linux_old1/arch/v850/kernel/head.S

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/*
* arch/v850/kernel/head.S -- Lowest-level startup code
*
* Copyright (C) 2001,02,03 NEC Electronics Corporation
* Copyright (C) 2001,02,03 Miles Bader <miles@gnu.org>
*
* This file is subject to the terms and conditions of the GNU General
* Public License. See the file COPYING in the main directory of this
* archive for more details.
*
* Written by Miles Bader <miles@gnu.org>
*/
#include <asm/clinkage.h>
#include <asm/current.h>
#include <asm/entry.h>
#include <asm/thread_info.h>
#include <asm/irq.h>
/* Make a slightly more convenient alias for C_SYMBOL_NAME. */
#define CSYM C_SYMBOL_NAME
.text
// Define `mach_early_init' as a weak symbol
.global CSYM(mach_early_init)
.weak CSYM(mach_early_init)
C_ENTRY(start):
// Make sure interrupts are turned off, just in case
di
#ifdef CONFIG_RESET_GUARD
// See if we got here via an unexpected reset
ld.w RESET_GUARD, r19 // Check current value of reset guard
mov RESET_GUARD_ACTIVE, r20
cmp r19, r20
bne 1f // Guard was not active
// If we get here, the reset guard was active. Load up some
// interesting values as arguments, and jump to the handler.
st.w r0, RESET_GUARD // Allow further resets to succeed
mov lp, r6 // Arg 0: return address
ld.b KM, r7 // Arg 1: kernel mode
mov sp, r9 // Arg 3: stack pointer
ld.w KSP, r19 // maybe switch to kernel stack
cmp r7, r0 // see if already in kernel mode
cmov z, r19, sp, sp // and switch to kernel stack if not
GET_CURRENT_TASK(r8) // Arg 2: task pointer
jr CSYM(unexpected_reset)
1: st.w r20, RESET_GUARD // Turn on reset guard
#endif /* CONFIG_RESET_GUARD */
// Setup a temporary stack for doing pre-initialization function calls.
//
// We can't use the initial kernel stack, because (1) it may be
// located in memory we're not allowed to touch, and (2) since
// it's in the data segment, calling memcpy to initialize that
// area from ROM will overwrite memcpy's return address.
mov hilo(CSYM(_init_stack_end) - 4), sp
// See if there's a platform-specific early-initialization routine
// defined; it's a weak symbol, so it will have an address of zero if
// there's not.
mov hilo(CSYM(mach_early_init)), r6
cmp r6, r0
bz 3f
// There is one, so call it. If this function is written in C, it
// should be very careful -- the stack pointer is valid, but very
// little else is (e.g., bss is not zeroed yet, and initialized data
// hasn't been).
jarl 2f, lp // first figure out return address
2: add 3f - ., lp
jmp [r6] // do call
3:
#ifdef CONFIG_ROM_KERNEL
// Copy the data area from ROM to RAM
mov hilo(CSYM(_rom_copy_dst_start)), r6
mov hilo(CSYM(_rom_copy_src_start)), r7
mov hilo(CSYM(_rom_copy_dst_end)), r8
sub r6, r8
jarl CSYM(memcpy), lp
#endif
// Load the initial thread's stack, and current task pointer (in r16)
mov hilo(CSYM(init_thread_union)), r19
movea THREAD_SIZE, r19, sp
ld.w TI_TASK[r19], CURRENT_TASK
#ifdef CONFIG_TIME_BOOTUP
/* This stuff must come after mach_early_init, because interrupts may
not work until after its been called. */
jarl CSYM(highres_timer_reset), lp
jarl CSYM(highres_timer_start), lp
#endif
// Kernel stack pointer save location
st.w sp, KSP
// Assert that we're in `kernel mode'
mov 1, r19
st.w r19, KM
#ifdef CONFIG_ZERO_BSS
// Zero bss area, since we can't rely upon any loader to do so
mov hilo(CSYM(_sbss)), r6
mov r0, r7
mov hilo(CSYM(_ebss)), r8
sub r6, r8
jarl CSYM(memset), lp
#endif
// What happens if the main kernel function returns (it shouldn't)
mov hilo(CSYM(machine_halt)), lp
// Start the linux kernel. We use an indirect jump to get extra
// range, because on some platforms this initial startup code
// (and the associated platform-specific code in mach_early_init)
// are located far away from the main kernel, e.g. so that they
// can initialize RAM first and copy the kernel or something.
mov hilo(CSYM(start_kernel)), r12
jmp [r12]
C_END(start)