reactos/boot/freeldr/bootsect/isoboot.S

1155 lines
34 KiB
ArmAsm

/*
* PROJECT: ReactOS Boot Sector for ISO file system (based on ISOLINUX)
* LICENSE: GPL-2.0+ (https://spdx.org/licenses/GPL-2.0+)
* PURPOSE: Booting ReactOS off a CD-ROM using the El Torito boot standard in "no emulation mode"
* COPYRIGHT: Copyright 1994-2009 H. Peter Anvin
* Copyright 2002 Michael K. Ter Louw
* Copyright 2002 Eric Kohl
* Copyright 2009 Intel Corporation *author: H. Peter Anvin
* Copyright 2011 Timo Kreuzer (timo.kreuzer@reactos.org)
* Copyright 2017 Colin Finck (colin@reactos.org)
*/
/* INCLUDES ******************************************************************/
#include <asm.inc>
#include <freeldr/include/arch/pc/x86common.h>
#ifndef ROS_REGTEST
#define WAIT_FOR_KEY
#endif
.code16
ASSUME CS:.text, DS:.text, ES:.text
/* CONSTANTS ******************************************************************/
BIOS_timer = HEX(046C) // Timer ticks (1 word)
BIOS_magic = HEX(0472) // BIOS reset magic (1 word)
// Memory below this point is reserved for the BIOS and the MBR
trackbuf = HEX(1000) // Track buffer goes here (8192 bytes)
trackbufsize = 8192 // trackbuf ends at 3000h
// struct open_file_t
file_sector = 0 // Sector pointer (0 = structure free)
file_bytesleft = 4 // Number of bytes left
file_left = 8 // Number of sectors left
// Another unused DWORD follows here in ISOLINUX
#define open_file_t_size 16
// struct dir_t
dir_lba = 0 // Directory start (LBA)
dir_len = 4 // Length in bytes
dir_clust = 8 // Length in clusters
#define dir_t_size 12
MAX_OPEN_LG2 = 2 // log2(Max number of open files)
MAX_OPEN = 4
SECTOR_SHIFT = 11 // 2048 bytes/sector (El Torito requirement)
SECTOR_SIZE = 2048
retry_count = 6 // How patient are we with the BIOS?
/* UNINITIALIZED VARIABLES ****************************************************/
absolute HEX(5000) // Here we keep our BSS stuff
resb ISOFileName, 64 // ISO filename canonicalization buffer
resb ISOFileNameEnd, 1
resb CurrentDir, dir_t_size // Current directory
resb RootDir, dir_t_size // Root directory
resb DiskSys, 2 // Last INT 13h call
resb GetlinsecPtr, 2 // The sector-read pointer
resb DiskError, 1 // Error code for disk I/O
resb DriveNumber, 1 // CD-ROM BIOS drive number
resb ISOFlags, 1 // Flags for ISO directory search
resb RetryCount, 1 // Used for disk access retries
//align open_file_t_size
absolute HEX(5070)
resb Files, (MAX_OPEN * open_file_t_size)
/* ENTRY POINTS ***************************************************************/
// Entry point when booted from CD (El Torito standard)
start:
mov bx, offset getlinsec_cdrom
// Fall through
start_common:
// Set up our stack and a flat addressing model.
cli
xor ax, ax
mov ss, ax
mov sp, offset start
mov ds, ax
mov es, ax
mov fs, ax
mov gs, ax
sti
// Our boot sector has been loaded to address 0x7C00.
// Relocate our 2048 bytes boot sector to the given base address (should be 0x7000).
cld
mov cx, 2048 / 4
mov si, HEX(7C00)
mov di, offset start
rep movsd
ljmp16 0, relocated // jump into relocated code
.org 64
hybrid_signature:
.long HEX(7078c0fb)
// Entry point when booted through ISOMBR from a drive (isohybrid mode)
start_hybrid:
mov bx, offset getlinsec_ebios
jmp start_common
relocated:
// Save our passed variables (BX from the entry point, DL from the BIOS) before anybody clobbers the registers.
mov word ptr ds:[GetlinsecPtr], bx
mov byte ptr ds:[DriveNumber], dl
// Make sure the keyboard buffer is empty
call pollchar_and_empty
// If we're booting in hybrid mode and our boot drive is the first HDD (drive 80h),
// we have no other option than booting into SETUPLDR.
cmp word ptr ds:[GetlinsecPtr], offset getlinsec_ebios
jne .read_mbr
cmp byte ptr ds:[DriveNumber], HEX(80)
je .boot_setupldr
.read_mbr:
// Read the first sector (MBR) from the first hard disk (drive 80h) to 7C00h.
