/* * Server-side debugger functions * * Copyright (C) 1999 Alexandre Julliard * * 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 2.1 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "config.h" #include "wine/port.h" #include #include #include #include #include "winbase.h" #include "handle.h" #include "process.h" #include "thread.h" #include "request.h" #include "console.h" enum debug_event_state { EVENT_QUEUED, EVENT_SENT, EVENT_CONTINUED }; /* debug event */ struct debug_event { struct object obj; /* object header */ struct debug_event *next; /* event queue */ struct debug_event *prev; struct thread *sender; /* thread which sent this event */ struct thread *debugger; /* debugger thread receiving the event */ enum debug_event_state state; /* event state */ int status; /* continuation status */ debug_event_t data; /* event data */ CONTEXT context; /* register context */ }; /* debug context */ struct debug_ctx { struct object obj; /* object header */ struct debug_event *event_head; /* head of pending events queue */ struct debug_event *event_tail; /* tail of pending events queue */ int kill_on_exit;/* kill debuggees on debugger exit ? */ }; static void debug_event_dump( struct object *obj, int verbose ); static int debug_event_signaled( struct object *obj, struct thread *thread ); static void debug_event_destroy( struct object *obj ); static const struct object_ops debug_event_ops = { sizeof(struct debug_event), /* size */ debug_event_dump, /* dump */ add_queue, /* add_queue */ remove_queue, /* remove_queue */ debug_event_signaled, /* signaled */ no_satisfied, /* satisfied */ NULL, /* get_poll_events */ NULL, /* poll_event */ no_get_fd, /* get_fd */ no_flush, /* flush */ no_get_file_info, /* get_file_info */ NULL, /* queue_async */ debug_event_destroy /* destroy */ }; static void debug_ctx_dump( struct object *obj, int verbose ); static int debug_ctx_signaled( struct object *obj, struct thread *thread ); static void debug_ctx_destroy( struct object *obj ); static const struct object_ops debug_ctx_ops = { sizeof(struct debug_ctx), /* size */ debug_ctx_dump, /* dump */ add_queue, /* add_queue */ remove_queue, /* remove_queue */ debug_ctx_signaled, /* signaled */ no_satisfied, /* satisfied */ NULL, /* get_poll_events */ NULL, /* poll_event */ no_get_fd, /* get_fd */ no_flush, /* flush */ no_get_file_info, /* get_file_info */ NULL, /* queue_async */ debug_ctx_destroy /* destroy */ }; /* routines to build an event according to its type */ static int fill_exception_event( struct debug_event *event, void *arg ) { memcpy( &event->data.info.exception, arg, sizeof(event->data.info.exception) ); return 1; } static int fill_create_thread_event( struct debug_event *event, void *arg ) { struct process *debugger = event->debugger->process; struct thread *thread = event->sender; handle_t handle; /* documented: THREAD_GET_CONTEXT | THREAD_SET_CONTEXT | THREAD_SUSPEND_RESUME */ if (!(handle = alloc_handle( debugger, thread, THREAD_ALL_ACCESS, FALSE ))) return 0; event->data.info.create_thread.handle = handle; event->data.info.create_thread.teb = thread->teb; event->data.info.create_thread.start = arg; return 1; } static int fill_create_process_event( struct debug_event *event, void *arg ) { struct process *debugger = event->debugger->process; struct thread *thread = event->sender; struct process *process = thread->process; handle_t handle; /* documented: PROCESS_VM_READ | PROCESS_VM_WRITE */ if (!(handle = alloc_handle( debugger, process, PROCESS_ALL_ACCESS, FALSE ))) return 0; event->data.info.create_process.process = handle; /* documented: THREAD_GET_CONTEXT | THREAD_SET_CONTEXT | THREAD_SUSPEND_RESUME */ if (!(handle = alloc_handle( debugger, thread, THREAD_ALL_ACCESS, FALSE ))) { close_handle( debugger, event->data.info.create_process.process, NULL ); return 0; } event->data.info.create_process.thread = handle; handle = 0; if (process->exe.file && /* the doc says write access too, but this doesn't seem a good idea */ !