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/*
 *  ARM helper routines
 *
 *  Copyright (c) 2005-2007 CodeSourcery, LLC
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2 of the License, or (at your option) any later version.
 *
 * This library 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.  See the GNU
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston MA  02110-1301 USA
 */
#include "exec.h"
#include "helpers.h"

#define SIGNBIT (uint32_t)0x80000000
#define SIGNBIT64 ((uint64_t)1 << 63)

void raise_exception(int tt)
{
    env->exception_index = tt;
    cpu_loop_exit();
}

/* thread support */

static spinlock_t global_cpu_lock = SPIN_LOCK_UNLOCKED;

void cpu_lock(void)
{
    spin_lock(&global_cpu_lock);
}

void cpu_unlock(void)
{
    spin_unlock(&global_cpu_lock);
}

uint32_t HELPER(neon_tbl)(uint32_t ireg, uint32_t def,
                          uint32_t rn, uint32_t maxindex)
{
    uint32_t val;
    uint32_t tmp;
    int index;
    int shift;
    uint64_t *table;
    table = (uint64_t *)&env->vfp.regs[rn];
    val = 0;
    for (shift = 0; shift < 32; shift += 8) {
        index = (ireg >> shift) & 0xff;
        if (index < maxindex) {
            tmp = (table[index >> 3] >> ((index & 7) << 3)) & 0xff;
            val |= tmp << shift;
        } else {
            val |= def & (0xff << shift);
        }
    }
    return val;
}

#if !defined(CONFIG_USER_ONLY)

static void do_unaligned_access (target_ulong addr, int is_write, int is_user, void *retaddr);

#define MMUSUFFIX _mmu
//#define ALIGNED_ONLY  1

#define SHIFT 0
#include "softmmu_template.h"

#define SHIFT 1
#include "softmmu_template.h"

#define SHIFT 2
#include "softmmu_template.h"

#define SHIFT 3
#include "softmmu_template.h"

static void do_unaligned_access (target_ulong addr, int is_write, int mmu_idx, void *retaddr)
{
    //printf("::UNALIGNED:: addr=%lx is_write=%d is_user=%d retaddr=%p\n", addr, is_write, is_user, retaddr);
    if (mmu_idx)
    {
        env = cpu_single_env;
        env->cp15.c5_data = 0x00000001;  /* corresponds to an alignment fault */
        env->cp15.c6_data = addr;
        env->exception_index = EXCP_DATA_ABORT;
        cpu_loop_exit();
    }
}

/* try to fill the TLB and return an exception if error. If retaddr is
   NULL, it means that the function was called in C code (i.e. not
   from generated code or from helper.c) */
/* XXX: fix it to restore all registers */
void tlb_fill (target_ulong addr, int is_write, int mmu_idx, void *retaddr)
{
    TranslationBlock *tb;
    CPUState *saved_env;
    unsigned long pc;
    int ret;

    /* XXX: hack to restore env in all cases, even if not called from
       generated code */
    saved_env = env;
    env = cpu_single_env;
    ret = cpu_arm_handle_mmu_fault(env, addr, is_write, mmu_idx, 1);
    if (unlikely(ret)) {
        if (retaddr) {
            /* now we have a real cpu fault */
            pc = (unsigned long)retaddr;
            tb = tb_find_pc(pc);
            if (tb) {
                /* the PC is inside the translated code. It means that we have
                   a virtual CPU fault */
                cpu_restore_state(tb, env, pc, NULL);
            }
        }
        raise_exception(env->exception_index);
    }
    env = saved_env;
}

/* copy a string from the simulated virtual space to a buffer in QEMU */
void vstrcpy(target_ulong ptr, char *buf, int max)
{
    int  index;

    if (buf == NULL) return;

    for (index = 0; index < max; index += 1) {
        cpu_physical_memory_read(ptr + index, buf + index, 1);
        if (buf[index] == 0)
            break;
    }
}
#endif

