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/*
 *  Emulation of Linux signals
 *
 *  Copyright (c) 2003 Fabrice Bellard
 *
 *  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; either version 2 of the License, or
 *  (at your option) any later version.
 *
 *  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.  See the
 *  GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program; if not, see <http://www.gnu.org/licenses/>.
 */
#include "qemu/osdep.h"
#include "qemu.h"
#include "signal-common.h"
#include "linux-user/trace.h"

#define __SUNOS_MAXWIN   31

/* This is what SunOS does, so shall I. */
struct target_sigcontext {
    abi_ulong sigc_onstack;      /* state to restore */

    abi_ulong sigc_mask;         /* sigmask to restore */
    abi_ulong sigc_sp;           /* stack pointer */
    abi_ulong sigc_pc;           /* program counter */
    abi_ulong sigc_npc;          /* next program counter */
    abi_ulong sigc_psr;          /* for condition codes etc */
    abi_ulong sigc_g1;           /* User uses these two registers */
    abi_ulong sigc_o0;           /* within the trampoline code. */

    /* Now comes information regarding the users window set
         * at the time of the signal.
         */
    abi_ulong sigc_oswins;       /* outstanding windows */

    /* stack ptrs for each regwin buf */
    char *sigc_spbuf[__SUNOS_MAXWIN];

    /* Windows to restore after signal */
    struct {
        abi_ulong locals[8];
        abi_ulong ins[8];
    } sigc_wbuf[__SUNOS_MAXWIN];
};
/* A Sparc stack frame */
struct sparc_stackf {
    abi_ulong locals[8];
    abi_ulong ins[8];
    /* It's simpler to treat fp and callers_pc as elements of ins[]
         * since we never need to access them ourselves.
         */
    char *structptr;
    abi_ulong xargs[6];
    abi_ulong xxargs[1];
};

typedef struct {
    struct {
        abi_ulong psr;
        abi_ulong pc;
        abi_ulong npc;
        abi_ulong y;
        abi_ulong u_regs[16]; /* globals and ins */
    }               si_regs;
    int             si_mask;
} __siginfo_t;

typedef struct {
    abi_ulong  si_float_regs[32];
    unsigned   long si_fsr;
    unsigned   long si_fpqdepth;
    struct {
        unsigned long *insn_addr;
        unsigned long insn;
    } si_fpqueue [16];
} qemu_siginfo_fpu_t;


struct target_signal_frame {
    struct sparc_stackf ss;
    __siginfo_t         info;
    abi_ulong           fpu_save;
    uint32_t            insns[2] QEMU_ALIGNED(8);
    abi_ulong           extramask[TARGET_NSIG_WORDS - 1];
    abi_ulong           extra_size; /* Should be 0 */
    qemu_siginfo_fpu_t fpu_state;
};
struct target_rt_signal_frame {
    struct sparc_stackf ss;
    siginfo_t           info;
    abi_ulong           regs[20];
    sigset_t            mask;
    abi_ulong           fpu_save;
    uint32_t            insns[2];
    stack_t             stack;
    unsigned int        extra_size; /* Should be 0 */
    qemu_siginfo_fpu_t  fpu_state;
};

static inline abi_ulong get_sigframe(struct target_sigaction *sa, 
                                     CPUSPARCState *env,
                                     unsigned long framesize)
{
    abi_ulong sp = get_sp_from_cpustate(env);

    /*
     * If we are on the alternate signal stack and would overflow it, don't.
     * Return an always-bogus address instead so we will die with SIGSEGV.
         */
    if (on_sig_stack(sp) && !likely(on_sig_stack(sp - framesize))) {
            return -1;
    }

    /* This is the X/Open sanctioned signal stack switching.  */
    sp = target_sigsp(sp, sa) - framesize;

    /* Always align the stack frame.  This handles two cases.  First,
     * sigaltstack need not be mindful of platform specific stack
     * alignment.  Second, if we took this signal because the stack
     * is not aligned properly, we'd like to take the signal cleanly
     * and report that.
     */
    sp &= ~15UL;

    return sp;
}

static int
setup___siginfo(__siginfo_t *si, CPUSPARCState *env, abi_ulong mask)
{
    int err = 0, i;

    __put_user(env->psr, &si->si_regs.psr);
    __put_user(env->pc, &si->si_regs.pc);
    __put_user(env->npc, &si->si_regs.npc);
    __put_user(env->y, &si->si_regs.y);
    for (i=0; i < 8; i++) {
        __put_user(env->gregs[i], &si->si_regs.u_regs[i]);
    }
    for (i=0; i < 8; i++) {
        __put_user(env->regwptr[WREG_O0 + i], &si->si_regs.u_regs[i + 8]);
    }
    __put_user(mask, &si->si_mask);
    return err;
}

