/* * Copyright 2005-2009, Ingo Weinhold, ingo_weinhold@gmx.de. * Distributed under the terms of the MIT License. * * Userland debugger support. */ #ifndef _KERNEL_USER_DEBUGGER_H #define _KERNEL_USER_DEBUGGER_H #include #include #include // limits #define B_DEBUG_MIN_PROFILE_INTERVAL 10 /* in us */ #define B_DEBUG_STACK_TRACE_DEPTH 128 #define B_DEBUG_PROFILE_BUFFER_FLUSH_THRESHOLD 70 /* in % */ struct BreakpointManager; struct ConditionVariable; struct function_profile_info; struct thread; // Team related debugging data. // // Locking policy: // 1) When accessing the structure it must be made sure, that the structure, // (i.e. the struct team it lives in) isn't deleted. Thus one either needs to // acquire the global team lock, or one accesses the structure from a thread // of that team. // 2) Access to the `flags' field is atomic. Reading via atomic_get() // requires no further locks (in addition to 1) that is). Writing requires // `lock' being held and must be done atomically, too // (atomic_{set,and,or}()). Reading with `lock' being held doesn't need to // be done atomically. // 3) Access to all other fields (read or write) requires `lock' being held. // struct team_debug_info { spinlock lock; // Guards the remaining fields. Should always be the innermost lock // to be acquired/released. int32 flags; // Set atomically. So reading atomically is OK, even when the team // lock is not held (at least if it is certain, that the team struct // won't go). team_id debugger_team; port_id debugger_port; thread_id nub_thread; port_id nub_port; // the port the nub thread is waiting on for commands from the debugger sem_id debugger_write_lock; // synchronizes writes to the debugger port with the setting (but not // clearing) of the B_TEAM_DEBUG_DEBUGGER_HANDOVER flag thread_id causing_thread; // thread that caused the debugger to be attached; -1 for manual // debugger attachment (or no debugger installed) vint32 image_event; // counter incremented whenever an image is created/deleted struct ConditionVariable* debugger_changed_condition; // Set whenever someone is going (or planning) to change the debugger. // If one wants to do the same, one has to wait for this condition. // Both threads lock (outer) and team debug info lock (inner) have to // be held when accessing this field. After setting to a condition // variable the thread won't be deleted (until unsetting it) -- it might // be removed from the team hash table, though. struct BreakpointManager* breakpoint_manager; // manages hard- and software breakpoints struct arch_team_debug_info arch_info; }; struct thread_debug_info { int32 flags; // Set atomically. So reading atomically is OK, even when the thread // lock is not held (at least if it is certain, that the thread struct // won't go). port_id debug_port; // the port the thread is waiting on for commands from the nub thread sigset_t ignore_signals; // the signals the debugger is not interested in sigset_t ignore_signals_once; // the signals the debugger wishes not to be notified of, when they // occur the next time // profiling related part; if samples != NULL, the thread is profiled struct { bigtime_t interval; // sampling interval area_id sample_area; // cloned sample buffer area addr_t* samples; // sample buffer int32 max_samples; // maximum number of samples the buffer can hold int32 flush_threshold; // number of sample when the buffer is flushed (if possible) int32 sample_count; // number of samples the buffer currently holds int32 stack_depth; // number of return addresses to record per timer interval int32 dropped_ticks; // number of ticks that had to be dropped when the sample buffer was // full and couldn't be flushed int32 image_event; // number of the image event when the first sample was written into // the buffer int32 last_image_event; // number of the image event when the last sample was written into // the buffer bool variable_stack_depth; // record a variable number of samples per hit bool buffer_full; // indicates that the sample buffer is full union { bigtime_t interval_left; // when unscheduled: the time left of the current sampling // interval