Make sure x86 ATOMIC_CAS doesn't overwrite its own operands.

[mono-debugger.git] / mono / mini / exceptions-arm.c

/*
 * exceptions-arm.c: exception support for ARM
 *
 * Authors:
 *   Dietmar Maurer (dietmar@ximian.com)
 *   Paolo Molaro (lupus@ximian.com)
 *
 * (C) 2001 Ximian, Inc.
 */

#include <config.h>
#include <glib.h>
#include <signal.h>
#include <string.h>
#include <ucontext.h>

#include <mono/arch/arm/arm-codegen.h>
#include <mono/metadata/appdomain.h>
#include <mono/metadata/tabledefs.h>
#include <mono/metadata/threads.h>
#include <mono/metadata/debug-helpers.h>
#include <mono/metadata/exception.h>
#include <mono/metadata/mono-debug.h>

#include "mini.h"
#include "mini-arm.h"

/*

struct sigcontext {
        unsigned long trap_no;
        unsigned long error_code;
        unsigned long oldmask;
        unsigned long arm_r0;
        unsigned long arm_r1;
        unsigned long arm_r2;
        unsigned long arm_r3;
        unsigned long arm_r4;
        unsigned long arm_r5;
        unsigned long arm_r6;
        unsigned long arm_r7;
        unsigned long arm_r8;
        unsigned long arm_r9;
        unsigned long arm_r10;
        unsigned long arm_fp;
        unsigned long arm_ip;
        unsigned long arm_sp;
        unsigned long arm_lr;
        unsigned long arm_pc;
        unsigned long arm_cpsr;
        unsigned long fault_address;
};

gregs below is this struct
struct user_regs {
        unsigned long int uregs[18];
};

the companion user_fpregs has just 8 double registers
(it's valid for FPA mode, will need changes for VFP)

typedef struct {
        gregset_t gregs;
        fpregset_t fpregs;
} mcontext_t;
            
typedef struct ucontext {
        unsigned long int uc_flags;
        struct ucontext *uc_link;
        __sigset_t uc_sigmask;
        stack_t uc_stack;
        mcontext_t uc_mcontext;
        long int uc_filler[5];
} ucontext_t;

*/

/*
 * So, it turns out that the ucontext struct defined by libc is incorrect.
 * We define our own version here and use it instead.
 */

#if __APPLE__
#define my_ucontext ucontext_t
#else
typedef struct my_ucontext {
        unsigned long       uc_flags;
        struct my_ucontext *uc_link;
        struct {
                void *p;
                int flags;
                size_t size;
        } sstack_data;
        struct sigcontext sig_ctx;
        /* some 2.6.x kernel has fp data here after a few other fields
         * we don't use them for now...
         */
} my_ucontext;
#endif

#define restore_regs_from_context(ctx_reg,ip_reg,tmp_reg) do {  \
                ARM_LDR_IMM (code, ip_reg, ctx_reg, G_STRUCT_OFFSET (MonoContext, eip));        \
                ARM_ADD_REG_IMM8 (code, tmp_reg, ctx_reg, G_STRUCT_OFFSET(MonoContext, regs));  \
                ARM_LDMIA (code, tmp_reg, MONO_ARM_REGSAVE_MASK);       \
        } while (0)

/* nothing to do */
#define setup_context(ctx)

/*
 * arch_get_restore_context:
 *
 * Returns a pointer to a method which restores a previously saved sigcontext.
 * The first argument in r0 is the pointer to the context.
 */
gpointer
mono_arch_get_restore_context_full (guint32 *code_size, MonoJumpInfo **ji, gboolean aot)
{
        guint8 *code;
        guint8 *start;

        *ji = NULL;

        start = code = mono_global_codeman_reserve (128);

        restore_regs_from_context (ARMREG_R0, ARMREG_R1, ARMREG_R2);
        /* restore also the stack pointer, FIXME: handle sp != fp */
        ARM_LDR_IMM (code, ARMREG_SP, ARMREG_R0, G_STRUCT_OFFSET (MonoContext, ebp));
        ARM_LDR_IMM (code, ARMREG_FP, ARMREG_R0, G_STRUCT_OFFSET (MonoContext, esp));

