/****************************************************************************** * * * N O T I C E * * * * Copyright Abandoned, 1987, Fred Fish * * * * * * This previously copyrighted work has been placed into the public * * domain by the author and may be freely used for any purpose, * * private or commercial. * * * * Because of the number of inquiries I was receiving about the use * * of this product in commercially developed works I have decided to * * simply make it public domain to further its unrestricted use. I * * specifically would be most happy to see this material become a * * part of the standard Unix distributions by AT&T and the Berkeley * * Computer Science Research Group, and a standard part of the GNU * * system from the Free Software Foundation. * * * * I would appreciate it, as a courtesy, if this notice is left in * * all copies and derivative works. Thank you. * * * * The author makes no warranty of any kind with respect to this * * product and explicitly disclaims any implied warranties of mer- *ct_lex.table_list.first=0; thd->lex.selec * chantability or fitness for any particular purpose. * * * ****************************************************************************** */ /* * FILE * * dbug.c runtime support routines for dbug package * * SCCS * * @(#)dbug.c 1.25 7/25/89 * * DESCRIPTION * * These are the runtime support routines for the dbug package. * The dbug package has two main components; the user include * file containing various macro definitions, and the runtime * support routines which are called from the macro expansions. * * Externally visible functions in the runtime support module * use the naming convention pattern "_db_xx...xx_", thus * they are unlikely to collide with user defined function names. * * AUTHOR(S) * * Fred Fish (base code) * Enhanced Software Technologies, Tempe, AZ * asuvax!mcdphx!estinc!fnf * * Binayak Banerjee (profiling enhancements) * seismo!bpa!sjuvax!bbanerje * * Michael Widenius: * DBUG_DUMP - To dump a block of memory. * PUSH_FLAG "O" - To be used insted of "o" if we don't * want flushing (for slow systems) * PUSH_FLAG "A" - as 'O', but we will append to the out file instead * of creating a new one. * Check of malloc on entry/exit (option "S") */ #ifdef DBUG_OFF #undef DBUG_OFF #endif #include #include #include #if defined(MSDOS) || defined(__WIN__) #include #endif #ifdef _DBUG_CONDITION_ #define _DBUG_START_CONDITION_ "d:t" #else #define _DBUG_START_CONDITION_ "" #endif /* * Manifest constants that should not require any changes. */ #define EOS '\000' /* End Of String marker */ /* * Manifest constants which may be "tuned" if desired. */ #define PRINTBUF 1024 /* Print buffer size */ #define INDENT 2 /* Indentation per trace level */ #define MAXDEPTH 200 /* Maximum trace depth default */ /* * The following flags are used to determine which * capabilities the user has enabled with the state * push macro. */ #define TRACE_ON 000001 /* Trace enabled */ #define DEBUG_ON 000002 /* Debug enabled */ #define FILE_ON 000004 /* File name print enabled */ #define LINE_ON 000010 /* Line number print enabled */ #define DEPTH_ON 000020 /* Function nest level print enabled */ #define PROCESS_ON 000040 /* Process name print enabled */ #define NUMBER_ON 000100 /* Number each line of output */ #define PROFILE_ON 000200 /* Print out profiling code */ #define PID_ON 000400 /* Identify each line with process id */ #define SANITY_CHECK_ON 001000 /* Check safemalloc on DBUG_ENTER */ #define FLUSH_ON_WRITE 002000 /* Flush on every write */ #define TRACING (stack -> flags & TRACE_ON) #define DEBUGGING (stack -> flags & DEBUG_ON) #define PROFILING (stack -> flags & PROFILE_ON) #define STREQ(a,b) (strcmp(a,b) == 0) /* * Typedefs to make things more obvious. */ #ifndef __WIN__ typedef int BOOLEAN; #else #define BOOLEAN BOOL #endif /* * Make it easy to change storage classes if necessary. */ #define IMPORT extern /* Names defined externally */ #define EXPORT /* Allocated here, available globally */ #define AUTO auto /* Names to be allocated on stack */ #define REGISTER register /* Names to be placed in registers */ /* * The default file for profiling. Could also add another flag * (G?) which allowed the user to specify this. * * If the automatic variables get allocated on the stack in * reverse order from their declarations, then define AUTOS_REVERSE. * This is used by the code that keeps track of stack usage. For * forward allocation, the difference in the dbug frame pointers * represents stack used by the callee function. For reverse allocation, * the difference represents stack used by the caller function. * */ #define PROF_FILE "dbugmon.out" #define PROF_EFMT "E\t%ld\t%s\n" #define PROF_SFMT "S\t%lx\t%lx\t%s\n" #define PROF_XFMT "X\t%ld\t%s\n" #ifdef M_I386 /* predefined by xenix 386 compiler */ #define AUTOS_REVERSE 1 #endif /* * Variables which are available externally but should only * be accessed via the macro package facilities. */ EXPORT FILE *_db_fp_ = (FILE *) 0; /* Output stream, default stderr */ EXPORT char *_db_process_ = (char*) "dbug"; /* Pointer to process name; argv[0] */ EXPORT FILE *_db_pfp_ = (FILE *)0; /* Profile stream, 'dbugmon.out' */ EXPORT BOOLEAN _db_on_ = FALSE; /* TRUE if debugging currently on */ EXPORT BOOLEAN _db_pon_ = FALSE; /* TRUE if profile currently on */ EXPORT BOOLEAN _no_db_ = FALSE; /* TRUE if no debugging at all */ /* * Externally supplied functions. */ #ifndef HAVE_PERROR static void perror (); /* Fake system/library error print routine */ #endif IMPORT int _sanity(const char *file,uint line); /* * The user may specify a list of functions to trace or * debug. These