// If we then decide to boot from HDD, we already have it at the right place.
// In case of an error (indicated by the Carry Flag), just boot SETUPLDR from our ReactOS medium.
mov ax, HEX(0201)
mov dx, HEX(0080)
mov cx, HEX(0001)
mov bx, HEX(7C00)
call int13
jc .boot_setupldr
// Verify the signature of the read MBR.
// If it's invalid, there is probably no OS installed and we just boot SETUPLDR from our ReactOS medium.
mov ax, word ptr ds:[HEX(7C00)+510]
cmp ax, HEX(AA55)
jne .boot_setupldr
#ifdef WAIT_FOR_KEY
// We could either boot from the ReactOS medium or from hard disk. Let the user decide!
// Display the 'Press key' message.
call crlf_early
mov si, offset presskey_msg
call writestr_early
// Count down 5 seconds.
mov cx, 5
.next_second:
// Count in seconds using the BIOS Timer, which runs roughly at 19 ticks per second.
// Load its value plus one second into EAX for comparison later.
mov eax, ds:[BIOS_timer]
add eax, 19
.poll_again:
// Check for a keypress, boot SETUPLDR from our ReactOS medium if a key was pressed.
call pollchar_and_empty
jnz .boot_setupldr
// Check if another second has passed (in BIOS Timer ticks).
mov ebx, ds:[BIOS_timer]
cmp eax, ebx
jnz .poll_again
// Another second has passed, so print the dot and decrement the second counter.
// If the user hasn't pressed a key after the entire 5 seconds have elapsed, just boot from the first hard disk.
mov si, offset dot_msg
call writestr_early
dec cx
jz .boot_harddisk
jmp .next_second
#endif
.boot_harddisk:
// Restore a clean context for the hard disk MBR and boot the already loaded MBR.
call crlf_early
mov ax, cs
mov ds, ax
mov es, ax
mov fs, ax
mov gs, ax
mov dx, HEX(0080)
ljmp16 0, HEX(7C00)
.boot_setupldr:
#ifdef WAIT_FOR_KEY
call crlf_early
call crlf_early
#endif
// The BIOS gave us a boot drive number, so in a perfect world we could just use that one now.
// Unfortunately, there are many broken BIOSes around, which is why ISOLINUX verifies it and applies some hacks if the number is wrong.
// Let's do exactly the same here to achieve maximum compatibility.
// Don't do this if we are running in hybrid mode.
cmp word ptr ds:[GetlinsecPtr], offset getlinsec_ebios
je found_drive
// Use the INT 13 function 4B01h (Get Disk Emulation Status) to fetch the El Torito Spec Packet.
// We can use this information to verify that our passed boot drive number really belongs to our CD.
mov ax, HEX(4B01)
mov dl, byte ptr ds:[DriveNumber]
mov si, offset spec_packet
call int13
// If this INT 13 function yields an error, we may be on a broken AWARD BIOS.
// Check this and patch if possible.
jc award_hack
// Check that our passed boot drive number and the number in the Spec Packet match.
// If not, try some workarounds to find our drive anyway.
mov dl, byte ptr ds:[DriveNumber]
cmp byte ptr ds:[sp_drive], dl
jne spec_query_failed
found_drive:
// Clear Files structures
mov di, Files
mov cx, (MAX_OPEN*open_file_t_size)/4
xor eax, eax
rep stosd
// Read the entire 2K-sized ISO9660 Primary Volume Descriptor at sector 16 (32K).
