboot) BX_INFO("Boot from %s failed\n",drivetypes[2]); else if (lanboot) BX_INFO("Boot from %s failed\n",drivetypes[3]); else if (drive & 0x80) BX_INFO("Boot from %s %d failed\n", drivetypes[1],drivenum); else BX_INFO("Boot from %s %d failed\n", drivetypes[0],drivenum); if (lastdrive==1) { if (reason==0) BX_PANIC("No bootable medium found! System halted.\n"); else BX_PANIC("Could not read from the boot medium! System halted.\n"); } } //-------------------------------------------------------------------------- // print_cdromboot_failure // displays the reason why boot failed //-------------------------------------------------------------------------- void print_cdromboot_failure(uint16_t code) { BX_INFO("CDROM boot failure code : %04x\n",code); return; } // returns bootsegment in ax, drive in bl uint32_t BIOSCALL int19_function(uint8_t bseqnr) { /// @todo common code for getting the EBDA segment uint16_t ebda_seg=read_word(0x0040,0x000E); uint16_t bootseq; uint8_t bootdrv; uint8_t bootcd; uint8_t bootlan; uint8_t bootchk; uint16_t bootseg; uint16_t status; uint8_t lastdrive=0; // if BX_ELTORITO_BOOT is not defined, old behavior // check bit 5 in CMOS reg 0x2d. load either 0x00 or 0x80 into DL // in preparation for the initial INT 13h (0=floppy A:, 0x80=C:) // 0: system boot sequence, first drive C: then A: // 1: system boot sequence, first drive A: then C: // else BX_ELTORITO_BOOT is defined // CMOS regs 0x3D and 0x38 contain the boot sequence: // CMOS reg 0x3D & 0x0f : 1st boot device // CMOS reg 0x3D & 0xf0 : 2nd boot device // CMOS reg 0x38 & 0xf0 : 3rd boot device // CMOS reg 0x3C & 0x0f : 4th boot device // boot device codes: // 0x00 : not defined // 0x01 : first floppy // 0x02 : first harddrive // 0x03 : first cdrom // 0x04 : local area network // else : boot failure // Get the boot sequence #if BX_ELTORITO_BOOT bootseq=inb_cmos(0x3d); bootseq|=((inb_cmos(0x38) & 0xf0) << 4); bootseq|=((inb_cmos(0x3c) & 0x0f) << 12); if (read_byte(ebda_seg, (uint16_t)&EbdaData->uForceBootDevice)) bootseq = read_byte(ebda_seg, (uint16_t)&EbdaData->uForceBootDevice); /* Boot delay hack. */ if (bseqnr == 1) delay_boot((inb_cmos(0x3c) & 0xf0) >> 4); /* Implemented in logo.c */ if (bseqnr==2) bootseq >>= 4; if (bseqnr==3) bootseq >>= 8; if (bseqnr==4) bootseq >>= 12; if (bootseq<0x10) lastdrive = 1; bootdrv=0x00; bootcd=0; bootlan=0; BX_INFO("Boot : bseqnr=%d, bootseq=%x\r\n",bseqnr, bootseq); switch(bootseq & 0x0f) { case 0x01: bootdrv=0x00; bootcd=0; break; case 0x02: { // Get the Boot drive. uint8_t boot_drive = read_byte(ebda_seg, (uint16_t)&EbdaData->uForceBootDrive); bootdrv = boot_drive + 0x80; bootcd=0; break; } case 0x03: bootdrv=0x00; bootcd=1; break; case 0x04: bootlan=1; break; default: return 0x00000000; } #else bootseq=inb_cmos(0x2d); if (bseqnr==2) { bootseq ^= 0x20; lastdrive = 1; } bootdrv=0x00; bootcd=0; if((bootseq&0x20)==0) bootdrv=0x80; #endif // BX_ELTORITO_BOOT #if BX_ELTORITO_BOOT // We have to boot from cd if (bootcd != 0) { status = cdrom_boot(); // If failure if ( (status & 0x00ff) !=0 ) { print_cdromboot_failure(status); print_boot_failure(bootcd, bootlan, bootdrv, 1, lastdrive); return 0x00000000; } bootseg = read_word(ebda_seg,(uint16_t)&EbdaData->cdemu.load_segment); bootdrv = (uint8_t)(status>>8); } #endif // BX_ELTORITO_BOOT // Check for boot from LAN first if (bootlan == 1) { uint8_t __far *fplan; fplan = MK_FP(VBOX_LANBOOT_SEG, 0); if (*(uint16_t __far *)fplan == 0xaa55) { pnp_exp_t __far *pnps; uint32_t manuf; void (__far *netboot_entry)(void); // This is NOT a generic PnP implementation, but an Etherboot-specific hack. pnps = (void __far *)(fplan + *(uint16_t __far *)(fplan + 0x1a)); if (pnps->sig == 0x506e5024/* '$PnP' */) { // Found PnP signature manuf = *(uint32_t __far *)(fplan + pnps->mfg_string); if (manuf == 0x65687445/* 'Ethe' */) { // Found Etherboot ROM print_boot_device(bootcd, bootlan, bootdrv); netboot_entry = (void __far *)(fplan + 6); netboot_entry(); } else { //Found Normal Pnp ROM print_boot_device(bootcd, bootlan, bootdrv); int_enable(); /* Disabled as we were invoked via INT instruction. */ netboot_entry = (void __far *)(fplan + pnps->bev); netboot_entry(); } } } // boot from LAN will not return if successful. print_boot_failure(bootcd, bootlan, bootdrv, 1, lastdrive); return 0x00000000; } // We have to boot from harddisk or floppy if (bootcd == 0 && bootlan == 0) { bootseg=0x07c0; status = read_boot_sec(bootdrv,bootseg); if (status != 0) { print_boot_failure(bootcd, bootlan, bootdrv, 1, lastdrive); return 0x00000000; } } // There is *no* requirement whatsoever for a valid floppy boot sector // to have a 55AAh signature. UNIX boot floppies typically have no such // signature. In general, it is impossible to tell a valid bootsector // from an invalid one. // NB: It is somewhat common for failed OS installs to have the // 0x55AA signature and a valid partition table but zeros in the // rest of the boot sector. We do a quick check by comparing the first // and third word of boot sector; if identical, the boot sector is // extremely unlikely to be valid. if (bootdrv != 0) bootchk = 0; else bootchk = 1; /* disable 0x55AA signature check on drive A: */ #if BX_ELTORITO_BOOT // if boot from cd, no signature check if (bootcd != 0) bootchk = 1; #endif // BX_ELTORITO_BOOT if (read_word(bootseg,0) == read_word(bootseg,4) || (bootchk == 0 && read_word(bootseg,0x1fe) != 0xaa55)) { print_boot_failure(bootcd, bootlan, bootdrv, 0, lastdrive); return 0x00000000; } #if BX_ELTORITO_BOOT // Print out the boot string print_boot_device(bootcd, bootlan, bootdrv); #else // BX_ELTORITO_BOOT print_boot_device(0, bootlan, bootdrv); #endif // BX_ELTORITO_BOOT // return the boot segment return (((uint32_t)bootdrv) << 16) + bootseg; }