/* FIXME: Pass an axplicit pointer to QF to CPUState, and move saturating
   instructions into helper.c  */
uint32_t HELPER(add_setq)(uint32_t a, uint32_t b)
{
    uint32_t res = a + b;
    if (((res ^ a) & SIGNBIT) && !((a ^ b) & SIGNBIT))
        env->QF = 1;
    return res;
}

uint32_t HELPER(add_saturate)(uint32_t a, uint32_t b)
{
    uint32_t res = a + b;
    if (((res ^ a) & SIGNBIT) && !((a ^ b) & SIGNBIT)) {
        env->QF = 1;
        res = ~(((int32_t)a >> 31) ^ SIGNBIT);
    }
    return res;
}

uint32_t HELPER(sub_saturate)(uint32_t a, uint32_t b)
{
    uint32_t res = a - b;
    if (((res ^ a) & SIGNBIT) && ((a ^ b) & SIGNBIT)) {
        env->QF = 1;
        res = ~(((int32_t)a >> 31) ^ SIGNBIT);
    }
    return res;
}

uint32_t HELPER(double_saturate)(int32_t val)
{
    uint32_t res;
    if (val >= 0x40000000) {
        res = ~SIGNBIT;
        env->QF = 1;
    } else if (val <= (int32_t)0xc0000000) {
        res = SIGNBIT;
        env->QF = 1;
    } else {
        res = val << 1;
    }
    return res;
}

uint32_t HELPER(add_usaturate)(uint32_t a, uint32_t b)
{
    uint32_t res = a + b;
    if (res < a) {
        env->QF = 1;
        res = ~0;
    }
    return res;
}

uint32_t HELPER(sub_usaturate)(uint32_t a, uint32_t b)
{
    uint32_t res = a - b;
    if (res > a) {
        env->QF = 1;
        res = 0;
    }
    return res;
}

/* Signed saturation.  */
static inline uint32_t do_ssat(int32_t val, int shift)
{
    int32_t top;
    uint32_t mask;

    top = val >> shift;
    mask = (1u << shift) - 1;
    if (top > 0) {
        env->QF = 1;
        return mask;
    } else if (top < -1) {
        env->QF = 1;
        return ~mask;
    }
    return val;
}

/* Unsigned saturation.  */
static inline uint32_t do_usat(int32_t val, int shift)
{
    uint32_t max;

    max = (1u << shift) - 1;
    if (val < 0) {
        env->QF = 1;
        return 0;
    } else if (val > max) {
        env->QF = 1;
        return max;
    }
    return val;
}

/* Signed saturate.  */
uint32_t HELPER(ssat)(uint32_t x, uint32_t shift)
{
    return do_ssat(x, shift);
}

/* Dual halfword signed saturate.  */
uint32_t HELPER(ssat16)(uint32_t x, uint32_t shift)
{
    uint32_t res;

    res = (uint16_t)do_ssat((int16_t)x, shift);
    res |= do_ssat(((int32_t)x) >> 16, shift) << 16;
    return res;
}

/* Unsigned saturate.  */
uint32_t HELPER(usat)(uint32_t x, uint32_t shift)
{
    return do_usat(x, shift);
}

/* Dual halfword unsigned saturate.  */
uint32_t HELPER(usat16)(uint32_t x, uint32_t shift)
{
    uint32_t res;

    res = (uint16_t)do_usat((int16_t)x, shift);
    res |= do_usat(((int32_t)x) >> 16, shift) << 16;
    return res;
}

void HELPER(wfi)(void)
{
    env->exception_index = EXCP_HLT;
    env->halted = 1;
    cpu_loop_exit();
}

void HELPER(exception)(uint32_t excp)
{
    env->exception_index = excp;
    cpu_loop_exit();
}

uint32_t HELPER(cpsr_read)(void)
{
    return cpsr_read(env) & ~CPSR_EXEC;
}

void HELPER(cpsr_write)(uint32_t val, uint32_t mask)
{
    cpsr_write(env, val, mask);
}

