# # Copyright (c) 2001-2004 Jakub Jermar # Copyright (c) 2005-2006 Martin Decky # All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions # are met: # # - Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # - Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in the # documentation and/or other materials provided with the distribution. # - The name of the author may not be used to endorse or promote products # derived from this software without specific prior written permission. # # THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR # IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES # OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. # IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, # INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT # NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY # THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF # THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. # #include #include #include #include #define START_STACK (BOOT_OFFSET - BOOT_STACK_SIZE) .section K_TEXT_START, "ax" .code32 .align 4 .global multiboot_image_start multiboot_header: .long MULTIBOOT_HEADER_MAGIC .long MULTIBOOT_HEADER_FLAGS .long -(MULTIBOOT_HEADER_MAGIC + MULTIBOOT_HEADER_FLAGS) # checksum .long multiboot_header .long unmapped_ktext_start .long 0 .long 0 .long multiboot_image_start multiboot_image_start: cld movl $START_STACK, %esp # initialize stack pointer lgdt KA2PA(bootstrap_gdtr) # initialize Global Descriptor Table register movw $selector(KDATA_DES), %cx movw %cx, %es movw %cx, %fs movw %cx, %gs movw %cx, %ds # kernel data + stack movw %cx, %ss jmpl $selector(KTEXT_DES), $multiboot_meeting_point multiboot_meeting_point: movl %eax, grub_eax # save parameters from GRUB movl %ebx, grub_ebx xorl %eax, %eax cpuid cmp $0x0, %eax # any function > 0? jbe pse_unsupported movl $0x1, %eax # Basic function code 1 cpuid bt $3, %edx # Test if PSE is supported jc pse_supported pse_unsupported: movl $pse_msg, %esi jmp error_halt pse_supported: #ifdef CONFIG_FB mov $vesa_init, %esi mov $VESA_INIT_SEGMENT << 4, %edi mov $e_vesa_init - vesa_init, %ecx rep movsb mov $VESA_INIT_SEGMENT << 4, %edi jmpl *%edi vesa_meeting_point: mov %esi, KA2PA(vesa_ph_addr) mov %di, KA2PA(vesa_height) shr $16, %edi mov %di, KA2PA(vesa_width) mov %bx, KA2PA(vesa_scanline) shr $16, %ebx mov %bx, KA2PA(vesa_bpp) #endif call map_kernel # map kernel and turn paging on movl grub_eax, %eax movl grub_ebx, %ebx cmpl $MULTIBOOT_LOADER_MAGIC, %eax # compare GRUB signature je valid_boot xorl %ecx, %ecx # no memory map available movl %ecx, e820counter jmp invalid_boot valid_boot: movl (%ebx), %eax # ebx = physical address of struct multiboot_info bt $3, %eax # mbi->flags[3] (mods_count, mods_addr valid) jc mods_valid xorl %ecx, %ecx movl %ecx, init jmp mods_end mods_valid: movl 20(%ebx), %ecx # mbi->mods_count movl %ecx, init cmpl $0, %ecx je mods_end movl 24(%ebx), %esi # mbi->mods_addr movl $init, %edi mods_loop: movl 0(%esi), %edx # mods->mod_start addl $0x80000000, %edx movl %edx, 4(%edi) movl 4(%esi), %edx subl 0(%esi), %edx # mods->mod_end - mods->mod_start movl %edx, 8(%edi) addl $16, %esi addl $8 , %edi