#ifndef _SYS_DEBUG_H
#define _SYS_DEBUG_H
#include <stdint.h>
#include <stddef.h>
#include <signal.h>
#include <unistd.h>
#ifdef __cplusplus
extern "C" {
#endif
/* debug states */
enum __dbg_state {
__DBG_STATE_IDLE,
__DBG_STATE_REPLY_PENDING,
__DBG_STATE_CREATE_THREAD,
__DBG_STATE_CREATE_PROCESS,
__DBG_STATE_EXIT_THREAD,
__DBG_STATE_EXIT_PROCESS,
__DBG_STATE_EXCEPTION,
__DBG_STATE_BREAKPOINT,
__DBG_STATE_SINGLE_STEP,
__DBG_STATE_DLL_LOAD,
__DBG_STATE_DLL_UNLOAD,
};
/* debug process/session info */
enum __dbg_info {
__DBG_INFO_IMAGE_RPATH,
__DBG_INFO_IMAGE_APATH,
__DBG_INFO_IMAGE_NPATH,
__DBG_INFO_IMAGE_DPATH,
__DBG_INFO_REPORTED_IMAGE_RPATH,
__DBG_INFO_REPORTED_IMAGE_APATH,
__DBG_INFO_REPORTED_IMAGE_NPATH,
__DBG_INFO_REPORTED_IMAGE_DPATH,
__DBG_INFO_CACHED_MODULE_LIST,
__DBG_INFO_LOADER_MODULE_LIST,
__DBG_INFO_DAEMON_MODULE_LIST,
__DBG_INFO_MODULE_RPATH,
__DBG_INFO_MODULE_APATH,
__DBG_INFO_MODULE_NPATH,
__DBG_INFO_MODULE_DPATH,
__DBG_INFO_CAP,
};
/* debug responses */
#define __DBG_RESPONSE_CONTINUE (0x00010002)
#define __DBG_RESPONSE_EXCEPTION_HANDLED (0x00010001)
#define __DBG_RESPONSE_EXCEPTION_NOT_HANDLED (0x80010001)
#define __DBG_RESPONSE_REPLY_LATER (0x40010001)
#define __DBG_RESPONSE_TERMINATE_PROCESS (0x40010004)
#define __DBG_RESPONSE_TERMINATE_THREAD (0x40010003)
/* thread types */
#define __DBG_THREAD_TYPE_UNKNOWN 0x00
#define __DBG_THREAD_TYPE_PTHREAD 0x01
#define __DBG_THREAD_TYPE_DAEMON 0x02
#define __DBG_THREAD_TYPE_PTYREF 0x03
#define __DBG_THREAD_TYPE_POLLER 0x04
#define __DBG_THREAD_TYPE_WAITER 0x05
#define __DBG_THREAD_TYPE_TIMER 0x06
#define __DBG_THREAD_TYPE_BRIDGE 0x07
#define __DBG_THREAD_TYPE_PIPEIN 0x08
#define __DBG_THREAD_TYPE_PIPEOUT 0x09
#define __DBG_THREAD_TYPE_TTYANY 0x40
#define __DBG_THREAD_TYPE_TTYSRV 0x41
#define __DBG_THREAD_TYPE_TTYSVC 0x42
#define __DBG_THREAD_TYPE_TTYASYNC 0x43
#define __DBG_THREAD_TYPE_TTYCLIENT 0x44
#define __DBG_THREAD_TYPE_TTYDEBUG 0x45
#define __DBG_THREAD_TYPE_TTYCONN 0x46
/* exception source bits */
#define __DBG_EXCEPTION_SOURCE_UNKNOWN 0x00
#define __DBG_EXCEPTION_SOURCE_HARDWARE 0x01
#define __DBG_EXCEPTION_SOURCE_SOFTWARE 0x02
#define __DBG_EXCEPTION_SOURCE_KERNEL 0x04
#define __DBG_EXCEPTION_SOURCE_USER 0x08
/* strace,ldso */
struct __strace {
size_t size;
const char * loader;
int fdlog;
uint32_t flags;
uint32_t sysmask[16];
uint32_t dbgmask[16];
uint32_t osmask [32];
};
/* exception record */
struct __erec {
uint32_t exception_code;
uint32_t exception_flags;
struct __erec * exception_record;
void * exception_address;
uint32_t exception_params;
uintptr_t exception_info[0xf];
};
/* debug event alpha definition */
struct __dbg_event {
int evttype;
int evtzone;
int32_t estatus;
int32_t eresponse;
uint64_t evtkey;
uint64_t evtqpc;
pid_t syspid;
pid_t systid;
pid_t child_syspid;
pid_t child_systid;
mcontext_t * thread_context;
siginfo_t * thread_siginfo;
stack_t * thread_cstack;
stack_t * thread_astack;