#define NF_ALIGNEDSZ  (((sizeof(struct target_signal_frame) + 7) & (~7)))

void setup_frame(int sig, struct target_sigaction *ka,
                 target_sigset_t *set, CPUSPARCState *env)
{
    abi_ulong sf_addr;
    struct target_signal_frame *sf;
    int sigframe_size, err, i;

    /* 1. Make sure everything is clean */
    //synchronize_user_stack();

    sigframe_size = NF_ALIGNEDSZ;
    sf_addr = get_sigframe(ka, env, sigframe_size);
    trace_user_setup_frame(env, sf_addr);

    sf = lock_user(VERIFY_WRITE, sf_addr,
                   sizeof(struct target_signal_frame), 0);
    if (!sf) {
        goto sigsegv;
    }
#if 0
    if (invalid_frame_pointer(sf, sigframe_size))
        goto sigill_and_return;
#endif
    /* 2. Save the current process state */
    err = setup___siginfo(&sf->info, env, set->sig[0]);
    __put_user(0, &sf->extra_size);

    //save_fpu_state(regs, &sf->fpu_state);
    //__put_user(&sf->fpu_state, &sf->fpu_save);

    __put_user(set->sig[0], &sf->info.si_mask);
    for (i = 0; i < TARGET_NSIG_WORDS - 1; i++) {
        __put_user(set->sig[i + 1], &sf->extramask[i]);
    }

    for (i = 0; i < 8; i++) {
        __put_user(env->regwptr[i + WREG_L0], &sf->ss.locals[i]);
    }
    for (i = 0; i < 8; i++) {
        __put_user(env->regwptr[i + WREG_I0], &sf->ss.ins[i]);
    }
    if (err)
        goto sigsegv;

    /* 3. signal handler back-trampoline and parameters */
    env->regwptr[WREG_SP] = sf_addr;
    env->regwptr[WREG_O0] = sig;
    env->regwptr[WREG_O1] = sf_addr +
            offsetof(struct target_signal_frame, info);
    env->regwptr[WREG_O2] = sf_addr +
            offsetof(struct target_signal_frame, info);

    /* 4. signal handler */
    env->pc = ka->_sa_handler;
    env->npc = (env->pc + 4);
    /* 5. return to kernel instructions */
    if (ka->ka_restorer) {
        env->regwptr[WREG_O7] = ka->ka_restorer;
    } else {
        uint32_t val32;

        env->regwptr[WREG_O7] = sf_addr +
                offsetof(struct target_signal_frame, insns) - 2 * 4;

        /* mov __NR_sigreturn, %g1 */
        val32 = 0x821020d8;
        __put_user(val32, &sf->insns[0]);

        /* t 0x10 */
        val32 = 0x91d02010;
        __put_user(val32, &sf->insns[1]);
    }
    unlock_user(sf, sf_addr, sizeof(struct target_signal_frame));
    return;
#if 0
sigill_and_return:
    force_sig(TARGET_SIGILL);
#endif
sigsegv:
    unlock_user(sf, sf_addr, sizeof(struct target_signal_frame));
    force_sigsegv(sig);
}

void setup_rt_frame(int sig, struct target_sigaction *ka,
                    target_siginfo_t *info,
                    target_sigset_t *set, CPUSPARCState *env)
{
    qemu_log_mask(LOG_UNIMP, "setup_rt_frame: not implemented\n");
}

long do_sigreturn(CPUSPARCState *env)
{
    abi_ulong sf_addr;
    struct target_signal_frame *sf;
    uint32_t up_psr, pc, npc;
    target_sigset_t set;
    sigset_t host_set;
    int i;

    sf_addr = env->regwptr[WREG_SP];
    trace_user_do_sigreturn(env, sf_addr);
    if (!lock_user_struct(VERIFY_READ, sf, sf_addr, 1)) {
        goto segv_and_exit;
    }

    /* 1. Make sure we are not getting garbage from the user */

    if (sf_addr & 3)
        goto segv_and_exit;

    __get_user(pc,  &sf->info.si_regs.pc);
    __get_user(npc, &sf->info.si_regs.npc);

    if ((pc | npc) & 3) {
        goto segv_and_exit;
    }

    /* 2. Restore the state */
    __get_user(up_psr, &sf->info.si_regs.psr);

