; -*- fundamental -*- (asm-mode sucks) ; **************************************************************************** ; ; isolinux.asm ; ; A program to boot Linux kernels off a CD-ROM using the El Torito ; boot standard in "no emulation" mode, making the entire filesystem ; available. It is based on the SYSLINUX boot loader for MS-DOS ; floppies. ; ; Copyright 1994-2009 H. Peter Anvin - All Rights Reserved ; Copyright 2009 Intel Corporation; author: H. Peter Anvin ; ; This program is free software; you can redistribute it and/or modify ; it under the terms of the GNU General Public License as published by ; the Free Software Foundation, Inc., 53 Temple Place Ste 330, ; Boston MA 02111-1307, USA; either version 2 of the License, or ; (at your option) any later version; incorporated herein by reference. ; ; **************************************************************************** %define IS_ISOLINUX 1 %include "head.inc" ; ; Some semi-configurable constants... change on your own risk. ; my_id equ isolinux_id NULLFILE equ 0 ; Zero byte == null file name NULLOFFSET equ 0 ; Position in which to look retry_count equ 6 ; How patient are we with the BIOS? %assign HIGHMEM_SLOP 128*1024 ; Avoid this much memory near the top SECTOR_SHIFT equ 11 ; 2048 bytes/sector (El Torito requirement) SECTOR_SIZE equ (1 << SECTOR_SHIFT) ROOT_DIR_WORD equ 0x002F ; --------------------------------------------------------------------------- ; BEGIN CODE ; --------------------------------------------------------------------------- ; ; Memory below this point is reserved for the BIOS and the MBR ; section .earlybss global trackbuf trackbufsize equ 8192 trackbuf resb trackbufsize ; Track buffer goes here ; ends at 2800h ; Some of these are touched before the whole image ; is loaded. DO NOT move this to .bss16/.uibss. section .earlybss global BIOSName alignb 4 FirstSecSum resd 1 ; Checksum of bytes 64-2048 ImageDwords resd 1 ; isolinux.bin size, dwords InitStack resd 1 ; Initial stack pointer (SS:SP) DiskSys resw 1 ; Last INT 13h call ImageSectors resw 1 ; isolinux.bin size, sectors ; These following two are accessed as a single dword... GetlinsecPtr resw 1 ; The sector-read pointer BIOSName resw 1 ; Display string for BIOS type %define HAVE_BIOSNAME 1 global BIOSType BIOSType resw 1 DiskError resb 1 ; Error code for disk I/O global DriveNumber DriveNumber resb 1 ; CD-ROM BIOS drive number ISOFlags resb 1 ; Flags for ISO directory search RetryCount resb 1 ; Used for disk access retries alignb 8 global Hidden Hidden resq 1 ; Used in hybrid mode bsSecPerTrack resw 1 ; Used in hybrid mode bsHeads resw 1 ; Used in hybrid mode ; ; El Torito spec packet ; alignb 8 _spec_start equ $ global spec_packet spec_packet: resb 1 ; Size of packet sp_media: resb 1 ; Media type sp_drive: resb 1 ; Drive number sp_controller: resb 1 ; Controller index sp_lba: resd 1 ; LBA for emulated disk image sp_devspec: resw 1 ; IDE/SCSI information sp_buffer: resw 1 ; User-provided buffer sp_loadseg: resw 1 ; Load segment sp_sectors: resw 1 ; Sector count sp_chs: resb 3 ; Simulated CHS geometry sp_dummy: resb 1 ; Scratch, safe to overwrite ; ; EBIOS drive parameter packet ; alignb 8 drive_params: resw 1 ; Buffer size dp_flags: resw 1 ; Information flags dp_cyl: resd 1 ; Physical cylinders dp_head: resd 1 ; Physical heads dp_sec: resd 1 ; Physical sectors/track dp_totalsec: resd 2 ; Total sectors dp_secsize: resw 1 ; Bytes per sector dp_dpte: resd 1 ; Device Parameter Table dp_dpi_key: resw 1 ; 0BEDDh if