// This calculation only holds for single-session ISOs, but we should never encounter anything else.
mov eax, 16
mov bx, trackbuf
call getonesec
// Read the LBA address (offset 2 in the Directory Record) of the root directory (offset 156 in the Primary Volume Descriptor).
mov eax, dword ptr ds:[trackbuf+156+2]
mov dword ptr ds:[RootDir+dir_lba], eax
mov dword ptr ds:[CurrentDir+dir_lba], eax
// Read the data length (offset 10 in the Directory Record) of the root directory (offset 156 in the Primary Volume Descriptor).
mov eax, dword ptr ds:[trackbuf+156+10]
mov dword ptr ds:[RootDir+dir_len], eax
mov dword ptr ds:[CurrentDir+dir_len], eax
// Calculate the number of clusters and write that to our RootDir and CurrentDir structures.
add eax, SECTOR_SIZE-1
shr eax, SECTOR_SHIFT
mov dword ptr ds:[RootDir+dir_clust],eax
mov dword ptr ds:[CurrentDir+dir_clust],eax
// Look for the "LOADER" directory (directory is indicated by AL = 2 when using searchdir_iso).
mov di, offset loader_dir
mov al, 2
call searchdir_iso
jnz .dir_found
// No directory was found, so bail out with an error message.
mov si, offset no_dir_msg
call writemsg
jmp kaboom
.dir_found:
// The directory was found, so update the information in our CurrentDir structure.
// Free the file pointer entry at SI in the process.
mov dword ptr ds:[CurrentDir+dir_len], eax
mov eax, dword ptr ds:[si+file_left]
mov dword ptr ds:[CurrentDir+dir_clust], eax
xor eax, eax
xchg eax, dword ptr ds:[si+file_sector]
mov dword ptr ds:[CurrentDir+dir_lba], eax
// Look for the "SETUPLDR.SYS" file.
mov di, offset setupldr_sys
call searchdir
jnz .setupldr_found
// The SETUPLDR file was not found, so bail out with an error message.
mov si, offset no_setupldr_msg
call writemsg
jmp kaboom
.setupldr_found:
// Calculate the rounded up number of 2K sectors that need to be read.
mov ecx, eax
shr ecx, SECTOR_SHIFT
test eax, HEX(7FF)
jz .load_setupldr
inc ecx
.load_setupldr:
// Load the entire SETUPLDR.SYS (parameter CX = FFFFh) to its designated base address FREELDR_BASE.
// Using a high segment address with offset 0 instead of segment 0 with offset FREELDR_BASE apparently increases compatibility with some BIOSes.
mov bx, FREELDR_BASE / 16
mov es, bx
xor ebx, ebx
mov cx, HEX(FFFF)
call getfssec
// Pass two parameters to SETUPLDR:
// DL = BIOS Drive Number
// DH = Boot Partition (0 for HDD booting in hybrid mode, FFh for CD booting)
movzx dx, byte ptr ds:[DriveNumber]
cmp word ptr ds:[GetlinsecPtr], offset getlinsec_ebios
je .jump_to_setupldr
mov dh, HEX(FF)
.jump_to_setupldr:
// Transfer execution to the bootloader.
ljmp16 0, FREELDR_BASE
/* FUNCTIONS *****************************************************************/
///////////////////////////////////////////////////////////////////////////////
// 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 <direct far>
//
// and use <direct far> 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 ...
//
///////////////////////////////////////////////////////////////////////////////
award_oldint13:
.long 0
award_string:
.byte HEX(0b8),1,2,HEX(0bb),0,HEX(7c),HEX(0b9),6,0,HEX(0ba),HEX(80),1,HEX(09c),HEX(09a)
award_hack:
mov si, offset spec_err_msg // Moved to this place from
call writemsg // spec_query_failed
mov eax, dword ptr ds:[HEX(13)*4]
mov dword ptr ds:[award_oldint13], eax
push es
mov ax, HEX(F000) // ES = BIOS Seg
mov es, ax
cld
xor di, di // start at ES:DI = f000:0
award_loop:
push di // save DI
mov si, offset 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:
mov eax, dword ptr ds:[award_oldint13] // restore the original int
or eax, eax // 13 vector if there is one
jz spec_query_failed // and try other workarounds
mov dword ptr ds:[HEX(13)*4], eax
jmp spec_query_failed
award_found:
mov eax, dword ptr es:[di+HEX(0e)] // load possible int 13 addr
pop es // restore ES
cmp eax, dword ptr ds:[award_oldint13] // give up if this is the
jz award_failed // active int 13 vector,
mov dword ptr ds:[HEX(13)*4], eax // otherwise change 0:13h*4
mov ax, HEX(4B01) // try to read the spec packet
mov dl, byte ptr ds:[DriveNumber] // now ... it should not fail
mov si, offset spec_packet // any longer
int HEX(13)
jc award_fail2
jmp found_drive // and leave error recovery code
///////////////////////////////////////////////////////////////////////////////
// End of BrokenAwardHack ---- 10-nov-2002 Knut_Petersen@t-online.de
///////////////////////////////////////////////////////////////////////////////
// INT 13h, AX=4B01h, DL=<passed in value> failed.