    /* User can only change condition codes and FPU enabling in %psr. */
    env->psr = (up_psr & (PSR_ICC /* | PSR_EF */))
            | (env->psr & ~(PSR_ICC /* | PSR_EF */));

    env->pc = pc;
    env->npc = npc;
    __get_user(env->y, &sf->info.si_regs.y);
    for (i=0; i < 8; i++) {
        __get_user(env->gregs[i], &sf->info.si_regs.u_regs[i]);
    }
    for (i=0; i < 8; i++) {
        __get_user(env->regwptr[i + WREG_O0], &sf->info.si_regs.u_regs[i + 8]);
    }

    /* FIXME: implement FPU save/restore:
     * __get_user(fpu_save, &sf->fpu_save);
     * if (fpu_save) {
     *     if (restore_fpu_state(env, fpu_save)) {
     *         goto segv_and_exit;
     *     }
     * }
     */

    /* This is pretty much atomic, no amount locking would prevent
         * the races which exist anyways.
         */
    __get_user(set.sig[0], &sf->info.si_mask);
    for(i = 1; i < TARGET_NSIG_WORDS; i++) {
        __get_user(set.sig[i], &sf->extramask[i - 1]);
    }

    target_to_host_sigset_internal(&host_set, &set);
    set_sigmask(&host_set);

    unlock_user_struct(sf, sf_addr, 0);
    return -TARGET_QEMU_ESIGRETURN;

segv_and_exit:
    unlock_user_struct(sf, sf_addr, 0);
    force_sig(TARGET_SIGSEGV);
    return -TARGET_QEMU_ESIGRETURN;
}

long do_rt_sigreturn(CPUSPARCState *env)
{
    trace_user_do_rt_sigreturn(env, 0);
    qemu_log_mask(LOG_UNIMP, "do_rt_sigreturn: not implemented\n");
    return -TARGET_ENOSYS;
}

#if defined(TARGET_SPARC64) && !defined(TARGET_ABI32)
#define SPARC_MC_TSTATE 0
#define SPARC_MC_PC 1
#define SPARC_MC_NPC 2
#define SPARC_MC_Y 3
#define SPARC_MC_G1 4
#define SPARC_MC_G2 5
#define SPARC_MC_G3 6
#define SPARC_MC_G4 7
#define SPARC_MC_G5 8
#define SPARC_MC_G6 9
#define SPARC_MC_G7 10
#define SPARC_MC_O0 11
#define SPARC_MC_O1 12
#define SPARC_MC_O2 13
#define SPARC_MC_O3 14
#define SPARC_MC_O4 15
#define SPARC_MC_O5 16
#define SPARC_MC_O6 17
#define SPARC_MC_O7 18
#define SPARC_MC_NGREG 19

typedef abi_ulong target_mc_greg_t;
typedef target_mc_greg_t target_mc_gregset_t[SPARC_MC_NGREG];

struct target_mc_fq {
    abi_ulong *mcfq_addr;
    uint32_t mcfq_insn;
};

struct target_mc_fpu {
    union {
        uint32_t sregs[32];
        uint64_t dregs[32];
        //uint128_t qregs[16];
    } mcfpu_fregs;
    abi_ulong mcfpu_fsr;
    abi_ulong mcfpu_fprs;
    abi_ulong mcfpu_gsr;
    struct target_mc_fq *mcfpu_fq;
    unsigned char mcfpu_qcnt;
    unsigned char mcfpu_qentsz;
    unsigned char mcfpu_enab;
};
typedef struct target_mc_fpu target_mc_fpu_t;

typedef struct {
    target_mc_gregset_t mc_gregs;
    target_mc_greg_t mc_fp;
    target_mc_greg_t mc_i7;
    target_mc_fpu_t mc_fpregs;
} target_mcontext_t;

struct target_ucontext {
    struct target_ucontext *tuc_link;
    abi_ulong tuc_flags;
    target_sigset_t tuc_sigmask;
    target_mcontext_t tuc_mcontext;
};

/* A V9 register window */
struct target_reg_window {
    abi_ulong locals[8];
    abi_ulong ins[8];
};

#define TARGET_STACK_BIAS 2047

/* {set, get}context() needed for 64-bit SparcLinux userland. */
void sparc64_set_context(CPUSPARCState *env)
{
    abi_ulong ucp_addr;
    struct target_ucontext *ucp;
    target_mc_gregset_t *grp;
    abi_ulong pc, npc, tstate;
    abi_ulong fp, i7, w_addr;
    unsigned int i;

    ucp_addr = env->regwptr[WREG_O0];
    if (!lock_user_struct(VERIFY_READ, ucp, ucp_addr, 1)) {
        goto do_sigsegv;
    }
    grp  = &ucp->tuc_mcontext.mc_gregs;
    __get_user(pc, &((*grp)[SPARC_MC_PC]));
    __get_user(npc, &((*grp)[SPARC_MC_NPC]));
    if ((pc | npc) & 3) {
        goto do_sigsegv;
    }
    if (env->regwptr[WREG_O1]) {
        target_sigset_t target_set;
        sigset_t set;