loop mods_loop mods_end: bt $6, %eax # mbi->flags[6] (mmap_length, mmap_addr valid) jc mmap_valid xorl %edx, %edx jmp mmap_invalid mmap_valid: movl 44(%ebx), %ecx # mbi->mmap_length movl 48(%ebx), %esi # mbi->mmap_addr movl $e820table, %edi xorl %edx, %edx mmap_loop: cmpl $0, %ecx jle mmap_end movl 4(%esi), %eax # mmap->base_addr_low movl %eax, (%edi) movl 8(%esi), %eax # mmap->base_addr_high movl %eax, 4(%edi) movl 12(%esi), %eax # mmap->length_low movl %eax, 8(%edi) movl 16(%esi), %eax # mmap->length_high movl %eax, 12(%edi) movl 20(%esi), %eax # mmap->type movl %eax, 16(%edi) movl (%esi), %eax # mmap->size addl $0x4, %eax addl %eax, %esi subl %eax, %ecx addl $MEMMAP_E820_RECORD_SIZE, %edi incl %edx jmp mmap_loop mmap_end: mmap_invalid: movl %edx, e820counter invalid_boot: #ifdef CONFIG_SMP # copy AP bootstrap routines below 1 MB movl $BOOT_OFFSET, %esi movl $AP_BOOT_OFFSET, %edi movl $_hardcoded_unmapped_size, %ecx rep movsb #endif call main_bsp # never returns cli hlt .global map_kernel map_kernel: # # Here we setup mapping for both the unmapped and mapped sections of the kernel. # For simplicity, we map the entire 4G space. # movl %cr4, %ecx orl $(1 << 4), %ecx # turn PSE on andl $(~(1 << 5)), %ecx # turn PAE off movl %ecx, %cr4 movl $(page_directory + 0), %esi movl $(page_directory + 2048), %edi xorl %ecx, %ecx xorl %ebx, %ebx 0: movl $((1 << 7) | (1 << 1) | (1 << 0)), %eax orl %ebx, %eax movl %eax, (%esi, %ecx, 4) # mapping 0x00000000 + %ecx * 4M => 0x00000000 + %ecx * 4M movl %eax, (%edi, %ecx, 4) # mapping 0x80000000 + %ecx * 4M => 0x00000000 + %ecx * 4M addl $(4 * 1024 * 1024), %ebx incl %ecx cmpl $512, %ecx jl 0b movl %esi, %cr3 movl %cr0, %ebx orl $(1 << 31), %ebx # turn paging on movl %ebx, %cr0 ret # Print string from %esi to EGA display (in red) and halt error_halt: movl $0xb8000, %edi # base of EGA text mode memory xorl %eax, %eax movw $0x3d4, %dx # read bits 8 - 15 of the cursor address movb $0xe, %al outb %al, %dx movw $0x3d5, %dx inb %dx, %al shl $8, %ax movw $0x3d4, %dx # read bits 0 - 7 of the cursor address movb $0xf, %al outb %al, %dx movw $0x3d5, %dx inb %dx, %al cmp $1920, %ax jbe cursor_ok movw $1920, %ax # sanity check for the cursor on the last line cursor_ok: movw %ax, %bx shl $1, %eax addl %eax, %edi movw $0x0c00, %ax # black background, light red foreground ploop: lodsb cmp $0, %al je ploop_end stosw inc %bx jmp ploop ploop_end: movw $0x3d4, %dx # write bits 8 - 15 of the cursor address movb $0xe, %al outb %al, %dx movw $0x3d5, %dx movb %bh, %al outb %al, %dx movw $0x3d4, %dx # write bits 0 - 7 of the cursor address movb $0xf, %al outb %al, %dx movw $0x3d5, %dx movb %bl, %al outb %al, %dx cli hlt #ifdef CONFIG_FB vesa_init: jmp $selector(VESA_INIT_DES), $vesa_init_real - vesa_init .code16 vesa_init_real: mov %cr0, %eax and $~1, %eax mov %eax, %cr0 jmp $VESA_INIT_SEGMENT, $vesa_init_real2 - vesa_init vesa_init_real2: mov $VESA_INIT_SEGMENT, %bx mov %bx, %es mov %bx, %fs mov %bx, %gs mov %bx, %ds mov %bx, %ss movl %esp, %eax movl $0x0000fffc, %esp movl $0x0000fffc, %ebp pushl %eax #define VESA_INFO_SIZE 1024 #define VESA_MODE_ATTRIBUTES_OFFSET 0 #define VESA_MODE_LIST_PTR_OFFSET 14 #define