// Try to scan the entire 80h-FFh from the end.
spec_query_failed:
// some code moved to BrokenAwardHack
mov dl, HEX(FF)
.test_loop:
pusha
mov ax, HEX(4B01)
mov si, offset spec_packet
mov byte ptr ds:[si], HEX(13) // Size of buffer
call int13
popa
jc .still_broken
mov si, offset maybe_msg
call writemsg
mov al, dl
call writehex2
call crlf_early
cmp byte ptr ds:[sp_drive], dl
jne .maybe_broken
// Okay, good enough...
mov si, offset alright_msg
call writemsg
.found_drive0:
mov byte ptr ds:[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, byte ptr ds:[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, HEX(80)
cmp al, dl
je .found_drive0
.still_broken:
dec dx
cmp dl, HEX(80)
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, byte ptr ds:[DriveNumber]
cmp dl, HEX(81) // 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, offset nospec_msg
call writemsg
mov al, dl
call writehex2
call crlf_early
jmp .found_drive // Pray that this works...
fatal_error:
mov si, offset nothing_msg
call writemsg
.norge:
jmp short .norge
//
// searchdir:
//
// Open a file
//
// On entry:
// DS:DI = filename
// If successful:
// ZF clear
// SI = file pointer
// EAX = file length in bytes
// If unsuccessful
// ZF set
//
// Assumes CS == DS == ES, and trashes BX and CX.
//
// searchdir_iso is a special entry point for ISOLINUX only. In addition
// to the above, searchdir_iso passes a file flag mask in AL. This is useful
// for searching for directories.
//
alloc_failure:
xor ax, ax // ZF <- 1
ret
searchdir:
xor al, al
searchdir_iso:
mov byte ptr ds:[ISOFlags], al
call allocate_file // Temporary file structure for directory
jnz alloc_failure
push es
push ds
pop es // ES = DS
mov si, offset CurrentDir
cmp byte ptr ds:[di], '/' // If filename begins with slash
jne .not_rooted
inc di // Skip leading slash
mov si, offset RootDir // Reference root directory instead
.not_rooted:
mov eax, dword ptr ds:[si+dir_clust]
mov dword ptr ds:[bx+file_left], eax
shl eax, SECTOR_SHIFT
mov dword ptr ds:[bx+file_bytesleft], eax
mov eax, dword ptr ds:[si+dir_lba]
mov dword ptr ds:[bx+file_sector], eax
mov edx, dword ptr ds:[si+dir_len]
.look_for_slash:
mov ax, di
.scan:
mov cl, byte ptr ds:[di]
inc di
and cl, cl
jz .isfile
cmp cl, '/'
jne .scan
mov byte ptr ds:[di-1], 0 // Terminate at directory name
mov cl, 2 // Search for directory
xchg cl, byte ptr ds:[ISOFlags]
push di // Save these...
push cx
// Create recursion stack frame...
push offset .resume // Where to "return" to
push es
.isfile:
xchg ax, di
.getsome:
// Get a chunk of the directory
// This relies on the fact that ISOLINUX doesn't change SI
mov si, trackbuf
pushad
xchg bx, si
mov cx, word ptr ds:[BufSafe]
call getfssec
popad
.compare:
movzx eax, byte ptr ds:[si] // Length of directory entry
cmp al, 33
jb .next_sector
mov cl, byte ptr ds:[si+25]
xor cl, byte ptr ds:[ISOFlags]
test cl, HEX(8E) // Unwanted file attributes!
jnz .not_file
pusha
movzx cx, byte ptr ds:[si+32] // File identifier length
add si, 33 // File identifier offset
call iso_compare_names
popa
je .success
.not_file:
sub edx, eax // Decrease bytes left
jbe .failure
add si, ax // Advance pointer
.check_overrun:
// Did we finish the buffer?