rest valid dp_dpi_len: resb 1 ; DPI len resb 1 resw 1 dp_bus: resb 4 ; Host bus type dp_interface: resb 8 ; Interface type db_i_path: resd 2 ; Interface path db_d_path: resd 2 ; Device path resb 1 db_dpi_csum: resb 1 ; Checksum for DPI info ; ; EBIOS disk address packet ; alignb 8 dapa: resw 1 ; Packet size .count: resw 1 ; Block count .off: resw 1 ; Offset of buffer .seg: resw 1 ; Segment of buffer .lba: resd 2 ; LBA (LSW, MSW) ; ; Spec packet for disk image emulation ; alignb 8 dspec_packet: resb 1 ; Size of packet dsp_media: resb 1 ; Media type dsp_drive: resb 1 ; Drive number dsp_controller: resb 1 ; Controller index dsp_lba: resd 1 ; LBA for emulated disk image dsp_devspec: resw 1 ; IDE/SCSI information dsp_buffer: resw 1 ; User-provided buffer dsp_loadseg: resw 1 ; Load segment dsp_sectors: resw 1 ; Sector count dsp_chs: resb 3 ; Simulated CHS geometry dsp_dummy: resb 1 ; Scratch, safe to overwrite alignb 4 _spec_end equ $ _spec_len equ _spec_end - _spec_start section .init ;; ;; Primary entry point. Because BIOSes are buggy, we only load the first ;; CD-ROM sector (2K) of the file, so the number one priority is actually ;; loading the rest. ;; global StackBuf StackBuf equ STACK_TOP-44 ; 44 bytes needed for ; the bootsector chainloading ; code! global OrigESDI OrigESDI equ StackBuf-4 ; The high dword on the stack StackHome equ OrigESDI bootsec equ $ _start: ; Far jump makes sure we canonicalize the address cli jmp 0:_start1 times 8-($-$$) nop ; Pad to file offset 8 ; This table hopefully gets filled in by mkisofs using the ; -boot-info-table option. If not, the values in this ; table are default values that we can use to get us what ; we need, at least under a certain set of assumptions. global iso_boot_info iso_boot_info: bi_pvd: dd 16 ; LBA of primary volume descriptor bi_file: dd 0 ; LBA of boot file bi_length: dd 0xdeadbeef ; Length of boot file bi_csum: dd 0xdeadbeef ; Checksum of boot file bi_reserved: times 10 dd 0xdeadbeef ; Reserved bi_end: ; Custom entry point for the hybrid-mode disk. ; The following values will have been pushed onto the ; entry stack: ; - partition offset (qword) ; - ES ; - DI ; - DX (including drive number) ; - CBIOS Heads ; - CBIOS Sectors ; - EBIOS flag ; (top of stack) ; ; If we had an old isohybrid, the partition offset will ; be missing; we can check for that with sp >= 0x7c00. ; Serious hack alert. %ifndef DEBUG_MESSAGES _hybrid_signature: dd 0x7078c0fb ; An arbitrary number... _start_hybrid: pop cx ; EBIOS flag pop word [cs:bsSecPerTrack] pop word [cs:bsHeads] pop dx pop di pop es xor eax,eax xor ebx,ebx cmp sp,7C00h jae .nooffset pop eax pop ebx .nooffset: mov si,bios_cbios jcxz _start_common mov si,bios_ebios jmp _start_common %endif _start1: mov si,bios_cdrom xor eax,eax xor ebx,ebx _start_common: mov [cs:InitStack],sp ; Save initial stack pointer mov [cs:InitStack+2],ss xor cx,cx mov ss,cx mov sp,StackBuf ; Set up stack push es ; Save initial ES:DI -> $PnP pointer push di mov ds,cx mov es,cx mov fs,cx mov gs,cx sti cld mov [Hidden],eax mov [Hidden+4],ebx mov [BIOSType],si mov eax,[si] mov [GetlinsecPtr],eax ; Show signs of life mov si,syslinux_banner call writestr_early %ifdef DEBUG_MESSAGES mov si,copyright_str %else mov si,[BIOSName] %endif call writestr_early ; ; Before modifying any memory, get the checksum of bytes ; 64-2048 ; initial_csum: xor edi,edi mov si,bi_end mov cx,(SECTOR_SIZE-64) >> 2 .loop: lodsd add edi,eax loop .loop mov [FirstSecSum],edi mov [DriveNumber],dl %ifdef DEBUG_MESSAGES