(handle = alloc_handle( debugger, process->exe.file, GENERIC_READ, FALSE ))) { close_handle( debugger, event->data.info.create_process.process, NULL ); close_handle( debugger, event->data.info.create_process.thread, NULL ); return 0; } event->data.info.create_process.file = handle; event->data.info.create_process.teb = thread->teb; event->data.info.create_process.base = process->exe.base; event->data.info.create_process.start = arg; event->data.info.create_process.dbg_offset = process->exe.dbg_offset; event->data.info.create_process.dbg_size = process->exe.dbg_size; event->data.info.create_process.name = process->exe.name; event->data.info.create_process.unicode = 0; return 1; } static int fill_exit_thread_event( struct debug_event *event, void *arg ) { struct thread *thread = arg; event->data.info.exit.exit_code = thread->exit_code; return 1; } static int fill_exit_process_event( struct debug_event *event, void *arg ) { struct process *process = arg; event->data.info.exit.exit_code = process->exit_code; return 1; } static int fill_load_dll_event( struct debug_event *event, void *arg ) { struct process *debugger = event->debugger->process; struct process_dll *dll = arg; handle_t handle = 0; if (dll->file && !(handle = alloc_handle( debugger, dll->file, GENERIC_READ, FALSE ))) return 0; event->data.info.load_dll.handle = handle; event->data.info.load_dll.base = dll->base; event->data.info.load_dll.dbg_offset = dll->dbg_offset; event->data.info.load_dll.dbg_size = dll->dbg_size; event->data.info.load_dll.name = dll->name; event->data.info.load_dll.unicode = 0; return 1; } static int fill_unload_dll_event( struct debug_event *event, void *arg ) { event->data.info.unload_dll.base = arg; return 1; } static int fill_output_debug_string_event( struct debug_event *event, void *arg ) { struct debug_event_output_string *data = arg; event->data.info.output_string = *data; return 1; } typedef int (*fill_event_func)( struct debug_event *event, void *arg ); #define NB_DEBUG_EVENTS OUTPUT_DEBUG_STRING_EVENT /* RIP_EVENT not supported */ static const fill_event_func fill_debug_event[NB_DEBUG_EVENTS] = { fill_exception_event, /* EXCEPTION_DEBUG_EVENT */ fill_create_thread_event, /* CREATE_THREAD_DEBUG_EVENT */ fill_create_process_event, /* CREATE_PROCESS_DEBUG_EVENT */ fill_exit_thread_event, /* EXIT_THREAD_DEBUG_EVENT */ fill_exit_process_event, /* EXIT_PROCESS_DEBUG_EVENT */ fill_load_dll_event, /* LOAD_DLL_DEBUG_EVENT */ fill_unload_dll_event, /* UNLOAD_DLL_DEBUG_EVENT */ fill_output_debug_string_event /* OUTPUT_DEBUG_STRING_EVENT */ }; /* unlink the first event from the queue */ static void unlink_event( struct debug_ctx *debug_ctx, struct debug_event *event ) { if (event->prev) event->prev->next = event->next; else debug_ctx->event_head = event->next; if (event->next) event->next->prev = event->prev; else debug_ctx->event_tail = event->prev; event->next = event->prev = NULL; if (event->sender->debug_event == event) event->sender->debug_event = NULL; release_object( event ); } /* link an event at the end of the queue */ static void link_event( struct debug_event *event ) { struct debug_ctx *debug_ctx = event->debugger->debug_ctx; assert( debug_ctx ); grab_object( event ); event->next = NULL; event->prev = debug_ctx->event_tail; debug_ctx->event_tail = event; if (event->prev) event->prev->next = event; else debug_ctx->event_head = event; if (!event->sender->debug_event) wake_up( &debug_ctx->obj, 0 ); } /* find the next event that we can send to the debugger */ static struct debug_event *find_event_to_send( struct debug_ctx *debug_ctx ) { struct debug_event *event; for (event = debug_ctx->event_head; event; event = event->next) { if (event->state == EVENT_SENT) continue; /* already sent */ if (event->sender->debug_event) continue; /* thread busy with another one */ break; } return event; } static void debug_event_dump( struct object *obj, int verbose ) { struct debug_event *debug_event = (struct debug_event *)obj; assert( obj->ops == &debug_event_ops ); fprintf( stderr, "Debug event sender=%p code=%d state=%d\n", debug_event->sender, debug_event->data.code, debug_event->state ); } static int debug_event_signaled( struct object *obj, struct thread *thread ) { struct debug_event *debug_event = (struct