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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/types.h>
#include <linux/cpu.h>
#include <linux/cpu_pm.h>
#include <linux/hardirq.h>
#include <linux/kernel.h>
#include <linux/notifier.h>
#include <linux/signal.h>
#include <linux/sched.h>
#include <linux/smp.h>
#include <linux/init.h>
#include <linux/uaccess.h>
#include <linux/user.h>

#include <asm/cp15.h>
#include <asm/cputype.h>
#include <asm/system_info.h>
#include <asm/thread_notify.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_null_entry(void);

void (*vfp_vector)(void) = vfp_null_entry;

/*
 * Dual-use variable.
 * Used in startup: set to non-zero if VFP checks fail
 * After startup, holds VFP architecture
 */
unsigned int VFP_arch;

/*
 * The pointer to the vfpstate structure of the thread which currently
 * owns the context held in the VFP hardware, or NULL if the hardware
 * context is invalid.
 *
 * For UP, this is sufficient to tell which thread owns the VFP context.
 * However, for SMP, we also need to check the CPU number stored in the
 * saved state too to catch migrations.
 */
union vfp_state *vfp_current_hw_state[NR_CPUS];

/*
 * Is 'thread's most up to date state stored in this CPUs hardware?
 * Must be called from non-preemptible context.
 */
static bool vfp_state_in_hw(unsigned int cpu, struct thread_info *thread)
{
#ifdef CONFIG_SMP
	if (thread->vfpstate.hard.cpu != cpu)
		return false;
#endif
	return vfp_current_hw_state[cpu] == &thread->vfpstate;
}

/*
 * Force a reload of the VFP context from the thread structure.  We do
 * this by ensuring that access to the VFP hardware is disabled, and
 * clear vfp_current_hw_state.  Must be called from non-preemptible context.
 */
static void vfp_force_reload(unsigned int cpu, struct thread_info *thread)
{
	if (vfp_state_in_hw(cpu, thread)) {
		fmxr(FPEXC, fmrx(FPEXC) & ~FPEXC_EN);
		vfp_current_hw_state[cpu] = NULL;
	}
#ifdef CONFIG_SMP
	thread->vfpstate.hard.cpu = NR_CPUS;
#endif
}

/*
 * Per-thread VFP initialization.
 */
static void vfp_thread_flush(struct thread_info *thread)
{
	union vfp_state *vfp = &thread->vfpstate;
	unsigned int cpu;

	/*
	 * Disable VFP to ensure we initialize it first.  We must ensure
	 * that the modification of vfp_current_hw_state[] and hardware
	 * disable are done for the same CPU and without preemption.
	 *
	 * Do this first to ensure that preemption won't overwrite our
	 * state saving should access to the VFP be enabled at this point.
	 */
	cpu = get_cpu();
	if (vfp_current_hw_state[cpu] == vfp)
		vfp_current_hw_state[cpu] = NULL;
	fmxr(FPEXC, fmrx(FPEXC) & ~FPEXC_EN);
	put_cpu();

	memset(vfp, 0, sizeof(union vfp_state));

	vfp->hard.fpexc = FPEXC_EN;
	vfp->hard.fpscr = FPSCR_ROUND_NEAREST;
#ifdef CONFIG_SMP
	vfp->hard.cpu = NR_CPUS;
#endif
}

static void vfp_thread_exit(struct thread_info *thread)
{
	/* release case: Per-thread VFP cleanup. */
	union vfp_state *vfp = &thread->vfpstate;
	unsigned int cpu = get_cpu();

	if (vfp_current_hw_state[cpu] == vfp)
		vfp_current_hw_state[cpu] = NULL;
	put_cpu();
}

static void vfp_thread_copy(struct thread_info *thread)
{
	struct thread_info *parent = current_thread_info();

	vfp_sync_hwstate(parent);
	thread->vfpstate = parent->vfpstate;
#ifdef CONFIG_SMP
	thread->vfpstate.hard.cpu = NR_CPUS;
#endif
}

