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linux/arch/arm/vfp/vfpmodule.c
George G. Davis b7d7ef87e1 [ARM] 3499/1: Fix VFP FPSCR corruption for double exception case 
Patch from George G. Davis

The ARM VFP FPSCR register is corrupted when a condition flags modifying
VFP instruction is followed by a non-condition flags modifying VFP
instruction and both instructions raise exceptions.  The fix is to
read the current FPSCR in between emulation of these two instructions
and use the current FPSCR value when handling the second exception.

Signed-off-by: George G. Davis <gdavis@mvista.com>
Signed-off-by: Russell King <rmk+kernel@arm.linux.org.uk>
2006-05-05 22:32:23 +01:00

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/*
* linux/arch/arm/vfp/vfpmodule.c
*
* Copyright (C) 2004 ARM Limited.
* Written by Deep Blue Solutions Limited.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*/
#include <linux/module.h>
#include <linux/config.h>
#include <linux/types.h>
#include <linux/kernel.h>
#include <linux/signal.h>
#include <linux/sched.h>
#include <linux/init.h>
#include <asm/vfp.h>
#include "vfpinstr.h"
#include "vfp.h"
/*
* Our undef handlers (in entry.S)
*/
void vfp_testing_entry(void);
void vfp_support_entry(void);
void (*vfp_vector)(void) = vfp_testing_entry;
union vfp_state *last_VFP_context;
/*
* Dual-use variable.
* Used in startup: set to non-zero if VFP checks fail
* After startup, holds VFP architecture
*/
unsigned int VFP_arch;
/*
* Per-thread VFP initialisation.
*/
void vfp_flush_thread(union vfp_state *vfp)
{
memset(vfp, 0, sizeof(union vfp_state));
vfp->hard.fpexc = FPEXC_ENABLE;
vfp->hard.fpscr = FPSCR_ROUND_NEAREST;
/*
* Disable VFP to ensure we initialise it first.
*/
fmxr(FPEXC, fmrx(FPEXC) & ~FPEXC_ENABLE);
/*
* Ensure we don't try to overwrite our newly initialised
* state information on the first fault.
*/
if (last_VFP_context == vfp)
last_VFP_context = NULL;
}
/*
* Per-thread VFP cleanup.
*/
void vfp_release_thread(union vfp_state *vfp)
{
if (last_VFP_context == vfp)
last_VFP_context = NULL;
}
/*
* Raise a SIGFPE for the current process.
* sicode describes the signal being raised.
*/
void vfp_raise_sigfpe(unsigned int sicode, struct pt_regs *regs)
{
siginfo_t info;
memset(&info, 0, sizeof(info));
info.si_signo = SIGFPE;
info.si_code = sicode;
info.si_addr = (void *)(instruction_pointer(regs) - 4);
/*
* This is the same as NWFPE, because it's not clear what
* this is used for
*/
current->thread.error_code = 0;
current->thread.trap_no = 6;
send_sig_info(SIGFPE, &info, current);
}
static void vfp_panic(char *reason)
{
int i;
printk(KERN_ERR "VFP: Error: %s\n", reason);
printk(KERN_ERR "VFP: EXC 0x%08x SCR 0x%08x INST 0x%08x\n",
fmrx(FPEXC), fmrx(FPSCR), fmrx(FPINST));
for (i = 0; i < 32; i += 2)
printk(KERN_ERR "VFP: s%2u: 0x%08x s%2u: 0x%08x\n",
i, vfp_get_float(i), i+1, vfp_get_float(i+1));
}
/*
* Process bitmask of exception conditions.
*/
static void vfp_raise_exceptions(u32 exceptions, u32 inst, u32 fpscr, struct pt_regs *regs)
{
int si_code = 0;
pr_debug("VFP: raising exceptions %08x\n", exceptions);
if (exceptions == (u32)-1) {
vfp_panic("unhandled bounce");
vfp_raise_sigfpe(0, regs);
return;
}
/*
* If any of the status flags are set, update the FPSCR.
* Comparison instructions always return at least one of
* these flags set.
*/
if (exceptions & (FPSCR_N|FPSCR_Z|FPSCR_C|FPSCR_V))
fpscr &= ~(FPSCR_N|FPSCR_Z|FPSCR_C|FPSCR_V);
fpscr |= exceptions;
fmxr(FPSCR, fpscr);
#define RAISE(stat,en,sig) \
if (exceptions & stat && fpscr & en) \
si_code = sig;
/*