lists are kept in a linear linked list, * a very simple implementation. */ struct link { char *str; /* Pointer to link's contents */ struct link *next_link; /* Pointer to the next link */ }; /* * Debugging states can be pushed or popped off of a * stack which is implemented as a linked list. Note * that the head of the list is the current state and the * stack is pushed by adding a new state to the head of the * list or popped by removing the first link. */ struct state { int flags; /* Current state flags */ int maxdepth; /* Current maximum trace depth */ uint delay; /* Delay after each output line */ int sub_level; /* Sub this from code_state->level */ FILE *out_file; /* Current output stream */ FILE *prof_file; /* Current profiling stream */ char name[FN_REFLEN]; /* Name of output file */ struct link *functions; /* List of functions */ struct link *p_functions; /* List of profiled functions */ struct link *keywords; /* List of debug keywords */ struct link *processes; /* List of process names */ struct state *next_state; /* Next state in the list */ }; /* * Local variables not seen by user. */ static my_bool init_done = FALSE; /* Set to TRUE when initialization done */ static struct state *stack=0; typedef struct st_code_state { int lineno; /* Current debugger output line number */ int level; /* Current function nesting level */ const char *func; /* Name of current user function */ const char *file; /* Name of current user file */ char **framep; /* Pointer to current frame */ int jmplevel; /* Remember nesting level at setjmp () */ const char *jmpfunc; /* Remember current function for setjmp */ const char *jmpfile; /* Remember current file for setjmp */ /* * The following variables are used to hold the state information * between the call to _db_pargs_() and _db_doprnt_(), during * expansion of the DBUG_PRINT macro. This is the only macro * that currently uses these variables. * * These variables are currently used only by _db_pargs_() and * _db_doprnt_(). */ uint u_line; /* User source code line number */ const char *u_keyword; /* Keyword for current macro */ int locked; /* If locked with _db_lock_file */ } CODE_STATE; /* Parse a debug command string */ static struct link *ListParse(char *ctlp); /* Make a fresh copy of a string */ static char *StrDup(const char *str); /* Open debug output stream */ static void DBUGOpenFile(const char *name, int append); #ifndef THREAD /* Open profile output stream */ static FILE *OpenProfile(const char *name); /* Profile if asked for it */ static BOOLEAN DoProfile(void); #endif /* Return current user time (ms) */ #ifndef THREAD static unsigned long Clock (void); #endif /* Close debug output stream */ static void CloseFile(FILE *fp); /* Push current debug state */ static void PushState(void); /* Test for tracing enabled */ static BOOLEAN DoTrace(CODE_STATE *state); /* Test to see if file is writable */ #if !(!defined(HAVE_ACCESS) || defined(MSDOS)) static BOOLEAN Writable(char *pathname); /* Change file owner and group */ static void ChangeOwner(char *pathname); /* Allocate memory for runtime support */ #endif static char *DbugMalloc(int size); /* Remove leading pathname components */ static char *BaseName(const char *pathname); static void DoPrefix(uint line); static void FreeList(struct link *linkp); static void Indent(int indent); static BOOLEAN InList(struct link *linkp,const char *cp); static void dbug_flush(CODE_STATE *); static void DbugExit(const char *why); static int DelayArg(int value); /* Supplied in Sys V runtime environ */ /* Break string into tokens */ static char *static_strtok(char *s1,pchar chr); /* * Miscellaneous printf format strings. */ #define ERR_MISSING_RETURN "%s: missing DBUG_RETURN or DBUG_VOID_RETURN macro in function \"%s\"\n" #define ERR_OPEN "%s: can't open debug output stream \"%s\": " #define ERR_CLOSE "%s: can't close debug file: " #define ERR_ABORT "%s: debugger aborting because %s\n" #define ERR_CHOWN "%s: can't change owner/group of \"%s\": " /* * Macros and defines for testing file accessibility under UNIX and MSDOS. */ #undef EXISTS #if !defined(HAVE_ACCESS) || defined(MSDOS) #define EXISTS(pathname) (FALSE) /* Assume no existance */ #define Writable(name) (TRUE) #else #define EXISTS(pathname) (access (pathname, F_OK) == 0) #define WRITABLE(pathname) (access (pathname, W_OK) == 0) #endif #ifndef MSDOS #define ChangeOwner(name) #endif /* * Translate some calls among different systems. */ #if defined(unix) || defined(xenix) || defined(VMS) || defined(__NetBSD__) # define Delay(A) sleep((uint) A) #elif defined(AMIGA) IMPORT int Delay (); /* Pause for given number of ticks */ #else static int Delay(int ticks); #endif /* ** Macros to allow dbugging with threads */ #ifdef THREAD #include pthread_mutex_t THR_LOCK_dbug; static void init_dbug_state(void) { pthread_mutex_init(&THR_LOCK_dbug,MY_MUTEX_INIT_FAST); } static CODE_STATE *code_state(void) { CODE_STATE *state=0; struct st_my_thread_var *tmp=my_thread_var; if (tmp) { if (!