/*
 * When this function is called with the following 'cmd's, the following
 * is true while this function is being run:
 *  THREAD_NOFTIFY_SWTICH:
 *   - the previously running thread will not be scheduled onto another CPU.
 *   - the next thread to be run (v) will not be running on another CPU.
 *   - thread->cpu is the local CPU number
 *   - not preemptible as we're called in the middle of a thread switch
 *  THREAD_NOTIFY_FLUSH:
 *   - the thread (v) will be running on the local CPU, so
 *	v === current_thread_info()
 *   - thread->cpu is the local CPU number at the time it is accessed,
 *	but may change at any time.
 *   - we could be preempted if tree preempt rcu is enabled, so
 *	it is unsafe to use thread->cpu.
 *  THREAD_NOTIFY_EXIT
 *   - the thread (v) will be running on the local CPU, so
 *	v === current_thread_info()
 *   - thread->cpu is the local CPU number at the time it is accessed,
 *	but may change at any time.
 *   - we could be preempted if tree preempt rcu is enabled, so
 *	it is unsafe to use thread->cpu.
 */
static int vfp_notifier(struct notifier_block *self, unsigned long cmd, void *v)
{
	struct thread_info *thread = v;
	u32 fpexc;
#ifdef CONFIG_SMP
	unsigned int cpu;
#endif

	switch (cmd) {
	case THREAD_NOTIFY_SWITCH:
		fpexc = fmrx(FPEXC);

#ifdef CONFIG_SMP
		cpu = thread->cpu;

		/*
		 * On SMP, if VFP is enabled, save the old state in
		 * case the thread migrates to a different CPU. The
		 * restoring is done lazily.
		 */
		if ((fpexc & FPEXC_EN) && vfp_current_hw_state[cpu])
			vfp_save_state(vfp_current_hw_state[cpu], fpexc);
#endif

		/*
		 * Always disable VFP so we can lazily save/restore the
		 * old state.
		 */
		fmxr(FPEXC, fpexc & ~FPEXC_EN);
		break;

	case THREAD_NOTIFY_FLUSH:
		vfp_thread_flush(thread);
		break;

	case THREAD_NOTIFY_EXIT:
		vfp_thread_exit(thread);
		break;

	case THREAD_NOTIFY_COPY:
		vfp_thread_copy(thread);
		break;
	}

	return NOTIFY_DONE;
}

static struct notifier_block vfp_notifier_block = {
	.notifier_call	= vfp_notifier,
};

/*
 * Raise a SIGFPE for the current process.
 * sicode describes the signal being raised.
 */
static 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 __user *)(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, u32 inst)
{
	int i;

	pr_err("VFP: Error: %s\n", reason);
	pr_err("VFP: EXC 0x%08x SCR 0x%08x INST 0x%08x\n",
		fmrx(FPEXC), fmrx(FPSCR), inst);
	for (i = 0; i < 32; i += 2)
		pr_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 == VFP_EXCEPTION_ERROR) {
		vfp_panic("unhandled bounce", inst);
		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_DZC, FPSCR_DZE, FPE_FLTDIV);
	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 = VFP_EXCEPTION_ERROR;

	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 VFP_bounce(u32 trigger, u32 fpexc, struct pt_regs *regs)
{
	u32 fpscr, orig_fpscr, fpsid, exceptions;

	pr_debug("VFP: bounce: trigger %08x fpexc %08x\n", trigger, fpexc);

	/*
	 * At this point, FPEXC can have the following configuration:
	 *
	 *  EX DEX IXE
	 *  0   1   x   - synchronous exception
	 *  1   x   0   - asynchronous exception
	 *  1   x   1   - sychronous on VFP subarch 1 and asynchronous on later
	 *  0   0   1   - synchronous on VFP9 (non-standard subarch 1
	 *                implementation), undefined otherwise
	 *
	 * Clear various bits and enable access to the VFP so we can
	 * handle the bounce.
	 */
	fmxr(FPEXC, fpexc & ~(FPEXC_EX|FPEXC_DEX|FPEXC_FP2V|FPEXC_VV|FPEXC_TRAP_MASK));

	fpsid = fmrx(FPSID);
	orig_fpscr = fpscr = fmrx(FPSCR);