        /* jump to the saved IP */
        ARM_MOV_REG_REG (code, ARMREG_PC, ARMREG_R1);
        /* never reached */
        ARM_DBRK (code);

        g_assert ((code - start) < 128);

        mono_arch_flush_icache (start, code - start);

        *code_size = code - start;

        return start;
}

/*
 * arch_get_call_filter:
 *
 * Returns a pointer to a method which calls an exception filter. We
 * also use this function to call finally handlers (we pass NULL as 
 * @exc object in this case).
 */
gpointer
mono_arch_get_call_filter_full (guint32 *code_size, MonoJumpInfo **ji, gboolean aot)
{
        guint8 *code;
        guint8* start;

        *ji = NULL;

        /* call_filter (MonoContext *ctx, unsigned long eip, gpointer exc) */
        start = code = mono_global_codeman_reserve (320);

        /* save all the regs on the stack */
        ARM_MOV_REG_REG (code, ARMREG_IP, ARMREG_SP);
        ARM_PUSH (code, MONO_ARM_REGSAVE_MASK);

        /* restore all the regs from ctx (in r0), but not sp, the stack pointer */
        restore_regs_from_context (ARMREG_R0, ARMREG_IP, ARMREG_LR);
        /* call handler at eip (r1) and set the first arg with the exception (r2) */
        ARM_MOV_REG_REG (code, ARMREG_R0, ARMREG_R2);
        ARM_MOV_REG_REG (code, ARMREG_LR, ARMREG_PC);
        ARM_MOV_REG_REG (code, ARMREG_PC, ARMREG_R1);

        /* epilog */
        ARM_POP_NWB (code, 0xff0 | ((1 << ARMREG_SP) | (1 << ARMREG_PC)));

        g_assert ((code - start) < 320);

        mono_arch_flush_icache (start, code - start);

        *code_size = code - start;

        return start;
}

void
mono_arm_throw_exception (MonoObject *exc, unsigned long eip, unsigned long esp, gulong *int_regs, gdouble *fp_regs)
{
        static void (*restore_context) (MonoContext *);
        MonoContext ctx;
        gboolean rethrow = eip & 1;

        if (!restore_context)
                restore_context = mono_get_restore_context ();

        eip &= ~1; /* clear the optional rethrow bit */
        /* adjust eip so that it point into the call instruction */
        eip -= 4;

        setup_context (&ctx);

        /*printf ("stack in throw: %p\n", esp);*/
        MONO_CONTEXT_SET_BP (&ctx, esp);
        MONO_CONTEXT_SET_SP (&ctx, esp);
        MONO_CONTEXT_SET_IP (&ctx, eip);
        memcpy (&ctx.regs, int_regs, sizeof (gulong) * 8);
        /* memcpy (&ctx.fregs, fp_regs, sizeof (double) * MONO_SAVED_FREGS); */

        if (mono_object_isinst (exc, mono_defaults.exception_class)) {
                MonoException *mono_ex = (MonoException*)exc;
                if (!rethrow)
                        mono_ex->stack_trace = NULL;
        }
        mono_handle_exception (&ctx, exc, (gpointer)(eip + 4), FALSE);
        restore_context (&ctx);
        g_assert_not_reached ();
}

void
mono_arm_throw_exception_by_token (guint32 type_token, unsigned long eip, unsigned long esp, gulong *int_regs, gdouble *fp_regs)
{
        mono_arm_throw_exception ((MonoObject*)mono_exception_from_token (mono_defaults.corlib, type_token), eip, esp, int_regs, fp_regs);
}