mov si,startup_msg call writemsg mov al,dl call writehex2 call crlf_early %endif ; ; Initialize spec packet buffers ; mov di,_spec_start mov cx,_spec_len >> 2 xor eax,eax rep stosd ; Initialize length field of the various packets mov byte [spec_packet],13h mov byte [drive_params],30 mov byte [dapa],16 mov byte [dspec_packet],13h ; Other nonzero fields inc word [dsp_sectors] ; Are we just pretending to be a CD-ROM? cmp word [BIOSType],bios_cdrom jne found_drive ; If so, no spec packet... ; Now figure out what we're actually doing ; Note: use passed-in DL value rather than 7Fh because ; at least some BIOSes will get the wrong value otherwise mov ax,4B01h ; Get disk emulation status mov dl,[DriveNumber] mov si,spec_packet call int13 jc award_hack ; changed for BrokenAwardHack mov dl,[DriveNumber] cmp [sp_drive],dl ; Should contain the drive number jne spec_query_failed %ifdef DEBUG_MESSAGES mov si,spec_ok_msg call writemsg mov al,byte [sp_drive] call writehex2 call crlf_early %endif found_drive: ; Alright, we have found the drive. Now, try to find the ; boot file itself. If we have a boot info table, life is ; good; if not, we have to make some assumptions, and try ; to figure things out ourselves. In particular, the ; assumptions we have to make are: ; - single session only ; - only one boot entry (no menu or other alternatives) cmp dword [bi_file],0 ; Address of code to load jne found_file ; Boot info table present :) %ifdef DEBUG_MESSAGES mov si,noinfotable_msg call writemsg %endif ; No such luck. See if the spec packet contained one. mov eax,[sp_lba] and eax,eax jz set_file ; Good enough %ifdef DEBUG_MESSAGES mov si,noinfoinspec_msg call writemsg %endif ; No such luck. Get the Boot Record Volume, assuming single ; session disk, and that we're the first entry in the chain. mov eax,17 ; Assumed address of BRV mov bx,trackbuf call getonesec mov eax,[trackbuf+47h] ; Get boot catalog address mov bx,trackbuf call getonesec ; Get boot catalog mov eax,[trackbuf+28h] ; First boot entry ; And hope and pray this is us... ; Some BIOSes apparently have limitations on the size ; that may be loaded (despite the El Torito spec being very ; clear on the fact that it must all be loaded.) Therefore, ; we load it ourselves, and *bleep* the BIOS. set_file: mov [bi_file],eax found_file: ; Set up boot file sizes mov eax,[bi_length] sub eax,SECTOR_SIZE-3 ; ... minus sector loaded shr eax,2 ; bytes->dwords mov [ImageDwords],eax ; boot file dwords add eax,((SECTOR_SIZE-1) >> 2) shr eax,SECTOR_SHIFT-2 ; dwords->sectors mov [ImageSectors],ax ; boot file sectors mov eax,[bi_file] ; Address of code to load inc eax ; Don't reload bootstrap code %ifdef DEBUG_MESSAGES mov si,offset_msg call writemsg call writehex8 call crlf_early %endif ; Load the rest of the file. However, just in case there ; are still BIOSes with 64K wraparound problems, we have to ; take some extra precautions. Since the normal load ; address (TEXT_START) is *not* 2K-sector-aligned, we round ; the target address upward to a sector boundary, ; and then move the entire thing down as a unit. MaxLMA equ 384*1024 ; Reasonable limit (384K) mov bx,((TEXT_START+2*SECTOR_SIZE-1) & ~(SECTOR_SIZE-1)) >> 4 mov bp,[ImageSectors] push bx ; Load segment address .more: push bx ; Segment address push bp ; Sector count mov es,bx mov cx,0xfff and bx,cx inc cx sub cx,bx shr cx,SECTOR_SHIFT - 4 jnz .notaligned mov cx,0x10000 >> SECTOR_SHIFT ; Full 64K segment possible .notaligned: cmp bp,cx jbe .ok mov bp,cx .ok: xor bx,bx