/* * Copyright 2002-2010, Axel Dörfler, axeld@pinc-software.de * Distributed under the terms of the Haiku License. * * Copyright 2001-2002, Travis Geiselbrecht. All rights reserved. * Distributed under the terms of the NewOS License. */ #ifndef _KERNEL_DEBUG_H #define _KERNEL_DEBUG_H #include #include #include #include "kernel_debug_config.h" /* KDEBUG The kernel debug level. Level 1 is usual asserts, > 1 should be used for very expensive runtime checks */ #if !defined(KDEBUG) # if DEBUG # define KDEBUG 1 # else # define KDEBUG 0 # endif #endif #define ASSERT_ALWAYS(x) \ do { \ if (!(x)) { \ panic("ASSERT FAILED (%s:%d): %s", __FILE__, __LINE__, #x); \ } \ } while (0) #define ASSERT_ALWAYS_PRINT(x, format, args...) \ do { \ if (!(x)) { \ panic("ASSERT FAILED (%s:%d): %s; " format, __FILE__, __LINE__, \ #x, args); \ } \ } while (0) #if KDEBUG # define ASSERT(x) ASSERT_ALWAYS(x) # define ASSERT_PRINT(x, format, args...) ASSERT_ALWAYS_PRINT(x, format, args) #else # define ASSERT(x) do { } while(0) # define ASSERT_PRINT(x, format, args...) do { } while(0) #endif #define STATIC_ASSERT(x) \ do { \ struct __staticAssertStruct__ { \ char __static_assert_failed__[2*(x) - 1]; \ }; \ } while (false) #if KDEBUG # define KDEBUG_ONLY(x) x #else # define KDEBUG_ONLY(x) /* nothing */ #endif // command return value #define B_KDEBUG_ERROR 4 #define B_KDEBUG_RESTART_PIPE 5 // command flags #define B_KDEBUG_DONT_PARSE_ARGUMENTS (0x01) #define B_KDEBUG_PIPE_FINAL_RERUN (0x02) struct arch_debug_registers; struct debugger_module_info { module_info info; void (*enter_debugger)(void); void (*exit_debugger)(void); // I/O hooks int (*debugger_puts)(const char *str, int32 length); int (*debugger_getchar)(void); // TODO: add hooks for tunnelling gdb ? // Misc. hooks bool (*emergency_key_pressed)(char key); }; struct debugger_demangle_module_info { module_info info; const char* (*demangle_symbol)(const char* name, char* buffer, size_t bufferSize, bool* _isObjectMethod); status_t (*get_next_argument)(uint32* _cookie, const char* symbol, char* name, size_t nameSize, int32* _type, size_t* _argumentLength); }; typedef struct debug_page_fault_info { addr_t fault_address; addr_t pc; uint32 flags; } debug_page_fault_info; // debug_page_fault_info::flags #define DEBUG_PAGE_FAULT_WRITE 0x01 /* write fault */ #define DEBUG_PAGE_FAULT_NO_INFO 0x02 /* fault address and read/write unknown */ #ifdef __cplusplus extern "C" { #endif struct kernel_args; extern void debug_init(struct kernel_args *args); extern void debug_init_post_vm(struct kernel_args *args); extern void debug_init_post_settings(struct kernel_args *args); extern void debug_init_post_modules(struct kernel_args *args); extern void debug_early_boot_message(const char *string); extern void debug_puts(const char *s, int32 length); extern bool debug_debugger_running(void); extern bool debug_screen_output_enabled(void); extern void debug_stop_screen_debug_output(void); extern void debug_set_page_fault_info(addr_t faultAddress, addr_t pc, uint32 flags); extern debug_page_fault_info* debug_get_page_fault_info(); extern void debug_trap_cpu_in_kdl(int32 cpu, bool returnIfHandedOver); extern void debug_double_fault(int32 cpu); extern bool debug_emergency_key_pressed(char key); extern bool debug_is_kernel_memory_accessible(addr_t address, size_t size, uint32 protection); extern int debug_call_with_fault_handler(jmp_buf jumpBuffer, void (*function)(void*), void* parameter); extern status_t debug_memcpy(team_id teamID, void* to, const void* from, size_t size); extern ssize_t debug_strlcpy(team_id teamID, char* to, const char* from, size_t size); extern char kgetc(void); extern void kputs(const char *string); extern void kputs_unfiltered(const char *string); extern void kprintf_unfiltered(const char *format, ...) __attribute__ ((format (__printf__, 1, 2))); extern void dprintf_no_syslog(const char *format, ...) __attribute__ ((format (__printf__, 1, 2))); extern bool is_debug_variable_defined(const char* variableName); extern bool set_debug_variable(const char* variableName, uint64 value); extern uint64 get_debug_variable(const char* variableName, uint64 defaultValue); extern bool unset_debug_variable(const char* variableName); extern void unset_all_debug_variables(); extern bool evaluate_debug_expression(const char* expression, uint64* result, bool silent); extern int evaluate_debug_command(const char* command); extern status_t parse_next_debug_command_argument(const char** expressionString, char* buffer, size_t bufferSize); extern status_t add_debugger_command_etc(const char* name, debugger_command_hook func, const char* description, const char* usage, uint32 flags); extern status_t add_debugger_command_alias(const char* newName, const char* oldName, const char* description); extern bool print_debugger_command_usage(const char* command); extern bool has_debugger_command(const char* command); extern const char *debug_demangle_symbol(const char* symbol, char* buffer, size_t bufferSize, bool* _isObjectMethod); extern status_t debug_get_next_demangled_argument(uint32* _cookie, const char* symbol, char* name, size_t nameSize, int32* _type, size_t* _argumentLength); extern struct thread* debug_set_debugged_thread(struct thread* thread); extern struct thread* debug_get_debugged_thread(); extern bool debug_is_debugged_team(team_id teamID); extern struct arch_debug_registers* debug_get_debug_registers(int32 cpu); extern status_t _user_kernel_debugger(const char *message); extern void _user_debug_output(const char *userString); #ifdef __cplusplus } #endif #ifdef __cplusplus struct DebuggedThreadSetter { DebuggedThreadSetter(struct thread* thread) : fPreviousThread(debug_set_debugged_thread(thread)) { } ~DebuggedThreadSetter() { debug_set_debugged_thread(fPreviousThread); } private: struct thread* fPreviousThread; }; #endif // __cplusplus #endif /* _KERNEL_DEBUG_H */