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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [librdbg/] [src/] [i386/] [any/] [remdeb.h] - Rev 389
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/* * Please do not edit this file. * It was generated using rpcgen. */ #ifndef _REMDEB_H_RPCGEN #define _REMDEB_H_RPCGEN #include <rpc/rpc.h> #ifdef __cplusplus extern "C" { #endif #define RTEMS_PORT 2071 #define RTEMS_BACK_PORT 2073 #ifndef REMDEB_H #define RPCGENSRVNAME(a) a enum rpc_type { SUNRPC = 0, BADRPCTYPE = 25, }; typedef enum rpc_type rpc_type; #define NET_SAFE 1400 struct UDP_MSG { u_char type; u_char msg_num; u_short spec; long pid; u_long context; }; typedef struct UDP_MSG UDP_MSG; /* * Sun request values for the remote ptrace system call */ enum ptracereq { RPT_TRACEME = 0, RPT_CHILDDONE = 0, RPT_PEEKTEXT = 0 + 1, RPT_PEEKDATA = 0 + 2, RPT_PEEKUSER = 0 + 3, RPT_POKETEXT = 0 + 4, RPT_POKEDATA = 0 + 5, RPT_POKEUSER = 0 + 6, RPT_CONT = 0 + 7, RPT_KILL = 0 + 8, RPT_SINGLESTEP = 0 + 9, RPT_ATTACH = 0 + 10, RPT_DETACH = 0 + 11, RPT_GETREGS = 0 + 12, RPT_SETREGS = 0 + 13, RPT_GETFPREGS = 0 + 14, RPT_SETFPREGS = 0 + 15, RPT_READDATA = 0 + 16, RPT_WRITEDATA = 0 + 17, RPT_READTEXT = 0 + 18, RPT_WRITETEXT = 0 + 19, RPT_GETFPAREGS = 0 + 20, RPT_SETFPAREGS = 0 + 21, RPT_22 = 0 + 22, RPT_23 = 0 + 23, RPT_SYSCALL = 0 + 24, RPT_DUMPCORE = 0 + 25, RPT_26 = 0 + 26, RPT_27 = 0 + 27, RPT_28 = 0 + 28, RPT_GETUCODE = 0 + 29, RPT_GETTARGETTHREAD = 50, RPT_SETTARGETTHREAD = 51, RPT_THREADSUSPEND = 52, RPT_THREADRESUME = 53, RPT_THREADLIST = 54, RPT_GETTHREADNAME = 55, RPT_SETTHREADNAME = 56, RPT_SETTHREADREGS = 57, RPT_GETTHREADREGS = 58, RPT_STEPRANGE = 75, RPT_CONTTO = 76, RPT_SETBREAK = 77, RPT_CLRBREAK = 78, RPT_GETBREAK = 79, RPT_GETNAME = 80, RPT_STOP = 81, RPT_PGETREGS = 82, RPT_PSETREGS = 83, RPT_PSETTHREADREGS = 84, RPT_PGETTHREADREGS = 85, }; typedef enum ptracereq ptracereq; struct xdr_regs { u_int tabreg[19]; }; typedef struct xdr_regs xdr_regs; /* now define register macros to apply to xdr_reg struct */ #define GS 0 #define FS 1 #define ES 2 #define DS 3 #define EDI 4 #define ESI 5 #define EBP 6 #define ESP 7 #define EBX 8 #define EDX 9 #define ECX 10 #define EAX 11 #define TRAPNO 12 #define ERR 13 #define EIP 14 #define CS 15 #define EFL 16 #define UESP 17 #define SS 18 #define REG_PC tabreg[EIP] /* PC (eip) register offset */ #define REG_SP tabreg[UESP] /* SP (uesp) register offset */ #define REG_FP tabreg[EBP] /* FP (ebp) register offset */ /* now define the BREAKPOINT mask technique to a long word */ #define SET_BREAK(l) ((l&0xFFFFFF00) | 0xCC) #define IS_BREAK(l) (((l) & 0xFF) == 0xCC) #define ORG_BREAK(c,p) (((c) & 0xFFFFFF00) | ((p) & 0xFF)) #define IS_STEP(regs) (regs.tabreg[TRAPNO] == 1) /* was step and not break */ #define BREAK_ADJ 1 /* must subtract one from address after bp */ #define BREAK_SIZE 1 /* Breakpoint occupies one byte */ #define TARGET_PROC_TYPE 0 #define MAXDEBUGGEE 150 #define NAMEMAX 17 /* * Memory data for read/write text or data. The size is in data. The target * addr is in the addr field. * Be careful before modifying because this value goes into internal * pipes and is allocated on stack too. Pipes and/or the stack could * become too small if this value gets incremented. */ #define MEM_DATA_MAX 256 struct xdr_mem { u_long addr; u_int dataNb; u_char data[MEM_DATA_MAX]; }; typedef struct