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|
/*-------------------------------------------------------------------------+
| start.s v1.1 - PC386 BSP - 1997/08/07
+--------------------------------------------------------------------------+
| This file contains the entry point for the application.
| The name of this entry point is compiler dependent.
| It jumps to the BSP which is responsible for performing all initialization.
+--------------------------------------------------------------------------+
| (C) Copyright 1997 -
| - NavIST Group - Real-Time Distributed Systems and Industrial Automation
|
| http://pandora.ist.utl.pt
|
| Instituto Superior Tecnico * Lisboa * PORTUGAL
+--------------------------------------------------------------------------+
| Modified the 20/05/1998 by valette@crf.canon.fr in order to give a working
| example of eraly stage debugging via the DEBUG_EARLY_START define.
+--------------------------------------------------------------------------+
| Disclaimer:
|
| This file is provided "AS IS" without warranty of any kind, either
| expressed or implied.
+--------------------------------------------------------------------------+
| This code is based on an earlier generation RTEMS i386 start.s and the
| following copyright applies:
|
| **************************************************************************
| * COPYRIGHT (c) 1989-2012.
| * On-Line Applications Research Corporation (OAR).
| *
| * The license and distribution terms for this file may be
| * found in the file LICENSE in this distribution or at
| * http://www.rtems.org/license/LICENSE.
| **************************************************************************
+--------------------------------------------------------------------------*/
/*
* The most trivial start.s possible. It does not know anything
* about system it is running on, so it will jump to appropriate
* place in BSP specific place to do things it knows nothing about
*/
#include <rtems/asm.h>
#include <rtems/score/cpu.h>
#include <bspopts.h>
/*----------------------------------------------------------------------------+
| Size of heap and stack:
+----------------------------------------------------------------------------*/
#ifndef CPU_STACK_ALIGNMENT
#error "Missing header ? CPU_STACK_ALIGNMENT NOT DEFINED"
#endif
/*----------------------------------------------------------------------------+
| CODE section
+----------------------------------------------------------------------------*/
BEGIN_CODE
PUBLIC (start) # GNU default entry point
EXTERN (boot_card)
#if USE_VBE_RM
EXTERN (vesa_realmode_bootup_init)
#endif
EXTERN (_load_segments)
EXTERN (_return_to_monitor)
EXTERN (_IBMPC_initVideo)
EXTERN (debugPollingGetChar)
EXTERN (checkCPUtypeSetCr0)
EXTERN (printk)
#ifdef __SSE__
EXTERN (x86_capability)
#ifdef __SSE3__
EXTERN (x86_capability_x)
#endif
#endif
/*
* In case this crashes on your machine and this is not due
* to video mode set by the loader, you may try to define
* the following variable:
*/
/* #define DEBUG_EARLY_START */
SYM (start):
/*
* When things are really, REALLY!, bad -- turn on the speaker and
* lock up. This shows whether or not we make it to a certain
* location.
*/
#if 0
inb $0x61, al
orb $0x03, al
outb al, $0x61 # enable the speaker
speakl: jmp speakl # and SPIN!!!
#endif
nop
cli # DISABLE INTERRUPTS!!!
cld
/* Save multiboot info if we detect a multiboot loader */
cmp $0x2badb002,eax
jne 2f
/* We have multiboot info; let's hope DS and ES are OK... */
movl ebx, SYM(_boot_multiboot_info_p)
/* Check for memory size info and save */
movl ebx, esi
movl (esi), eax
movl eax, ebx
movl $SYM(_boot_multiboot_info), edi
/* save flags, always present */
movsd
/* flag 1 is memory */
and $1, eax
je 1f
movl $2, ecx
rep movsd
/* flag 2 is the command line */
1: movl ebx, eax
and $4, eax
je 3f
movl (_boot_multiboot_info_p), eax
movl 16(eax), esi
movl $255, ecx
2: movzbl (esi), eax
test al, al
je 3f
movb al, (edi)
inc edi
inc esi
dec ecx
je 3f
jmp 2b
3: xor al, al
movb al, (edi)
#ifdef DEBUG_EARLY_START
/*
* Must get video attribute to have a working printk.
* Note that the following code assume we already have
* valid segments and a stack. It should be true for
* any loader starting RTEMS in protected mode (or
* at least I hope so : -)).
*/
call _IBMPC_initVideo
/*
* try printk and a getchar in polling mode ASAP
*/
movl $welcome_msg, 0(esp)
call printk
addl $4, esp
/* call debugPollingGetChar */
#endif
/*----------------------------------------------------------------------------+
| Load the segment registers (this is done by the board's BSP) and perform any
| other board specific initialization procedures, this piece of code
| does not know anything about
|
| NOTE: Upon return, gs will contain the segment descriptor for a segment which
| maps directly to all of physical memory.
