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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [librdbg/] [src/] [remdeb.x] - Rev 300

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/*
 **********************************************************************
 *
 *  Component:  RDBG servers
 *  Module:     remdeb.x
 *
 *  Synopsis:   XDR definitions for remote debug server RPC calls.
 *              XDR definitions for RPCGEN to build remote debug server.
 *
 * $Id: remdeb.x,v 1.2 2001-09-27 12:02:01 chris Exp $
 *
 **********************************************************************
 */

#ifdef RPC_SVC
%/*HEADER_START*/
#endif

%#define RTEMS_PORT 2071
%#define RTEMS_BACK_PORT 2073

#ifdef   RPC_HDR
%#ifndef REMDEB_H
%#define RPCGENSRVNAME(a)     a
#endif

enum rpc_type {
        SUNRPC          = 0,
        BADRPCTYPE      = 25
};


const NET_SAFE = 1400;  /* this is safe for UDP messages */

struct UDP_MSG
{                               /* format of UDP messages (should be in .h) */
  unsigned char  type;          /* type of message (BMSG_xx) */
  unsigned char  msg_num;       /* ringed number for resend detect */
  unsigned short spec;          /* specific information for type */
  long           pid;           /* process this affects */
  unsigned long  context;       /* specific information to request */
};

  /* First we support the overhead structures and types needed for RPC 
        requests. Then, we have all RPC routines input/output args.     */

%/*
% * Sun request values for the remote ptrace system call
% */
%
enum ptracereq
{                               /* these match PTRACE_xxx numbers */
  RPT_TRACEME = 0,              /* 0, by tracee to begin tracing */
  RPT_CHILDDONE = 0,            /* 0, tracee is done with his half */
  RPT_PEEKTEXT,                 /* 1, read word from text segment */
  RPT_PEEKDATA,                 /* 2, read word from data segment */
  RPT_PEEKUSER,                 /* 3, read word from user struct */
  RPT_POKETEXT,                 /* 4, write word into text segment */
  RPT_POKEDATA,                 /* 5, write word into data segment */
  RPT_POKEUSER,                 /* 6, write word into user struct */
  RPT_CONT,                     /* 7, continue process */
  RPT_KILL,                     /* 8, terminate process */
  RPT_SINGLESTEP,               /* 9, single step process */
  RPT_ATTACH,                   /* 10, attach to an existing process (returns 2 if not primary)*/
  RPT_DETACH,                   /* 11, detach from a process */
  RPT_GETREGS,                  /* 12, get all registers */
  RPT_SETREGS,                  /* 13, set all registers */
  RPT_GETFPREGS,                /* 14, get all floating point regs */
  RPT_SETFPREGS,                /* 15, set all floating point regs */
  RPT_READDATA,                 /* 16, read data segment */
  RPT_WRITEDATA,                /* 17, write data segment */
  RPT_READTEXT,                 /* 18, read text segment */
  RPT_WRITETEXT,                /* 19, write text segment */
  RPT_GETFPAREGS,               /* 20, get all fpa regs */
  RPT_SETFPAREGS,               /* 21, set all fpa regs */
  RPT_22,                       /* 22, filler */
  RPT_23,                       /* 23, filler */
  RPT_SYSCALL,                  /* 24, trap next sys call */
  RPT_DUMPCORE,                 /* 25, dump process core */
  RPT_26,                       /* 26, filler */
  RPT_27,                       /* 27, filler */
  RPT_28,                       /* 28, filler */
  RPT_GETUCODE,                 /* 29, get u.u_code */
  /* Begin  specific ptrace options */
  RPT_GETTARGETTHREAD = 50,     /* get PM target thread identifier */
  RPT_SETTARGETTHREAD = 51,     /* set PM target thread identifier */
  RPT_THREADSUSPEND   = 52,     /* suspend a thread */
  RPT_THREADRESUME    = 53,     /* resume a thread */
  RPT_THREADLIST      = 54,     /* get list of process's threads */
  RPT_GETTHREADNAME   = 55,     /* get the name of the thread */
  RPT_SETTHREADNAME   = 56,     /* set the name of the thread */
  RPT_SETTHREADREGS   = 57,     /* set all registers for a specific thread*/
  RPT_GETTHREADREGS   = 58,     /* get all registers for a specific thread*/
  /* Begin extended ptrace options for remote debug server */
  RPT_STEPRANGE       = 75,     /* step while in range (addr=start, data=len) */
  RPT_CONTTO          = 76,     /* cont from PC to temp break in addr */
  RPT_SETBREAK        = 77,     /* set a breakpoint (addr=break) */
  RPT_CLRBREAK        = 78,     /* clear a breakpoint (data=handle or 0 for all) */
  RPT_GETBREAK        = 79,     /* get breakpoint (data=handle, addr=buffer to
                                   fill). Returns next break. If data=0,
                                   returns number of breaks. */                 
  RPT_GETNAME         = 80,     /* get name of process (data 0=name, 1=path
                                   as started, 2=fullpath). Return in addr
                                   as mem) */
  RPT_STOP            = 81,     /* (C-actors) Stop the C-actor */
  RPT_PGETREGS        = 82,     /* portable version */
  RPT_PSETREGS        = 83,     /* portable version */
  RPT_PSETTHREADREGS  = 84,     /* portable version */
  RPT_PGETTHREADREGS  = 85      /* portable version */
};