xdr_mem xdr_mem; enum break_type { BRKT_NONE = 0, BRKT_INSTR = 1, BRKT_READ = 2, BRKT_WRITE = 3, BRKT_ACCESS = 4, BRKT_EXEC = 5, BRKT_OS_CALL = 6, BRKT_OS_SWITCH = 7, BRKT_STEPEMUL = 8, }; typedef enum break_type break_type; #define MAX_THRD_BRK 4 struct xdr_break { u_char type; u_char thread_spec; u_short handle; u_long ee_loc; u_long ee_type; u_short length; u_char pass_count; u_char curr_pass; u_long thread_list[MAX_THRD_BRK]; }; typedef struct xdr_break xdr_break; #define UTHREAD_MAX 64 #define THREADNAMEMAX 16 typedef char *thread_name; struct KernThread { u_int threadLi; }; typedef struct KernThread KernThread; typedef KernThread *ptThreadList; struct thread_list { u_int nbThread; ptThreadList threads; }; typedef struct thread_list thread_list; struct ptrace_addr_data_in { ptracereq req; union { xdr_regs regs; struct { u_int pregs_len; u_int *pregs_val; } pregs; thread_name name; xdr_mem mem; xdr_break breakp; u_int address; } ptrace_addr_data_in_u; }; typedef struct ptrace_addr_data_in ptrace_addr_data_in; struct ptrace_addr_data_out { ptracereq req; union { xdr_regs regs; struct { u_int pregs_len; u_int *pregs_val; } pregs; thread_list threads; thread_name name; xdr_mem mem; xdr_break breakp; u_int addr; } ptrace_addr_data_out_u; }; typedef struct ptrace_addr_data_out ptrace_addr_data_out; typedef struct { u_int CHAR_DATA_len; char *CHAR_DATA_val; } CHAR_DATA; #define XRY_MAX_INST_BUFF 128 #define XRY_MAX_INSTANCES 16 #ifndef XRY_MAX_CMD_STR #define XRY_MAX_CMD_STR 320 #endif /* REMDEB_H */ struct xry_inst { u_char flags; u_char type; u_char sub_type; u_char res_type; u_long value; u_long value2; }; typedef struct xry_inst xry_inst; struct instance { struct xry_inst instances[XRY_MAX_INSTANCES]; u_char buffer[XRY_MAX_INST_BUFF]; }; typedef struct instance instance; struct instance_union { bool_t instances; union { instance inst; char *buffer; } instance_union_u; }; typedef struct instance_union instance_union; typedef char *one_arg; #define XRY_MAX_OBJ_NAME 32 /* now open_connex() routine which establishes a connection to server */ enum debug_type { DEBTYP_PROCESS = 0, DEBTYP_C_ACTOR = 1, DEBTYP_KERNEL = 2, DEBTYP_OTHER = 3, }; typedef enum debug_type debug_type; #define DEBUGGER_IS_GDB 0x2 /* */ struct open_in { u_char back_port[16]; u_short debug_type; u_short flags; u_char destination[16]; one_arg user_name; }; typedef struct open_in open_in; struct open_out { u_long port; u_int pad[4]; u_int fp; u_char cmd_table_num; u_char cmd_table_vers; u_short server_vers; }; typedef struct open_out open_out; /* now close_connex() routine which detaches from server */ enum close_control { CLOSE_IGNORE = 0, CLOSE_KILL = 1, CLOSE_DETACH = 2, }; typedef enum close_control close_control; struct close_in { close_control control; }; typedef struct close_in close_in; /* now send_signal() routine which sends signals to processes like kill(2) */ struct signal_in { int pid; int sig; }; typedef struct signal_in signal_in; struct signal_out { int kill_return; int errNo; }; typedef struct signal_out signal_out; /* now wait_info() routine which returns results of polling the wait status of a process/actor. It may return 0 if running, else pid or -1 */ enum stop_code { STOP_ERROR = 0, STOP_NONE = 1, STOP_UNKNOWN = 2, STOP_BREAK = 3, STOP_STEP = 4, STOP_SIGNAL = 5, STOP_TERM_EXIT = 6, STOP_TERM_SIG = 7, STOP_DETACHED = 8, STOP_KILLED = 