debug_event *)obj; assert( obj->ops == &debug_event_ops ); return debug_event->state == EVENT_CONTINUED; } static void debug_event_destroy( struct object *obj ) { struct debug_event *event = (struct debug_event *)obj; assert( obj->ops == &debug_event_ops ); /* cannot still be in the queue */ assert( !event->next ); assert( !event->prev ); /* If the event has been sent already, the handles are now under the */ /* responsibility of the debugger process, so we don't touch them */ if (event->state == EVENT_QUEUED) { struct process *debugger = event->debugger->process; switch(event->data.code) { case CREATE_THREAD_DEBUG_EVENT: close_handle( debugger, event->data.info.create_thread.handle, NULL ); break; case CREATE_PROCESS_DEBUG_EVENT: if (event->data.info.create_process.file) close_handle( debugger, event->data.info.create_process.file, NULL ); close_handle( debugger, event->data.info.create_process.thread, NULL ); close_handle( debugger, event->data.info.create_process.process, NULL ); break; case LOAD_DLL_DEBUG_EVENT: if (event->data.info.load_dll.handle) close_handle( debugger, event->data.info.load_dll.handle, NULL ); break; } } if (event->sender->context == &event->context) event->sender->context = NULL; release_object( event->sender ); release_object( event->debugger ); } static void debug_ctx_dump( struct object *obj, int verbose ) { struct debug_ctx *debug_ctx = (struct debug_ctx *)obj; assert( obj->ops == &debug_ctx_ops ); fprintf( stderr, "Debug context head=%p tail=%p\n", debug_ctx->event_head, debug_ctx->event_tail ); } static int debug_ctx_signaled( struct object *obj, struct thread *thread ) { struct debug_ctx *debug_ctx = (struct debug_ctx *)obj; assert( obj->ops == &debug_ctx_ops ); return find_event_to_send( debug_ctx ) != NULL; } static void debug_ctx_destroy( struct object *obj ) { struct debug_event *event; struct debug_ctx *debug_ctx = (struct debug_ctx *)obj; assert( obj->ops == &debug_ctx_ops ); /* free all pending events */ while ((event = debug_ctx->event_head) != NULL) unlink_event( debug_ctx, event ); } /* continue a debug event */ static int continue_debug_event( struct process *process, struct thread *thread, int status ) { struct debug_event *event; struct debug_ctx *debug_ctx = current->debug_ctx; if (!debug_ctx || process->debugger != current || thread->process != process) goto error; /* find the event in the queue */ for (event = debug_ctx->event_head; event; event = event->next) { if (event->state != EVENT_SENT) continue; if (event->sender == thread) break; } if (!event) goto error; assert( event->sender->debug_event == event ); event->status = status; event->state = EVENT_CONTINUED; wake_up( &event->obj, 0 ); unlink_event( debug_ctx, event ); resume_process( process ); return 1; error: /* not debugging this process, or no such event */ set_error( STATUS_ACCESS_DENIED ); /* FIXME */ return 0; } /* alloc a debug event for a debugger */ static struct debug_event *alloc_debug_event( struct thread *thread, int code, void *arg, const CONTEXT *context ) { struct thread *debugger = thread->process->debugger; struct debug_event *event; assert( code > 0 && code <= NB_DEBUG_EVENTS ); /* cannot queue a debug event for myself */ assert( debugger->process != thread->process ); /* build the event */ if (!(event = alloc_object( &debug_event_ops, -1 ))) return NULL; event->next = NULL; event->prev = NULL; event->state = EVENT_QUEUED; event->sender = (struct thread *)grab_object( thread ); event->debugger = (struct thread *)grab_object( debugger ); event->data.code = code; if (!fill_debug_event[code-1]( event, arg )) { event->data.code = -1; /* make sure we don't attempt to close handles */ release_object( event ); return NULL; } if (context) { memcpy( &event->context, context, sizeof(event->context) ); thread->context = &event->context; } return event; } /* generate a debug event from inside the server and queue it */ void generate_debug_event( struct thread *thread, int code, void *arg ) { if (thread->process->debugger) { struct debug_event *event = alloc_debug_event( thread, code, arg, NULL ); if (event) { link_event( event ); suspend_process( thread->process ); release_object( event ); } } } /* attach a process to a debugger thread and suspend it */ static int debugger_attach( struct process *process, struct thread *debugger ) { struct thread *thread; if (process->debugger) goto error; /* already being debugged */ if (process->init_event) goto error; /* still starting up */ if (!process->thread_list) goto error; /* no thread running in the process */ /* make sure we don't create a debugging loop */ for (thread = debugger; thread; thread = thread->process->debugger) if (thread->process == process) goto error; /* don't let a debugger debug its console... won't work */ if (debugger->process->console && debugger->process->console->renderer->process == process) goto error; suspend_process( process ); /* we must have been able to attach all threads */ if (!process->thread_list) goto error2; for (thread = process->thread_list; thread; thread = thread->proc_next) { if (!thread->attached) goto error2; } if (set_process_debugger( process, debugger )) return 1; resume_process( process ); return 0; error2: resume_process( process ); error: set_error( STATUS_ACCESS_DENIED ); return 0; } /* detach a process from a debugger thread (and resume it ?) */ int debugger_detach( struct process *process, struct thread *debugger ) { struct thread *thread; struct debug_event *event; struct debug_ctx *debug_ctx; if (!process->debugger || process->debugger != debugger) goto error; /* not currently debugged, or debugged by another debugger */ if (!debugger->debug_ctx ) goto error; /* should be a debugger */ /* init should be done, otherwise wouldn't be attached */ assert(!process->init_event); suspend_process( process ); /* send continue indication for all events */ debug_ctx = debugger->debug_ctx; /* find the event in the queue * FIXME: could loop on process' threads and look the debug_event field */ for (event = debug_ctx->event_head; event; event = event->next) { if (event->state != EVENT_QUEUED) continue; if (event->sender->process == process) { assert( event->sender->debug_event == event ); event->status = DBG_CONTINUE; event->state = EVENT_CONTINUED; wake_up( &event->obj, 0 ); unlink_event( debug_ctx, event ); /* from queued debug event */ resume_process( process ); } } /* remove relationships between process and its debugger */ process->debugger = NULL; release_object( debugger->debug_ctx ); debugger->debug_ctx = NULL; /* now detach all the threads */ for (thread = process->thread_list; thread; thread = thread->proc_next) { if (thread->attached) { detach_thread( thread, 0 ); } } /* from this function */ resume_process( process ); return 0; error: set_error( STATUS_ACCESS_DENIED ); return 0; } /* generate all startup events of a given process */ void generate_startup_debug_events( struct process *process, void *entry ) { struct process_dll *dll; struct thread *thread = process->thread_list; /* generate creation events */ generate_debug_event( thread, CREATE_PROCESS_DEBUG_EVENT, entry ); while ((thread = thread->proc_next)) generate_debug_event( thread, CREATE_THREAD_DEBUG_EVENT, NULL ); /* generate dll events (in loading order, i.e. reverse list order) */ dll = &process->exe; while (dll->next) dll = dll->next; while (dll != &process->exe) { generate_debug_event( process->thread_list, LOAD_DLL_DEBUG_EVENT, dll ); dll = dll->prev; } } /* set the debugger of a given process */ int set_process_debugger( struct process *process, struct thread *debugger ) { struct debug_ctx *debug_ctx; assert( !process->debugger ); if (!debugger->debug_ctx) /* need to allocate a context */ { if (!