/**
 * arch_get_throw_exception_generic:
 *
 * Returns a function pointer which can be used to raise 
 * exceptions. The returned function has the following 
 * signature: void (*func) (MonoException *exc); or
 * void (*func) (guint32 ex_token, guint8* ip);
 *
 */
static gpointer 
mono_arch_get_throw_exception_generic (int size, int by_token, gboolean rethrow, guint32 *code_size, MonoJumpInfo **ji, gboolean aot)
{
        guint8 *start;
        guint8 *code;

        *ji = NULL;

        code = start = mono_global_codeman_reserve (size);

        /* save all the regs on the stack */
        ARM_MOV_REG_REG (code, ARMREG_IP, ARMREG_SP);
        ARM_PUSH (code, MONO_ARM_REGSAVE_MASK);

        /* call throw_exception (exc, ip, sp, int_regs, fp_regs) */
        /* caller sp */
        ARM_ADD_REG_IMM8 (code, ARMREG_R2, ARMREG_SP, 10 * 4); /* 10 saved regs */
        /* exc is already in place in r0 */
        if (by_token) {
                /* The caller ip is already in R1 */
        } else {
                ARM_MOV_REG_REG (code, ARMREG_R1, ARMREG_LR); /* caller ip */
        }
        /* FIXME: pointer to the saved fp regs */
        /*pos = alloc_size - sizeof (double) * MONO_SAVED_FREGS;
        ppc_addi (code, ppc_r7, ppc_sp, pos);*/
        /* pointer to the saved int regs */
        ARM_MOV_REG_REG (code, ARMREG_R3, ARMREG_SP); /* the pushed regs */
        /* we encode rethrow in the ip, so we avoid args on the stack */
        ARM_ORR_REG_IMM8 (code, ARMREG_R1, ARMREG_R1, rethrow);

        if (aot) {
                *ji = mono_patch_info_list_prepend (*ji, code - start, MONO_PATCH_INFO_JIT_ICALL_ADDR, by_token ? "mono_arm_throw_exception_by_token" : "mono_arm_throw_exception");
                ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 0);
                ARM_B (code, 0);
                *(gpointer*)(gpointer)code = NULL;
                code += 4;
                ARM_LDR_REG_REG (code, ARMREG_IP, ARMREG_PC, ARMREG_IP);
        } else {
                code = mono_arm_emit_load_imm (code, ARMREG_IP, GPOINTER_TO_UINT (by_token ? (gpointer)mono_arm_throw_exception_by_token : (gpointer)mono_arm_throw_exception));
        }
        ARM_MOV_REG_REG (code, ARMREG_LR, ARMREG_PC);
        ARM_MOV_REG_REG (code, ARMREG_PC, ARMREG_IP);
        /* we should never reach this breakpoint */
        ARM_DBRK (code);
        g_assert ((code - start) < size);
        mono_arch_flush_icache (start, code - start);

        *code_size = code - start;

        return start;
}

/**
 * mono_arch_get_rethrow_exception:
 *
 * Returns a function pointer which can be used to rethrow 
 * exceptions. The returned function has the following 
 * signature: void (*func) (MonoException *exc); 
 *
 */
gpointer
mono_arch_get_rethrow_exception_full (guint32 *code_size, MonoJumpInfo **ji, gboolean aot)
{
        return mono_arch_get_throw_exception_generic (132, FALSE, TRUE, code_size, ji, aot);
}

/**
 * arch_get_throw_exception:
 *
 * Returns a function pointer which can be used to raise 
 * exceptions. The returned function has the following 
 * signature: void (*func) (MonoException *exc); 
 * For example to raise an arithmetic exception you can use:
 *
 * x86_push_imm (code, mono_get_exception_arithmetic ()); 
 * x86_call_code (code, arch_get_throw_exception ()); 
 *
 */
gpointer 
mono_arch_get_throw_exception_full (guint32 *code_size, MonoJumpInfo **ji, gboolean aot)
{
        return mono_arch_get_throw_exception_generic (132, FALSE, FALSE, code_size, ji, aot);
}

gpointer 
mono_arch_get_throw_exception_by_name_full (guint32 *code_size, MonoJumpInfo **ji, gboolean aot)
{       
        guint8* start;
        guint8 *code;