/* Access to user mode registers from privileged modes.  */
uint32_t HELPER(get_user_reg)(uint32_t regno)
{
    uint32_t val;

    if (regno == 13) {
        val = env->banked_r13[0];
    } else if (regno == 14) {
        val = env->banked_r14[0];
    } else if (regno >= 8
               && (env->uncached_cpsr & 0x1f) == ARM_CPU_MODE_FIQ) {
        val = env->usr_regs[regno - 8];
    } else {
        val = env->regs[regno];
    }
    return val;
}

void HELPER(set_user_reg)(uint32_t regno, uint32_t val)
{
    if (regno == 13) {
        env->banked_r13[0] = val;
    } else if (regno == 14) {
        env->banked_r14[0] = val;
    } else if (regno >= 8
               && (env->uncached_cpsr & 0x1f) == ARM_CPU_MODE_FIQ) {
        env->usr_regs[regno - 8] = val;
    } else {
        env->regs[regno] = val;
    }
}

/* ??? Flag setting arithmetic is awkward because we need to do comparisons.
   The only way to do that in TCG is a conditional branch, which clobbers
   all our temporaries.  For now implement these as helper functions.  */

uint32_t HELPER (add_cc)(uint32_t a, uint32_t b)
{
    uint32_t result;
    result = a + b;
    env->NF = env->ZF = result;
    env->CF = result < a;
    env->VF = (a ^ b ^ -1) & (a ^ result);
    return result;
}

uint32_t HELPER(adc_cc)(uint32_t a, uint32_t b)
{
    uint32_t result;
    if (!env->CF) {
        result = a + b;
        env->CF = result < a;
    } else {
        result = a + b + 1;
        env->CF = result <= a;
    }
    env->VF = (a ^ b ^ -1) & (a ^ result);
    env->NF = env->ZF = result;
    return result;
}

uint32_t HELPER(sub_cc)(uint32_t a, uint32_t b)
{
    uint32_t result;
    result = a - b;
    env->NF = env->ZF = result;
    env->CF = a >= b;
    env->VF = (a ^ b) & (a ^ result);
    return result;
}

uint32_t HELPER(sbc_cc)(uint32_t a, uint32_t b)
{
    uint32_t result;
    if (!env->CF) {
        result = a - b - 1;
        env->CF = a > b;
    } else {
        result = a - b;
        env->CF = a >= b;
    }
    env->VF = (a ^ b) & (a ^ result);
    env->NF = env->ZF = result;
    return result;
}

/* Similarly for variable shift instructions.  */

uint32_t HELPER(shl)(uint32_t x, uint32_t i)
{
    int shift = i & 0xff;
    if (shift >= 32)
        return 0;
    return x << shift;
}

uint32_t HELPER(shr)(uint32_t x, uint32_t i)
{
    int shift = i & 0xff;
    if (shift >= 32)
        return 0;
    return (uint32_t)x >> shift;
}

uint32_t HELPER(sar)(uint32_t x, uint32_t i)
{
    int shift = i & 0xff;
    if (shift >= 32)
        shift = 31;
    return (int32_t)x >> shift;
}

uint32_t HELPER(ror)(uint32_t x, uint32_t i)
{
    int shift = i & 0xff;
    if (shift == 0)
        return x;
    return (x >> shift) | (x << (32 - shift));
}

uint32_t HELPER(shl_cc)(uint32_t x, uint32_t i)
{
    int shift = i & 0xff;
    if (shift >= 32) {
        if (shift == 32)
            env->CF = x & 1;
        else
            env->CF = 0;
        return 0;
    } else if (shift != 0) {
        env->CF = (x >> (32 - shift)) & 1;
        return x << shift;
    }
    return x;
}

uint32_t HELPER(shr_cc)(uint32_t x, uint32_t i)
{
    int shift = i & 0xff;
    if (shift >= 32) {
        if (shift == 32)
            env->CF = (x >> 31) & 1;
        else
            env->CF = 0;
        return 0;
    } else if (shift != 0) {
        env->CF = (x >> (shift - 1)) & 1;
        return x >> shift;
    }
    return x;
}

uint32_t HELPER(sar_cc)(uint32_t x, uint32_t i)
{
    int shift = i & 0xff;
    if (shift >= 32) {
        env->CF = (x >> 31) & 1;
        return (int32_t)x >> 31;
    } else if (shift != 0) {
        env->CF = (x >> (shift - 1)) & 1;
        return (int32_t)x >> shift;
    }
    return x;
}