	/*
	 * Check for the special VFP subarch 1 and FPSCR.IXE bit case
	 */
	if ((fpsid & FPSID_ARCH_MASK) == (1 << FPSID_ARCH_BIT)
	    && (fpscr & FPSCR_IXE)) {
		/*
		 * Synchronous exception, emulate the trigger instruction
		 */
		goto emulate;
	}

	if (fpexc & FPEXC_EX) {
#ifndef CONFIG_CPU_FEROCEON
		/*
		 * Asynchronous exception. The instruction is read from FPINST
		 * and the interrupted instruction has to be restarted.
		 */
		trigger = fmrx(FPINST);
		regs->ARM_pc -= 4;
#endif
	} else if (!(fpexc & FPEXC_DEX)) {
		/*
		 * Illegal combination of bits. It can be caused by an
		 * unallocated VFP instruction but with FPSCR.IXE set and not
		 * on VFP subarch 1.
		 */
		 vfp_raise_exceptions(VFP_EXCEPTION_ERROR, trigger, fpscr, regs);
		goto exit;
	}

	/*
	 * Modify fpscr to indicate the number of iterations remaining.
	 * If FPEXC.EX is 0, FPEXC.DEX is 1 and the FPEXC.VV bit indicates
	 * whether FPEXC.VECITR or FPSCR.LEN is used.
	 */
	if (fpexc & (FPEXC_EX | FPEXC_VV)) {
		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.
	 */
	exceptions = vfp_emulate_instruction(trigger, fpscr, regs);
	if (exceptions)
		vfp_raise_exceptions(exceptions, trigger, orig_fpscr, regs);

	/*
	 * If there isn't a second FP instruction, exit now. Note that
	 * the FPEXC.FP2V bit is valid only if FPEXC.EX is 1.
	 */
	if ((fpexc & (FPEXC_EX | FPEXC_FP2V)) != (FPEXC_EX | FPEXC_FP2V))
		goto exit;

	/*
	 * The barrier() here prevents fpinst2 being read
	 * before the condition above.
	 */
	barrier();
	trigger = fmrx(FPINST2);

 emulate:
	exceptions = vfp_emulate_instruction(trigger, orig_fpscr, regs);
	if (exceptions)
		vfp_raise_exceptions(exceptions, trigger, orig_fpscr, regs);
 exit:
	preempt_enable();
}

static void vfp_enable(void *unused)
{
	u32 access;

	BUG_ON(preemptible());
	access = get_copro_access();

	/*
	 * Enable full access to VFP (cp10 and cp11)
	 */
	set_copro_access(access | CPACC_FULL(10) | CPACC_FULL(11));
}

#ifdef CONFIG_CPU_PM
static int vfp_pm_suspend(void)
{
	struct thread_info *ti = current_thread_info();
	u32 fpexc = fmrx(FPEXC);

	/* if vfp is on, then save state for resumption */
	if (fpexc & FPEXC_EN) {
		pr_debug("%s: saving vfp state\n", __func__);
		vfp_save_state(&ti->vfpstate, fpexc);

		/* disable, just in case */
		fmxr(FPEXC, fmrx(FPEXC) & ~FPEXC_EN);
	} else if (vfp_current_hw_state[ti->cpu]) {
#ifndef CONFIG_SMP
		fmxr(FPEXC, fpexc | FPEXC_EN);
		vfp_save_state(vfp_current_hw_state[ti->cpu], fpexc);
		fmxr(FPEXC, fpexc);
#endif
	}

	/* clear any information we had about last context state */
	vfp_current_hw_state[ti->cpu] = NULL;

	return 0;
}

static void vfp_pm_resume(void)
{
	/* ensure we have access to the vfp */
	vfp_enable(NULL);

