# # Copyright (c) 1998 Robert Nordier # All rights reserved. # # Redistribution and use in source and binary forms are freely # permitted provided that the above copyright notice and this # paragraph and the following disclaimer are duplicated in all # such forms. # # This software is provided "AS IS" and without any express or # implied warranties, including, without limitation, the implied # warranties of merchantability and fitness for a particular # purpose. # # $FreeBSD$ # # Prototype BTX loader program, written in a couple of hours. The # real thing should probably be more flexible, and in C. # # # Memory locations. # .set MEM_STUB,0x600 # Real mode stub .set MEM_ESP,0x1000 # New stack pointer .set MEM_TBL,0x5000 # BTX page tables .set MEM_ENTRY,0x9010 # BTX entry point .set MEM_DATA,start+0x1000 # Data segment # # Segment selectors. # .set SEL_SCODE,0x8 # 4GB code .set SEL_SDATA,0x10 # 4GB data .set SEL_RCODE,0x18 # 64K code .set SEL_RDATA,0x20 # 64K data # # Paging constants. # .set PAG_SIZ,0x1000 # Page size .set PAG_ENT,0x4 # Page entry size # # Screen constants. # ifdef(`PC98',` .set SCR_MAT,0xe1 # Mode/attribute ',` .set SCR_MAT,0x7 # Mode/attribute ') .set SCR_COL,0x50 # Columns per row .set SCR_ROW,0x19 # Rows per screen # # BIOS Data Area locations. # ifdef(`PC98',` .set BDA_MEM,0xa1501 # Free memory .set BDA_POS,0xa153e # Cursor position ',` .set BDA_MEM,0x413 # Free memory .set BDA_SCR,0x449 # Video mode .set BDA_POS,0x450 # Cursor position ') # # Required by aout gas inadequacy. # .set SIZ_STUB,0x1a # Size of stub # # We expect to be loaded by boot2 at the origin defined in ./Makefile. # .globl start # # BTX program loader for ELF clients. # start: cld # String ops inc ifdef(`PC98',` cli gdcwait.1: inb $0x60,%al testb $0x04,%al jz gdcwait.1 movb $0xe0,%al outb %al,$0x62 nop gdcwait.2: inb $0x60,%al testb $0x01,%al jz gdcwait.2 inb $0x62,%al movb %al,%dl inb $0x62,%al movb %al,%dh inb $0x62,%al inb $0x62,%al inb $0x62,%al shlw $1,%dx movl $BDA_POS,%ebx movw %dx,(%ebx) ') movl $m_logo,%esi # Identify call putstr # ourselves movzwl BDA_MEM,%eax # Get base memory ifdef(`PC98',` andl $0x7,%eax incl %eax shll $0x11,%eax # in bytes ',` shll $0xa,%eax # in bytes ') movl %eax,%ebp # Base of user stack ifdef(`BTXLDR_VERBOSE',` movl $m_mem,%esi # Display call hexout # amount of call putstr # base memory ') lgdt gdtdesc # Load new GDT # # Relocate caller's arguments. # ifdef('BTXLDR_VERBOSE',` movl $m_esp,%esi # Display movl %esp,%eax # caller call hexout # stack call putstr # pointer movl $m_args,%esi # Format string leal 0x4(%esp,1),%ebx # First argument movl $0x6,%ecx # Count start.1: movl (%ebx),%eax # Get argument and addl $0x4,%ebx # bump pointer call hexout # Display it loop start.1 # Till done call putstr # End message ') movl $0x48,%ecx # Allocate space subl %ecx,%ebp # for bootinfo movl 0x18(%esp,1),%esi # Source: bootinfo cmpl $0x0, %esi # If the bootinfo pointer je start_null_bi # is null, don't copy it movl %ebp,%edi # Destination rep # Copy movsb # it movl %ebp,0x18(%esp,1) # Update pointer ifdef(`BTXLDR_VERBOSE',` movl $m_rel_bi,%esi # Display movl %ebp,%eax # bootinfo call hexout # relocation call putstr # message ') start_null_bi: movl $0x18,%ecx # Allocate space subl %ecx,%ebp # for arguments leal 0x4(%esp,1),%esi # Source movl %ebp,%edi # Destination rep # Copy movsb # them ifdef(`BTXLDR_VERBOSE',` movl $m_rel_args,%esi # Display movl %ebp,%eax # argument call hexout # relocation call putstr # message ') # # Set up BTX kernel. # movl $MEM_ESP,%esp # Set up new stack movl $MEM_DATA,%ebx # Data segment movl $m_vers,%esi # Display BTX call putstr # version message movb 0x5(%ebx),%al # Get major version addb $'0',%al # Display call putchr # it movb $'.',%al # And a call putchr # dot movb 0x6(%ebx),%al # Get minor xorb %ah,%ah # version movb $0xa,%dl # Divide divb %dl,%al # by 10 addb $'0',%al # Display call putchr # tens movb %ah,%al # Get units addb $'0',%al # Display call putchr # units call putstr # End message movl %ebx,%esi # BTX image movzwl 0x8(%ebx),%edi # Compute orl $PAG_SIZ/PAG_ENT-1,%edi # the incl %edi # BTX shll $0x2,%edi # load addl $MEM_TBL,%edi # address pushl %edi # Save load address movzwl 0xa(%ebx),%ecx # Image size ifdef(`BTXLDR_VERBOSE',` pushl %ecx # Save image size ') rep # Relocate movsb # BTX movl %esi,%ebx # Keep place ifdef(`BTXLDR_VERBOSE',` movl $m_rel_btx,%esi # Restore popl %eax # parameters call hexout # and ') popl %ebp # display ifdef(`BTXLDR_VERBOSE',` movl %ebp,%eax # the call hexout # relocation call putstr # message ') addl $PAG_SIZ,%ebp # Display ifdef(`BTXLDR_VERBOSE',` movl $m_base,%esi # the movl %ebp,%eax # user call hexout # base call putstr # address ') # # Set up ELF-format client program. # cmpl $0x464c457f,(%ebx) # ELF magic number? je start.3 # Yes movl $e_fmt,%esi # Display error call putstr # message start.2: jmp start.2 # Hang start.3: ifdef(`BTXLDR_VERBOSE',` movl $m_elf,%esi # Display ELF call putstr # message movl $m_segs,%esi # Format string ') movl $0x2,%edi # Segment count movl 0x1c(%ebx),%edx # Get e_phoff addl %ebx,%edx # To pointer movzwl 0x2c(%ebx),%ecx # Get e_phnum start.4: cmpl $0x1,(%edx) # Is p_type PT_LOAD? jne start.6 # No ifdef(`BTXLDR_VERBOSE',` movl 0x4(%edx),%eax # Display call hexout # p_offset movl 0x8(%edx),%eax # Display call hexout # p_vaddr movl 0x10(%edx),%eax # Display call hexout # p_filesz movl 0x14(%edx),%eax # Display call hexout # p_memsz call putstr # End message ') pushl %esi # Save pushl %edi # working pushl %ecx # registers movl 0x4(%edx),%esi # Get p_offset addl %ebx,%esi # as pointer movl 0x8(%edx),%edi # Get p_vaddr addl %ebp,%edi # as pointer movl 0x10(%edx),%ecx # Get p_filesz rep # Set up movsb # segment movl 0x14(%edx),%ecx # Any bytes subl 0x10(%edx),%ecx # to zero? jz start.5 # No xorb %al,%al # Then rep # zero stosb # them start.5: popl %ecx # Restore popl %edi # working popl %esi # registers decl %edi # Segments to do je start.7 # If none start.6: addl $0x20,%edx # To next entry loop start.4 # Till done start.7: ifdef(`BTXLDR_VERBOSE',` movl $m_done,%esi # Display done call putstr # message ') movl $start.8,%esi # Real mode stub movl $MEM_STUB,%edi # Destination movl $start.9-start.8,%ecx # Size rep # Relocate movsb # it ljmp $SEL_RCODE,$MEM_STUB # To 16-bit code .code16 start.8: xorw %ax,%ax # Data movb $SEL_RDATA,%al # selector movw %ax,%ss # Reload SS movw %ax,%ds # Reset movw %ax,%es # other movw %ax,%fs # segment movw %ax,%gs # limits movl %cr0,%eax # Switch to decw %ax # real movl %eax,%cr0 # mode ljmp $0,$MEM_ENTRY # Jump to BTX entry point start.9: .code32 # # Output message [ESI] followed by EAX in hex. # hexout: pushl %eax # Save call putstr # Display message popl %eax # Restore pushl %esi # Save pushl %edi # caller's movl $buf,%edi # Buffer pushl %edi # Save call hex32 # To hex xorb %al,%al # Terminate stosb # string popl %esi # Restore hexout.1: lodsb # Get a char cmpb $'0',%al # Leading zero? je hexout.1 # Yes testb %al,%al # End of string? jne hexout.2 # No decl %esi # Undo hexout.2: decl %esi # Adjust for inc call putstr # Display hex popl %edi # Restore