push bp push eax call getlinsec pop eax pop cx movzx edx,cx pop bp pop bx shl cx,SECTOR_SHIFT - 4 add bx,cx add eax,edx sub bp,dx jnz .more ; Move the image into place, and also verify the ; checksum pop ax ; Load segment address mov bx,(TEXT_START + SECTOR_SIZE) >> 4 mov ecx,[ImageDwords] mov edi,[FirstSecSum] ; First sector checksum xor si,si move_verify_image: .setseg: mov ds,ax mov es,bx .loop: mov edx,[si] add edi,edx dec ecx mov [es:si],edx jz .done add si,4 jnz .loop add ax,1000h add bx,1000h jmp .setseg .done: mov ax,cs mov ds,ax mov es,ax ; Verify the checksum on the loaded image. cmp [bi_csum],edi je integrity_ok mov si,checkerr_msg call writemsg jmp kaboom integrity_ok: %ifdef DEBUG_MESSAGES mov si,allread_msg call writemsg %endif jmp all_read ; Jump to main code ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; Start of BrokenAwardHack --- 10-nov-2002 Knut_Petersen@t-online.de ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; ;; There is a problem with certain versions of the AWARD BIOS ... ;; the boot sector will be loaded and executed correctly, but, because the ;; int 13 vector points to the wrong code in the BIOS, every attempt to ;; load the spec packet will fail. We scan for the equivalent of ;; ;; mov ax,0201h ;; mov bx,7c00h ;; mov cx,0006h ;; mov dx,0180h ;; pushf ;; call ;; ;; and use as the new vector for int 13. The code above is ;; used to load the boot code into ram, and there should be no reason ;; for anybody to change it now or in the future. There are no opcodes ;; that use encodings relativ to IP, so scanning is easy. If we find the ;; code above in the BIOS code we can be pretty sure to run on a machine ;; with an broken AWARD BIOS ... ;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; %ifdef DEBUG_MESSAGES ;; ;; award_notice db "Trying BrokenAwardHack first ...",CR,LF,0 ;; award_not_orig db "BAH: Original Int 13 vector : ",0 ;; award_not_new db "BAH: Int 13 vector changed to : ",0 ;; award_not_succ db "BAH: SUCCESS",CR,LF,0 ;; award_not_fail db "BAH: FAILURE" ;; award_not_crlf db CR,LF,0 ;; ;; %endif ;; ;; award_oldint13 dd 0 ;; award_string db 0b8h,1,2,0bbh,0,7ch,0b9h,6,0,0bah,80h,1,09ch,09ah ;; ;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; award_hack: mov si,spec_err_msg ; Moved to this place from call writemsg ; spec_query_failed ; %ifdef DEBUG_MESSAGES ; ; mov si,award_notice ; display our plan call writemsg ; mov si,award_not_orig ; display original int 13 call writemsg ; vector %endif ; mov eax,[13h*4] ; mov [award_oldint13],eax ; ; %ifdef DEBUG_MESSAGES ; ; call writehex8 ; mov si,award_not_crlf ; call writestr_early ; %endif ; push es ; save ES mov ax,0f000h ; ES = BIOS Seg mov es,ax ; cld ; xor di,di ; start at ES:DI = f000:0 award_loop: push di ; save DI mov si,award_string ; scan for award_string mov cx,7 ; length of award_string = 7dw repz cmpsw ; compare pop di ; restore DI jcxz award_found ; jmp if found inc di ; not found, inc di jno award_loop ; ; award_failed: pop es ; No, not this way :-(( award_fail2: ; ; %ifdef DEBUG_MESSAGES ; ; mov si,award_not_fail ; display failure ... call writemsg ; %endif ; mov eax,[award_oldint13] ; restore the original int or eax,eax ; 13 vector if there is one jz spec_query_failed ; and try other workarounds mov [13h*4],eax ; jmp spec_query_failed ; ; award_found: mov eax,[es:di+0eh] ; load possible int 13 addr pop es ; restore ES ; cmp eax,[award_oldint13] ; give up if this is the jz award_failed ; active int 13 vector, mov [13h*4],eax ; otherwise change 0:13h*4 ; ; %ifdef DEBUG_MESSAGES ; ; push eax ; display message and mov si,award_not_new ; new vector address call writemsg ; pop eax ; call writehex8 ; mov si,award_not_crlf ; call writestr_early ; %endif ; mov ax,4B01h ; try to read the spec packet mov dl,[DriveNumber] ; now ... it should not fail mov si,spec_packet ; any longer int 13h ; jc award_fail2 ; ; %ifdef DEBUG_MESSAGES ; ; mov si,award_not_succ ; display our SUCCESS call writemsg ; %endif ; jmp found_drive ; and leave error recovery code ; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; End of BrokenAwardHack ---- 10-nov-2002 Knut_Petersen@t-online.de ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ; INT 13h, AX=4B01h, DL= failed. ; Try to scan the entire 80h-FFh from the end. spec_query_failed: ; some code moved to BrokenAwardHack mov dl,0FFh .test_loop: pusha mov ax,4B01h mov si,spec_packet mov byte [si],13h ; Size of buffer call int13 popa jc .still_broken mov si,maybe_msg call writemsg mov al,dl call writehex2 call crlf_early cmp byte [sp_drive],dl jne .maybe_broken ; Okay, good enough... mov si,alright_msg call writemsg .found_drive0: mov [DriveNumber],dl .found_drive: jmp found_drive ; Award BIOS 4.51 apparently passes garbage in sp_drive, ; but if this was the drive number originally passed in ; DL then consider it "good enough" .maybe_broken: mov al,[DriveNumber] cmp al,dl je .found_drive ; Intel Classic R+ computer with Adaptec 1542CP BIOS 1.02 ; passes garbage in sp_drive, and the drive number originally ; passed in DL does not have 80h bit set. or al,80h cmp al,dl je .found_drive0 .still_broken: dec dx cmp dl, 80h jnb .test_loop ; No spec packet anywhere. Some particularly pathetic ; BIOSes apparently don't even implement function ; 4B01h, so we can't query a spec packet no matter ; what. If we got a drive number in DL, then try to ; use it, and if it works, then well... mov dl,[DriveNumber] cmp dl,81h ; Should be 81-FF at least jb fatal_error ; If not, it's hopeless ; Write a warning to indicate we're on *very* thin ice now mov si,nospec_msg call writemsg mov al,dl call writehex2 call crlf_early mov si,trysbm_msg call writemsg jmp .found_drive ; Pray that this works... fatal_error: mov si,nothing_msg call writemsg .norge: jmp short .norge ; Information message (DS:SI) output ; Prefix with "isolinux: " ; writemsg: push ax push si mov si,isolinux_str call writestr_early pop si call writestr_early pop ax ret writestr_early: pushfd pushad .top: lodsb and al,al jz .end call writechr jmp short .top .end: popad popfd ret crlf_early: push ax mov al,CR call writechr mov al,LF call writechr pop ax ret ; ; Write a character to the screen. There is a more "sophisticated" ; version of this in the subsequent code, so we patch the pointer ; when appropriate. ; writechr: .simple: pushfd pushad mov ah,0Eh xor bx,bx int 10h popad popfd ret ; ; int13: save all the segment registers and call INT 13h. ; Some CD-ROM BIOSes have been found to corrupt segment registers ; and/or disable interrupts. ; int13: pushf push bp push ds push es push fs push gs int 13h mov bp,sp setc [bp+10] ; Propagate CF to the caller pop gs pop fs pop es pop ds pop bp popf ret ; ; Get one sector. Convenience entry point. ; getonesec: mov bp,1 ; Fall through to getlinsec ; ; Get linear sectors - EBIOS LBA addressing, 2048-byte sectors. ; ; Input: ; EAX - Linear sector number ; ES:BX - Target buffer ; BP - Sector count ; global getlinsec getlinsec: jmp word [cs:GetlinsecPtr] %ifndef