bigtime_t timer_end; // when running: the absolute time the timer is supposed to go // off }; timer* installed_timer; // when running and being profiled: the CPU's profiling timer } profile; struct arch_thread_debug_info arch_info; }; #define GRAB_TEAM_DEBUG_INFO_LOCK(info) acquire_spinlock(&(info).lock) #define RELEASE_TEAM_DEBUG_INFO_LOCK(info) release_spinlock(&(info).lock) // team debugging flags (user-specifiable flags are in ) enum { B_TEAM_DEBUG_DEBUGGER_INSTALLED = 0x0001, B_TEAM_DEBUG_DEBUGGER_HANDOVER = 0x0002, // marked for hand-over B_TEAM_DEBUG_DEBUGGER_HANDING_OVER = 0x0004, // handing over B_TEAM_DEBUG_DEBUGGER_DISABLED = 0x0008, B_TEAM_DEBUG_KERNEL_FLAG_MASK = 0xffff, B_TEAM_DEBUG_DEFAULT_FLAGS = 0, B_TEAM_DEBUG_INHERITED_FLAGS = B_TEAM_DEBUG_DEBUGGER_DISABLED }; // thread debugging flags (user-specifiable flags are in ) enum { B_THREAD_DEBUG_INITIALIZED = 0x0001, B_THREAD_DEBUG_DYING = 0x0002, B_THREAD_DEBUG_STOP = 0x0004, B_THREAD_DEBUG_STOPPED = 0x0008, B_THREAD_DEBUG_SINGLE_STEP = 0x0010, B_THREAD_DEBUG_NOTIFY_SINGLE_STEP = 0x0020, B_THREAD_DEBUG_NUB_THREAD = 0x0040, // marks the nub thread B_THREAD_DEBUG_KERNEL_FLAG_MASK = 0xffff, B_THREAD_DEBUG_DEFAULT_FLAGS = 0, }; // messages sent from the debug nub thread to a debugged thread typedef enum { B_DEBUGGED_THREAD_MESSAGE_CONTINUE = 0, B_DEBUGGED_THREAD_SET_CPU_STATE, B_DEBUGGED_THREAD_GET_CPU_STATE, B_DEBUGGED_THREAD_DEBUGGER_CHANGED, } debugged_thread_message; typedef struct { uint32 handle_event; bool single_step; } debugged_thread_continue; typedef struct { port_id reply_port; } debugged_thread_get_cpu_state; typedef struct { debug_cpu_state cpu_state; } debugged_thread_set_cpu_state; typedef union { debugged_thread_continue continue_thread; debugged_thread_set_cpu_state set_cpu_state; debugged_thread_get_cpu_state get_cpu_state; } debugged_thread_message_data; // internal messages sent to the nub thread typedef enum { B_DEBUG_MESSAGE_HANDED_OVER = -1, } debug_nub_kernel_message; #ifdef __cplusplus extern "C" { #endif // service calls void clear_team_debug_info(struct team_debug_info *info, bool initLock); void init_thread_debug_info(struct thread_debug_info *info); void clear_thread_debug_info(struct thread_debug_info *info, bool dying); void destroy_thread_debug_info(struct thread_debug_info *info); void user_debug_prepare_for_exec(); void user_debug_finish_after_exec(); void init_user_debug(); // debug event callbacks void user_debug_pre_syscall(uint32 syscall, void *args); void user_debug_post_syscall(uint32 syscall, void *args, uint64 returnValue, bigtime_t startTime); bool user_debug_exception_occurred(debug_exception_type exception, int signal); bool user_debug_handle_signal(int signal, struct sigaction *handler, bool deadly); void user_debug_stop_thread(); void user_debug_team_created(team_id teamID); void user_debug_team_deleted(team_id teamID, port_id debuggerPort); void user_debug_team_exec(); void user_debug_update_new_thread_flags(thread_id threadID); void user_debug_thread_created(thread_id threadID); void user_debug_thread_deleted(team_id teamID, thread_id threadID); void user_debug_thread_exiting(struct thread* thread); void user_debug_image_created(const image_info *imageInfo); void user_debug_image_deleted(const image_info *imageInfo); void user_debug_breakpoint_hit(bool software); void user_debug_watchpoint_hit(); void user_debug_single_stepped(); void user_debug_thread_unscheduled(struct thread* thread); void user_debug_thread_scheduled(struct thread* thread); // syscalls void _user_debugger(const char *message); int _user_disable_debugger(int state); status_t _user_install_default_debugger(port_id debuggerPort); port_id _user_install_team_debugger(team_id team, port_id debuggerPort); status_t _user_remove_team_debugger(team_id team); status_t _user_debug_thread(thread_id thread); void _user_wait_for_debugger(void); status_t _user_set_debugger_breakpoint(void *address, uint32 type, int32 length, bool watchpoint); status_t _user_clear_debugger_breakpoint(void *address, bool watchpoint); #ifdef __cplusplus } // extern "C" #endif #endif // _KERNEL_USER_DEBUGGER_H