#include FRONTEND

const MAXDEBUGGEE= 150;
const 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.
%   */

const MEM_DATA_MAX      = 256;

#ifndef RPC_XDR

struct xdr_mem {
        u_long          addr;
        u_int           dataNb;
        unsigned char   data[MEM_DATA_MAX];
};

#else
/* manually define best XDR function for this */
%bool_t xdr_xdr_mem(xdrs, objp)
%       XDR *xdrs;
%       struct xdr_mem *objp;
%{
%       if (!xdr_u_long(xdrs, &objp->addr)) {
%               return (FALSE);
%       }
%       if (!xdr_u_int(xdrs, &objp->dataNb)) {
%               return(FALSE);
%       }
%       return (xdr_opaque(xdrs, objp->data, objp->dataNb));
%}

#endif

/* Breakpoint structure maps to same structure on host. Do not change one
   without changing the other. */

enum break_type
{                               /* types of breakpoints */
  BRKT_NONE,                    /* unused entry */
  BRKT_INSTR,                   /* general instruction break */
  BRKT_READ,                    /* read break */
  BRKT_WRITE,                   /* write breakpoint */
  BRKT_ACCESS,                  /* read-or-write break */
  BRKT_EXEC,                    /* execution HW breakpoint */
  BRKT_OS_CALL,                 /* break on OS call, addr is call number */
  BRKT_OS_SWITCH,               /* dispatch breakpoint */
  BRKT_STEPEMUL                 /* emulate hardware single-step */
};
const MAX_THRD_BRK = 4;         /* enough for 128 threads per process */
struct xdr_break
{                               /* one per process local breakpoint */
  u_char        type;           /* BRKT_xxx type of break */
  u_char        thread_spec;    /* 0=all, else count of threads it affects */
  u_short       handle;         /* handle of breakpoint returned */
  u_long        ee_loc;         /* address of start */
  u_long        ee_type;        /* type/method of address */
  u_short       length;         /* length of break if range, else 0 */
  u_char        pass_count;     /* pass count to initialize to (0=none) */
  u_char        curr_pass;      /* pass count current value */
  u_long        thread_list[MAX_THRD_BRK]; /* bit map for thread list */
};                              /* 20 bytes+4 per thread_list (4x4=16) = 36 */

const UTHREAD_MAX     = 64;

const THREADNAMEMAX =   16;
typedef string thread_name <THREADNAMEMAX>;

struct KernThread {
        unsigned int threadLi;
};

#ifndef RPC_XDR

#ifdef RPC_HDR
%typedef KernThread *ptThreadList;
#endif

struct thread_list {
        unsigned int nbThread;
        ptThreadList threads;   
};

#else /* RPC_XDR */

/* must write this function by hand */

%bool_t xdr_thread_list(xdrs, objp)
%       XDR *xdrs;
%       struct thread_list *objp;
%{
%       return (xdr_array(xdrs, (char**)&objp->threads, &objp->nbThread,
%                       UTHREAD_MAX, sizeof(KernThread), xdr_KernThread));
%}

#endif /* not RPC_XDR */


union ptrace_addr_data_in switch (ptracereq req) {
    /*
     * due to rpcgen poor features, we cannot put RPC_SETREGS 
     * AND RPC_SETTHREADREGS in the case list. So we use a hack (FIX rpcgen).
     */
#ifndef RPC_HDR
        case RPT_SETTHREADREGS : 
                                xdr_regs regs;
#endif
        case RPT_SETREGS:

                                xdr_regs regs;

#ifndef RPC_HDR
        case RPT_PSETTHREADREGS:
                                u_int pregs<>;
#endif
        case RPT_PSETREGS:
                                u_int pregs<>;