        if (TARGET_NSIG_WORDS == 1) {
            __get_user(target_set.sig[0], &ucp->tuc_sigmask.sig[0]);
        } else {
            abi_ulong *src, *dst;
            src = ucp->tuc_sigmask.sig;
            dst = target_set.sig;
            for (i = 0; i < TARGET_NSIG_WORDS; i++, dst++, src++) {
                __get_user(*dst, src);
            }
        }
        target_to_host_sigset_internal(&set, &target_set);
        set_sigmask(&set);
    }
    env->pc = pc;
    env->npc = npc;
    __get_user(env->y, &((*grp)[SPARC_MC_Y]));
    __get_user(tstate, &((*grp)[SPARC_MC_TSTATE]));
    env->asi = (tstate >> 24) & 0xff;
    cpu_put_ccr(env, tstate >> 32);
    cpu_put_cwp64(env, tstate & 0x1f);
    __get_user(env->gregs[1], (&(*grp)[SPARC_MC_G1]));
    __get_user(env->gregs[2], (&(*grp)[SPARC_MC_G2]));
    __get_user(env->gregs[3], (&(*grp)[SPARC_MC_G3]));
    __get_user(env->gregs[4], (&(*grp)[SPARC_MC_G4]));
    __get_user(env->gregs[5], (&(*grp)[SPARC_MC_G5]));
    __get_user(env->gregs[6], (&(*grp)[SPARC_MC_G6]));
    __get_user(env->gregs[7], (&(*grp)[SPARC_MC_G7]));
    __get_user(env->regwptr[WREG_O0], (&(*grp)[SPARC_MC_O0]));
    __get_user(env->regwptr[WREG_O1], (&(*grp)[SPARC_MC_O1]));
    __get_user(env->regwptr[WREG_O2], (&(*grp)[SPARC_MC_O2]));
    __get_user(env->regwptr[WREG_O3], (&(*grp)[SPARC_MC_O3]));
    __get_user(env->regwptr[WREG_O4], (&(*grp)[SPARC_MC_O4]));
    __get_user(env->regwptr[WREG_O5], (&(*grp)[SPARC_MC_O5]));
    __get_user(env->regwptr[WREG_O6], (&(*grp)[SPARC_MC_O6]));
    __get_user(env->regwptr[WREG_O7], (&(*grp)[SPARC_MC_O7]));

    __get_user(fp, &(ucp->tuc_mcontext.mc_fp));
    __get_user(i7, &(ucp->tuc_mcontext.mc_i7));

    w_addr = TARGET_STACK_BIAS + env->regwptr[WREG_O6];
    if (put_user(fp, w_addr + offsetof(struct target_reg_window, ins[6]),
                 abi_ulong) != 0) {
        goto do_sigsegv;
    }
    if (put_user(i7, w_addr + offsetof(struct target_reg_window, ins[7]),
                 abi_ulong) != 0) {
        goto do_sigsegv;
    }
    /* FIXME this does not match how the kernel handles the FPU in
     * its sparc64_set_context implementation. In particular the FPU
     * is only restored if fenab is non-zero in:
     *   __get_user(fenab, &(ucp->tuc_mcontext.mc_fpregs.mcfpu_enab));
     */
    __get_user(env->fprs, &(ucp->tuc_mcontext.mc_fpregs.mcfpu_fprs));
    {
        uint32_t *src = ucp->tuc_mcontext.mc_fpregs.mcfpu_fregs.sregs;
        for (i = 0; i < 64; i++, src++) {
            if (i & 1) {
                __get_user(env->fpr[i/2].l.lower, src);
            } else {
                __get_user(env->fpr[i/2].l.upper, src);
            }
        }
    }
    __get_user(env->fsr,
               &(ucp->tuc_mcontext.mc_fpregs.mcfpu_fsr));
    __get_user(env->gsr,
               &(ucp->tuc_mcontext.mc_fpregs.mcfpu_gsr));
    unlock_user_struct(ucp, ucp_addr, 0);
    return;
do_sigsegv:
    unlock_user_struct(ucp, ucp_addr, 0);
    force_sig(TARGET_SIGSEGV);
}

void sparc64_get_context(CPUSPARCState *env)
{
    abi_ulong ucp_addr;
    struct target_ucontext *ucp;
    target_mc_gregset_t *grp;
    target_mcontext_t *mcp;
    abi_ulong fp, i7, w_addr;
    int err;
    unsigned int i;
    target_sigset_t target_set;
    sigset_t set;

    ucp_addr = env->regwptr[WREG_O0];
    if (!lock_user_struct(VERIFY_WRITE, ucp, ucp_addr, 0)) {
        goto do_sigsegv;
    }
    
    mcp = &ucp->tuc_mcontext;
    grp = &mcp->mc_gregs;