9, STOP_SPAWN_FAILED = 10, }; typedef enum stop_code stop_code; struct wait_in { int pid; }; typedef struct wait_in wait_in; struct wait_out { int wait_return; int errNo; int status; stop_code reason; int handle; u_long PC; u_long SP; u_long FP; u_long thread; }; typedef struct wait_out wait_out; /* now ptrace() routine. This matches the Sun UNIX ptrace as well as some additions */ #define PTRFLG_FORCE 1 #define PTRFLG_NON_OWNER 2 #define PTRFLG_FREE 4 #define PTRDET_UNOWN 0x100 struct ptrace_in { int pid; ptrace_addr_data_in addr; u_int data; u_int flags; }; typedef struct ptrace_in ptrace_in; struct ptrace_out { ptrace_addr_data_out addr; int result; int errNo; }; typedef struct ptrace_out ptrace_out; struct one_symbol { char *symbolName; long symbolValue; }; typedef struct one_symbol one_symbol; typedef struct { u_int all_symbols_len; one_symbol *all_symbols_val; } all_symbols; struct get_global_symbols_out { all_symbols symbols; }; typedef struct get_global_symbols_out get_global_symbols_out; struct get_text_data_in { int pid; char *actorName; }; typedef struct get_text_data_in get_text_data_in; struct get_text_data_out { int result; int errNo; u_long textStart; u_long textSize; u_long dataStart; u_long dataSize; }; typedef struct get_text_data_out get_text_data_out; struct one_signal { u_int number; char *name; }; typedef struct one_signal one_signal; typedef struct { u_int all_signals_len; one_signal *all_signals_val; } all_signals; struct get_signal_names_out { all_signals signals; }; typedef struct get_signal_names_out get_signal_names_out; /* now define the actual calls we support */ #define REMDEB_H #endif #define REMOTEDEB 0x20000fff #define REMOTEVERS 2 #if defined(__STDC__) || defined(__cplusplus) #define OPEN_CONNEX 1 extern open_out * open_connex_2(open_in *, CLIENT *); extern open_out * open_connex_2_svc(open_in *, struct svc_req *); #define SEND_SIGNAL 2 extern signal_out * send_signal_2(signal_in *, CLIENT *); extern signal_out * send_signal_2_svc(signal_in *, struct svc_req *); #define CLOSE_CONNEX 10 extern void * close_connex_2(close_in *, CLIENT *); extern void * close_connex_2_svc(close_in *, struct svc_req *); #define PTRACE 11 extern ptrace_out * ptrace_2(ptrace_in *, CLIENT *); extern ptrace_out * ptrace_2_svc(ptrace_in *, struct svc_req *); #define WAIT_INFO 13 extern wait_out * wait_info_2(wait_in *, CLIENT *); extern wait_out * wait_info_2_svc(wait_in *, struct svc_req *); #define GET_SIGNAL_NAMES 17 extern get_signal_names_out * get_signal_names_2(void *, CLIENT *); extern get_signal_names_out * get_signal_names_2_svc(void *, struct svc_req *); extern int remotedeb_2_freeresult (SVCXPRT *, xdrproc_t, caddr_t); #else /* K&R C */ #define OPEN_CONNEX 1 extern open_out * open_connex_2(); extern open_out * open_connex_2_svc(); #define SEND_SIGNAL 2 extern signal_out * send_signal_2(); extern signal_out * send_signal_2_svc(); #define CLOSE_CONNEX 10 extern void * close_connex_2(); extern void * close_connex_2_svc(); #define PTRACE 11 extern ptrace_out * ptrace_2(); extern ptrace_out * ptrace_2_svc(); #define WAIT_INFO 13 extern wait_out * wait_info_2(); extern wait_out * wait_info_2_svc(); #define GET_SIGNAL_NAMES 17 extern get_signal_names_out * get_signal_names_2(); extern get_signal_names_out * get_signal_names_2_svc(); extern int remotedeb_2_freeresult (); #endif /* K&R C */ /* the xdr functions */ #if