/* * debug-mini.c: Mini-specific debugging stuff. * * Author: * Martin Baulig (martin@ximian.com) * * (C) 2003 Ximian, Inc. */ #include "mini.h" #include "jit.h" #include "config.h" #include #include #include #include #include #define _IN_THE_MONO_DEBUGGER #include #include "debug-mini.h" #include #ifdef MONO_DEBUGGER_SUPPORTED #include #endif typedef struct { guint32 index; MonoMethodDesc *desc; } MiniDebugBreakpointInfo; typedef struct { MonoDebugMethodJitInfo *jit; GArray *line_numbers; guint32 has_line_numbers; guint32 breakpoint_id; } MiniDebugMethodInfo; typedef struct { MonoObject *last_exception; guint32 stopped_on_exception : 1; guint32 stopped_on_unhandled : 1; } MonoDebuggerExceptionState; typedef enum { MONO_DEBUGGER_THREAD_FLAGS_NONE = 0, MONO_DEBUGGER_THREAD_FLAGS_INTERNAL = 1, MONO_DEBUGGER_THREAD_FLAGS_THREADPOOL = 2 } MonoDebuggerThreadFlags; typedef enum { MONO_DEBUGGER_INTERNAL_THREAD_FLAGS_NONE = 0, MONO_DEBUGGER_INTERNAL_THREAD_FLAGS_IN_RUNTIME_INVOKE = 1, MONO_DEBUGGER_INTERNAL_THREAD_FLAGS_ABORT_REQUESTED = 2 } MonoDebuggerInternalThreadFlags; struct _MonoDebuggerThreadInfo { guint64 tid; guint64 lmf_addr; guint64 end_stack; guint64 extended_notifications; /* Next pointer. */ MonoDebuggerThreadInfo *next; /* * The stack bounds are only used when reading a core file. */ guint64 stack_start; guint64 signal_stack_start; guint32 stack_size; guint32 signal_stack_size; guint32 thread_flags; /* * The debugger doesn't access anything beyond this point. */ MonoDebuggerExceptionState exception_state; guint32 internal_flags; MonoJitTlsData *jit_tls; MonoInternalThread *thread; }; typedef struct { gpointer stack_pointer; MonoObject *exception_obj; guint32 stop; guint32 stop_unhandled; } MonoDebuggerExceptionInfo; MonoDebuggerThreadInfo *mono_debugger_thread_table = NULL; static inline void record_line_number (MiniDebugMethodInfo *info, guint32 address, guint32 offset) { MonoDebugLineNumberEntry lne; lne.native_offset = address; lne.il_offset = offset; g_array_append_val (info->line_numbers, lne); } void mono_debug_init_method (MonoCompile *cfg, MonoBasicBlock *start_block, guint32 breakpoint_id) { MiniDebugMethodInfo *info; if (mono_debug_format == MONO_DEBUG_FORMAT_NONE) return; info = g_new0 (MiniDebugMethodInfo, 1); info->breakpoint_id = breakpoint_id; cfg->debug_info = info; } void mono_debug_open_method (MonoCompile *cfg) { MiniDebugMethodInfo *info; MonoDebugMethodJitInfo *jit; MonoMethodHeader *header; info = (MiniDebugMethodInfo *) cfg->debug_info; if (!info) return; mono_class_init (cfg->method->klass); header = cfg->header; g_assert (header); info->jit = jit = g_new0 (MonoDebugMethodJitInfo, 1); info->line_numbers = g_array_new (FALSE, TRUE, sizeof (MonoDebugLineNumberEntry)); jit->num_locals = header->num_locals; jit->locals = g_new0 (MonoDebugVarInfo, jit->num_locals); } static void write_variable (MonoInst *inst, MonoDebugVarInfo *var) { var->type = inst->inst_vtype; if (inst->opcode == OP_REGVAR) var->index = inst->dreg | MONO_DEBUG_VAR_ADDRESS_MODE_REGISTER; else if (inst->flags & MONO_INST_IS_DEAD) var->index = MONO_DEBUG_VAR_ADDRESS_MODE_DEAD; else if (inst->opcode == OP_REGOFFSET) { /* the debug interface needs fixing to allow 0(%base) address */ var->index = inst->inst_basereg | MONO_DEBUG_VAR_ADDRESS_MODE_REGOFFSET; var->offset = inst->inst_offset; } else if (inst->opcode == OP_GSHAREDVT_ARG_REGOFFSET) { var->index = inst->inst_basereg | MONO_DEBUG_VAR_ADDRESS_MODE_REGOFFSET_INDIR; var->offset = inst->inst_offset; } else if (inst->opcode == OP_GSHAREDVT_LOCAL) { var->index = inst->inst_imm | MONO_DEBUG_VAR_ADDRESS_MODE_GSHAREDVT_LOCAL; } else { g_assert_not_reached (); } } /* * mono_debug_add_vg_method: * * Register symbol information for the method with valgrind */ static void mono_debug_add_vg_method (MonoMethod *method, MonoDebugMethodJitInfo *jit) { #ifdef VALGRIND_ADD_LINE_INFO MonoMethodHeader *header; MonoDebugMethodInfo *minfo; int i; char *filename = NULL; guint32 address, line_number; const char *full_name; guint32 *addresses; guint32 *lines; if (!RUNNING_ON_VALGRIND) return; header = mono_method_get_header (method); full_name = mono_method_full_name (method, TRUE); addresses = g_new0 (guint32, header->code_size + 1); lines = g_new0 (guint32, header->code_size + 1); /* * Very simple code to convert the addr->offset mappings that mono has * into [addr-addr] ->line number mappings. */ minfo = mono_debug_lookup_method (method); if (minfo) { /* Create offset->line number mapping */ for (i = 0; i < header->code_size; ++i) { MonoDebugSourceLocation *location; location = mono_debug_symfile_lookup_location (minfo, i); if (!location) continue; lines [i] = location.row; if (!filename) filename = location.source_file; mono_debug_free_source_location (location); } } /* Create address->offset mapping */ for (i = 0; i < jit->num_line_numbers; ++i) { MonoDebugLineNumberEntry *lne = jit->line_numbers [i]; g_assert (lne->offset <= header->code_size); if ((addresses [lne->offset] == 0) || (lne->address < addresses [lne->offset])) addresses [lne->offset] = lne->address; } /* Fill out missing addresses */ address = 0; for (i = 0; i < header->code_size; ++i) { if (addresses [i] == 0) addresses [i] = address; else address = addresses [i]; } address = 0; line_number = 0; i = 0; while (i < header->code_size) { if (lines [i] == line_number) i ++; else { if (line_number > 0) { //g_assert (addresses [i] - 1 >= address); if (addresses [i] - 1 >= address) { VALGRIND_ADD_LINE_INFO (jit->code_start + address, jit->code_start + addresses [i] - 1, filename, line_number); //printf ("[%d-%d] -> %d.\n", address, addresses [i] - 1, line_number); } } address = addresses [i]; line_number = lines [i]; } } if (line_number > 0) { VALGRIND_ADD_LINE_INFO (jit->code_start + address, jit->code_start + jit->code_size - 1, filename, line_number); //printf ("[%d-%d] -> %d.\n", address, jit->code_size - 1, line_number); } VALGRIND_ADD_SYMBOL (jit->code_start, jit->code_size, full_name); g_free (addresses); g_free (lines); mono_metadata_free_mh (header); #endif /* VALGRIND_ADD_LINE_INFO */ } void mono_debug_close_method (MonoCompile *cfg) { MiniDebugMethodInfo *info; MonoDebugMethodJitInfo *jit; MonoMethodHeader *header; MonoMethodSignature *sig; MonoDebugMethodAddress *debug_info; MonoMethod *method; int i; info = (MiniDebugMethodInfo *) cfg->debug_info; if (!info || !info->jit) { if (info) g_free (info); return; } method = cfg->method; header = cfg->header; sig = mono_method_signature (method); jit = info->jit; jit->code_start = cfg->native_code; jit->epilogue_begin = cfg->epilog_begin; jit->code_size = cfg->code_len; if (jit->epilogue_begin) record_line_number (info, jit->epilogue_begin, header->code_size); jit->num_params = sig->param_count; jit->params = g_new0 (MonoDebugVarInfo, jit->num_params); for (i = 0; i < jit->num_locals; i++) write_variable (cfg->locals [i], &jit->locals [i]); if (sig->hasthis) { jit->this_var = g_new0 (MonoDebugVarInfo, 1); write_variable (cfg->args [0], jit->this_var); } for (i = 0; i < jit->num_params; i++) write_variable (cfg->args [i + sig->hasthis], &jit->params [i]); if (cfg->gsharedvt_info_var) { jit->gsharedvt_info_var = g_new0 (MonoDebugVarInfo, 1); jit->gsharedvt_locals_var = g_new0 (MonoDebugVarInfo, 1); write_variable (cfg->gsharedvt_info_var, jit->gsharedvt_info_var); write_variable (cfg->gsharedvt_locals_var, jit->gsharedvt_locals_var); } jit->num_line_numbers = info->line_numbers->len; jit->line_numbers = g_new0 (MonoDebugLineNumberEntry, jit->num_line_numbers); for (i = 0; i < jit->num_line_numbers; i++) jit->line_numbers [i] = g_array_index (info->line_numbers, MonoDebugLineNumberEntry, i); debug_info = mono_debug_add_method (cfg->method_to_register, jit, cfg->domain); mono_debug_add_vg_method (method, jit); mono_debugger_check_breakpoints (method, debug_info); mono_debug_free_method_jit_info (jit); mono_debug_free_method (cfg); } void mono_debug_free_method (MonoCompile *cfg) { MiniDebugMethodInfo *info; info = (MiniDebugMethodInfo *) cfg->debug_info; if (info) { if (info->line_numbers) g_array_free (info->line_numbers, TRUE); g_free (info); cfg->debug_info = NULL; } } void mono_debug_record_line_number (MonoCompile *cfg, MonoInst *ins, guint32 address) { MiniDebugMethodInfo *info; MonoMethodHeader *header; guint32 offset; info = (MiniDebugMethodInfo *) cfg->debug_info; if (!info || !info->jit || !ins->cil_code) return; header = cfg->header; g_assert (header); if ((ins->cil_code < header->code) || (ins->cil_code > header->code + header->code_size)) return; offset = ins->cil_code - header->code; if (!info->has_line_numbers) { info->jit->prologue_end = address; info->has_line_numbers = TRUE; } record_line_number (info, address, offset); } void mono_debug_open_block (MonoCompile *cfg, MonoBasicBlock *bb, guint32 address) { MiniDebugMethodInfo *info; MonoMethodHeader *header; guint32 offset; info = (MiniDebugMethodInfo *) cfg->debug_info; if (!info || !info->jit || !bb->cil_code) return; header = cfg->header; g_assert (header); if ((bb->cil_code < header->code) || (bb->cil_code > header->code + header->code_size)) return; offset = bb->cil_code - header->code; if (!info->has_line_numbers) { info->jit->prologue_end = address; info->has_line_numbers = TRUE; } record_line_number (info, address, offset); } static inline void encode_value (gint32 value, guint8 *buf, guint8 **endbuf) { guint8 *p = buf; //printf ("ENCODE: %d 0x%x.\n", value, value); /* * Same encoding as the one used in the metadata, extended to handle values * greater than 0x1fffffff. */ if ((value >= 0) && (value <= 127)) *p++ = value; else if ((value >= 0) && (value <= 16383)) { p [0] = 0x80 | (value >> 8); p [1] = value & 0xff; p += 2; } else if ((value >= 0) && (value <= 0x1fffffff)) { p [0] = (value >> 24) | 0xc0; p [1] = (value >> 16) & 0xff; p [2] = (value >> 8) & 0xff; p [3] = value & 0xff; p += 4; } else { p [0] = 0xff; p [1] = (value >> 24) & 0xff; p [2] = (value >> 16) & 0xff; p [3] = (value >> 8) & 0xff; p [4] = value & 0xff; p += 5; } if (endbuf) *endbuf = p; } static inline gint32 decode_value (guint8 *ptr, guint8 **rptr) { guint8 b = *ptr; gint32 len; if ((b & 0x80) == 0){ len = b; ++ptr; } else if ((b & 0x40) == 0){ len = ((b & 0x3f) << 8 | ptr [1]); ptr += 2; } else if (b != 0xff) { len = ((b & 0x1f) << 24) | (ptr [1] << 16) | (ptr [2] << 8) | ptr [3]; ptr += 4; } else { len = (ptr [1] << 24) | (ptr [2] << 16) | (ptr [3] << 8) | ptr [4]; ptr += 5; } if (rptr) *rptr = ptr; //printf ("DECODE: %d.\n", len); return len; } static void serialize_variable (MonoDebugVarInfo *var, guint8 *p, guint8 **endbuf) { guint32 flags = var->index & MONO_DEBUG_VAR_ADDRESS_MODE_FLAGS; encode_value (var->index, p, &p); switch (flags) { case MONO_DEBUG_VAR_ADDRESS_MODE_REGISTER: break; case MONO_DEBUG_VAR_ADDRESS_MODE_REGOFFSET: case MONO_DEBUG_VAR_ADDRESS_MODE_REGOFFSET_INDIR: encode_value (var->offset, p, &p); break; case MONO_DEBUG_VAR_ADDRESS_MODE_GSHAREDVT_LOCAL: case MONO_DEBUG_VAR_ADDRESS_MODE_DEAD: break; default: g_assert_not_reached (); } *endbuf = p; } void mono_debug_serialize_debug_info (MonoCompile *cfg, guint8 **out_buf, guint32 *buf_len) { MonoDebugMethodJitInfo *jit; guint32 size, prev_offset, prev_native_offset; guint8 *buf, *p; int i; /* Can't use cfg->debug_info as it is freed by close_method () */ jit = mono_debug_find_method (cfg->method, mono_domain_get ()); if (!jit) { *buf_len = 0; return; } size = ((jit->num_params + jit->num_locals + 1) * 10) + (jit->num_line_numbers * 10) + 64; p = buf = g_malloc (size); encode_value (jit->epilogue_begin, p, &p); encode_value (jit->prologue_end, p, &p); encode_value (jit->code_size, p, &p); for (i = 0; i < jit->num_params; ++i) serialize_variable (&jit->params [i], p, &p); if (mono_method_signature (cfg->method)->hasthis) serialize_variable (jit->this_var, p, &p); for (i = 0; i < jit->num_locals; i++) serialize_variable (&jit->locals [i], p, &p); if (jit->gsharedvt_info_var) { encode_value (1, p, &p); serialize_variable (jit->gsharedvt_info_var, p, &p); serialize_variable (jit->gsharedvt_locals_var, p, &p); } else { encode_value (0, p, &p); } encode_value (jit->num_line_numbers, p, &p); prev_offset = 0; prev_native_offset = 0; for (i = 0; i < jit->num_line_numbers; ++i) { /* Sometimes, the offset values are not in increasing order */ MonoDebugLineNumberEntry *lne = &jit->line_numbers [i]; encode_value (lne->il_offset - prev_offset, p, &p); encode_value (lne->native_offset - prev_native_offset, p, &p); prev_offset = lne->il_offset; prev_native_offset = lne->native_offset; } g_assert (p - buf < size); *out_buf = buf; *buf_len = p - buf; } static void deserialize_variable (MonoDebugVarInfo *var, guint8 *p, guint8 **endbuf) { guint32 flags; var->index = decode_value (p, &p); flags = var->index & MONO_DEBUG_VAR_ADDRESS_MODE_FLAGS; switch (flags) { case MONO_DEBUG_VAR_ADDRESS_MODE_REGISTER: break; case MONO_DEBUG_VAR_ADDRESS_MODE_REGOFFSET: case MONO_DEBUG_VAR_ADDRESS_MODE_REGOFFSET_INDIR: var->offset = decode_value (p, &p); break; case MONO_DEBUG_VAR_ADDRESS_MODE_GSHAREDVT_LOCAL: case MONO_DEBUG_VAR_ADDRESS_MODE_DEAD: break; default: g_assert_not_reached (); } *endbuf = p; } static MonoDebugMethodJitInfo * deserialize_debug_info (MonoMethod *method, guint8 *code_start, guint8 *buf, guint32 buf_len) { MonoMethodHeader *header; gint32 offset, native_offset, prev_offset, prev_native_offset; MonoDebugMethodJitInfo *jit; guint8 *p; int i; header = mono_method_get_header (method); g_assert (header); jit = g_new0 (MonoDebugMethodJitInfo, 1); jit->code_start = code_start; jit->num_locals = header->num_locals; jit->locals = g_new0 (MonoDebugVarInfo, jit->num_locals); jit->num_params = mono_method_signature (method)->param_count; jit->params = g_new0 (MonoDebugVarInfo, jit->num_params); p = buf; jit->epilogue_begin = decode_value (p, &p); jit->prologue_end = decode_value (p, &p); jit->code_size = decode_value (p, &p); for (i = 0; i < jit->num_params; ++i) deserialize_variable (&jit->params [i], p, &p); if (mono_method_signature (method)->hasthis) { jit->this_var = g_new0 (MonoDebugVarInfo, 1); deserialize_variable (jit->this_var, p, &p); } for (i = 0; i < jit->num_locals; i++) deserialize_variable (&jit->locals [i], p, &p); if (decode_value (p, &p)) { jit->gsharedvt_info_var = g_new0 (MonoDebugVarInfo, 1); jit->gsharedvt_locals_var = g_new0 (MonoDebugVarInfo, 1); deserialize_variable (jit->gsharedvt_info_var, p, &p); deserialize_variable (jit->gsharedvt_locals_var, p, &p); } jit->num_line_numbers = decode_value (p, &p); jit->line_numbers = g_new0 (MonoDebugLineNumberEntry, jit->num_line_numbers); prev_offset = 0; prev_native_offset = 0; for (i = 0; i < jit->num_line_numbers; ++i) { MonoDebugLineNumberEntry *lne = &jit->line_numbers [i]; offset = prev_offset + decode_value (p, &p); native_offset = prev_native_offset + decode_value (p, &p); lne->native_offset = native_offset; lne->il_offset = offset; prev_offset = offset; prev_native_offset = native_offset; } mono_metadata_free_mh (header); return jit; } void mono_debug_add_aot_method (MonoDomain *domain, MonoMethod *method, guint8 *code_start, guint8 *debug_info, guint32 debug_info_len) { MonoDebugMethodJitInfo *jit; if (mono_debug_format == MONO_DEBUG_FORMAT_NONE) return; if ((method->iflags & METHOD_IMPL_ATTRIBUTE_INTERNAL_CALL) || (method->iflags & METHOD_IMPL_ATTRIBUTE_RUNTIME) || (method->flags & METHOD_ATTRIBUTE_PINVOKE_IMPL) || (method->flags & METHOD_ATTRIBUTE_ABSTRACT) || (method->wrapper_type != MONO_WRAPPER_NONE)) return; if (debug_info_len == 0) return; jit = deserialize_debug_info (method, code_start, debug_info, debug_info_len); mono_debug_add_method (method, jit, domain); mono_debug_add_vg_method (method, jit); mono_debug_free_method_jit_info (jit); } void mono_debug_add_icall_wrapper (MonoMethod *method, MonoJitICallInfo* callinfo) { if (mono_debug_format == MONO_DEBUG_FORMAT_NONE) return; // mono_debug_add_wrapper (method, callinfo->wrapper, callinfo->func); } static void print_var_info (MonoDebugVarInfo *info, int idx, const char *name, const char *type) { switch (info->index & MONO_DEBUG_VAR_ADDRESS_MODE_FLAGS) { case MONO_DEBUG_VAR_ADDRESS_MODE_REGISTER: g_print ("%s %s (%d) in register %s\n", type, name, idx, mono_arch_regname (info->index & (~MONO_DEBUG_VAR_ADDRESS_MODE_FLAGS))); break; case MONO_DEBUG_VAR_ADDRESS_MODE_REGOFFSET: g_print ("%s %s (%d) in memory: base register %s + %d\n", type, name, idx, mono_arch_regname (info->index & (~MONO_DEBUG_VAR_ADDRESS_MODE_FLAGS)), info->offset); break; case MONO_DEBUG_VAR_ADDRESS_MODE_REGOFFSET_INDIR: g_print ("%s %s (%d) in indir memory: base register %s + %d\n", type, name, idx, mono_arch_regname (info->index & (~MONO_DEBUG_VAR_ADDRESS_MODE_FLAGS)), info->offset); break; case MONO_DEBUG_VAR_ADDRESS_MODE_GSHAREDVT_LOCAL: g_print ("%s %s (%d) gsharedvt local.\n", type, name, idx); break; case MONO_DEBUG_VAR_ADDRESS_MODE_TWO_REGISTERS: default: g_assert_not_reached (); } } /** * mono_debug_print_locals: * * Prints to stdout the information about the local variables in * a method (if @only_arguments is false) or about the arguments. * The information includes the storage info (where the variable * lives, in a register or in memory). * The method is found by looking up what method has been emitted at * the instruction address @ip. * This is for use inside a debugger. */ void mono_debug_print_vars (gpointer ip, gboolean only_arguments) { MonoDomain *domain = mono_domain_get (); MonoJitInfo *ji = mono_jit_info_table_find (domain, ip); MonoDebugMethodJitInfo *jit; int i; if (!ji) return; jit = mono_debug_find_method (mono_jit_info_get_method (ji), domain); if (!jit) return; if (only_arguments) { char **names; names = g_new (char *, jit->num_params); mono_method_get_param_names (mono_jit_info_get_method (ji), (const char **) names); if (jit->this_var) print_var_info (jit->this_var, 0, "this", "Arg"); for (i = 0; i < jit->num_params; ++i) { print_var_info (&jit->params [i], i, names [i]? names [i]: "unknown name", "Arg"); } g_free (names); } else { for (i = 0; i < jit->num_locals; ++i) { print_var_info (&jit->locals [i], i, "", "Local"); } } mono_debug_free_method_jit_info (jit); } /* * The old Debugger breakpoint interface. * * This interface is used to insert breakpoints on methods which are not yet JITed. * The debugging code keeps a list of all such breakpoints and automatically inserts the * breakpoint when the method is JITed. */ static GPtrArray *breakpoints = NULL; int mono_debugger_insert_breakpoint_full (MonoMethodDesc *desc) { static int last_breakpoint_id = 0; MiniDebugBreakpointInfo *info; info = g_new0 (MiniDebugBreakpointInfo, 1); info->desc = desc; info->index = ++last_breakpoint_id; if (!breakpoints) breakpoints = g_ptr_array_new (); g_ptr_array_add (breakpoints, info); return info->index; } int mono_debugger_remove_breakpoint (int breakpoint_id) { int i; if (!breakpoints) return 0; for (i = 0; i < breakpoints->len; i++) { MiniDebugBreakpointInfo *info = g_ptr_array_index (breakpoints, i); if (info->index != breakpoint_id) continue; mono_method_desc_free (info->desc); g_ptr_array_remove (breakpoints, info); g_free (info); return 1; } return 0; } int mono_debugger_insert_breakpoint (const gchar *method_name, gboolean include_namespace) { MonoMethodDesc *desc; desc = mono_method_desc_new (method_name, include_namespace); if (!desc) return 0; return mono_debugger_insert_breakpoint_full (desc); } int mono_debugger_method_has_breakpoint (MonoMethod *method) { int i; if (!breakpoints) return 0; for (i = 0; i < breakpoints->len; i++) { MiniDebugBreakpointInfo *info = g_ptr_array_index (breakpoints, i); if (!mono_method_desc_full_match (info->desc, method)) continue; return info->index; } return 0; } void mono_debugger_breakpoint_callback (MonoMethod *method, guint32 index) { mono_debugger_event (MONO_DEBUGGER_EVENT_JIT_BREAKPOINT, (guint64) (gsize) method, index); } void mono_debugger_thread_created (gsize tid, MonoThread *thread, MonoJitTlsData *jit_tls, gpointer func) { #ifdef MONO_DEBUGGER_SUPPORTED size_t stsize = 0; guint8 *staddr = NULL; MonoDebuggerThreadInfo *info; if (mono_debug_format == MONO_DEBUG_FORMAT_NONE) return; mono_debugger_lock (); mono_thread_get_stack_bounds (&staddr, &stsize); info = g_new0 (MonoDebuggerThreadInfo, 1); info->tid = tid; info->thread = thread->internal_thread; info->stack_start = (guint64) (gsize) staddr; info->signal_stack_start = (guint64) (gsize) jit_tls->signal_stack; info->stack_size = stsize; info->signal_stack_size = jit_tls->signal_stack_size; info->end_stack = (guint64) (gsize) GC_mono_debugger_get_stack_ptr (); info->lmf_addr = (guint64) (gsize) mono_get_lmf_addr (); info->jit_tls = jit_tls; if (func) info->thread_flags = MONO_DEBUGGER_THREAD_FLAGS_INTERNAL; if (thread->internal_thread->threadpool_thread) info->thread_flags |= MONO_DEBUGGER_THREAD_FLAGS_THREADPOOL; info->next = mono_debugger_thread_table; mono_debugger_thread_table = info; mono_debugger_event (MONO_DEBUGGER_EVENT_THREAD_CREATED, tid, (guint64) (gsize) info); mono_debugger_unlock (); #endif /* MONO_DEBUGGER_SUPPORTED */ } void mono_debugger_thread_cleanup (MonoJitTlsData *jit_tls) { #ifdef MONO_DEBUGGER_SUPPORTED MonoDebuggerThreadInfo **ptr; if (mono_debug_format == MONO_DEBUG_FORMAT_NONE) return; mono_debugger_lock (); for (ptr = &mono_debugger_thread_table; *ptr; ptr = &(*ptr)->next) { MonoDebuggerThreadInfo *info = *ptr; if (info->jit_tls != jit_tls) continue; mono_debugger_event (MONO_DEBUGGER_EVENT_THREAD_CLEANUP, info->tid, (guint64) (gsize) info); *ptr = info->next; g_free (info); break; } mono_debugger_unlock (); #endif } void mono_debugger_extended_notification (MonoDebuggerEvent event, guint64 data, guint64 arg) { #ifdef MONO_DEBUGGER_SUPPORTED MonoDebuggerThreadInfo **ptr; MonoInternalThread *thread = mono_thread_internal_current (); if (!mono_debug_using_mono_debugger ()) return; mono_debugger_lock (); for (ptr = &mono_debugger_thread_table; *ptr; ptr = &(*ptr)->next) { MonoDebuggerThreadInfo *info = *ptr; if (info->thread != thread) continue; if ((info->extended_notifications & (int) event) == 0) continue; mono_debugger_event (event, data, arg); } mono_debugger_unlock (); #endif } void mono_debugger_trampoline_compiled (const guint8 *trampoline, MonoMethod *method, const guint8 *code) { #ifdef MONO_DEBUGGER_SUPPORTED struct { const guint8 * trampoline; MonoMethod *method; const guint8 *code; } info = { trampoline, method, code }; mono_debugger_extended_notification (MONO_DEBUGGER_EVENT_OLD_TRAMPOLINE, (guint64) (gsize) method, (guint64) (gsize) code); mono_debugger_extended_notification (MONO_DEBUGGER_EVENT_TRAMPOLINE, (guint64) (gsize) &info, 0); #endif } #if MONO_DEBUGGER_SUPPORTED static MonoDebuggerThreadInfo * find_debugger_thread_info (MonoInternalThread *thread) { MonoDebuggerThreadInfo **ptr; for (ptr = &mono_debugger_thread_table; *ptr; ptr = &(*ptr)->next) { MonoDebuggerThreadInfo *info = *ptr; if (info->thread == thread) return info; } return NULL; } #endif MonoDebuggerExceptionAction _mono_debugger_throw_exception (gpointer addr, gpointer stack, MonoObject *exc) { #ifdef MONO_DEBUGGER_SUPPORTED MonoDebuggerExceptionInfo exc_info; MonoDebuggerThreadInfo *thread_info; if (!mono_debug_using_mono_debugger ()) return MONO_DEBUGGER_EXCEPTION_ACTION_NONE; mono_debugger_lock (); thread_info = find_debugger_thread_info (mono_thread_internal_current ()); if (!thread_info) { mono_debugger_unlock (); return MONO_DEBUGGER_EXCEPTION_ACTION_NONE; } if ((thread_info->internal_flags & MONO_DEBUGGER_INTERNAL_THREAD_FLAGS_ABORT_REQUESTED) != 0) { mono_debugger_unlock (); return MONO_DEBUGGER_EXCEPTION_ACTION_NONE; } if (thread_info->exception_state.stopped_on_exception || thread_info->exception_state.stopped_on_unhandled) { thread_info->exception_state.stopped_on_exception = 0; mono_debugger_unlock (); return MONO_DEBUGGER_EXCEPTION_ACTION_NONE; } /* Protect the exception object from being garbage collected. */ thread_info->exception_state.stopped_on_unhandled = 0; thread_info->exception_state.stopped_on_exception = 1; thread_info->exception_state.last_exception = exc; /* * Backwards compatibility: * * Older debugger versions only know `exc_info.stop' and older runtime versions check * `exc_info.stop != 0'. * * The debugger must check for `mono_debug_debugger_version >= 5' before accessing the * `stop_unhandled' field. */ exc_info.stack_pointer = stack; exc_info.exception_obj = exc; exc_info.stop = 0; exc_info.stop_unhandled = 0; mono_debugger_event (MONO_DEBUGGER_EVENT_THROW_EXCEPTION, (guint64) (gsize) &exc_info, (guint64) (gsize) addr); if (!exc_info.stop) { thread_info->exception_state.stopped_on_exception = 0; thread_info->exception_state.last_exception = NULL; } mono_debugger_unlock (); if (exc_info.stop) return MONO_DEBUGGER_EXCEPTION_ACTION_STOP; else if (exc_info.stop_unhandled) return MONO_DEBUGGER_EXCEPTION_ACTION_STOP_UNHANDLED; #endif return MONO_DEBUGGER_EXCEPTION_ACTION_NONE; } gboolean _mono_debugger_unhandled_exception (gpointer addr, gpointer stack, MonoObject *exc) { #ifdef MONO_DEBUGGER_SUPPORTED MonoDebuggerThreadInfo *thread_info; if (!mono_debug_using_mono_debugger ()) return FALSE; if (exc) { const gchar *name = mono_class_get_name (mono_object_get_class (exc)); if (!strcmp (name, "ThreadAbortException")) return FALSE; } mono_debugger_lock (); thread_info = find_debugger_thread_info (mono_thread_internal_current ()); if (!thread_info) { mono_debugger_unlock (); return FALSE; } if ((thread_info->internal_flags & MONO_DEBUGGER_INTERNAL_THREAD_FLAGS_ABORT_REQUESTED) != 0) { mono_debugger_unlock (); return FALSE; } if (thread_info->exception_state.stopped_on_unhandled) { thread_info->exception_state.stopped_on_unhandled = 0; mono_debugger_unlock (); return FALSE; } thread_info->exception_state.stopped_on_unhandled = 1; thread_info->exception_state.last_exception = exc; mono_debugger_event (MONO_DEBUGGER_EVENT_UNHANDLED_EXCEPTION, (guint64) (gsize) exc, (guint64) (gsize) addr); return TRUE; #else return FALSE; #endif } /* * mono_debugger_call_exception_handler: * * Called from mono_handle_exception_internal() to tell the debugger that we're about * to invoke an exception handler. * * The debugger may choose to set a breakpoint at @addr. This is used if the user is * single-stepping from a `try' into a `catch' block, for instance. */ void mono_debugger_call_exception_handler (gpointer addr, gpointer stack, MonoObject *exc) { #ifdef MONO_DEBUGGER_SUPPORTED MonoDebuggerThreadInfo *thread_info; MonoDebuggerExceptionInfo exc_info; if (!mono_debug_using_mono_debugger ()) return; mono_debugger_lock (); thread_info = find_debugger_thread_info (mono_thread_internal_current ()); if (!thread_info) { mono_debugger_unlock (); return; } if ((thread_info->internal_flags & MONO_DEBUGGER_INTERNAL_THREAD_FLAGS_ABORT_REQUESTED) != 0) { mono_debugger_unlock (); return; } // Prevent the object from being finalized. thread_info->exception_state.last_exception = exc; exc_info.stack_pointer = stack; exc_info.exception_obj = exc; exc_info.stop = 0; exc_info.stop_unhandled = 0; mono_debugger_event (MONO_DEBUGGER_EVENT_HANDLE_EXCEPTION, (guint64) (gsize) &exc_info, (guint64) (gsize) addr); mono_debugger_unlock (); #endif } #ifdef MONO_DEBUGGER_SUPPORTED static gchar * get_exception_message (MonoObject *exc) { char *message = NULL; MonoString *str; MonoMethod *method; MonoClass *klass; gint i; if (mono_object_isinst (exc, mono_defaults.exception_class)) { klass = exc->vtable->klass; method = NULL; while (klass && method == NULL) { for (i = 0; i < klass->method.count; ++i) { method = klass->methods [i]; if (!strcmp ("ToString", method->name) && mono_method_signature (method)->param_count == 0 && method->flags & METHOD_ATTRIBUTE_VIRTUAL && method->flags & METHOD_ATTRIBUTE_PUBLIC) { break; } method = NULL; } if (method == NULL) klass = klass->parent; } g_assert (method); str = (MonoString *) mono_runtime_invoke (method, exc, NULL, NULL); if (str) message = mono_string_to_utf8 (str); } return message; } MonoObject * mono_debugger_runtime_invoke (MonoMethod *method, void *obj, void **params, MonoObject **exc) { MonoDebuggerThreadInfo *thread_info; MonoDebuggerExceptionState saved_exception_state; MonoObject *retval; gchar *message; mono_debugger_lock (); thread_info = find_debugger_thread_info (mono_thread_internal_current ()); if (!thread_info) { mono_debugger_unlock (); return NULL; } saved_exception_state = thread_info->exception_state; thread_info->exception_state.last_exception = NULL; thread_info->exception_state.stopped_on_unhandled = 0; thread_info->exception_state.stopped_on_exception = 0; thread_info->internal_flags |= MONO_DEBUGGER_INTERNAL_THREAD_FLAGS_IN_RUNTIME_INVOKE; mono_debugger_unlock (); if (!strcmp (method->name, ".ctor")) { retval = obj = mono_object_new (mono_domain_get (), method->klass); mono_runtime_invoke (method, obj, params, exc); } else retval = mono_runtime_invoke (method, obj, params, exc); mono_debugger_lock (); thread_info->exception_state = saved_exception_state; thread_info->internal_flags &= ~MONO_DEBUGGER_INTERNAL_THREAD_FLAGS_IN_RUNTIME_INVOKE; if ((thread_info->internal_flags & MONO_DEBUGGER_INTERNAL_THREAD_FLAGS_ABORT_REQUESTED) != 0) { thread_info->internal_flags &= ~MONO_DEBUGGER_INTERNAL_THREAD_FLAGS_ABORT_REQUESTED; mono_thread_internal_reset_abort (thread_info->thread); mono_debugger_unlock (); *exc = NULL; return NULL; } mono_debugger_unlock (); if (!exc || (*exc == NULL)) return retval; retval = *exc; message = get_exception_message (*exc); if (message) { *exc = (MonoObject *) mono_string_new_wrapper (message); g_free (message); } return retval; } gboolean mono_debugger_abort_runtime_invoke () { MonoInternalThread *thread = mono_thread_internal_current (); MonoDebuggerThreadInfo *thread_info; mono_debugger_lock (); thread_info = find_debugger_thread_info (thread); if (!thread_info) { mono_debugger_unlock (); return FALSE; } if ((thread_info->internal_flags & MONO_DEBUGGER_INTERNAL_THREAD_FLAGS_IN_RUNTIME_INVOKE) == 0) { mono_debugger_unlock (); return FALSE; } if ((thread_info->internal_flags & MONO_DEBUGGER_INTERNAL_THREAD_FLAGS_ABORT_REQUESTED) != 0) { mono_debugger_unlock (); return TRUE; } thread_info->internal_flags |= MONO_DEBUGGER_INTERNAL_THREAD_FLAGS_ABORT_REQUESTED; ves_icall_System_Threading_Thread_Abort (thread_info->thread, NULL); mono_debugger_unlock (); return TRUE; } #endif