    /* Skip over the trap instruction, first. */
    env->pc = env->npc;
    env->npc += 4;

    /* If we're only reading the signal mask then do_sigprocmask()
     * is guaranteed not to fail, which is important because we don't
     * have any way to signal a failure or restart this operation since
     * this is not a normal syscall.
     */
    err = do_sigprocmask(0, NULL, &set);
    assert(err == 0);
    host_to_target_sigset_internal(&target_set, &set);
    if (TARGET_NSIG_WORDS == 1) {
        __put_user(target_set.sig[0],
                   (abi_ulong *)&ucp->tuc_sigmask);
    } else {
        abi_ulong *src, *dst;
        src = target_set.sig;
        dst = ucp->tuc_sigmask.sig;
        for (i = 0; i < TARGET_NSIG_WORDS; i++, dst++, src++) {
            __put_user(*src, dst);
        }
        if (err)
            goto do_sigsegv;
    }

    /* XXX: tstate must be saved properly */
    //    __put_user(env->tstate, &((*grp)[SPARC_MC_TSTATE]));
    __put_user(env->pc, &((*grp)[SPARC_MC_PC]));
    __put_user(env->npc, &((*grp)[SPARC_MC_NPC]));
    __put_user(env->y, &((*grp)[SPARC_MC_Y]));
    __put_user(env->gregs[1], &((*grp)[SPARC_MC_G1]));
    __put_user(env->gregs[2], &((*grp)[SPARC_MC_G2]));
    __put_user(env->gregs[3], &((*grp)[SPARC_MC_G3]));
    __put_user(env->gregs[4], &((*grp)[SPARC_MC_G4]));
    __put_user(env->gregs[5], &((*grp)[SPARC_MC_G5]));
    __put_user(env->gregs[6], &((*grp)[SPARC_MC_G6]));
    __put_user(env->gregs[7], &((*grp)[SPARC_MC_G7]));
    __put_user(env->regwptr[WREG_O0], &((*grp)[SPARC_MC_O0]));
    __put_user(env->regwptr[WREG_O1], &((*grp)[SPARC_MC_O1]));
    __put_user(env->regwptr[WREG_O2], &((*grp)[SPARC_MC_O2]));
    __put_user(env->regwptr[WREG_O3], &((*grp)[SPARC_MC_O3]));
    __put_user(env->regwptr[WREG_O4], &((*grp)[SPARC_MC_O4]));
    __put_user(env->regwptr[WREG_O5], &((*grp)[SPARC_MC_O5]));
    __put_user(env->regwptr[WREG_O6], &((*grp)[SPARC_MC_O6]));
    __put_user(env->regwptr[WREG_O7], &((*grp)[SPARC_MC_O7]));

    w_addr = TARGET_STACK_BIAS + env->regwptr[WREG_O6];
    fp = i7 = 0;
    if (get_user(fp, w_addr + offsetof(struct target_reg_window, ins[6]),
                 abi_ulong) != 0) {
        goto do_sigsegv;
    }
    if (get_user(i7, w_addr + offsetof(struct target_reg_window, ins[7]),
                 abi_ulong) != 0) {
        goto do_sigsegv;
    }
    __put_user(fp, &(mcp->mc_fp));
    __put_user(i7, &(mcp->mc_i7));

    {
        uint32_t *dst = ucp->tuc_mcontext.mc_fpregs.mcfpu_fregs.sregs;
        for (i = 0; i < 64; i++, dst++) {
            if (i & 1) {
                __put_user(env->fpr[i/2].l.lower, dst);
            } else {
                __put_user(env->fpr[i/2].l.upper, dst);
            }
        }
    }
    __put_user(env->fsr, &(mcp->mc_fpregs.mcfpu_fsr));
    __put_user(env->gsr, &(mcp->mc_fpregs.mcfpu_gsr));
    __put_user(env->fprs, &(mcp->mc_fpregs.mcfpu_fprs));

    if (err)
        goto do_sigsegv;
    unlock_user_struct(ucp, ucp_addr, 1);
    return;
do_sigsegv:
    unlock_user_struct(ucp, ucp_addr, 1);
    force_sig(TARGET_SIGSEGV);
}
#endif