cmp si, trackbuf+trackbufsize
jb .compare // No, keep going
jmp short .getsome // Get some more directory
.next_sector:
// Advance to the beginning of next sector
lea ax, [si+SECTOR_SIZE-1]
and ax, not (SECTOR_SIZE-1)
sub ax, si
jmp short .not_file // We still need to do length checks
.failure:
xor eax, eax // ZF = 1
mov dword ptr ds:[bx+file_sector], eax
pop es
ret
.success:
mov eax, dword ptr ds:[si+2] // Location of extent
mov dword ptr ds:[bx+file_sector], eax
mov eax, dword ptr ds:[si+10] // Data length
mov dword ptr ds:[bx+file_bytesleft], eax
push eax
add eax, SECTOR_SIZE-1
shr eax, SECTOR_SHIFT
mov dword ptr ds:[bx+file_left], eax
pop eax
jz .failure // Empty file?
// ZF = 0
mov si, bx
pop es
ret
.resume:
// We get here if we were only doing part of a lookup
// This relies on the fact that .success returns bx == si
xchg edx, eax // Directory length in edx
pop cx // Old ISOFlags
pop di // Next filename pointer
mov byte ptr ds:[di-1], '/' // Restore slash
mov byte ptr ds:[ISOFlags], cl // Restore the flags
jz .failure // Did we fail? If so fail for real!
jmp .look_for_slash // Otherwise, next level
//
// allocate_file: Allocate a file structure
//
// If successful:
// ZF set
// BX = file pointer
// In unsuccessful:
// ZF clear
//
allocate_file:
push cx
mov bx, Files
mov cx, MAX_OPEN
.check:
cmp dword ptr ds:[bx], 0
je .found
add bx, open_file_t_size // ZF = 0
loop .check
// ZF = 0 if we fell out of the loop
.found:
pop cx
ret
//
// iso_compare_names:
// Compare the names DS:SI and DS:DI and report if they are
// equal from an ISO 9660 perspective. SI is the name from
// the filesystem; CX indicates its length, and ';' terminates.
// DI is expected to end with a null.
//
// Note: clobbers AX, CX, SI, DI; assumes DS == ES == base segment
//
iso_compare_names:
// First, terminate and canonicalize input filename
push di
mov di, offset ISOFileName
.canon_loop:
jcxz .canon_end
lodsb
dec cx
cmp al, ';'
je .canon_end
and al, al
je .canon_end
stosb
cmp di, offset ISOFileNameEnd-1 // Guard against buffer overrun
jb .canon_loop
.canon_end:
cmp di, ISOFileName
jbe .canon_done
cmp byte ptr ds:[di-1], '.' // Remove terminal dots
jne .canon_done
dec di
jmp short .canon_end
.canon_done:
mov byte ptr ds:[di], 0 // Null-terminate string
pop di
mov si, ISOFileName
.compare2:
lodsb
mov ah, byte ptr ds:[di]
inc di
and ax, ax
jz .success2 // End of string for both
and al, al // Is either one end of string?
jz .failure2 // If so, failure
and ah, ah
jz .failure2
or ax, HEX(2020) // Convert to lower case
cmp al, ah
je .compare2
.failure2:
and ax, ax // ZF = 0 (at least one will be nonzero)
.success2:
ret
//
// getfssec: Get multiple clusters from a file, given the file pointer.
//
// On entry:
// ES:BX -> Buffer
// SI -> File pointer
// CX -> Cluster count
// On exit:
// SI -> File pointer (or 0 on EOF)
// CF = 1 -> Hit EOF
// ECX -> Bytes actually read
//
getfssec:
push ds
push cs
pop ds // DS <- CS
movzx ecx, cx
cmp ecx, dword ptr ds:[si+file_left]
jna .ok_size
mov ecx, dword ptr ds:[si+file_left]
.ok_size:
pushad
mov eax, dword ptr ds:[si+file_sector]
mov bp, cx
call getlinsec
popad
// ECX[31:16] == 0 here...
add dword ptr ds:[si+file_sector], ecx
sub dword ptr ds:[si+file_left], ecx
shl ecx, SECTOR_SHIFT // Convert to bytes
cmp ecx, dword ptr ds:[si+file_bytesleft]
jb .not_all
mov ecx, dword ptr ds:[si+file_bytesleft]
.not_all:
sub dword ptr ds:[si+file_bytesleft], ecx
jnz .ret // CF = 0 in this case...