+----------------------------------------------------------------------------*/
jmp SYM (_load_segments) # load board dependent segments
/*----------------------------------------------------------------------------+
| Set up the stack
+----------------------------------------------------------------------------*/
PUBLIC (_establish_stack)
SYM (_establish_stack):
movl $_ISR_Stack_area_begin, eax # eax = end of bss/start of heap
addl $_ISR_Stack_size, eax # make room for stack
subl $4, eax # reserve room for arg to 'boot_card'
andl $ - CPU_STACK_ALIGNMENT, eax # align SP on CPU_STACK_ALIGNMENT boundary
movl eax, esp # set stack pointer
movl eax, ebp # set base pointer
/*----------------------------------------------------------------------------+
| Zero out the BSS segment
+----------------------------------------------------------------------------*/
SYM (zero_bss):
cld # make direction flag count up
movl $ SYM (_end), ecx # find end of .bss
movl $ SYM (__bss_start), edi # edi = beginning of .bss
subl edi, ecx # ecx = size of .bss in bytes
shrl ecx # size of .bss in longs
shrl ecx
xorl eax, eax # value to clear out memory
repne # while ecx != 0
stosl # clear a long in the bss
#if BSP_ENABLE_VGA
/*-------------------------------------------------------------------+
| Initialize the video because zero_bss has cleared initVideo parameters
| if it was called earlier
| So from now we can use printk
+-------------------------------------------------------------------*/
call _IBMPC_initVideo
#if USE_VBE_RM
call vesa_realmode_bootup_init
#endif
#endif
/*---------------------------------------------------------------------+
| Check CPU type. Enable Cache and init coprocessor if needed.
+---------------------------------------------------------------------*/
call checkCPUtypeSetCr0
#ifdef __SSE__
call SYM(enable_sse)
#endif
/*---------------------------------------------------------------------+
| Transfer control to User's Board Support Package
| Note: at the top we reserved space for the argument
| so that
| initial_esp = ( TOS - 4 ) & ~(CPU_STACK_ALIGNMENT-1)
| this ensures that
| 1) esp is now aligned
| 2) there is space for the cmdline pointer which we just
| may store at *(esp)
+---------------------------------------------------------------------*/
movl $SYM(_boot_multiboot_cmdline), (esp)
call SYM (boot_card)
cli # stops interrupts from being processed after hlt!
hlt # shutdown
#ifdef __SSE__
/*--------------------------------------------------------------------+
| Enable SSE; we really only care about fxsave/fxrstor and leave
| The only feature *we* (as an OS) use is fxsave/fxrstor.
| But as a courtesy we make sure we don't execute on hardware
| that doesn't support features possibly used by the compiler.
+---------------------------------------------------------------------*/
PUBLIC (enable_sse)
SYM(enable_sse):
movl SYM (x86_capability), eax
testl $0x01000000, eax
jne 1f
movl $SYM (no_fxsave_msg), 0(esp)
jmp SYM(_sse_panic)
1:
testl $0x02000000, eax
jne 1f
movl $SYM (no_sse_msg), 0(esp)
jmp SYM(_sse_panic)
1:
#ifdef __SSE2__
testl $0x04000000, eax
jne 1f
movl $SYM (no_sse2_msg), 0(esp)
jmp SYM(_sse_panic)
1:
#endif
#ifdef __SSE3__
movl SYM (x86_capability_x), eax
testl $1, eax
jne 1f
movl $SYM (no_sse3_msg), 0(esp)
jmp SYM(_sse_panic)
1:
#endif
mov cr4, eax # OK to enable now
or $0x600, eax
mov eax, cr4
ret
SYM(_sse_panic):
call SYM(printk)
1: hlt
jmp 1b
#endif
END_CODE
BEGIN_DATA
PUBLIC(_boot_multiboot_info_p)
SYM(_boot_multiboot_info_p):
.long 0
PUBLIC(_boot_multiboot_info)
PUBLIC(_boot_multiboot_flags)
PUBLIC(_boot_multiboot_memory)
PUBLIC(_boot_multiboot_cmdline)
SYM(_boot_multiboot_info):
SYM(_boot_multiboot_flags):
.long 0 /* flags */
SYM(_boot_multiboot_memory):
.long 0 /* mem_lower */
.long 0 /* mem_upper */
SYM(_boot_multiboot_cmdline):
.rept 256 /* cmd line */
.byte 0
.endr
#ifdef DEBUG_EARLY_START
PUBLIC (welcome_msg)
SYM (welcome_msg) :
.string "Ready to debug RTEMS ?\nEnter <CR>\n"
PUBLIC (hex_msg)
SYM (hex_msg) :
.string "0x%x\n"
PUBLIC (made_it_msg)
SYM (made_it_msg) :
.string "made it to %d\n"
#endif
#ifdef __SSE__
SYM (no_fxsave_msg) :
.string "PANIC: compiled for SSE but CPU seems to have no FXSAVE/FXRSTOR support (which I need)\n"
SYM (no_sse_msg) :
.string "PANIC: compiled for SSE but your CPU seems to have no SSE support\n"
#ifdef __SSE2__
SYM (no_sse2_msg) :
.string "PANIC: compiled for SSE2 but your CPU seems to have no SSE2 support\n"
#endif
#ifdef __SSE3__
SYM (no_sse3_msg) :
.string "PANIC: compiled for SSE3 but your CPU seems to have no SSE3 support\n"
#endif
#endif
END_DATA
END
|