VESA_MODE_SCANLINE_OFFSET 16 #define VESA_MODE_WIDTH_OFFSET 18 #define VESA_MODE_HEIGHT_OFFSET 20 #define VESA_MODE_BPP_OFFSET 25 #define VESA_MODE_PHADDR_OFFSET 40 #define VESA_END_OF_MODES 0xffff #define VESA_OK 0x4f #define VESA_GET_INFO 0x4f00 #define VESA_GET_MODE_INFO 0x4f01 #define VESA_SET_MODE 0x4f02 #define VESA_SET_PALETTE 0x4f09 #if CONFIG_VESA_BPP == 24 #define CONFIG_VESA_BPP_VARIANT 32 #endif mov $VESA_GET_INFO, %ax mov $e_vesa_init - vesa_init, %di push %di int $0x10 pop %di cmp $VESA_OK, %al jnz 0f mov 2 + VESA_MODE_LIST_PTR_OFFSET(%di), %si mov %si, %gs mov VESA_MODE_LIST_PTR_OFFSET(%di), %si add $VESA_INFO_SIZE, %di 1:# Try next mode mov %gs:(%si), %cx cmp $VESA_END_OF_MODES, %cx jz 0f inc %si inc %si push %cx push %di push %si mov $VESA_GET_MODE_INFO, %ax int $0x10 pop %si pop %di pop %cx cmp $VESA_OK, %al jnz 0f mov $CONFIG_VESA_WIDTH, %ax cmp VESA_MODE_WIDTH_OFFSET(%di), %ax jnz 1b mov $CONFIG_VESA_HEIGHT, %ax cmp VESA_MODE_HEIGHT_OFFSET(%di), %ax jnz 1b mov $CONFIG_VESA_BPP, %al cmp VESA_MODE_BPP_OFFSET(%di), %al #ifdef CONFIG_VESA_BPP_VARIANT jz 2f mov $CONFIG_VESA_BPP_VARIANT, %al cmp VESA_MODE_BPP_OFFSET(%di), %al #endif jnz 1b 2: mov %cx, %bx or $0xc000, %bx push %di mov $VESA_SET_MODE, %ax int $0x10 pop %di cmp $VESA_OK, %al jnz 0f #if CONFIG_VESA_BPP == 8 # Set 3:2:3 VGA palette mov VESA_MODE_ATTRIBUTES_OFFSET(%di), %ax push %di mov $vga323 - vesa_init, %di mov $0x100, %ecx bt $5, %ax # Test if VGA compatible registers are present jnc vga_compat # Try VESA routine to set palette mov $VESA_SET_PALETTE, %ax xor %bl, %bl xor %dx, %dx int $0x10 cmp $0x00, %ah je vga_not_compat vga_compat: # Try VGA registers to set palette movw $0x3c6, %dx # Set palette mask movb $0xff, %al outb %al, %dx movw $0x3c8, %dx # First index to set xor %al, %al outb %al, %dx movw $0x3c9, %dx # Data port vga_loop: movb %es:2(%di), %al outb %al, %dx movb %es:1(%di), %al outb %al, %dx movb %es:(%di), %al outb %al, %dx addw $4, %di loop vga_loop vga_not_compat: pop %di #endif mov VESA_MODE_PHADDR_OFFSET(%di), %esi mov VESA_MODE_WIDTH_OFFSET(%di), %ax shl $16, %eax mov VESA_MODE_HEIGHT_OFFSET(%di), %ax mov VESA_MODE_BPP_OFFSET(%di), %bl xor %bh, %bh shl $16, %ebx mov VESA_MODE_SCANLINE_OFFSET(%di), %bx mov %eax, %edi 8: mov %cr0, %eax or $1, %eax mov %eax, %cr0 jmp 9f 9: ljmpl $selector(KTEXT_DES), $(vesa_init_protect - vesa_init + VESA_INIT_SEGMENT << 4) 0:# No prefered mode found mov $0x111, %cx push %di push %cx mov $VESA_GET_MODE_INFO, %ax int $0x10 pop %cx pop %di cmp $VESA_OK, %al jnz 1f jz 2b # Force relative jump 1: mov $0x0003, %ax int $0x10 mov $0xffffffff, %edi # EGA text mode used, because of problems with VESA xor %ax, %ax jz 8b # Force relative jump vga323: #include "vga323.pal" .code32 vesa_init_protect: movw $selector(KDATA_DES), %cx movw %cx, %es movw %cx, %fs movw %cx, %gs movw %cx, %ds # kernel data + stack movw %cx, %ss movl $START_STACK, %esp # initialize stack pointer jmpl $selector(KTEXT_DES), $vesa_meeting_point .align 4 e_vesa_init: #endif .section K_DATA_START, "aw", @progbits .align 4096 page_directory: .space 4096, 0 grub_eax: .long 0 grub_ebx: .long 0 pse_msg: .asciz "Page Size Extension not supported. System halted."