        *ji = NULL;

        start = code = mono_global_codeman_reserve (64);

        /* Not used on ARM */
        ARM_DBRK (code);

        *code_size = code - start;

        return start;
}

/**
 * mono_arch_get_throw_corlib_exception:
 *
 * Returns a function pointer which can be used to raise 
 * corlib exceptions. The returned function has the following 
 * signature: void (*func) (guint32 ex_token, guint32 offset); 
 * Here, offset is the offset which needs to be substracted from the caller IP 
 * to get the IP of the throw. Passing the offset has the advantage that it 
 * needs no relocations in the caller.
 * On ARM, the ip is passed instead of an offset.
 */
gpointer 
mono_arch_get_throw_corlib_exception_full (guint32 *code_size, MonoJumpInfo **ji, gboolean aot)
{
        return mono_arch_get_throw_exception_generic (168, TRUE, FALSE, code_size, ji, aot);
}       

/* mono_arch_find_jit_info:
 *
 * This function is used to gather information from @ctx. It return the 
 * MonoJitInfo of the corresponding function, unwinds one stack frame and
 * stores the resulting context into @new_ctx. It also stores a string 
 * describing the stack location into @trace (if not NULL), and modifies
 * the @lmf if necessary. @native_offset return the IP offset from the 
 * start of the function or -1 if that info is not available.
 */
MonoJitInfo *
mono_arch_find_jit_info (MonoDomain *domain, MonoJitTlsData *jit_tls, MonoJitInfo *res, MonoJitInfo *prev_ji,
                         MonoContext *ctx, MonoContext *new_ctx, MonoLMF **lmf, gboolean *managed)
{
        MonoJitInfo *ji;
        gpointer ip = MONO_CONTEXT_GET_IP (ctx);

        /* Avoid costly table lookup during stack overflow */
        if (prev_ji && (ip > prev_ji->code_start && ((guint8*)ip < ((guint8*)prev_ji->code_start) + prev_ji->code_size)))
                ji = prev_ji;
        else
                ji = mono_jit_info_table_find (domain, ip);

        if (managed)
                *managed = FALSE;

        if (ji != NULL) {
                int i;
                gssize regs [MONO_MAX_IREGS + 1];
                guint8 *cfa;
                guint32 unwind_info_len;
                guint8 *unwind_info;

                *new_ctx = *ctx;

                if (managed)
                        if (!ji->method->wrapper_type)
                                *managed = TRUE;

                if (ji->from_aot)
                        unwind_info = mono_aot_get_unwind_info (ji, &unwind_info_len);
                else
                        unwind_info = mono_get_cached_unwind_info (ji->used_regs, &unwind_info_len);

                /* Beautiful numbers */
                for (i = 4; i < 12; ++i)
                        regs [i] = new_ctx->regs [i - 4];
                regs [ARMREG_IP] = new_ctx->regs [8];
                regs [ARMREG_LR] = new_ctx->regs [9];
                regs [ARMREG_SP] = new_ctx->esp;

                mono_unwind_frame (unwind_info, unwind_info_len, ji->code_start, 
                                                   (guint8*)ji->code_start + ji->code_size,
                                                   ip, regs, MONO_MAX_IREGS, &cfa);

                for (i = 4; i < 12; ++i)
                        new_ctx->regs [i - 4] = regs [i];
                new_ctx->regs [8] = regs [ARMREG_IP];
                new_ctx->regs [9] = regs [ARMREG_LR];
                new_ctx->eip = regs [ARMREG_LR];
                new_ctx->esp = (gsize)cfa;
                new_ctx->ebp = new_ctx->esp;

                /* Needed by get_exception_catch_class () */
                // FIXME: Is this neded ?
                new_ctx->regs [ARMREG_R11] = new_ctx->esp;

                if (*lmf && (MONO_CONTEXT_GET_BP (ctx) >= (gpointer)(*lmf)->ebp)) {
                        /* remove any unused lmf */
                        *lmf = (*lmf)->previous_lmf;
                }