DEBUG_MESSAGES ; ; First, the variants that we use when actually loading off a disk ; (hybrid mode.) These are adapted versions of the equivalent routines ; in ldlinux.asm. ; ; ; getlinsec_ebios: ; ; getlinsec implementation for floppy/HDD EBIOS (EDD) ; getlinsec_ebios: xor edx,edx shld edx,eax,2 shl eax,2 ; Convert to HDD sectors add eax,[Hidden] adc edx,[Hidden+4] shl bp,2 .loop: push bp ; Sectors left .retry2: call maxtrans ; Enforce maximum transfer size movzx edi,bp ; Sectors we are about to read mov cx,retry_count .retry: ; Form DAPA on stack push edx push eax push es push bx push di push word 16 mov si,sp pushad mov dl,[DriveNumber] push ds push ss pop ds ; DS <- SS mov ah,42h ; Extended Read call int13 pop ds popad lea sp,[si+16] ; Remove DAPA jc .error pop bp add eax,edi ; Advance sector pointer adc edx,0 sub bp,di ; Sectors left shl di,9 ; 512-byte sectors add bx,di ; Advance buffer pointer and bp,bp jnz .loop ret .error: ; Some systems seem to get "stuck" in an error state when ; using EBIOS. Doesn't happen when using CBIOS, which is ; good, since some other systems get timeout failures ; waiting for the floppy disk to spin up. pushad ; Try resetting the device xor ax,ax mov dl,[DriveNumber] call int13 popad loop .retry ; CX-- and jump if not zero ;shr word [MaxTransfer],1 ; Reduce the transfer size ;jnz .retry2 ; Total failure. Try falling back to CBIOS. mov word [GetlinsecPtr], getlinsec_cbios ;mov byte [MaxTransfer],63 ; Max possibe CBIOS transfer pop bp jmp getlinsec_cbios.loop ; ; getlinsec_cbios: ; ; getlinsec implementation for legacy CBIOS ; getlinsec_cbios: xor edx,edx shl eax,2 ; Convert to HDD sectors add eax,[Hidden] shl bp,2 .loop: push edx push eax push bp push bx movzx esi,word [bsSecPerTrack] movzx edi,word [bsHeads] ; ; Dividing by sectors to get (track,sector): we may have ; up to 2^18 tracks, so we need to use 32-bit arithmetric. ; div esi xor cx,cx xchg cx,dx ; CX <- sector index (0-based) ; EDX <- 0 ; eax = track # div edi ; Convert track to head/cyl ; We should test this, but it doesn't fit... ; cmp eax,1023 ; ja .error ; ; Now we have AX = cyl, DX = head, CX = sector (0-based), ; BP = sectors to transfer, SI = bsSecPerTrack, ; ES:BX = data target ; call maxtrans ; Enforce maximum transfer size ; Must not cross track boundaries, so BP <= SI-CX sub si,cx cmp bp,si jna .bp_ok mov bp,si .bp_ok: shl ah,6 ; Because IBM was STOOPID ; and thought 8 bits were enough ; then thought 10 bits were enough... inc cx ; Sector numbers are 1-based, sigh or cl,ah mov ch,al mov dh,dl mov dl,[DriveNumber] xchg ax,bp ; Sector to transfer count mov ah,02h ; Read sectors mov bp,retry_count .retry: pushad call int13 popad jc .error .resume: movzx ecx,al ; ECX <- sectors transferred shl ax,9 ; Convert sectors in AL to bytes in AX pop bx add bx,ax pop bp pop eax pop edx add eax,ecx sub bp,cx jnz .loop ret .error: dec bp jnz .retry xchg ax,bp ; Sectors transferred <- 0 shr word [MaxTransfer],1 jnz .resume jmp disk_error ; ; Truncate BP to MaxTransfer ; maxtrans: cmp bp,[MaxTransfer] jna .ok mov bp,[MaxTransfer] .ok: ret %endif ; ; This is the variant we use for real CD-ROMs: ; LBA, 2K sectors, some special error handling. ; getlinsec_cdrom: mov si,dapa ; Load up the DAPA mov [si+4],bx mov [si+6],es mov [si+8],eax .loop: push bp ; Sectors left cmp bp,[MaxTransferCD] jbe .bp_ok mov bp,[MaxTransferCD] .bp_ok: mov [si+2],bp push si mov dl,[DriveNumber] mov ah,42h ; Extended Read call xint13 pop si pop bp movzx eax,word [si+2] ; Sectors we read