#ifdef LATER
        case RPT_SETFPREGS:
                                xdr_fp_status fpregs;
#endif
        case RPT_SETTHREADNAME:
                                thread_name name;
#ifndef RPC_HDR
        case RPT_WRITETEXT:
                                xdr_mem mem;
#endif
        case RPT_WRITEDATA:
                                xdr_mem mem;
        case RPT_SETBREAK:
                                xdr_break breakp;
        default:
                                u_int address;
};

union ptrace_addr_data_out switch (ptracereq req) {
        case RPT_GETREGS:
                                xdr_regs regs;
#ifndef RPC_HDR
        case RPT_GETTHREADREGS:
                                xdr_regs regs;
#endif

        case RPT_PGETREGS:
                                u_int pregs<>;

#ifndef RPC_HDR
        case RPT_PGETTHREADREGS:
                                u_int pregs<>;
#endif

#ifdef LATER
        case RPT_GETFPREGS:
                                xdr_fp_status fpregs;
#endif
        case RPT_THREADLIST:
                                thread_list threads;
        case RPT_GETTHREADNAME:
                                thread_name name;                               
#ifndef RPC_HDR
        case RPT_READTEXT:
                                xdr_mem mem;
        case RPT_GETNAME:
                                xdr_mem mem;
#endif
        case RPT_READDATA:
                                xdr_mem mem;
        case RPT_GETBREAK:
                                xdr_break breakp;
        default:
                                u_int addr;
};

typedef opaque CHAR_DATA <NET_SAFE>;    /* variable sized data */

const XRY_MAX_INST_BUFF = 128;
const XRY_MAX_INSTANCES = 16;
%#ifndef XRY_MAX_CMD_STR
const XRY_MAX_CMD_STR = 320; /* XRY_MAX_INST_BUFF+(XRY_MAX_INSTANCES*12) */
%#endif /* REMDEB_H */


struct xry_inst
{
  unsigned char flags;          /* value2 interp, etc. INFL_xxx */
  unsigned char type;           /* base type of data (str, val, etc) INST_xxx */
  unsigned char sub_type;       /* specific type (task, res, etc). This is
                                   set and defined by the user defined instance
                                   processor and not the auto-processor */
  unsigned char res_type;
  u_long        value;          /* pointer to value or value itself */
  u_long        value2;         /* second value (optional - based on flags) */  
};

struct instance
{
  struct xry_inst instances[XRY_MAX_INSTANCES];
  unsigned char buffer[XRY_MAX_INST_BUFF];
};

union instance_union switch (bool instances)
{
  case TRUE:
        instance        inst;
  case FALSE:
        string          buffer <XRY_MAX_CMD_STR>;
};

typedef string  one_arg <NET_SAFE>;     

const XRY_MAX_OBJ_NAME = 32;    /* objname in some commands */

%  /* now open_connex() routine which establishes a connection to server */

enum debug_type
{                               /* type of connection requested */
  DEBTYP_PROCESS = 0,           /* process connection */
  DEBTYP_C_ACTOR = 1,           /* C-Actor connection */
  DEBTYP_KERNEL = 2,            /* kernel debug connection */
  DEBTYP_OTHER = 3              /* other subsystem */
};

%#define DEBUGGER_IS_GDB 0x2    /* */

struct open_in
{                               /* input args to open a connection */
  u_char        back_port[16];  /* opaque NET address format */
  u_short       debug_type;     /* type of process DEBTYP_xxx */
  u_short       flags;          /* connection information OPNFLG_xxx */
  u_char        destination[16];/* opaque address if to router */
  one_arg       user_name;      /* name of user on host */
};

struct open_out
{                               /* return from open_connex */
  u_long        port;           /* connection number to server or -1 if error */
  u_int         pad[4];         /* Planned to be KnIpcDest. Never used */
  u_int         fp;             /* True if floating point processor. If error, 
                                   set to errno for open error.         */
  u_char        cmd_table_num;  /* command table used */
  u_char        cmd_table_vers; /* version of command table */
  u_short       server_vers;    /* version number of server itself */
};

%  /* now close_connex() routine which detaches from server */

enum close_control
{                               /* choice of how to handle owned processes */
  CLOSE_IGNORE = 0,             /* ignore all controlled pids on close */
  CLOSE_KILL = 1,               /* kill all controlled pids on close */
  CLOSE_DETACH = 2              /* detach free running all controlled pids */
};

struct close_in
{                               /* arg to close connection */
  close_control control;        /* shutdown of owned processes control */
};

%  /* now send_signal() routine which sends signals to processes like kill(2) */

struct signal_in 
{                               /* input to send_signal */
  int           pid;            /* process/actor to send signal to */
  int           sig;            /* signal to send (from /usr/include/signal.h) */
};

struct signal_out
{                               /* return from send_signal */
  int           kill_return;    /* return code from kill(2) call */
  int           errNo;          /* error code if failed */
};