* These are arranged in priority order, least to highest.
*/
RAISE(FPSCR_IXC, FPSCR_IXE, FPE_FLTRES);
RAISE(FPSCR_UFC, FPSCR_UFE, FPE_FLTUND);
RAISE(FPSCR_OFC, FPSCR_OFE, FPE_FLTOVF);
RAISE(FPSCR_IOC, FPSCR_IOE, FPE_FLTINV);
if (si_code)
vfp_raise_sigfpe(si_code, regs);
}
/*
* Emulate a VFP instruction.
*/
static u32 vfp_emulate_instruction(u32 inst, u32 fpscr, struct pt_regs *regs)
{
u32 exceptions = (u32)-1;
pr_debug("VFP: emulate: INST=0x%08x SCR=0x%08x\n", inst, fpscr);
if (INST_CPRTDO(inst)) {
if (!INST_CPRT(inst)) {
/*
* CPDO
*/
if (vfp_single(inst)) {
exceptions = vfp_single_cpdo(inst, fpscr);
} else {
exceptions = vfp_double_cpdo(inst, fpscr);
}
} else {
/*
* A CPRT instruction can not appear in FPINST2, nor
* can it cause an exception. Therefore, we do not
* have to emulate it.
*/
}
} else {
/*
* A CPDT instruction can not appear in FPINST2, nor can
* it cause an exception. Therefore, we do not have to
* emulate it.
*/
}
return exceptions & ~VFP_NAN_FLAG;
}
/*
* Package up a bounce condition.
*/
void VFP9_bounce(u32 trigger, u32 fpexc, struct pt_regs *regs)
{
u32 fpscr, orig_fpscr, exceptions, inst;
pr_debug("VFP: bounce: trigger %08x fpexc %08x\n", trigger, fpexc);
/*
* Enable access to the VFP so we can handle the bounce.
*/
fmxr(FPEXC, fpexc & ~(FPEXC_EXCEPTION|FPEXC_INV|FPEXC_UFC|FPEXC_IOC));
orig_fpscr = fpscr = fmrx(FPSCR);
/*
* If we are running with inexact exceptions enabled, we need to
* emulate the trigger instruction. Note that as we're emulating
* the trigger instruction, we need to increment PC.
*/
if (fpscr & FPSCR_IXE) {
regs->ARM_pc += 4;
goto emulate;
}
barrier();
/*
* Modify fpscr to indicate the number of iterations remaining
*/
if (fpexc & FPEXC_EXCEPTION) {
u32 len;
len = fpexc + (1 << FPEXC_LENGTH_BIT);
fpscr &= ~FPSCR_LENGTH_MASK;
fpscr |= (len & FPEXC_LENGTH_MASK) << (FPSCR_LENGTH_BIT - FPEXC_LENGTH_BIT);
}
/*
* Handle the first FP instruction. We used to take note of the
* FPEXC bounce reason, but this appears to be unreliable.
* Emulate the bounced instruction instead.
*/
inst = fmrx(FPINST);
exceptions = vfp_emulate_instruction(inst, fpscr, regs);
if (exceptions)
vfp_raise_exceptions(exceptions, inst, orig_fpscr, regs);
/*
* If there isn't a second FP instruction, exit now.
*/
if (!(fpexc & FPEXC_FPV2))
return;
/*
* The barrier() here prevents fpinst2 being read
* before the condition above.
*/
barrier();
trigger = fmrx(FPINST2);
orig_fpscr = fpscr = fmrx(FPSCR);
emulate:
exceptions = vfp_emulate_instruction(trigger, fpscr, regs);
if (exceptions)
vfp_raise_exceptions(exceptions, trigger, orig_fpscr, regs);
}
/*
* VFP support code initialisation.
*/
static int __init vfp_init(void)
{
unsigned int vfpsid;
/*
* First check that there is a VFP that we can use.
* The handler is already setup to just log calls, so
* we just need to read the VFPSID register.
*/
vfpsid = fmrx(FPSID);
printk(KERN_INFO "VFP support v0.3: ");
if (VFP_arch) {
printk("not present\n");
} else if (vfpsid & FPSID_NODOUBLE) {
printk("no double precision support\n");
} else {
VFP_arch = (vfpsid & FPSID_ARCH_MASK) >> FPSID_ARCH_BIT; /* Extract the architecture version */
printk("implementor %02x architecture %d part %02x variant %x rev %x\n",
(vfpsid & FPSID_IMPLEMENTER_MASK) >> FPSID_IMPLEMENTER_BIT,
(vfpsid & FPSID_ARCH_MASK) >> FPSID_ARCH_BIT,
(vfpsid & FPSID_PART_MASK) >> FPSID_PART_BIT,
(vfpsid & FPSID_VARIANT_MASK) >> FPSID_VARIANT_BIT,
(vfpsid & FPSID_REV_MASK) >> FPSID_REV_BIT);
vfp_vector = vfp_support_entry;
}
return 0;
}
late_initcall(vfp_init);
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