add [si+8],eax ; Advance sector pointer sub bp,ax ; Sectors left shl ax,SECTOR_SHIFT-4 ; 2048-byte sectors -> segment add [si+6],ax ; Advance buffer pointer and bp,bp jnz .loop mov eax,[si+8] ; Next sector ret ; INT 13h with retry xint13: mov byte [RetryCount],retry_count .try: pushad call int13 jc .error add sp,byte 8*4 ; Clean up stack ret .error: mov [DiskError],ah ; Save error code popad mov [DiskSys],ax ; Save system call number dec byte [RetryCount] jz .real_error push ax mov al,[RetryCount] mov ah,[dapa+2] ; Sector transfer count cmp al,2 ; Only 2 attempts left ja .nodanger mov ah,1 ; Drop transfer size to 1 jmp short .setsize .nodanger: cmp al,retry_count-2 ja .again ; First time, just try again shr ah,1 ; Otherwise, try to reduce adc ah,0 ; the max transfer size, but not to 0 .setsize: mov [MaxTransferCD],ah mov [dapa+2],ah .again: pop ax jmp .try .real_error: mov si,diskerr_msg call writemsg mov al,[DiskError] call writehex2 mov si,oncall_str call writestr_early mov ax,[DiskSys] call writehex4 mov si,ondrive_str call writestr_early mov al,dl call writehex2 call crlf_early ; Fall through to kaboom ; ; kaboom: write a message and bail out. Wait for a user keypress, ; then do a hard reboot. ; global kaboom disk_error: kaboom: RESET_STACK_AND_SEGS AX mov si,bailmsg pm_call pm_writestr pm_call pm_getchar cli mov word [BIOS_magic],0 ; Cold reboot jmp 0F000h:0FFF0h ; Reset vector address ; ----------------------------------------------------------------------------- ; Common modules needed in the first sector ; ----------------------------------------------------------------------------- %include "writehex.inc" ; Hexadecimal output ; ----------------------------------------------------------------------------- ; Data that needs to be in the first sector ; ----------------------------------------------------------------------------- global syslinux_banner, copyright_str syslinux_banner db CR, LF, MY_NAME, ' ', VERSION_STR, ' ', DATE_STR, ' ', 0 copyright_str db ' Copyright (C) 1994-' asciidec YEAR db ' H. Peter Anvin et al', CR, LF, 0 isolinux_str db 'isolinux: ', 0 %ifdef DEBUG_MESSAGES startup_msg: db 'Starting up, DL = ', 0 spec_ok_msg: db 'Loaded spec packet OK, drive = ', 0 secsize_msg: db 'Sector size ', 0 offset_msg: db 'Main image LBA = ', 0 verify_msg: db 'Image csum verified.', CR, LF, 0 allread_msg db 'Image read, jumping to main code...', CR, LF, 0 %endif noinfotable_msg db 'No boot info table, assuming single session disk...', CR, LF, 0 noinfoinspec_msg db 'Spec packet missing LBA information, trying to wing it...', CR, LF, 0 spec_err_msg: db 'Loading spec packet failed, trying to wing it...', CR, LF, 0 maybe_msg: db 'Found something at drive = ', 0 alright_msg: db 'Looks reasonable, continuing...', CR, LF, 0 nospec_msg db 'Extremely broken BIOS detected, last attempt with drive = ', 0 nothing_msg: db 'Failed to locate CD-ROM device; boot failed.', CR, LF trysbm_msg db 'See http://syslinux.zytor.com/sbm for more information.', CR, LF, 0 diskerr_msg: db 'Disk error ', 0 oncall_str: db ', AX = ',0 ondrive_str: db ', drive ', 0 checkerr_msg: db 'Image checksum error, sorry...', CR, LF, 0 err_bootfailed db CR, LF, 'Boot failed: press a key to retry...' bailmsg equ err_bootfailed crlf_msg db CR, LF null_msg db 0 bios_cdrom_str db 'ETCD', 0 %ifndef DEBUG_MESSAGES bios_cbios_str db 'CHDD', 0 bios_ebios_str db 'EHDD' ,0 %endif alignz 4 global bios_cdrom bios_cdrom: dw getlinsec_cdrom, bios_cdrom_str %ifndef DEBUG_MESSAGES bios_cbios: dw