	/* and disable it to ensure the next usage restores the state */
	fmxr(FPEXC, fmrx(FPEXC) & ~FPEXC_EN);
}

static int vfp_cpu_pm_notifier(struct notifier_block *self, unsigned long cmd,
	void *v)
{
	switch (cmd) {
	case CPU_PM_ENTER:
		vfp_pm_suspend();
		break;
	case CPU_PM_ENTER_FAILED:
	case CPU_PM_EXIT:
		vfp_pm_resume();
		break;
	}
	return NOTIFY_OK;
}

static struct notifier_block vfp_cpu_pm_notifier_block = {
	.notifier_call = vfp_cpu_pm_notifier,
};

static void vfp_pm_init(void)
{
	cpu_pm_register_notifier(&vfp_cpu_pm_notifier_block);
}

#else
static inline void vfp_pm_init(void) { }
#endif /* CONFIG_CPU_PM */

/*
 * Ensure that the VFP state stored in 'thread->vfpstate' is up to date
 * with the hardware state.
 */
void vfp_sync_hwstate(struct thread_info *thread)
{
	unsigned int cpu = get_cpu();

	if (vfp_state_in_hw(cpu, thread)) {
		u32 fpexc = fmrx(FPEXC);

		/*
		 * Save the last VFP state on this CPU.
		 */
		fmxr(FPEXC, fpexc | FPEXC_EN);
		vfp_save_state(&thread->vfpstate, fpexc | FPEXC_EN);
		fmxr(FPEXC, fpexc);
	}

	put_cpu();
}

/* Ensure that the thread reloads the hardware VFP state on the next use. */
void vfp_flush_hwstate(struct thread_info *thread)
{
	unsigned int cpu = get_cpu();

	vfp_force_reload(cpu, thread);

	put_cpu();
}

/*
 * Save the current VFP state into the provided structures and prepare
 * for entry into a new function (signal handler).
 */
int vfp_preserve_user_clear_hwstate(struct user_vfp __user *ufp,
				    struct user_vfp_exc __user *ufp_exc)
{
	struct thread_info *thread = current_thread_info();
	struct vfp_hard_struct *hwstate = &thread->vfpstate.hard;
	int err = 0;

	/* Ensure that the saved hwstate is up-to-date. */
	vfp_sync_hwstate(thread);

	/*
	 * Copy the floating point registers. There can be unused
	 * registers see asm/hwcap.h for details.
	 */
	err |= __copy_to_user(&ufp->fpregs, &hwstate->fpregs,
			      sizeof(hwstate->fpregs));
	/*
	 * Copy the status and control register.
	 */
	__put_user_error(hwstate->fpscr, &ufp->fpscr, err);

	/*
	 * Copy the exception registers.
	 */
	__put_user_error(hwstate->fpexc, &ufp_exc->fpexc, err);
	__put_user_error(hwstate->fpinst, &ufp_exc->fpinst, err);
	__put_user_error(hwstate->fpinst2, &ufp_exc->fpinst2, err);

	if (err)
		return -EFAULT;

	/* Ensure that VFP is disabled. */
	vfp_flush_hwstate(thread);

	/*
	 * As per the PCS, clear the length and stride bits for function
	 * entry.
	 */
	hwstate->fpscr &= ~(FPSCR_LENGTH_MASK | FPSCR_STRIDE_MASK);
	return 0;
}

/* Sanitise and restore the current VFP state from the provided structures. */
int vfp_restore_user_hwstate(struct user_vfp __user *ufp,
			     struct user_vfp_exc __user *ufp_exc)
{
	struct thread_info *thread = current_thread_info();
	struct vfp_hard_struct *hwstate = &thread->vfpstate.hard;
	unsigned long fpexc;
	int err = 0;

	/* Disable VFP to avoid corrupting the new thread state. */
	vfp_flush_hwstate(thread);

	/*
	 * Copy the floating point registers. There can be unused
	 * registers see asm/hwcap.h for details.
	 */
	err |= __copy_from_user(&hwstate->fpregs, &ufp->fpregs,
				sizeof(hwstate->fpregs));
	/*
	 * Copy the status and control register.
	 */
	__get_user_error(hwstate->fpscr, &ufp->fpscr, err);