(state=(CODE_STATE *) tmp->dbug)) { state=(CODE_STATE*) DbugMalloc(sizeof(*state)); bzero((char*) state,sizeof(*state)); state->func="?func"; state->file="?file"; tmp->dbug=(gptr) state; } } return state; } #else /* !THREAD */ #define init_dbug_state() #define code_state() (&static_code_state) #define pthread_mutex_lock(A) {} #define pthread_mutex_unlock(A) {} static CODE_STATE static_code_state = { 0,0,"?func","?file",NULL,0,NULL, NULL,0,"?",0}; #endif /* * FUNCTION * * _db_push_ push current debugger state and set up new one * * SYNOPSIS * * VOID _db_push_ (control) * char *control; * * DESCRIPTION * * Given pointer to a debug control string in "control", pushes * the current debug state, parses the control string, and sets * up a new debug state. * * The only attribute of the new state inherited from the previous * state is the current function nesting level. This can be * overridden by using the "r" flag in the control string. * * The debug control string is a sequence of colon separated fields * as follows: * * ::...: * * Each field consists of a mandatory flag character followed by * an optional "," and comma separated list of modifiers: * * flag[,modifier,modifier,...,modifier] * * The currently recognized flag characters are: * * d Enable output from DBUG_ macros for * for the current state. May be followed * by a list of keywords which selects output * only for the DBUG macros with that keyword. * A null list of keywords implies output for * all macros. * * D Delay after each debugger output line. * The argument is the number of tenths of seconds * to delay, subject to machine capabilities. * I.E. -#D,20 is delay two seconds. * * f Limit debugging and/or tracing, and profiling to the * list of named functions. Note that a null list will * disable all functions. The appropriate "d" or "t" * flags must still be given, this flag only limits their * actions if they are enabled. * * F Identify the source file name for each * line of debug or trace output. * * i Identify the process with the pid for each line of * debug or trace output. * * g Enable profiling. Create a file called 'dbugmon.out' * containing information that can be used to profile * the program. May be followed by a list of keywords * that select profiling only for the functions in that * list. A null list implies that all functions are * considered. * * L Identify the source file line number for * each line of debug or trace output. * * n Print the current function nesting depth for * each line of debug or trace output. * * N Number each line of dbug output. * * o Redirect the debugger output stream to the * specified file. The default output is stderr. * * O As O but the file is really flushed between each * write. When neaded the file is closed and reopened * between each write. * * p Limit debugger actions to specified processes. * A process must be identified with the * DBUG_PROCESS macro and match one in the list * for debugger actions to occur. * * P Print the current process name for each * line of debug or trace output. * * r When pushing a new state, do not inherit * the previous state's function nesting level. * Useful when the output is to start at the * left margin. * * S Do function _sanity(_file_,_line_) at each * debugged function until _sanity() returns * something that differs from 0. * (Moustly used with safemalloc) * * t Enable function call/exit trace lines. * May be followed by a list (containing only * one modifier) giving a numeric maximum * trace level, beyond which no output will * occur for either debugging or tracing * macros. The default is a compile time * option. * * Some examples of debug control strings which might appear * on a shell command line (the "-#" is typically used to * introduce a control string to an application program) are: * * -#d:t * -#d:f,main,subr1:F:L:t,20 * -#d,input,output,files:n * * For convenience, any leading "-#" is stripped off. * */ void _db_push_ (const char *control) { reg1 char *scan; reg2 struct link *temp; CODE_STATE *state; char *new_str; if (! _db_fp_) _db_fp_= stderr; /* Output stream, default stderr */ if (control && *control == '-') { if (*++control == '#') control++; } if (*control) _no_db_=0; /* We are using dbug after all */ new_str = StrDup (control); PushState (); state=code_state(); scan = static_strtok (new_str, ':'); for (; scan != NULL; scan = static_strtok ((char *)NULL, ':')) { switch (*scan++) { case 'd': _db_on_ = TRUE; stack -> flags |= DEBUG_ON; if (*scan++ == ',') { stack -> keywords = ListParse (scan); } break; case 'D': stack -> delay = 0; if (*scan++ == ',') { temp = ListParse (scan); stack -> delay = DelayArg (atoi (temp -> str)); FreeList (temp); } break; case 'f': if (*scan++ == ',') { stack -> functions = ListParse (scan); } break; case 'F': stack -> flags |= FILE_ON; break; case 'i': stack -> flags |= PID_ON; break; #ifndef THREAD case 'g': _db_pon_ = TRUE; if (OpenProfile(PROF_FILE)) { stack -> flags |= PROFILE_ON; if (*scan++ == ',') stack -> p_functions = ListParse (scan); } break; #endif case 'L': stack -> flags |= LINE_ON; break; case 'n': stack -> flags |= DEPTH_ON; break; case 'N': stack -> flags |= NUMBER_ON; break; case 'A': case 'O': stack -> flags |= FLUSH_ON_WRITE; case 'a': case 'o': if (*scan++ == ',') { temp = ListParse (scan); DBUGOpenFile(temp -> str, (int) (scan[-2] == 'A' || scan[-2] == 'a')); FreeList (temp); } else { DBUGOpenFile ("-",0); } break; case 'p': if (*scan++ == ',') { stack -> processes = ListParse (scan); } break; case 'P': stack -> flags |= PROCESS_ON; break; case 'r': stack->sub_level= state->level; break; case 't': stack -> flags |= TRACE_ON; if (*scan++ == ',') { temp = ListParse (scan); stack -> maxdepth = atoi (temp -> str); FreeList (temp); } break; case 'S': stack -> flags |= SANITY_CHECK_ON; break; } } free (new_str); } /* * FUNCTION * * _db_pop_ pop the debug stack * * DESCRIPTION * * Pops the debug stack, returning the debug state to its * condition prior to the most recent _db_push_ invocation. * Note that the pop will fail if it would remove the last * valid state from the stack. This prevents user errors * in the push/pop sequence from screwing up the debugger. * Maybe there should be some kind of warning printed if the * user tries to pop too many states. * */ void _db_pop_ () { reg1 struct state *discard; discard = stack; if (discard != NULL && discard -> next_state != NULL) { stack = discard -> next_state; _db_fp_ = stack -> out_file; _db_pfp_ = stack -> prof_file; if (discard -> keywords != NULL) { FreeList (discard -> keywords); } if (discard -> functions != NULL) { FreeList (discard -> functions); } if (discard -> processes != NULL) { FreeList (discard -> processes); } if (discard -> p_functions != NULL) { FreeList (discard -> p_functions); } CloseFile (discard -> out_file); if (discard -> prof_file) CloseFile (discard -> prof_file); free ((char *) discard); if (!