popl %esi # caller's ret # To caller # # Output zero-terminated string [ESI] to the console. # putstr.0: call putchr # Output char putstr: lodsb # Load char testb %al,%al # End of string? jne putstr.0 # No ret # To caller # # Output character AL to the console. # putchr: pusha # Save xorl %ecx,%ecx # Zero for loops movb $SCR_MAT,%ah # Mode/attribute movl $BDA_POS,%ebx # BDA pointer movw (%ebx),%dx # Cursor position ifdef(`PC98',` movl $0xa0000,%edi # Regen buffer (color) ',` movl $0xb8000,%edi # Regen buffer (color) cmpb %ah,BDA_SCR-BDA_POS(%ebx) # Mono mode? jne putchr.1 # No xorw %di,%di # Regen buffer (mono) ') putchr.1: cmpb $0xa,%al # New line? je putchr.2 # Yes ifdef(`PC98',` movw %dx,%cx movb %al,(%edi,%ecx,1) # Write char addl $0x2000,%ecx movb %ah,(%edi,%ecx,1) # Write attr addw $0x2,%dx jmp putchr.3 putchr.2: movw %dx,%ax movb $SCR_COL*2,%dl div %dl incb %al mul %dl movw %ax,%dx putchr.3: cmpw $SCR_COL*SCR_ROW*2,%dx ',` xchgl %eax,%ecx # Save char movb $SCR_COL,%al # Columns per row mulb %dh # * row position addb %dl,%al # + column adcb $0x0,%ah # position shll %eax # * 2 xchgl %eax,%ecx # Swap char, offset movw %ax,(%edi,%ecx,1) # Write attr:char incl %edx # Bump cursor cmpb $SCR_COL,%dl # Beyond row? jb putchr.3 # No putchr.2: xorb %dl,%dl # Zero column incb %dh # Bump row putchr.3: cmpb $SCR_ROW,%dh # Beyond screen? ') jb putchr.4 # No leal 2*SCR_COL(%edi),%esi # New top line movw $(SCR_ROW-1)*SCR_COL/2,%cx # Words to move rep # Scroll movsl # screen movb $' ',%al # Space ifdef(`PC98',` xorb %ah,%ah ') movb $SCR_COL,%cl # Columns to clear rep # Clear stosw # line ifdef(`PC98',` movw $(SCR_ROW-1)*SCR_COL*2,%dx putchr.4: movw %dx,(%ebx) # Update position shrw $1,%dx gdcwait.3: inb $0x60,%al testb $0x04,%al jz gdcwait.3 movb $0x49,%al outb %al,$0x62 movb %dl,%al outb %al,$0x60 movb %dh,%al outb %al,$0x60 ',` movb $SCR_ROW-1,%dh # Bottom line putchr.4: movw %dx,(%ebx) # Update position ') popa # Restore ret # To caller # # Convert EAX, AX, or AL to hex, saving the result to [EDI]. # hex32: pushl %eax # Save shrl $0x10,%eax # Do upper call hex16 # 16 popl %eax # Restore hex16: call hex16.1 # Do upper 8 hex16.1: xchgb %ah,%al # Save/restore hex8: pushl %eax # Save shrb $0x4,%al # Do upper call hex8.1 # 4 popl %eax # Restore hex8.1: andb $0xf,%al # Get lower 4 cmpb $0xa,%al # Convert sbbb $0x69,%al # to hex das # digit orb $0x20,%al # To lower case stosb # Save char ret # (Recursive) .data .p2align 4 # # Global descriptor table. # gdt: .word 0x0,0x0,0x0,0x0 # Null entry .word 0xffff,0x0,0x9a00,0xcf # SEL_SCODE .word 0xffff,0x0,0x9200,0xcf # SEL_SDATA .word 0xffff,0x0,0x9a00,0x0 # SEL_RCODE .word 0xffff,0x0,0x9200,0x0 # SEL_RDATA gdt.1: gdtdesc: .word gdt.1-gdt-1 # Limit .long gdt # Base # # Messages. # m_logo: .asciz " \nBTX loader 1.00 " m_vers: .asciz "BTX version is \0\n" e_fmt: .asciz "Error: Client format not supported\n" ifdef(`BTXLDR_VERBOSE',` m_mem: .asciz "Starting in protected mode (base mem=\0)\n" m_esp: .asciz "Arguments passed (esp=\0):\n" m_args: .asciz"\n" m_rel_bi: .asciz "Relocated bootinfo (size=48) to \0\n" m_rel_args: .asciz "Relocated arguments (size=18) to \0\n" m_rel_btx: .asciz "Relocated kernel (size=\0) to \0\n" m_base: .asciz "Client base address is \0\n" m_elf: .asciz "Client format is ELF\n" m_segs: .asciz "text segment: offset=" .asciz " vaddr=" .asciz " filesz=" .asciz " memsz=\0\n" .asciz "data segment: offset=" .asciz " vaddr=" .asciz " filesz=" .asciz " memsz=\0\n" m_done: .asciz "Loading complete\n" ') # # Uninitialized data area. # buf: # Scratch buffer