                /* we substract 1, so that the IP points into the call instruction */
                new_ctx->eip--;

                return ji;
        } else if (*lmf) {
                
                *new_ctx = *ctx;

                if ((ji = mono_jit_info_table_find (domain, (gpointer)(*lmf)->eip))) {
                } else {
                        if (!(*lmf)->method)
                                return (gpointer)-1;
                        memset (res, 0, sizeof (MonoJitInfo));
                        res->method = (*lmf)->method;
                }

                memcpy (&new_ctx->regs [0], &(*lmf)->iregs [4], sizeof (gulong) * MONO_SAVED_GREGS);
                /* This is the sp for the current frame */
                new_ctx->esp = (*lmf)->iregs [ARMREG_FP];
                new_ctx->eip = (*lmf)->iregs [13];
                new_ctx->ebp = new_ctx->esp;

                *lmf = (*lmf)->previous_lmf;

                return ji ? ji : res;
        }

        return NULL;
}

void
mono_arch_sigctx_to_monoctx (void *sigctx, MonoContext *mctx)
{
#if BROKEN_LINUX
        struct ucontext *uc = sigctx;

        mctx->eip = uc->uc_mcontext.gregs [ARMREG_PC];
        mctx->ebp = uc->uc_mcontext.gregs [ARMREG_SP];
        memcpy (&mctx->regs, &uc->uc_mcontext.gregs [ARMREG_R4], sizeof (gulong) * 8);
        /* memcpy (&mctx->fregs, &uc->uc_mcontext.uc_regs->fpregs.fpregs [14], sizeof (double) * MONO_SAVED_FREGS);*/
#else
        my_ucontext *my_uc = sigctx;

        mctx->eip = UCONTEXT_REG_PC (my_uc);
        mctx->ebp = UCONTEXT_REG_SP (my_uc);
        memcpy (&mctx->regs, &UCONTEXT_REG_R4 (my_uc), sizeof (gulong) * 8);
#endif
}

void
mono_arch_monoctx_to_sigctx (MonoContext *mctx, void *ctx)
{
#if BROKEN_LINUX
        struct ucontext *uc = ctx;

        uc->uc_mcontext.gregs [ARMREG_PC] = mctx->eip;
        uc->uc_mcontext.gregs [ARMREG_SP] = mctx->ebp;
        memcpy (&uc->uc_mcontext.gregs [ARMREG_R4], &mctx->regs, sizeof (gulong) * 8);
        /* memcpy (&uc->uc_mcontext.uc_regs->fpregs.fpregs [14], &mctx->fregs, sizeof (double) * MONO_SAVED_FREGS);*/
#else
        my_ucontext *my_uc = ctx;

        UCONTEXT_REG_PC (my_uc) = mctx->eip;
        UCONTEXT_REG_SP (my_uc) = mctx->ebp;
        memcpy (&UCONTEXT_REG_R4 (my_uc), &mctx->regs, sizeof (gulong) * 8);
#endif
}

/*
 * This is the function called from the signal handler
 */
gboolean
mono_arch_handle_exception (void *ctx, gpointer obj, gboolean test_only)
{
        MonoContext mctx;
        gboolean result;

        mono_arch_sigctx_to_monoctx (ctx, &mctx);

        result = mono_handle_exception (&mctx, obj, (gpointer)mctx.eip, test_only);
        /* restore the context so that returning from the signal handler will invoke
         * the catch clause 
         */
        mono_arch_monoctx_to_sigctx (&mctx, ctx);
        return result;
}

gpointer
mono_arch_ip_from_context (void *sigctx)
{
#if BROKEN_LINUX
        struct ucontext *uc = sigctx;
        return (gpointer)uc->uc_mcontext.gregs [ARMREG_PC];
#else
        my_ucontext *my_uc = sigctx;
        return (void*) UCONTEXT_REG_PC (my_uc);
#endif
}

gboolean
mono_arch_has_unwind_info (gconstpointer addr)
{
        return FALSE;
}