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linux-next/arch/tile/kernel/entry.S

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/*
* Copyright 2010 Tilera Corporation. All Rights Reserved.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation, version 2.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, GOOD TITLE or
* NON INFRINGEMENT. See the GNU General Public License for
* more details.
*/
#include <linux/linkage.h>
#include <arch/abi.h>
#include <asm/unistd.h>
#include <asm/irqflags.h>
#ifdef __tilegx__
#define bnzt bnezt
#endif
STD_ENTRY(current_text_addr)
{ move r0, lr; jrp lr }
STD_ENDPROC(current_text_addr)
STD_ENTRY(_sim_syscall)
/*
* Wait for r0-r9 to be ready (and lr on the off chance we
* want the syscall to locate its caller), then make a magic
* simulator syscall.
*
* We carefully stall until the registers are readable in case they
* are the target of a slow load, etc. so that tile-sim will
* definitely be able to read all of them inside the magic syscall.
*
* Technically this is wrong for r3-r9 and lr, since an interrupt
* could come in and restore the registers with a slow load right
* before executing the mtspr. We may need to modify tile-sim to
* explicitly stall for this case, but we do not yet have
* a way to implement such a stall.
*/
{ and zero, lr, r9 ; and zero, r8, r7 }
{ and zero, r6, r5 ; and zero, r4, r3 }
{ and zero, r2, r1 ; mtspr SIM_CONTROL, r0 }
{ jrp lr }
STD_ENDPROC(_sim_syscall)
/*
* Implement execve(). The i386 code has a note that forking from kernel
* space results in no copy on write until the execve, so we should be
* careful not to write to the stack here.
*/
STD_ENTRY(kernel_execve)
moveli TREG_SYSCALL_NR_NAME, __NR_execve
swint1
jrp lr
STD_ENDPROC(kernel_execve)
/* Delay a fixed number of cycles. */
STD_ENTRY(__delay)
{ addi r0, r0, -1; bnzt r0, . }
jrp lr
STD_ENDPROC(__delay)
/*
* We don't run this function directly, but instead copy it to a page
* we map into every user process. See vdso_setup().
*
* Note that libc has a copy of this function that it uses to compare
* against the PC when a stack backtrace ends, so if this code is
* changed, the libc implementation(s) should also be updated.
*/
.pushsection .data
ENTRY(__rt_sigreturn)
moveli TREG_SYSCALL_NR_NAME,__NR_rt_sigreturn
swint1
ENDPROC(__rt_sigreturn)
ENTRY(__rt_sigreturn_end)
.popsection
STD_ENTRY(dump_stack)
{ move r2, lr; lnk r1 }
{ move r4, r52; addli r1, r1, dump_stack - . }
{ move r3, sp; j _dump_stack }
jrp lr /* keep backtracer happy */
STD_ENDPROC(dump_stack)
STD_ENTRY(KBacktraceIterator_init_current)
{ move r2, lr; lnk r1 }
{ move r4, r52; addli r1, r1, KBacktraceIterator_init_current - . }
{ move r3, sp; j _KBacktraceIterator_init_current }
jrp lr /* keep backtracer happy */
STD_ENDPROC(KBacktraceIterator_init_current)
/*
* Reset our stack to r1/r2 (sp and ksp0+cpu respectively), then
* free the old stack (passed in r0) and re-invoke cpu_idle().
* We update sp and ksp0 simultaneously to avoid backtracer warnings.
*/
STD_ENTRY(cpu_idle_on_new_stack)
{
move sp, r1
mtspr SYSTEM_SAVE_1_0, r2
}
jal free_thread_info
j cpu_idle
STD_ENDPROC(cpu_idle_on_new_stack)
/* Loop forever on a nap during SMP boot. */
STD_ENTRY(smp_nap)
nap
j smp_nap /* we are not architecturally guaranteed not to exit nap */
jrp lr /* clue in the backtracer */
STD_ENDPROC(smp_nap)
/*
* Enable interrupts racelessly and then nap until interrupted.
* This function's _cpu_idle_nap address is special; see intvec.S.
* When interrupted at _cpu_idle_nap, we bump the PC forward 8, and
* as a result return to the function that called _cpu_idle().
*/
STD_ENTRY(_cpu_idle)
{
lnk r0
movei r1, 1
}
{
addli r0, r0, _cpu_idle_nap - .
mtspr INTERRUPT_CRITICAL_SECTION, r1
}
IRQ_ENABLE(r2, r3) /* unmask, but still with ICS set */
mtspr EX_CONTEXT_1_1, r1 /* PL1, ICS clear */
mtspr EX_CONTEXT_1_0, r0
iret
.global _cpu_idle_nap
_cpu_idle_nap:
nap
jrp lr
STD_ENDPROC(_cpu_idle)