getlinsec_cbios, bios_cbios_str bios_ebios: dw getlinsec_ebios, bios_ebios_str %endif ; Maximum transfer size MaxTransfer dw 127 ; Hard disk modes MaxTransferCD dw 32 ; CD mode rl_checkpt equ $ ; Must be <= 800h ; This pads to the end of sector 0 and errors out on ; overflow. times 2048-($-$$) db 0 ; ---------------------------------------------------------------------------- ; End of code and data that have to be in the first sector ; ---------------------------------------------------------------------------- section .text16 all_read: ; Test tracers TRACER 'T' TRACER '>' ; ; Common initialization code ; %include "init.inc" ; Tell the user we got this far... %ifndef DEBUG_MESSAGES ; Gets messy with debugging on mov si,copyright_str pm_call pm_writestr %endif ; ; Now we're all set to start with our *real* business. First load the ; configuration file (if any) and parse it. ; ; In previous versions I avoided using 32-bit registers because of a ; rumour some BIOSes clobbered the upper half of 32-bit registers at ; random. I figure, though, that if there are any of those still left ; they probably won't be trying to install Linux on them... ; ; The code is still ripe with 16-bitisms, though. Not worth the hassle ; to take'm out. In fact, we may want to put them back if we're going ; to boot ELKS at some point. ; ; ; Now, we need to sniff out the actual filesystem data structures. ; mkisofs gave us a pointer to the primary volume descriptor ; (which will be at 16 only for a single-session disk!); from the PVD ; we should be able to find the rest of what we need to know. ; init_fs: pushad mov eax,ROOT_FS_OPS mov dl,[DriveNumber] cmp word [BIOSType],bios_cdrom sete dh ; 1 for cdrom, 0 for hybrid mode jne .hybrid movzx ebp,word [MaxTransferCD] jmp .common .hybrid: movzx ebp,word [MaxTransfer] .common: mov ecx,[Hidden] mov ebx,[Hidden+4] mov si,[bsHeads] mov di,[bsSecPerTrack] pm_call pm_fs_init pm_call load_env32 enter_command: auto_boot: jmp kaboom ; load_env32() should never return. If ; it does, then kaboom! popad section .rodata alignz 4 ROOT_FS_OPS: extern iso_fs_ops dd iso_fs_ops dd 0 section .text16 %ifdef DEBUG_TRACERS ; ; debug hack to print a character with minimal code impact ; debug_tracer: pushad pushfd mov bp,sp mov bx,[bp+9*4] ; Get return address mov al,[cs:bx] ; Get data byte inc word [bp+9*4] ; Return to after data byte call writechr popfd popad ret %endif ; DEBUG_TRACERS section .bss16 alignb 4 ThisKbdTo resd 1 ; Temporary holder for KbdTimeout ThisTotalTo resd 1 ; Temporary holder for TotalTimeout KernelExtPtr resw 1 ; During search, final null pointer FuncFlag resb 1 ; Escape sequences received from keyboard KernelType resb 1 ; Kernel type, from vkernel, if known global KernelName KernelName resb FILENAME_MAX ; Mangled name for kernel section .text16 ; ; COM32 vestigial data structure ; %include "com32.inc" ; ; Common local boot code ; %include "localboot.inc" ; ----------------------------------------------------------------------------- ; Common modules ; ----------------------------------------------------------------------------- %include "common.inc" ; Universal modules ; ----------------------------------------------------------------------------- ; Begin data section ; ----------------------------------------------------------------------------- section .data16 err_disk_image db 'Cannot load disk image (invalid file)?', CR, LF, 0 section .bss16 global OrigFDCTabPtr OrigFDCTabPtr resd 1 ; Keep bios_cleanup_hardware() honest