push eax
xor eax, eax
mov dword ptr ds:[si+file_sector], eax // Unused
mov si, ax
pop eax
stc
.ret:
pop ds
ret
//
// Information message (DS:SI) output
// Prefix with "ISOBOOT: "
//
writemsg:
push ax
push si
mov si, offset isoboot_str
call writestr_early
pop si
call writestr_early
pop ax
ret
writestr_early:
pushfd
pushad
.top:
lodsb
and al, al
jz .end_writestr
call writechr
jmp short .top
.end_writestr:
popad
popfd
ret
crlf_early:
push ax
mov al, 13
call writechr
mov al, 10
call writechr
pop ax
ret
//
// writechr: Write a character to the screen.
//
writechr:
pushfd
pushad
mov ah, HEX(0E)
xor bx, bx
int HEX(10)
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 HEX(13)
mov bp, sp
setc byte ptr ds:[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.
//
getlinsec:
jmp word ptr cs:[GetlinsecPtr]
//
// 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
shl bp, 2
.loop_ebios:
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 16
mov si, sp
pushad
mov dl, byte ptr ds:[DriveNumber]
push ds
push ss
pop ds // DS <- SS
mov ah, HEX(42) // Extended Read
call int13
pop ds
popad
lea sp, [si+16] // Remove DAPA
jc .error_ebios
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
jnc .no_overflow // Check if we have read more than 64K and need to adjust ES
mov di, es
add di, HEX(1000) // Adjust segment by 64K (1000h * 16 = 10000h = 64K + 1)
mov es, di
.no_overflow:
and bp, bp
jnz .loop_ebios
ret
.error_ebios:
pushad // Try resetting the device
xor ax, ax
mov dl, byte ptr ds:[DriveNumber]
call int13
popad
loop .retry // CX-- and jump if not zero
// Total failure.
jmp kaboom
//
// Truncate BP to MaxTransfer
//
maxtrans:
cmp bp, word ptr ds:[MaxTransfer]
jna .ok
mov bp, word ptr ds:[MaxTransfer]
.ok:
ret
//
// This is the variant we use for real CD-ROMs:
// LBA, 2K sectors, some special error handling.
//
getlinsec_cdrom:
mov si, offset dapa // Load up the DAPA
mov word ptr ds:[si+4], bx
mov word ptr ds:[si+6], es
mov dword ptr ds:[si+8], eax
.loop_cdrom:
push bp // Sectors left
cmp bp, word ptr ds:[MaxTransferCD]
jbe .bp_ok
mov bp, word ptr ds:[MaxTransferCD]
.bp_ok:
mov word ptr ds:[si+2], bp
push si
mov dl, byte ptr ds:[DriveNumber]
mov ah, HEX(42) // Extended Read
call xint13
pop si
pop bp
movzx eax, word ptr ds:[si+2] // Sectors we read
add dword ptr ds:[si+8], eax // Advance sector pointer
sub bp, ax // Sectors left
shl ax, SECTOR_SHIFT-4 // 2048-byte sectors -> segment
add word ptr ds:[si+6], ax // Advance buffer pointer
and bp, bp
jnz .loop_cdrom
mov eax, dword ptr ds:[si+8] // Next sector
ret
// INT 13h with retry
xint13:
mov byte ptr ds:[RetryCount], retry_count
.try:
pushad
call int13
jc .error_cdrom
add sp, 8*4 // Clean up stack
ret
.error_cdrom:
mov byte ptr ds:[DiskError], ah // Save error code
popad
mov word ptr ds:[DiskSys], ax // Save system call number
dec byte ptr ds:[RetryCount]
jz .real_error
push ax
mov al, byte ptr ds:[RetryCount]
mov ah, byte ptr ds:[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 byte ptr ds:[MaxTransferCD], ah
mov byte ptr ds:[dapa+2], ah
.again:
pop ax
jmp .try
.real_error:
mov si, offset diskerr_msg
call writemsg
mov al, byte ptr ds:[DiskError]
call writehex2
mov si, offset oncall_str
call writestr_early
mov ax, word ptr ds:[DiskSys]
call writehex4
mov si, offset 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.