sigset_t * thread_sigmask;
struct tstat * thread_stat;
struct __teb * thread_teb;
struct __tlca * thread_tlca;
struct __erec * exception_record;
uint32_t exception_priority;
uint32_t exception_source;
int syscall_depth;
int syscall_number;
intptr_t syscall_result;
intptr_t syscall_params[6];
uint32_t * thread_subsystem_key;
void * thread_start_address;
int32_t * thread_exit_code;
uint32_t * process_subsystem_key;
void * process_image_handle;
void * process_image_base;
int32_t * process_exit_code;
void * module_image_handle;
void * module_image_base;
uint32_t dbg_info_offset;
uint32_t dbg_info_size;
const char * image_rpath;
const char * image_apath;
const char * image_npath;
const char * image_dpath;
};
/* debug loaded module alpha definition */
struct __dbg_module_info {
void * module_base;
void * module_record;
char * module_name;
void * module_ctx;
int module_key;
uint32_t module_flags;
uint64_t module_qpc;
uint64_t module_reserved;
};
/* pid (or syspid) --> debug file descriptor */
int __dbg_attach(pid_t);
int __dbg_detach(int);
/* process creation/termination --> debug file descriptor */
int __dbg_spawn(const char *, char **, char **, const struct __strace *);
int __dbg_fork(void);
int __dbg_kill(int);
/* breakpoint via remote break-in, thread context manipulation, or lpc message */
int __dbg_rbreak(int);
int __dbg_tbreak(int);
int __dbg_lbreak(int);
/* virtual memory */
ssize_t __dbg_vm_read(int, void *, size_t, uintptr_t);
ssize_t __dbg_vm_write(int, const void *, size_t, uintptr_t);
/* thread register context */
int __dbg_regs_fetch(int, pid_t, mcontext_t *);
int __dbg_regs_store(int, pid_t, const mcontext_t *);
/* debug information */
ssize_t __dbg_info_get(int, pid_t, int, void *, size_t);
ssize_t __dbg_info_set(int, pid_t, int, const void *, size_t);
/* suspend/resume thread; return previous suspend count (negative for an error) */
int __dbg_suspend_thread(int, pid_t);
int __dbg_resume_thread(int, pid_t);
/**
* query one (or all) pending debug event(s) for the given debug
* file descriptor:
* in the 'one' case, the return value indicates the total number
* of events that are pending for the given file descriptor;
* in the 'all' case, the third argument specifies the number
* of elements in the user-provided buffer.
**/
int __dbg_event_query_one(int, struct __dbg_event *);
int __dbg_event_query_all(int, struct __dbg_event *, int);
/**
* first acquire (remove from the queue) the next pending debug event;
* later respond to the event, the default being __DBG_RESPONSE_CONTINUE.
**/
int __dbg_event_acquire(int, struct __dbg_event *);
int __dbg_event_respond(int, struct __dbg_event *);
/* debug file descriptor --> common (or system) pid */
int __dbg_query_cpid(int);
int __dbg_query_syspid(int);
/* code of last debug operation error encountered by this pthread */
int __dbg_common_error(void);
int __dbg_native_error(void);
#ifdef __cplusplus
}
#endif
#endif