	/*
	 * Sanitise and restore the exception registers.
	 */
	__get_user_error(fpexc, &ufp_exc->fpexc, err);

	/* Ensure the VFP is enabled. */
	fpexc |= FPEXC_EN;

	/* Ensure FPINST2 is invalid and the exception flag is cleared. */
	fpexc &= ~(FPEXC_EX | FPEXC_FP2V);
	hwstate->fpexc = fpexc;

	__get_user_error(hwstate->fpinst, &ufp_exc->fpinst, err);
	__get_user_error(hwstate->fpinst2, &ufp_exc->fpinst2, err);

	return err ? -EFAULT : 0;
}

/*
 * VFP hardware can lose all context when a CPU goes offline.
 * As we will be running in SMP mode with CPU hotplug, we will save the
 * hardware state at every thread switch.  We clear our held state when
 * a CPU has been killed, indicating that the VFP hardware doesn't contain
 * a threads VFP state.  When a CPU starts up, we re-enable access to the
 * VFP hardware.
 *
 * Both CPU_DYING and CPU_STARTING are called on the CPU which
 * is being offlined/onlined.
 */
static int vfp_hotplug(struct notifier_block *b, unsigned long action,
	void *hcpu)
{
	if (action == CPU_DYING || action == CPU_DYING_FROZEN) {
		vfp_force_reload((long)hcpu, current_thread_info());
	} else if (action == CPU_STARTING || action == CPU_STARTING_FROZEN)
		vfp_enable(NULL);
	return NOTIFY_OK;
}

/*
 * VFP support code initialisation.
 */
static int __init vfp_init(void)
{
	unsigned int vfpsid;
	unsigned int cpu_arch = cpu_architecture();

	if (cpu_arch >= CPU_ARCH_ARMv6)
		on_each_cpu(vfp_enable, NULL, 1);

	/*
	 * 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.
	 */
	vfp_vector = vfp_testing_entry;
	barrier();
	vfpsid = fmrx(FPSID);
	barrier();
	vfp_vector = vfp_null_entry;

	pr_info("VFP support v0.3: ");
	if (VFP_arch)
		pr_cont("not present\n");
	else if (vfpsid & FPSID_NODOUBLE) {
		pr_cont("no double precision support\n");
	} else {
		hotcpu_notifier(vfp_hotplug, 0);

		VFP_arch = (vfpsid & FPSID_ARCH_MASK) >> FPSID_ARCH_BIT;  /* Extract the architecture version */
		pr_cont("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;

		thread_register_notifier(&vfp_notifier_block);
		vfp_pm_init();

		/*
		 * We detected VFP, and the support code is
		 * in place; report VFP support to userspace.
		 */
		elf_hwcap |= HWCAP_VFP;
#ifdef CONFIG_VFPv3
		if (VFP_arch >= 2) {
			elf_hwcap |= HWCAP_VFPv3;

			/*
			 * Check for VFPv3 D16 and VFPv4 D16.  CPUs in
			 * this configuration only have 16 x 64bit
			 * registers.
			 */
			if (((fmrx(MVFR0) & MVFR0_A_SIMD_MASK)) == 1)
				elf_hwcap |= HWCAP_VFPv3D16; /* also v4-D16 */
			else
				elf_hwcap |= HWCAP_VFPD32;
		}
#endif
		/*
		 * Check for the presence of the Advanced SIMD
		 * load/store instructions, integer and single
		 * precision floating point operations. Only check
		 * for NEON if the hardware has the MVFR registers.
		 */
		if ((read_cpuid_id() & 0x000f0000) == 0x000f0000) {
#ifdef CONFIG_NEON
			if ((fmrx(MVFR1) & 0x000fff00) == 0x00011100)
				elf_hwcap |= HWCAP_NEON;
#endif
#ifdef CONFIG_VFPv3
			if ((fmrx(MVFR1) & 0xf0000000) == 0x10000000)
				elf_hwcap |= HWCAP_VFPv4;
#endif
		}
	}
	return 0;
}

late_initcall(vfp_init);