(stack->flags & DEBUG_ON)) _db_on_=0; } else { _db_on_=0; } } /* * FUNCTION * * _db_enter_ process entry point to user function * * SYNOPSIS * * VOID _db_enter_ (_func_, _file_, _line_, * _sfunc_, _sfile_, _slevel_, _sframep_) * char *_func_; points to current function name * char *_file_; points to current file name * int _line_; called from source line number * char **_sfunc_; save previous _func_ * char **_sfile_; save previous _file_ * int *_slevel_; save previous nesting level * char ***_sframep_; save previous frame pointer * * DESCRIPTION * * Called at the beginning of each user function to tell * the debugger that a new function has been entered. * Note that the pointers to the previous user function * name and previous user file name are stored on the * caller's stack (this is why the ENTER macro must be * the first "executable" code in a function, since it * allocates these storage locations). The previous nesting * level is also stored on the callers stack for internal * self consistency checks. * * Also prints a trace line if tracing is enabled and * increments the current function nesting depth. * * Note that this mechanism allows the debugger to know * what the current user function is at all times, without * maintaining an internal stack for the function names. * */ void _db_enter_ ( const char *_func_, const char *_file_, uint _line_, const char **_sfunc_, const char **_sfile_, uint *_slevel_, char ***_sframep_ __attribute__((unused))) { reg1 CODE_STATE *state; if (!_no_db_) { int save_errno=errno; /* Sasha: the test below is so we could call functions with DBUG_ENTER before my_thread_init(). I needed this because I suspected corruption of a block allocated by my_thread_init() itself, so I wanted to use my_malloc()/my_free() in my_thread_init()/my_thread_end() */ if (!(state=code_state())) return; if (!init_done) _db_push_ (_DBUG_START_CONDITION_); *_sfunc_ = state->func; *_sfile_ = state->file; state->func =(char*) _func_; state->file = (char*) _file_; /* BaseName takes time !! */ *_slevel_ = ++state->level; #ifndef THREAD *_sframep_ = state->framep; state->framep = (char **) _sframep_; if (DoProfile ()) { long stackused; if (*state->framep == NULL) { stackused = 0; } else { stackused = ((long)(*state->framep)) - ((long)(state->framep)); stackused = stackused > 0 ? stackused : -stackused; } (void) fprintf (_db_pfp_, PROF_EFMT , Clock (), state->func); #ifdef AUTOS_REVERSE (void) fprintf (_db_pfp_, PROF_SFMT, state->framep, stackused, *_sfunc_); #else (void) fprintf (_db_pfp_, PROF_SFMT, (ulong) state->framep, stackused, state->func); #endif (void) fflush (_db_pfp_); } #endif if (DoTrace (state)) { if (!state->locked) pthread_mutex_lock(&THR_LOCK_dbug); DoPrefix (_line_); Indent (state -> level); (void) fprintf (_db_fp_, ">%s\n", state->func); dbug_flush (state); /* This does a unlock */ } #ifdef SAFEMALLOC if (stack -> flags & SANITY_CHECK_ON) if (_sanity(_file_,_line_)) /* Check of safemalloc */ stack -> flags &= ~SANITY_CHECK_ON; #endif errno=save_errno; } } /* * FUNCTION * * _db_return_ process exit from user function * * SYNOPSIS * * VOID _db_return_ (_line_, _sfunc_, _sfile_, _slevel_) * int _line_; current source line number * char **_sfunc_; where previous _func_ is to be retrieved * char **_sfile_; where previous _file_ is to be retrieved * int *_slevel_; where previous level was stashed * * DESCRIPTION * * Called just before user function executes an explicit or implicit * return. Prints a trace line if trace is enabled, decrements * the current nesting level, and restores the current function and * file names from the defunct function's stack. * */ void _db_return_ ( uint _line_, const char **_sfunc_, const char **_sfile_, uint *_slevel_) { CODE_STATE *state; if (!_no_db_) { int save_errno=errno; if (!(state=code_state())) return; if (!init_done) _db_push_ (""); if (stack->flags & (TRACE_ON | DEBUG_ON | PROFILE_ON)) { if (!state->locked) pthread_mutex_lock(&THR_LOCK_dbug); if (state->level != (int) *_slevel_) (void) fprintf (_db_fp_, ERR_MISSING_RETURN, _db_process_, state->func); else { #ifdef SAFEMALLOC if (stack -> flags & SANITY_CHECK_ON) if (_sanity(*_sfile_,_line_)) stack->flags &= ~SANITY_CHECK_ON; #endif #ifndef THREAD if (DoProfile ()) (void) fprintf (_db_pfp_, PROF_XFMT, Clock(), state->func); #endif if (DoTrace (state)) { DoPrefix (_line_); Indent (state->level); (void) fprintf (_db_fp_, "<%s\n", state->func); } } dbug_flush(state); } state->level = *_slevel_-1; state->func = *_sfunc_; state->file = *_sfile_; #ifndef THREAD if (state->framep != NULL) state->framep = (char **) *state->framep; #endif errno=save_errno; } } /* * FUNCTION * * _db_pargs_ log arguments for subsequent use by _db_doprnt_() * * SYNOPSIS * * VOID _db_pargs_ (_line_, keyword) * int _line_; * char *keyword; * * DESCRIPTION * * The new universal printing macro DBUG_PRINT, which replaces * all forms of the DBUG_N macros, needs two calls to runtime * support routines. The first, this function, remembers arguments * that are used