# ! $Source$ ! $State$ ! $Revision$ ! Declare segments (the order is important). .sect .text .sect .rom .sect .data .sect .bss .sect .text ! Some definitions. BOOT_SEGMENT = 0x07C0 ! Where we've been loaded #define PRINT(N) push ax; push bx; movb ah, 0x0E; movb al, N; mov bx, 0x0007; int 0x10; pop bx; pop ax begtext: ! This code makes up the PC boot sector, and is the first thing on the ! floppy disk. The PC will load this sector to 0x07C0:0000 and jump to it ! with dl set to our drive, but it won't necessarily do it in a sane way ! (some BIOSes jump to 0x0000:7C00 instead). So, we need to fix that. jmpf BOOT_SEGMENT : start2 start2: ! Set up the segment descriptors. We're running in tiny mode, so it's just ! a matter of copying the contents of cs (already been set up by the jmpf) ! into the other registers. mov ax, cs mov ds, ax mov ss, ax ! Defer setting es until after probing the drive. ! Initialise the stack, which will start at the top of our segment and work ! down. mov sp, 0 ! the first push will wrap round to 0xFFFF ! Some more startup housekeeping. sti cld ! We're now set up for actual code. Write out our banner. Remember that ! at this point dl contains our drive number, which we want to keep. mov si, banner_msg call write_string ! Probe the drive to figure out its geometry. ! This might clobber es. push dx mov ax, 0x0800 ! service number int 0x13 mov ax, cs ! restore es mov es, ax pop ax jc cant_boot ! At this point: ! al: current drive ! cl: maximum sector number (bottom six bits) ! dh: maximum head number ! We don't care about the rest. andb cl, 0x3F ! We now need to go through a loop loading each sector in turn. ! During this loop, the registers will be set up as follows: ! al: current cylinder ! ah: maximum head ! bx: address ! cl: current sector (one based) ! ch: maximum sector (one based) ! dl: current drive ! dh: current head ! Why, yes, they are painstakingly shoehorned in to get all the data ! into registers. movb dl, al movb ch, cl movb ah, dh movb al, 0 ! start on cylinder 0 mov bx, 0x0200 ! don't overwrite boot sector movb cl, 2 ! start on sector 2 (skip boot sector) movb dh, 0 ! start on head 0 1: call read_sector ! Next memory area. add bx, 0x0200 cmp bx, enddata ja finished ! Next sector. incb cl cmpb cl, ch jle 1b movb cl, 1 ! back to sector 1 again ! Next head. incb dh cmpb dh, ah jle 1b movb dh, 0 ! back to head 1 again ! Next cylinder. incb al jmp 1b cant_boot: mov si, bootfail_msg call write_string jmp EXIT ! Reads a sector into memory. The parameters are: ! al: cylinder ! bx: address ! cl: sector ! dl: drive ! dh: head ! If an error occurs, it'll automatically try again. And again. ! And again... read_sector: push ax push bx push cx push dx #if 0 push dx xorb dh, dh movb dl, cl call write_hex4 pop dx PRINT(0x20) push dx movb dl, dh xorb dh, dh call write_hex4 pop dx PRINT(0x20) push dx movb dl, al xorb dh, dh call write_hex4 pop dx #endif 1: movb ch, al mov ax, 0x0201 ! service 2, read one sector int 0x13 jc 2f mov ax, 0x0E2E ! write out a . mov bx, 0x0007 ! page 0, white int 0x10 pop dx pop cx pop bx pop ax ret ! If a read fail occurs, the spec (such as it is) states that we need ! to reset the fd controller and try again. 2: push ax push bx mov ax, 0x0E21 ! write out a ! mov bx, 0x0007 ! page 0, white int 0x10 mov ax, 0x0000 int 0x13 pop bx pop ax jmp 1b ! Waits for a keystroke (and then discards it). pause: push ax xorb ah, ah int 0x16 pop ax ret ! This utility writes the string pointed to by ds:si out to the console. write_string: push ax push bx 1: lodsb andb al, al jz 2f movb ah, 0xE ! service mov bx, 0x0007 ! page 0, white int 0x10 jmp 1b 2: pop bx pop ax ret ! Writes out the contents of dx as hex. write_hex4: push ax push cx mov cx, 4 ! 4 hex digits 1: rol dx, 1 ! rotate so that highest 4 bits are at the bottom rol dx, 1 rol dx, 1 rol dx, 1 mov ax, 0xE0F ! ah = request, al = mask for nybble andb al, dl addb al, 0x90 ! convert al to ascii hex (four instructions) daa adcb al, 0x40 daa int 0x10 loop 1b pop cx pop ax ret ! Everything loaded successfully! ! ! We now need to do some setup and start the program itself. finished: mov si, running_msg call write_string ! Wipe the bss. (I'm a little suprised that __m_a_i_n doesn't do this.) mov di, begbss mov cx, endbss sub cx, di mov ax, 0 rep stosb ! Push standard parameters onto the stack and go. mov ax, envp push ax mov ax, argv push ax mov ax, 1 push ax call __m_a_i_n ! fall through into the exit routine. ! Halts, waits for a keypress, and reboots. This also becomes the ! application termination routine. .define __exit .extern __exit .define EXIT .extern EXIT __exit: EXIT: mov si, halted_msg call write_string 1: jmp 1b xor ax, ax int 0x16 ! get key int 0x19 ! reboot ! Some text messages. banner_msg: .asciz 'ACKBOOT\n\r' nl_msg = banner_msg + 7 ! cheap trick bootfail_msg: .asciz 'Unable to boot!\n\r' loading_msg: .asciz '\n\rLoading...\n\r' halted_msg: .asciz '\n\rHalted.\n\r' running_msg: .asciz '\n\rRunning.\n\r' ! The argv and env arrays. argv: .data2 exename, 0 envp: .data2 0 exename: .asciz 'pc86.img' ! A degenerate "hard disk partition table" covering this boot ! sector (possibly needed if booting from a USB drive). .seek 0x1BE .data1 0x80 ! boot indicator (0x80 = active) .data1 0x00 ! partition start head .data1 0x01 ! partition start sector and start track high .data1 0x00 ! partition start track low .data1 0x7F ! OS or filesystem indicator .data1 0xFF ! partition end head .data1 0xFF ! partition end sector and end track high .data1 0xFF ! partition end track low .data4 0 ! partition start LBA .data4 0xFFFFFFFF ! length of partition in sectors ! ...and we need this to fool the PC into booting our boot sector. .seek 0x1FE .data2 0xAA55 ! Define symbols at the beginning of our various segments, so that we can find ! them. (Except .text, which has already been done.) .define begtext, begdata, begbss .sect .data; begdata: .sect .rom; begrom: .sect .bss; begbss: ! Some magic data. All EM systems need these. .define .trppc, .ignmask, _errno .comm .trppc, 4 .comm .ignmask, 4 .comm _errno, 4