//
kaboom:
// Restore a clean context.
mov ax, cs
mov ds, ax
mov es, ax
mov fs, ax
mov gs, ax
sti
// Display the failure message.
mov si, offset err_bootfailed
call writestr_early
// Wait for a keypress.
xor ax, ax
int HEX(16)
// Disable interrupts and reset the system through a magic BIOS call.
cli
mov word ptr ds:[BIOS_magic], 0
ljmp16 HEX(0F000), HEX(0FFF0)
//
// writehex[248]: Write a hex number in (AL, AX, EAX) to the console
//
writehex2:
pushfd
pushad
rol eax, 24
mov cx,2
jmp short writehex_common
writehex4:
pushfd
pushad
rol eax, 16
mov cx, 4
jmp short writehex_common
writehex8:
pushfd
pushad
mov cx, 8
writehex_common:
.loop_writehex:
rol eax, 4
push eax
and al, HEX(0F)
cmp al, 10
jae .high
.low:
add al, '0'
jmp short .ischar
.high:
add al, 'A'-10
.ischar:
call writechr
pop eax
loop .loop_writehex
popad
popfd
ret
//
// pollchar_and_empty: Check if we have an input character pending (ZF = 0)
// and empty the input buffer afterwards.
//
pollchar_and_empty:
pushad
mov ah, 1 // Did the user press a key?
int HEX(16)
jz .end_pollchar // No, then we're done
mov ah, 0 // Otherwise empty the buffer by reading it
int HEX(16)
.end_pollchar:
popad
ret
/* INITIALIZED VARIABLES *****************************************************/
presskey_msg:
.ascii "Press any key to boot from the ReactOS medium", NUL
dot_msg:
.ascii ".", NUL
isoboot_str:
.ascii "ISOBOOT: ", NUL
spec_err_msg:
.ascii "Loading spec packet failed, trying to wing it...", CR, LF, NUL
maybe_msg:
.ascii "Found something at drive = ", NUL
alright_msg:
.ascii "Looks reasonable, continuing...", CR, LF, NUL
nospec_msg:
.ascii "Extremely broken BIOS detected, last attempt with drive = ", NUL
nothing_msg:
.ascii "Failed to locate CD-ROM device; boot failed.", CR, LF, NUL
diskerr_msg:
.ascii "Disk error ", NUL
oncall_str:
.ascii ", AX = ", NUL
ondrive_str:
.ascii ", drive ", NUL
err_bootfailed:
.ascii CR, LF, "Boot failed: press a key to retry...", NUL
loader_dir:
.ascii "/LOADER", NUL
no_dir_msg:
.ascii "LOADER dir not found.", CR, LF, NUL
setupldr_sys:
.ascii "SETUPLDR.SYS", NUL
no_setupldr_msg:
.ascii "SETUPLDR.SYS not found.", CR, LF, NUL
.align 4
BufSafe:
.word trackbufsize/SECTOR_SIZE // Clusters we can load into trackbuf
// Maximum transfer size
.align 4
MaxTransfer:
.word 127 // Hard disk modes
MaxTransferCD:
.word 32 // CD mode
//
// El Torito spec packet
//
.align 8
spec_packet:
.byte HEX(13) // Size of packet
sp_media:
.byte 0 // Media type
sp_drive:
.byte 0 // Drive number
sp_controller:
.byte 0 // Controller index
sp_lba:
.long 0 // LBA for emulated disk image
sp_devspec:
.word 0 // IDE/SCSI information
sp_buffer:
.word 0 // User-provided buffer
sp_loadseg:
.word 0 // Load segment
sp_sectors:
.word 0 // Sector count
sp_chs:
.byte 0,0,0 // Simulated CHS geometry
sp_dummy:
.byte 0 // Scratch, safe to overwrite
//
// EBIOS disk address packet
//
.align 8
dapa:
.word 16 // Packet size
.count:
.word 0 // Block count
.off:
.word 0 // Offset of buffer
.seg:
.word 0 // Segment of buffer
.lba:
.long 0 // LBA (LSW)
.long 0 // LBA (MSW)
// Extend the size to cover one 2K-sized sector
.org 2047
.byte 0
.endcode16
END