(debug_ctx = alloc_object( &debug_ctx_ops, -1 ))) return 0; debug_ctx->event_head = NULL; debug_ctx->event_tail = NULL; debug_ctx->kill_on_exit = 1; debugger->debug_ctx = debug_ctx; } process->debugger = debugger; return 1; } /* a thread is exiting */ void debug_exit_thread( struct thread *thread ) { if (thread->debug_ctx) /* this thread is a debugger */ { if (thread->debug_ctx->kill_on_exit) { /* kill all debugged processes */ kill_debugged_processes( thread, thread->exit_code ); } else { detach_debugged_processes( thread ); } release_object( thread->debug_ctx ); thread->debug_ctx = NULL; } } /* Wait for a debug event */ DECL_HANDLER(wait_debug_event) { struct debug_ctx *debug_ctx = current->debug_ctx; struct debug_event *event; if (!debug_ctx) /* current thread is not a debugger */ { set_error( STATUS_INVALID_HANDLE ); return; } reply->wait = 0; if ((event = find_event_to_send( debug_ctx ))) { size_t size = get_reply_max_size(); event->state = EVENT_SENT; event->sender->debug_event = event; reply->pid = event->sender->process; reply->tid = event->sender; if (size > sizeof(debug_event_t)) size = sizeof(debug_event_t); set_reply_data( &event->data, size ); } else /* no event ready */ { reply->pid = 0; reply->tid = 0; if (req->get_handle) reply->wait = alloc_handle( current->process, debug_ctx, SYNCHRONIZE, FALSE ); } } /* Continue a debug event */ DECL_HANDLER(continue_debug_event) { struct process *process = get_process_from_id( req->pid ); if (process) { struct thread *thread = get_thread_from_id( req->tid ); if (thread) { continue_debug_event( process, thread, req->status ); release_object( thread ); } release_object( process ); } } /* Start debugging an existing process */ DECL_HANDLER(debug_process) { struct process *process = get_process_from_id( req->pid ); if (!process) return; if (!req->attach) { debugger_detach( process, current ); } else if (debugger_attach( process, current )) { struct debug_event_exception data; generate_startup_debug_events( process, NULL ); resume_process( process ); data.record.ExceptionCode = EXCEPTION_BREAKPOINT; data.record.ExceptionFlags = EXCEPTION_CONTINUABLE; data.record.ExceptionRecord = NULL; data.record.ExceptionAddress = get_thread_ip( process->thread_list ); data.record.NumberParameters = 0; data.first = 1; generate_debug_event( process->thread_list, EXCEPTION_DEBUG_EVENT, &data ); } release_object( process ); } /* queue an exception event */ DECL_HANDLER(queue_exception_event) { reply->handle = 0; if (current->process->debugger) { struct debug_event_exception data; struct debug_event *event; const CONTEXT *context = get_req_data(); EXCEPTION_RECORD *rec = (EXCEPTION_RECORD *)(context + 1); if (get_req_data_size() < sizeof(*rec) + sizeof(*context)) { set_error( STATUS_INVALID_PARAMETER ); return; } data.record = *rec; data.first = req->first; if ((event = alloc_debug_event( current, EXCEPTION_DEBUG_EVENT, &data, context ))) { if ((reply->handle = alloc_handle( current->process, event, SYNCHRONIZE, FALSE ))) { link_event( event ); suspend_process( current->process ); } release_object( event ); } } } /* retrieve the status of an exception event */ DECL_HANDLER(get_exception_status) { struct debug_event *event; reply->status = 0; if ((event = (struct debug_event *)get_handle_obj( current->process, req->handle, 0, &debug_event_ops ))) { if (event->state == EVENT_CONTINUED) { reply->status = event->status; if (current->context == &event->context) { size_t size = min( sizeof(CONTEXT), get_reply_max_size() ); set_reply_data( &event->context, size ); current->context = NULL; } } else set_error( STATUS_PENDING ); release_object( event ); } } /* send an output string to the debugger */ DECL_HANDLER(output_debug_string) { struct debug_event_output_string data; data.string = req->string; data.unicode = req->unicode; data.length = req->length; generate_debug_event( current, OUTPUT_DEBUG_STRING_EVENT, &data ); } /* simulate a breakpoint in a process */ DECL_HANDLER(debug_break) { struct process *process; reply->self = 0; if (!(process = get_process_from_handle( req->handle, PROCESS_SET_INFORMATION /*FIXME*/ ))) return; if (process != current->process) { /* find a suitable thread to signal */ struct thread *thread; for (thread = process->thread_list; thread; thread = thread->proc_next) { if (thread->unix_pid) { kill( thread->unix_pid, SIGTRAP ); break; } } if (!thread) set_error( STATUS_ACCESS_DENIED ); } else reply->self = 1; release_object( process ); } /* set debugger kill on exit flag */ DECL_HANDLER(set_debugger_kill_on_exit) { if (!current->debug_ctx) { set_error( STATUS_ACCESS_DENIED ); return; } current->debug_ctx->kill_on_exit = req->kill_on_exit; }