defined(__STDC__) || defined(__cplusplus) extern bool_t xdr_rpc_type (XDR *, rpc_type*); extern bool_t xdr_UDP_MSG (XDR *, UDP_MSG*); extern bool_t xdr_ptracereq (XDR *, ptracereq*); extern bool_t xdr_xdr_regs (XDR *, xdr_regs*); extern bool_t xdr_xdr_mem (XDR *, xdr_mem*); extern bool_t xdr_break_type (XDR *, break_type*); extern bool_t xdr_xdr_break (XDR *, xdr_break*); extern bool_t xdr_thread_name (XDR *, thread_name*); extern bool_t xdr_KernThread (XDR *, KernThread*); extern bool_t xdr_thread_list (XDR *, thread_list*); extern bool_t xdr_ptrace_addr_data_in (XDR *, ptrace_addr_data_in*); extern bool_t xdr_ptrace_addr_data_out (XDR *, ptrace_addr_data_out*); extern bool_t xdr_CHAR_DATA (XDR *, CHAR_DATA*); extern bool_t xdr_xry_inst (XDR *, xry_inst*); extern bool_t xdr_instance (XDR *, instance*); extern bool_t xdr_instance_union (XDR *, instance_union*); extern bool_t xdr_one_arg (XDR *, one_arg*); extern bool_t xdr_debug_type (XDR *, debug_type*); extern bool_t xdr_open_in (XDR *, open_in*); extern bool_t xdr_open_out (XDR *, open_out*); extern bool_t xdr_close_control (XDR *, close_control*); extern bool_t xdr_close_in (XDR *, close_in*); extern bool_t xdr_signal_in (XDR *, signal_in*); extern bool_t xdr_signal_out (XDR *, signal_out*); extern bool_t xdr_stop_code (XDR *, stop_code*); extern bool_t xdr_wait_in (XDR *, wait_in*); extern bool_t xdr_wait_out (XDR *, wait_out*); extern bool_t xdr_ptrace_in (XDR *, ptrace_in*); extern bool_t xdr_ptrace_out (XDR *, ptrace_out*); extern bool_t xdr_one_symbol (XDR *, one_symbol*); extern bool_t xdr_all_symbols (XDR *, all_symbols*); extern bool_t xdr_get_global_symbols_out (XDR *, get_global_symbols_out*); extern bool_t xdr_get_text_data_in (XDR *, get_text_data_in*); extern bool_t xdr_get_text_data_out (XDR *, get_text_data_out*); extern bool_t xdr_one_signal (XDR *, one_signal*); extern bool_t xdr_all_signals (XDR *, all_signals*); extern bool_t xdr_get_signal_names_out (XDR *, get_signal_names_out*); #else /* K&R C */ extern bool_t xdr_rpc_type (); extern bool_t xdr_UDP_MSG (); extern bool_t xdr_ptracereq (); extern bool_t xdr_xdr_regs (); extern bool_t xdr_xdr_mem (); extern bool_t xdr_break_type (); extern bool_t xdr_xdr_break (); extern bool_t xdr_thread_name (); extern bool_t xdr_KernThread (); extern bool_t xdr_thread_list (); extern bool_t xdr_ptrace_addr_data_in (); extern bool_t xdr_ptrace_addr_data_out (); extern bool_t xdr_CHAR_DATA (); extern bool_t xdr_xry_inst (); extern bool_t xdr_instance (); extern bool_t xdr_instance_union (); extern bool_t xdr_one_arg (); extern bool_t xdr_debug_type (); extern bool_t xdr_open_in (); extern bool_t xdr_open_out (); extern bool_t xdr_close_control (); extern bool_t xdr_close_in (); extern bool_t xdr_signal_in (); extern bool_t xdr_signal_out (); extern bool_t xdr_stop_code (); extern bool_t xdr_wait_in (); extern bool_t xdr_wait_out (); extern bool_t xdr_ptrace_in (); extern bool_t xdr_ptrace_out (); extern bool_t xdr_one_symbol (); extern bool_t xdr_all_symbols (); extern bool_t xdr_get_global_symbols_out (); extern bool_t xdr_get_text_data_in (); extern bool_t xdr_get_text_data_out (); extern bool_t xdr_one_signal (); extern bool_t xdr_all_signals (); extern bool_t xdr_get_signal_names_out (); #endif /* K&R C */ #ifdef __cplusplus } #endif #endif /* !_REMDEB_H_RPCGEN */
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