by the subsequent call to _db_doprnt_(). * */ void _db_pargs_ ( uint _line_, const char *keyword) { CODE_STATE *state=code_state(); /* Sasha: pre-my_thread_init() safety */ if (!state) return; state->u_line = _line_; state->u_keyword = (char*) keyword; } /* * FUNCTION * * _db_doprnt_ handle print of debug lines * * SYNOPSIS * * VOID _db_doprnt_ (format, va_alist) * char *format; * va_dcl; * * DESCRIPTION * * When invoked via one of the DBUG macros, tests the current keyword * set by calling _db_pargs_() to see if that macro has been selected * for processing via the debugger control string, and if so, handles * printing of the arguments via the format string. The line number * of the DBUG macro in the source is found in u_line. * * Note that the format string SHOULD NOT include a terminating * newline, this is supplied automatically. * */ #include void _db_doprnt_ (const char *format,...) { va_list args; CODE_STATE *state; /* Sasha: pre-my_thread_init() safety */ if (!(state=code_state())) return; va_start(args,format); if (_db_keyword_ (state->u_keyword)) { int save_errno=errno; if (!state->locked) pthread_mutex_lock(&THR_LOCK_dbug); DoPrefix (state->u_line); if (TRACING) { Indent (state->level + 1); } else { (void) fprintf (_db_fp_, "%s: ", state->func); } (void) fprintf (_db_fp_, "%s: ", state->u_keyword); (void) vfprintf (_db_fp_, format, args); (void) fputc('\n',_db_fp_); dbug_flush(state); errno=save_errno; } va_end(args); } /* * FUNCTION * * _db_dump_ dump a string until '\0' is found * * SYNOPSIS * * void _db_dump_ (_line_,keyword,memory,length) * int _line_; current source line number * char *keyword; * char *memory; Memory to print * int length; Bytes to print * * DESCRIPTION * Dump N characters in a binary array. * Is used to examine corrputed memory or arrays. */ void _db_dump_( uint _line_, const char *keyword, const char *memory, uint length) { int pos; char dbuff[90]; CODE_STATE *state; /* Sasha: pre-my_thread_init() safety */ if (!(state=code_state())) return; if (_db_keyword_ ((char*) keyword)) { if (!state->locked) pthread_mutex_lock(&THR_LOCK_dbug); DoPrefix (_line_); if (TRACING) { Indent (state->level + 1); pos= min(max(state->level-stack->sub_level,0)*INDENT,80); } else { fprintf(_db_fp_, "%s: ", state->func); } sprintf(dbuff,"%s: Memory: %lx Bytes: (%d)\n", keyword,(ulong) memory, length); (void) fputs(dbuff,_db_fp_); pos=0; while (length-- > 0) { uint tmp= *((unsigned char*) memory++); if ((pos+=3) >= 80) { fputc('\n',_db_fp_); pos=3; } fputc(_dig_vec[((tmp >> 4) & 15)], _db_fp_); fputc(_dig_vec[tmp & 15], _db_fp_); fputc(' ',_db_fp_); } (void) fputc('\n',_db_fp_); dbug_flush(state); } } /* * FUNCTION * * ListParse parse list of modifiers in debug control string * * SYNOPSIS * * static struct link *ListParse (ctlp) * char *ctlp; * * DESCRIPTION * * Given pointer to a comma separated list of strings in "cltp", * parses the list, building a list and returning a pointer to it. * The original comma separated list is destroyed in the process of * building the linked list, thus it had better be a duplicate * if it is important. * * Note that since each link is added at the head of the list, * the final list will be in "reverse order", which is not * significant for our usage here. * */ static struct link *ListParse ( char *ctlp) { REGISTER char *start; REGISTER struct link *new_malloc; REGISTER struct link *head; head = NULL; while (*ctlp != EOS) { start = ctlp; while (*ctlp != EOS && *ctlp != ',') { ctlp++; } if (*ctlp == ',') { *ctlp++ = EOS; } new_malloc = (struct link *) DbugMalloc (sizeof (struct link)); new_malloc -> str = StrDup (start); new_malloc -> next_link = head; head = new_malloc; } return (head); } /* * FUNCTION * * InList test a given string for member of a given list * * SYNOPSIS * * static BOOLEAN InList (linkp, cp) * struct link *linkp; * char *cp; * * DESCRIPTION * * Tests the string pointed to by "cp" to determine if it is in * the list pointed to by "linkp". Linkp points to the first * link in the list. If linkp is NULL then the string is treated * as if it is in the list (I.E all strings are in the null list). * This may seem rather strange at first but leads to the desired * operation if no list is given. The net effect is that all * strings will be accepted when there is no list, and when there * is a list, only those strings in the list will be accepted. * */ static BOOLEAN InList ( struct link *linkp, const char *cp) { REGISTER struct link *scan; REGISTER BOOLEAN result; if (linkp == NULL) { result = TRUE; } else { result = FALSE; for (scan = linkp; scan != NULL; scan = scan -> next_link) { if (STREQ (scan -> str, cp)) { result = TRUE; break; } } } return (result); } /* * FUNCTION * * PushState push current state onto stack and set up new one * * SYNOPSIS * * static VOID PushState () * * DESCRIPTION * * Pushes the current state on the state stack, and initializes * a new state. The only parameter inherited from the previous * state is the function nesting level. This action can be * inhibited if desired, via the "r" flag. * * The state stack is a linked list of states, with the new * state added at the head. This allows the stack to grow * to the limits of memory if necessary. * */ static void PushState () { REGISTER struct state *new_malloc; if (!init_done) { init_dbug_state(); init_done=TRUE; } (void) code_state(); /* Alloc memory */ new_malloc = (struct state *) DbugMalloc (sizeof (struct state)); new_malloc -> flags = 0; new_malloc -> delay = 0; new_malloc -> maxdepth = MAXDEPTH; new_malloc -> sub_level=0; new_malloc -> out_file = stderr; new_malloc -> prof_file = (FILE*) 0; new_malloc -> functions = NULL; new_malloc -> p_functions = NULL; new_malloc -> keywords = NULL; new_malloc -> processes = NULL; new_malloc -> next_state = stack; stack=new_malloc; } /* * FUNCTION * * DoTrace check to see if tracing is current enabled * * SYNOPSIS * * static BOOLEAN DoTrace (stack) * * DESCRIPTION * * Checks to see if tracing is enabled based on whether the * user has specified tracing, the maximum trace depth has * not yet been reached, the current function is selected, * and the current process is selected. Returns TRUE if * tracing is enabled, FALSE otherwise. * */ static BOOLEAN DoTrace (CODE_STATE *state) { reg2 BOOLEAN trace=FALSE; if (TRACING && state->level <= stack -> maxdepth && InList (stack -> functions, state->func) && InList (stack -> processes, _db_process_)) trace = TRUE; return (trace); } /* * FUNCTION * * DoProfile check to see if profiling is current enabled * * SYNOPSIS * * static BOOLEAN DoProfile () * * DESCRIPTION * * Checks to see if profiling is enabled based on whether the * user has specified profiling, the maximum trace depth has * not yet been reached, the current function is selected, * and the current process is selected. Returns TRUE if * profiling is enabled, FALSE otherwise. * */ #ifndef THREAD static BOOLEAN DoProfile () { REGISTER BOOLEAN profile; CODE_STATE *state; state=code_state(); profile = FALSE; if (PROFILING && state->level <= stack -> maxdepth && InList (stack -> p_functions, state->func) && InList (stack -> processes, _db_process_)) profile = TRUE; return (profile); } #endif /* * FUNCTION * * _db_keyword_ test keyword for member of keyword list * * SYNOPSIS * * BOOLEAN _db_keyword_ (keyword) * char *keyword; * * DESCRIPTION * * Test a keyword to determine if it is in the currently active * keyword list. As with the function list, a keyword is accepted * if the list is null, otherwise it must match one of the list * members. When debugging is not on, no keywords are accepted. * After the maximum trace level is exceeded, no keywords are * accepted (this behavior subject to change). Additionally, * the current function and process must be accepted based on * their respective lists. * * Returns TRUE if keyword accepted, FALSE otherwise. * */ BOOLEAN _db_keyword_ ( const char *keyword) { REGISTER BOOLEAN result; CODE_STATE *state; if (!init_done) _db_push_ (""); /* Sasha: pre-my_thread_init() safety */ if (!(state=code_state())) return FALSE; result = FALSE; if (DEBUGGING && state->level <= stack -> maxdepth && InList (stack -> functions, state->func) && InList (stack -> keywords, keyword) && InList (stack -> processes, _db_process_)) result = TRUE; return (result); } /* * FUNCTION * * Indent indent a line to the given indentation level * * SYNOPSIS * * static VOID Indent (indent) * int indent; * * DESCRIPTION * * Indent a line to the given level. Note that this is * a simple minded but portable implementation. * There are better ways. * * Also, the indent must be scaled by the compile time option * of character positions per nesting level. * */ static void Indent ( int indent) { REGISTER int count; indent= max(indent-1-stack->sub_level,0)*INDENT; for (count = 0; count < indent ; count++) { if ((count % INDENT) == 0) fputc('|',_db_fp_); else fputc(' ',_db_fp_); } } /* * FUNCTION * * FreeList free all memory associated with a linked list * * SYNOPSIS * * static VOID FreeList (linkp) * struct link *linkp; * * DESCRIPTION * * Given pointer to the head of a linked list, frees all * memory held by the list and the members of the list. * */ static void FreeList ( struct link *linkp) { REGISTER struct link *old; while (linkp != NULL) { old = linkp; linkp = linkp -> next_link; if (old -> str != NULL) { free (old -> str); } free ((char *) old); } } /* * FUNCTION * * StrDup make a duplicate of a string in new memory * * SYNOPSIS * * static char *StrDup (my_string) * char *string; * * DESCRIPTION * * Given pointer to a string, allocates sufficient memory to make * a duplicate copy, and copies the string to the newly allocated * memory. Failure to allocated sufficient memory is immediately * fatal. * */ static char *StrDup ( const char *str) { reg1 char *new_malloc; new_malloc = DbugMalloc ((int) strlen (str) + 1); (void) strcpy (new_malloc, str); return (new_malloc); } /* * FUNCTION * * DoPrefix print debugger line prefix prior to indentation * * SYNOPSIS * * static VOID DoPrefix (_line_) * int _line_; * * DESCRIPTION * * Print prefix common to all debugger output lines, prior to * doing indentation if necessary. Print such information as * current process name, current source file name and line number, * and current function nesting depth. * */ static void DoPrefix ( uint _line_) { CODE_STATE *state; state=code_state(); state->lineno++; if (stack -> flags & PID_ON) { #ifdef THREAD (void) fprintf (_db_fp_, "%-7s: ", my_thread_name()); #else (void) fprintf (_db_fp_, "%5d: ", (int) getpid ()); #endif } if (stack -> flags & NUMBER_ON) { (void) fprintf (_db_fp_, "%5d: ", state->lineno); } if (stack -> flags & PROCESS_ON) { (void) fprintf (_db_fp_, "%s: ", _db_process_); } if (stack -> flags & FILE_ON) { (void) fprintf (_db_fp_, "%14s: ", BaseName(state->file)); } if (stack -> flags & LINE_ON) { (void) fprintf (_db_fp_, "%5d: ", _line_); } if (stack -> flags & DEPTH_ON) { (void) fprintf (_db_fp_, "%4d: ", state->level); } } /* * FUNCTION * * DBUGOpenFile open new output stream for debugger output * * SYNOPSIS * * static VOID DBUGOpenFile (name) * char *name; * * DESCRIPTION * * Given name of a new file (or "-" for stdout) opens the file * and sets the output stream to the new file. * */ static void DBUGOpenFile (const char *name,int append) { REGISTER FILE *fp; REGISTER BOOLEAN newfile; if (name != NULL) { strmov(stack->name,name); if (strcmp (name, "-") == 0) { _db_fp_ = stdout; stack -> out_file = _db_fp_; stack -> flags |= FLUSH_ON_WRITE; } else { if (!Writable((char*)name)) { (void) fprintf (stderr, ERR_OPEN, _db_process_, name); perror (""); fflush(stderr); } else { newfile= !EXISTS (name); if (!