/* * exceptions-arm.c: exception support for ARM * * Authors: * Dietmar Maurer (dietmar@ximian.com) * Paolo Molaro (lupus@ximian.com) * * (C) 2001 Ximian, Inc. */ #include #include #include #include #ifndef MONO_CROSS_COMPILE #ifdef HAVE_ASM_SIGCONTEXT_H #include #endif /* def HAVE_ASM_SIGCONTEXT_H */ #endif #ifdef HAVE_UCONTEXT_H #include #endif /* def HAVE_UCONTEXT_H */ #include #include #include #include #include #include #include #include #include "mini.h" #include "mini-arm.h" #include "mono/utils/mono-sigcontext.h" /* * 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 (MonoTrampInfo **info, gboolean aot) { guint8 *code; guint8 *start; int ctx_reg; MonoJumpInfo *ji = NULL; GSList *unwind_ops = NULL; start = code = mono_global_codeman_reserve (128); /* * Move things to their proper place so we can restore all the registers with * one instruction. */ ctx_reg = ARMREG_R0; if (!mono_arch_is_soft_float ()) { ARM_ADD_REG_IMM8 (code, ARMREG_IP, ctx_reg, G_STRUCT_OFFSET (MonoContext, fregs)); ARM_FLDMD (code, ARM_VFP_D0, 16, ARMREG_IP); } /* move pc to PC */ ARM_LDR_IMM (code, ARMREG_IP, ctx_reg, G_STRUCT_OFFSET (MonoContext, pc)); ARM_STR_IMM (code, ARMREG_IP, ctx_reg, G_STRUCT_OFFSET (MonoContext, regs) + (ARMREG_PC * sizeof (mgreg_t))); /* restore everything */ ARM_ADD_REG_IMM8 (code, ARMREG_IP, ctx_reg, G_STRUCT_OFFSET(MonoContext, regs)); ARM_LDM (code, ARMREG_IP, 0xffff); /* never reached */ ARM_DBRK (code); g_assert ((code - start) < 128); mono_arch_flush_icache (start, code - start); if (info) *info = mono_tramp_info_create ("restore_context", start, code - start, ji, unwind_ops); 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 (MonoTrampInfo **info, gboolean aot) { guint8 *code; guint8* start; int ctx_reg; MonoJumpInfo *ji = NULL; GSList *unwind_ops = 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 */ ctx_reg = ARMREG_R0; ARM_LDR_IMM (code, ARMREG_IP, ctx_reg, G_STRUCT_OFFSET (MonoContext, pc)); ARM_ADD_REG_IMM8 (code, ARMREG_LR, ctx_reg, G_STRUCT_OFFSET(MonoContext, regs) + (MONO_ARM_FIRST_SAVED_REG * sizeof (mgreg_t))); ARM_LDM (code, ARMREG_LR, MONO_ARM_REGSAVE_MASK); /* 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); if (info) *info = mono_tramp_info_create ("call_filter", start, code - start, ji, unwind_ops); return start; } void mono_arm_throw_exception (MonoObject *exc, mgreg_t pc, mgreg_t sp, mgreg_t *int_regs, gdouble *fp_regs) { MonoContext ctx; gboolean rethrow = pc & 1; pc &= ~1; /* clear the optional rethrow bit */ /* adjust eip so that it point into the call instruction */ pc -= 4; /*printf ("stack in throw: %p\n", esp);*/ MONO_CONTEXT_SET_BP (&ctx, int_regs [ARMREG_FP - 4]); MONO_CONTEXT_SET_SP (&ctx, sp); MONO_CONTEXT_SET_IP (&ctx, pc); memcpy (((guint8*)&ctx.regs) + (ARMREG_R4 * sizeof (mgreg_t)), int_regs, 8 * sizeof (mgreg_t)); memcpy (&ctx.fregs, fp_regs, sizeof (double) * 16); 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); mono_restore_context (&ctx); g_assert_not_reached (); } void mono_arm_throw_exception_by_token (guint32 type_token, mgreg_t pc, mgreg_t sp, mgreg_t *int_regs, gdouble *fp_regs) { /* Clear thumb bit */ pc &= ~1; mono_arm_throw_exception ((MonoObject*)mono_exception_from_token (mono_defaults.corlib, type_token), pc, sp, int_regs, fp_regs); } void mono_arm_resume_unwind (guint32 dummy1, mgreg_t pc, mgreg_t sp, mgreg_t *int_regs, gdouble *fp_regs) { MonoContext ctx; pc &= ~1; /* clear the optional rethrow bit */ /* adjust eip so that it point into the call instruction */ pc -= 4; MONO_CONTEXT_SET_BP (&ctx, int_regs [ARMREG_FP - 4]); MONO_CONTEXT_SET_SP (&ctx, sp); MONO_CONTEXT_SET_IP (&ctx, pc); memcpy (((guint8*)&ctx.regs) + (ARMREG_R4 * sizeof (mgreg_t)), int_regs, 8 * sizeof (mgreg_t)); mono_resume_unwind (&ctx); } /** * get_throw_trampoline: * * 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 get_throw_trampoline (int size, gboolean corlib, gboolean rethrow, gboolean llvm, gboolean resume_unwind, const char *tramp_name, MonoTrampInfo **info, gboolean aot) { guint8 *start; guint8 *code; MonoJumpInfo *ji = NULL; GSList *unwind_ops = NULL; int cfa_offset; code = start = mono_global_codeman_reserve (size); mono_add_unwind_op_def_cfa (unwind_ops, code, start, ARMREG_SP, 0); /* save all the regs on the stack */ ARM_MOV_REG_REG (code, ARMREG_IP, ARMREG_SP); ARM_PUSH (code, MONO_ARM_REGSAVE_MASK); cfa_offset = MONO_ARM_NUM_SAVED_REGS * sizeof (mgreg_t); mono_add_unwind_op_def_cfa (unwind_ops, code, start, ARMREG_SP, cfa_offset); mono_add_unwind_op_offset (unwind_ops, code, start, ARMREG_LR, - sizeof (mgreg_t)); /* Save fp regs */ if (!mono_arch_is_soft_float ()) { ARM_SUB_REG_IMM8 (code, ARMREG_SP, ARMREG_SP, sizeof (double) * 16); cfa_offset += sizeof (double) * 16; mono_add_unwind_op_def_cfa_offset (unwind_ops, code, start, cfa_offset); ARM_FSTMD (code, ARM_VFP_D0, 16, ARMREG_SP); } /* Param area */ ARM_SUB_REG_IMM8 (code, ARMREG_SP, ARMREG_SP, 8); cfa_offset += 8; mono_add_unwind_op_def_cfa_offset (unwind_ops, code, start, cfa_offset); /* call throw_exception (exc, ip, sp, int_regs, fp_regs) */ /* caller sp */ ARM_ADD_REG_IMM8 (code, ARMREG_R2, ARMREG_SP, cfa_offset); /* exc is already in place in r0 */ if (corlib) { /* The caller ip is already in R1 */ if (llvm) /* Negate the ip adjustment done in mono_arm_throw_exception */ ARM_ADD_REG_IMM8 (code, ARMREG_R1, ARMREG_R1, 4); } else { ARM_MOV_REG_REG (code, ARMREG_R1, ARMREG_LR); /* caller ip */ } /* int regs */ ARM_ADD_REG_IMM8 (code, ARMREG_R3, ARMREG_SP, (cfa_offset - (MONO_ARM_NUM_SAVED_REGS * sizeof (mgreg_t)))); /* we encode rethrow in the ip */ ARM_ORR_REG_IMM8 (code, ARMREG_R1, ARMREG_R1, rethrow); /* fp regs */ ARM_ADD_REG_IMM8 (code, ARMREG_LR, ARMREG_SP, 8); ARM_STR_IMM (code, ARMREG_LR, ARMREG_SP, 0); if (aot) { const char *icall_name; if (resume_unwind) icall_name = "mono_arm_resume_unwind"; else if (corlib) icall_name = "mono_arm_throw_exception_by_token"; else icall_name = "mono_arm_throw_exception"; ji = mono_patch_info_list_prepend (ji, code - start, MONO_PATCH_INFO_JIT_ICALL_ADDR, icall_name); 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 (resume_unwind ? (gpointer)mono_arm_resume_unwind : (corlib ? (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); if (info) *info = mono_tramp_info_create (tramp_name, start, code - start, ji, unwind_ops); return start; } /** * 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 (MonoTrampInfo **info, gboolean aot) { return get_throw_trampoline (132, FALSE, FALSE, FALSE, FALSE, "throw_exception", info, aot); } /** * 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 (MonoTrampInfo **info, gboolean aot) { return get_throw_trampoline (132, FALSE, TRUE, FALSE, FALSE, "rethrow_exception", info, aot); } /** * 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 (MonoTrampInfo **info, gboolean aot) { return get_throw_trampoline (168, TRUE, FALSE, FALSE, FALSE, "throw_corlib_exception", info, aot); } GSList* mono_arm_get_exception_trampolines (gboolean aot) { MonoTrampInfo *info; GSList *tramps = NULL; /* LLVM uses the normal trampolines, but with a different name */ get_throw_trampoline (168, TRUE, FALSE, FALSE, FALSE, "llvm_throw_corlib_exception_trampoline", &info, aot); tramps = g_slist_prepend (tramps, info); get_throw_trampoline (168, TRUE, FALSE, TRUE, FALSE, "llvm_throw_corlib_exception_abs_trampoline", &info, aot); tramps = g_slist_prepend (tramps, info); get_throw_trampoline (168, FALSE, FALSE, FALSE, TRUE, "llvm_resume_unwind_trampoline", &info, aot); tramps = g_slist_prepend (tramps, info); return tramps; } void mono_arch_exceptions_init (void) { guint8 *tramp; GSList *tramps, *l; if (mono_aot_only) { tramp = mono_aot_get_trampoline ("llvm_throw_corlib_exception_trampoline"); mono_register_jit_icall (tramp, "llvm_throw_corlib_exception_trampoline", NULL, TRUE); tramp = mono_aot_get_trampoline ("llvm_throw_corlib_exception_abs_trampoline"); mono_register_jit_icall (tramp, "llvm_throw_corlib_exception_abs_trampoline", NULL, TRUE); tramp = mono_aot_get_trampoline ("llvm_resume_unwind_trampoline"); mono_register_jit_icall (tramp, "llvm_resume_unwind_trampoline", NULL, TRUE); } else { tramps = mono_arm_get_exception_trampolines (FALSE); for (l = tramps; l; l = l->next) { MonoTrampInfo *info = l->data; mono_register_jit_icall (info->code, g_strdup (info->name), NULL, TRUE); mono_tramp_info_register (info); } g_slist_free (tramps); } } /* * mono_arch_find_jit_info: * * See exceptions-amd64.c for docs; */ gboolean mono_arch_find_jit_info (MonoDomain *domain, MonoJitTlsData *jit_tls, MonoJitInfo *ji, MonoContext *ctx, MonoContext *new_ctx, MonoLMF **lmf, mgreg_t **save_locations, StackFrameInfo *frame) { gpointer ip = MONO_CONTEXT_GET_IP (ctx); memset (frame, 0, sizeof (StackFrameInfo)); frame->ji = ji; *new_ctx = *ctx; if (ji != NULL) { int i; gssize regs [MONO_MAX_IREGS + 1 + 8]; guint8 *cfa; guint32 unwind_info_len; guint8 *unwind_info; frame->type = FRAME_TYPE_MANAGED; 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); /* printf ("%s %p %p\n", ji->d.method->name, ji->code_start, ip); mono_print_unwind_info (unwind_info, unwind_info_len); */ for (i = 0; i < 16; ++i) regs [i] = new_ctx->regs [i]; #ifdef TARGET_IOS /* On IOS, d8..d15 are callee saved. They are mapped to 8..15 in unwind.c */ for (i = 0; i < 8; ++i) regs [MONO_MAX_IREGS + i] = new_ctx->fregs [8 + i]; #endif mono_unwind_frame (unwind_info, unwind_info_len, ji->code_start, (guint8*)ji->code_start + ji->code_size, ip, regs, MONO_MAX_IREGS + 8, save_locations, MONO_MAX_IREGS, &cfa); for (i = 0; i < 16; ++i) new_ctx->regs [i] = regs [i]; new_ctx->pc = regs [ARMREG_LR]; new_ctx->regs [ARMREG_SP] = (gsize)cfa; #ifdef TARGET_IOS for (i = 0; i < 8; ++i) new_ctx->fregs [8 + i] = regs [MONO_MAX_IREGS + i]; #endif if (*lmf && (MONO_CONTEXT_GET_SP (ctx) >= (gpointer)(*lmf)->sp)) { /* remove any unused lmf */ *lmf = (gpointer)(((gsize)(*lmf)->previous_lmf) & ~3); } /* Clear thumb bit */ new_ctx->pc &= ~1; /* we substract 1, so that the IP points into the call instruction */ new_ctx->pc--; return TRUE; } else if (*lmf) { if (((gsize)(*lmf)->previous_lmf) & 2) { /* * This LMF entry is created by the soft debug code to mark transitions to * managed code done during invokes. */ MonoLMFExt *ext = (MonoLMFExt*)(*lmf); g_assert (ext->debugger_invoke); memcpy (new_ctx, &ext->ctx, sizeof (MonoContext)); *lmf = (gpointer)(((gsize)(*lmf)->previous_lmf) & ~3); frame->type = FRAME_TYPE_DEBUGGER_INVOKE; return TRUE; } frame->type = FRAME_TYPE_MANAGED_TO_NATIVE; if ((ji = mini_jit_info_table_find (domain, (gpointer)(*lmf)->ip, NULL))) { frame->ji = ji; } else { if (!(*lmf)->method) return FALSE; frame->method = (*lmf)->method; } /* * The LMF is saved at the start of the method using: * ARM_MOV_REG_REG (code, ARMREG_IP, ARMREG_SP) * ARM_PUSH (code, 0x5ff0); * So it stores the register state as it existed at the caller. We need to * produce the register state which existed at the time of the call which * transitioned to native call, so we save the sp/fp/ip in the LMF. */ memcpy (&new_ctx->regs [0], &(*lmf)->iregs [0], sizeof (mgreg_t) * 13); new_ctx->pc = (*lmf)->ip; new_ctx->regs [ARMREG_SP] = (*lmf)->sp; new_ctx->regs [ARMREG_FP] = (*lmf)->fp; /* Clear thumb bit */ new_ctx->pc &= ~1; /* we substract 1, so that the IP points into the call instruction */ new_ctx->pc--; *lmf = (gpointer)(((gsize)(*lmf)->previous_lmf) & ~3); return TRUE; } return FALSE; } #if MONO_ARCH_HAVE_SIGCTX_TO_MONOCTX void mono_arch_sigctx_to_monoctx (void *sigctx, MonoContext *mctx) { mono_sigctx_to_monoctx (sigctx, mctx); } void mono_arch_monoctx_to_sigctx (MonoContext *mctx, void *ctx) { mono_monoctx_to_sigctx (mctx, ctx); } #endif /* MONO_ARCH_HAVE_SIGCTX_TO_MONOCTX */ /* * handle_exception: * * Called by resuming from a signal handler. */ static void handle_signal_exception (gpointer obj) { MonoJitTlsData *jit_tls = mono_native_tls_get_value (mono_jit_tls_id); MonoContext ctx; memcpy (&ctx, &jit_tls->ex_ctx, sizeof (MonoContext)); mono_handle_exception (&ctx, obj); mono_restore_context (&ctx); } /* * This works around a gcc 4.5 bug: * https://bugs.launchpad.net/ubuntu/+source/gcc-4.5/+bug/721531 */ #if defined(__GNUC__) __attribute__((noinline)) #endif static gpointer get_handle_signal_exception_addr (void) { return handle_signal_exception; } /* * This is the function called from the signal handler */ gboolean mono_arch_handle_exception (void *ctx, gpointer obj) { #if defined(MONO_CROSS_COMPILE) || !defined(MONO_ARCH_HAVE_SIGCTX_TO_MONOCTX) g_assert_not_reached (); #elif defined(MONO_ARCH_USE_SIGACTION) arm_ucontext *sigctx = ctx; /* * Handling the exception in the signal handler is problematic, since the original * signal is disabled, and we could run arbitrary code though the debugger. So * resume into the normal stack and do most work there if possible. */ MonoJitTlsData *jit_tls = mono_native_tls_get_value (mono_jit_tls_id); guint64 sp = UCONTEXT_REG_SP (sigctx); /* Pass the ctx parameter in TLS */ mono_arch_sigctx_to_monoctx (sigctx, &jit_tls->ex_ctx); /* The others in registers */ UCONTEXT_REG_R0 (sigctx) = (gsize)obj; /* Allocate a stack frame */ sp -= 16; UCONTEXT_REG_SP (sigctx) = sp; UCONTEXT_REG_PC (sigctx) = (gsize)get_handle_signal_exception_addr (); #ifdef UCONTEXT_REG_CPSR if ((gsize)UCONTEXT_REG_PC (sigctx) & 1) /* Transition to thumb */ UCONTEXT_REG_CPSR (sigctx) |= (1 << 5); else /* Transition to ARM */ UCONTEXT_REG_CPSR (sigctx) &= ~(1 << 5); #endif return TRUE; #else MonoContext mctx; gboolean result; mono_arch_sigctx_to_monoctx (ctx, &mctx); result = mono_handle_exception (&mctx, obj); /* restore the context so that returning from the signal handler will invoke * the catch clause */ mono_arch_monoctx_to_sigctx (&mctx, ctx); return result; #endif } gpointer mono_arch_ip_from_context (void *sigctx) { #ifdef MONO_CROSS_COMPILE g_assert_not_reached (); #elif defined(__native_client__) g_assert_not_reached (); #else arm_ucontext *my_uc = sigctx; return (void*) UCONTEXT_REG_PC (my_uc); #endif } void mono_arch_setup_async_callback (MonoContext *ctx, void (*async_cb)(void *fun), gpointer user_data) { mgreg_t sp = (mgreg_t)MONO_CONTEXT_GET_SP (ctx); // FIXME: g_assert (!user_data); /* Allocate a stack frame */ sp -= 16; MONO_CONTEXT_SET_SP (ctx, sp); MONO_CONTEXT_SET_IP (ctx, async_cb); // FIXME: thumb/arm } /* * mono_arch_setup_resume_sighandler_ctx: * * Setup CTX so execution continues at FUNC. */ void mono_arch_setup_resume_sighandler_ctx (MonoContext *ctx, gpointer func) { MONO_CONTEXT_SET_IP (ctx,func); if ((mgreg_t)MONO_CONTEXT_GET_IP (ctx) & 1) /* Transition to thumb */ ctx->cpsr |= (1 << 5); else /* Transition to ARM */ ctx->cpsr &= ~(1 << 5); }