uint32_t HELPER(ror_cc)(uint32_t x, uint32_t i)
{
    int shift1, shift;
    shift1 = i & 0xff;
    shift = shift1 & 0x1f;
    if (shift == 0) {
        if (shift1 != 0)
            env->CF = (x >> 31) & 1;
        return x;
    } else {
        env->CF = (x >> (shift - 1)) & 1;
        return ((uint32_t)x >> shift) | (x << (32 - shift));
    }
}

uint64_t HELPER(neon_add_saturate_s64)(uint64_t src1, uint64_t src2)
{
    uint64_t res;

    res = src1 + src2;
    if (((res ^ src1) & SIGNBIT64) && !((src1 ^ src2) & SIGNBIT64)) {
        env->QF = 1;
        res = ((int64_t)src1 >> 63) ^ ~SIGNBIT64;
    }
    return res;
}

uint64_t HELPER(neon_add_saturate_u64)(uint64_t src1, uint64_t src2)
{
    uint64_t res;

    res = src1 + src2;
    if (res < src1) {
        env->QF = 1;
        res = ~(uint64_t)0;
    }
    return res;
}

uint64_t HELPER(neon_sub_saturate_s64)(uint64_t src1, uint64_t src2)
{
    uint64_t res;

    res = src1 - src2;
    if (((res ^ src1) & SIGNBIT64) && ((src1 ^ src2) & SIGNBIT64)) {
        env->QF = 1;
        res = ((int64_t)src1 >> 63) ^ ~SIGNBIT64;
    }
    return res;
}

uint64_t HELPER(neon_sub_saturate_u64)(uint64_t src1, uint64_t src2)
{
    uint64_t res;

    if (src1 < src2) {
        env->QF = 1;
        res = 0;
    } else {
        res = src1 - src2;
    }
    return res;
}

/* These need to return a pair of value, so still use T0/T1.  */
/* Transpose.  Argument order is rather strange to avoid special casing
   the tranlation code.
   On input T0 = rm, T1 = rd.  On output T0 = rd, T1 = rm  */
void HELPER(neon_trn_u8)(void)
{
    uint32_t rd;
    uint32_t rm;
    rd = ((T0 & 0x00ff00ff) << 8) | (T1 & 0x00ff00ff);
    rm = ((T1 & 0xff00ff00) >> 8) | (T0 & 0xff00ff00);
    T0 = rd;
    T1 = rm;
}

void HELPER(neon_trn_u16)(void)
{
    uint32_t rd;
    uint32_t rm;
    rd = (T0 << 16) | (T1 & 0xffff);
    rm = (T1 >> 16) | (T0 & 0xffff0000);
    T0 = rd;
    T1 = rm;
}

/* Worker routines for zip and unzip.  */
void HELPER(neon_unzip_u8)(void)
{
    uint32_t rd;
    uint32_t rm;
    rd = (T0 & 0xff) | ((T0 >> 8) & 0xff00)
         | ((T1 << 16) & 0xff0000) | ((T1 << 8) & 0xff000000);
    rm = ((T0 >> 8) & 0xff) | ((T0 >> 16) & 0xff00)
         | ((T1 << 8) & 0xff0000) | (T1 & 0xff000000);
    T0 = rd;
    T1 = rm;
}

void HELPER(neon_zip_u8)(void)
{
    uint32_t rd;
    uint32_t rm;
    rd = (T0 & 0xff) | ((T1 << 8) & 0xff00)
         | ((T0 << 16) & 0xff0000) | ((T1 << 24) & 0xff000000);
    rm = ((T0 >> 16) & 0xff) | ((T1 >> 8) & 0xff00)
         | ((T0 >> 8) & 0xff0000) | (T1 & 0xff000000);
    T0 = rd;
    T1 = rm;
}

void HELPER(neon_zip_u16)(void)
{
    uint32_t tmp;

    tmp = (T0 & 0xffff) | (T1 << 16);
    T1 = (T1 & 0xffff0000) | (T0 >> 16);
    T0 = tmp;
}