%  /* 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 code information */
  STOP_ERROR = 0,               /* error, errno set */
  STOP_NONE = 1,                /* not stopped */
  STOP_UNKNOWN = 2,             /* unknown stop reason */
  STOP_BREAK = 3,               /* stopped on breakpoint */
  STOP_STEP = 4,                /* stopped on step */
  STOP_SIGNAL = 5,              /* stopped on signal receieve */
  STOP_TERM_EXIT = 6,           /* terminated normally */
  STOP_TERM_SIG = 7,            /* terminated by signal */
  STOP_DETACHED = 8,            /* detached from server */
  STOP_KILLED = 9,              /* killed by ptrace KILL */
  STOP_SPAWN_FAILED = 10        /* spawn failed in exec part, handle=errno */
};

struct wait_in
{                               /* input arg to wait is process */
  int           pid;            /* process/actor id */
};

struct wait_out
{                               /* result of wait_info call */
  int           wait_return;    /* -1=error,0=running,pid=stopped */
  int           errNo;          /* error code if error */
  int           status;         /* wait(2) status if stopped */
  stop_code     reason;         /* reason in more abstracted terms */
  int           handle;         /* handle of break if stopped on break,
                                   or signal number or exit code  */
  u_long        PC;             /* program counter if stopped */
  u_long        SP;             /* stack pointer if stopped */
  u_long        FP;             /* frame pointer if stopped */
  u_long        thread;         /* thread that stopped if applies (else -1) */
};

%  /* now ptrace() routine. This matches the Sun UNIX ptrace as well as
%       some additions */ 

const PTRFLG_FORCE = 1;         /* when set and process running, forces process
                                   to stop, make the request, then start again.
                                   This is used for breakpoints and the like */
const PTRFLG_NON_OWNER = 2;     /* do request even if not primary owner (will
                                   notify all owners including caller if owns) */
const PTRFLG_FREE = 4;          /* free pid_list after KILL/DETACH */

const PTRDET_UNOWN = 0x100;     /* data value in RPT_DETACH just disconnects
                                   caller as an owner of process.       */

struct ptrace_in
{                               /* input args matches ptrace but for XDR */
  int           pid;            /* process to act on */
  ptrace_addr_data_in addr;     /* mappings for addr and addr2 */
  u_int         data;           /* simple data arg of ptrace */
  u_int         flags;          /* mask of PTRFLG_xxx flags. */
};

struct ptrace_out
{                               /* return information from ptrace */
  ptrace_addr_data_out  addr;   /* return through addr/addr2 */
  int                   result; /* result of ptrace call (return value) */
  int                   errNo;  /* error code if error */
};

    /* Data for GET_GLOBAL_SYMBOLS */
struct one_symbol {             /* Must match common/src/lib/ctx/ctx.h */
    string symbolName<>;
    long symbolValue;
};

typedef one_symbol all_symbols<>;

struct get_global_symbols_out {
    all_symbols symbols;
};

    /* Data for GET_TEXT_DATA */
struct get_text_data_in {
  int           pid;            /* process/actor id if non-zero */
  string        actorName<16>;  /* actor name for system mode */
};

struct get_text_data_out {
    int         result;
    int         errNo;
    u_long      textStart;
    u_long      textSize;
    u_long      dataStart;
    u_long      dataSize;
};

    /* Data for GET_SIGNAL_NAMES */
struct one_signal {
    u_int       number;
    string      name<>;
};

typedef one_signal all_signals<>;

struct get_signal_names_out {
    all_signals signals;
};

%  /* now define the actual calls we support */

program REMOTEDEB {
        version REMOTEVERS {

                /* open a connection to server or router */
                open_out
                OPEN_CONNEX(open_in)            = 1;

                /* send a signal to a process */
                signal_out
                SEND_SIGNAL(signal_in)          = 2;

        /* all routines below require a connection first */

                /* close the connection to the server */
                void
                CLOSE_CONNEX(close_in)          = 10;

                /* process ptrace request */
                ptrace_out
                PTRACE(ptrace_in)               = 11;
                
                /* poll for status of process */
                wait_out
                WAIT_INFO(wait_in)              = 13;

                get_signal_names_out
                GET_SIGNAL_NAMES(void)          = 17;

        } = 2;                  /* now version 2 */
} = 0x20000fff;

#ifdef RPC_HDR
%#define REMDEB_H
%#endif
#endif

#ifdef RPC_SVC

%const char* names [] = {
%    "NULLPROC", "OPEN_CONNEX", "SEND_SIGNAL", "name3",
%    "name4", "name5", "name6", "name7",
%    "name8", "name9", "CLOSE_CONNEX", "PTRACE",
%    "name12", "WAIT_INFO", "name14", "name15",
%    "name16", "GET_SIGNAL_NAMES", "name18"
%};
%

%/*HEADER_END*/
#endif

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