(fp = fopen(name, append ? "a+" : "w"))) { (void) fprintf (stderr, ERR_OPEN, _db_process_, name); perror (""); fflush(stderr); } else { _db_fp_ = fp; stack -> out_file = fp; if (newfile) { ChangeOwner (name); } } } } } } /* * FUNCTION * * OpenProfile open new output stream for profiler output * * SYNOPSIS * * static FILE *OpenProfile (name) * char *name; * * DESCRIPTION * * Given name of a new file, opens the file * and sets the profiler output stream to the new file. * * It is currently unclear whether the prefered behavior is * to truncate any existing file, or simply append to it. * The latter behavior would be desirable for collecting * accumulated runtime history over a number of separate * runs. It might take some changes to the analyzer program * though, and the notes that Binayak sent with the profiling * diffs indicated that append was the normal mode, but this * does not appear to agree with the actual code. I haven't * investigated at this time [fnf; 24-Jul-87]. */ #ifndef THREAD static FILE *OpenProfile (const char *name) { REGISTER FILE *fp; REGISTER BOOLEAN newfile; fp=0; if (!Writable (name)) { (void) fprintf (_db_fp_, ERR_OPEN, _db_process_, name); perror (""); dbug_flush(0); (void) Delay (stack -> delay); } else { newfile= !EXISTS (name); if (!(fp = fopen (name, "w"))) { (void) fprintf (_db_fp_, ERR_OPEN, _db_process_, name); perror (""); dbug_flush(0); } else { _db_pfp_ = fp; stack -> prof_file = fp; if (newfile) { ChangeOwner (name); } } } return fp; } #endif /* * FUNCTION * * CloseFile close the debug output stream * * SYNOPSIS * * static VOID CloseFile (fp) * FILE *fp; * * DESCRIPTION * * Closes the debug output stream unless it is standard output * or standard error. * */ static void CloseFile ( FILE *fp) { if (fp != stderr && fp != stdout) { if (fclose (fp) == EOF) { pthread_mutex_lock(&THR_LOCK_dbug); (void) fprintf (_db_fp_, ERR_CLOSE, _db_process_); perror (""); dbug_flush(0); } } } /* * FUNCTION * * DbugExit print error message and exit * * SYNOPSIS * * static VOID DbugExit (why) * char *why; * * DESCRIPTION * * Prints error message using current process name, the reason for * aborting (typically out of memory), and exits with status 1. * This should probably be changed to use a status code * defined in the user's debugger include file. * */ static void DbugExit (const char *why) { (void) fprintf (stderr, ERR_ABORT, _db_process_, why); (void) fflush (stderr); exit (1); } /* * FUNCTION * * DbugMalloc allocate memory for debugger runtime support * * SYNOPSIS * * static long *DbugMalloc (size) * int size; * * DESCRIPTION * * Allocate more memory for debugger runtime support functions. * Failure to to allocate the requested number of bytes is * immediately fatal to the current process. This may be * rather unfriendly behavior. It might be better to simply * print a warning message, freeze the current debugger state, * and continue execution. * */ static char *DbugMalloc ( int size) { register char *new_malloc; if (!(new_malloc = (char*) malloc ((unsigned int) size))) DbugExit ("out of memory"); return (new_malloc); } /* * As strtok but two separators in a row are changed to one * separator (to allow directory-paths in dos). */ static char *static_strtok ( char *s1, pchar separator) { static char *end = NULL; reg1 char *rtnval,*cpy; rtnval = NULL; if (s1 != NULL) end = s1; if (end != NULL && *end != EOS) { rtnval=cpy=end; do { if ((*cpy++ = *end++) == separator) { if (*end != separator) { cpy--; /* Point at separator */ break; } end++; /* Two separators in a row, skipp one */ } } while (*end != EOS); *cpy=EOS; /* Replace last separator */ } return (rtnval); } /* * FUNCTION * * BaseName strip leading pathname components from name * * SYNOPSIS * * static char *BaseName (pathname) * char *pathname; * * DESCRIPTION * * Given pointer to a complete pathname, locates the base file * name at the end of the pathname and returns a pointer to * it. * */ static char *BaseName (const char *pathname) { register const char *base; base = strrchr (pathname, FN_LIBCHAR); if (base++ == NullS) base = pathname; return ((char*) base); } /* * FUNCTION * * Writable test to see if a pathname is writable/creatable * * SYNOPSIS * * static BOOLEAN Writable (pathname) * char *pathname; * * DESCRIPTION * * Because the debugger might be linked in with a program that * runs with the set-uid-bit (suid) set, we have to be careful * about opening a user named file for debug output. This consists * of checking the file for write access with the real user id, * or checking the directory where the file will be created. * * Returns TRUE if the user would normally be allowed write or * create access to the named file. Returns FALSE otherwise. * */ #ifndef Writable static BOOLEAN Writable ( char *pathname) { REGISTER BOOLEAN granted; REGISTER char *lastslash; granted = FALSE; if (EXISTS (pathname)) { if (WRITABLE (pathname)) { granted = TRUE; } } else { lastslash = strrchr (pathname, '/'); if (lastslash != NULL) { *lastslash = EOS; } else { pathname = "."; } if (WRITABLE (pathname)) { granted = TRUE; } if (lastslash != NULL) { *lastslash = '/'; } } return (granted); } #endif /* * FUNCTION * * ChangeOwner change owner to real user for suid programs * * SYNOPSIS * * static VOID ChangeOwner (pathname) * * DESCRIPTION * * For unix systems, change the owner of the newly created debug * file to the real owner. This is strictly for the benefit of * programs that are running with the set-user-id bit set. * * Note that at this point, the fact that pathname represents * a newly created file has already been established. If the * program that the debugger is linked to is not running with * the suid bit set, then this operation is redundant (but * harmless). * */ #ifndef ChangeOwner static void ChangeOwner ( char *pathname) { if (chown (pathname, getuid (), getgid ()) == -1) { (void) fprintf (stderr, ERR_CHOWN, _db_process_, pathname); perror (""); (void) fflush (stderr); } } #endif /* * FUNCTION * * _db_setjmp_ save debugger environment * * SYNOPSIS * * VOID _db_setjmp_ () * * DESCRIPTION * * Invoked as part of the user's DBUG_SETJMP macro to save * the debugger environment in parallel with saving the user's * environment. * */ #ifdef HAVE_LONGJMP EXPORT void _db_setjmp_ () { CODE_STATE *state; state=code_state(); state->jmplevel = state->level; state->jmpfunc = state->func; state->jmpfile = state->file; } /* * FUNCTION * * _db_longjmp_ restore previously saved debugger environment * * SYNOPSIS * * VOID _db_longjmp_ () * * DESCRIPTION * * Invoked as part of the user's DBUG_LONGJMP macro to restore * the debugger environment in parallel with restoring the user's * previously saved environment. * */ EXPORT void _db_longjmp_ () { CODE_STATE *state; state=code_state(); state->level = state->jmplevel; if (state->jmpfunc) { state->func = state->jmpfunc; } if (state->jmpfile) { state->file = state->jmpfile; } } #endif /* * FUNCTION * * DelayArg convert D flag argument to appropriate value * * SYNOPSIS * * static int DelayArg (value) * int value; * * DESCRIPTION * * Converts delay argument, given in tenths of a second, to the * appropriate numerical argument used by the system to delay * that that many tenths of a second. For example, on the * amiga, there is a system call "Delay()" which takes an * argument in ticks (50 per second). On unix, the sleep * command takes seconds. Thus a value of "10", for one * second of delay, gets converted to 50 on the amiga, and 1 * on unix. Other systems will need to use a timing loop. * */ #ifdef AMIGA #define HZ (50) /* Probably in some header somewhere */ #endif static int DelayArg ( int value) { uint delayarg = 0; #if (unix || xenix) delayarg = value / 10; /* Delay is in seconds for sleep () */ #endif #ifdef AMIGA delayarg = (HZ * value) / 10; /* Delay in ticks for Delay () */ #endif return (delayarg); } /* * A dummy delay stub for systems that do not support delays. * With a little work, this can be turned into a timing loop. */ #if ! defined(Delay) && ! defined(AMIGA) static int Delay ( int ticks) { return ticks; } #endif /* * FUNCTION * * perror perror simulation for systems that don't have it * * SYNOPSIS * * static VOID perror (s) * char *s; * * DESCRIPTION * * Perror produces a message on the standard error stream which * provides more information about the library or system error * just encountered. The argument string s is printed, followed * by a ':', a blank, and then a message and a newline. * * An undocumented feature of the unix perror is that if the string * 's' is a null string (NOT a NULL pointer!), then the ':' and * blank are not printed. * * This version just complains about an "unknown system error". * */ #ifndef HAVE_PERROR static void perror (s) char *s; { if (s && *s != EOS) { (void) fprintf (stderr, "%s: ", s); } (void) fprintf (stderr, "\n"); } #endif /* HAVE_PERROR */ /* flush dbug-stream, free mutex lock & wait delay */ /* This is because some systems (MSDOS!!) dosn't flush fileheader */ /* and dbug-file isn't readable after a system crash !! */ static void dbug_flush(CODE_STATE *state) { #ifndef THREAD if (stack->flags & FLUSH_ON_WRITE) #endif { #if defined(MSDOS) || defined(__WIN__) if (_db_fp_ != stdout && _db_fp_ != stderr) { if (!(freopen(stack->name,"a",_db_fp_))) { (void) fprintf(stderr, ERR_OPEN, _db_process_, stack->name); fflush(stderr); _db_fp_ = stdout; stack -> out_file = _db_fp_; stack -> flags|=FLUSH_ON_WRITE; } } else #endif { (void) fflush (_db_fp_); if (stack->delay) (void) Delay (stack->delay); } } if (!state || !state->locked) pthread_mutex_unlock(&THR_LOCK_dbug); } /* dbug_flush */ void _db_lock_file() { CODE_STATE *state; state=code_state(); pthread_mutex_lock(&THR_LOCK_dbug); state->locked=1; } void _db_unlock_file() { CODE_STATE *state; state=code_state(); state->locked=0; pthread_mutex_unlock(&THR_LOCK_dbug); } /* * Here we need the definitions of the clock routine. Add your * own for whatever system that you have. */ #ifndef THREAD #if defined(HAVE_GETRUSAGE) #include #include /* extern int getrusage(int, struct rusage *); */ /* * Returns the user time in milliseconds used by this process so * far. */ static unsigned long Clock () { struct rusage ru; (void) getrusage (RUSAGE_SELF, &ru); return ((ru.ru_utime.tv_sec * 1000) + (ru.ru_utime.tv_usec / 1000)); } #elif defined(MSDOS) || defined(__WIN__) || defined(OS2) static ulong Clock() { return clock()*(1000/CLOCKS_PER_SEC); } #elif defined (amiga) struct DateStamp { /* Yes, this is a hack, but doing it right */ long ds_Days; /* is incredibly ugly without splitting this */ long ds_Minute; /* off into a separate file */ long ds_Tick; }; static int first_clock = TRUE; static struct DateStamp begin; static struct DateStamp elapsed; static unsigned long Clock () { register struct DateStamp *now; register unsigned long millisec = 0; extern VOID *AllocMem (); now = (struct DateStamp *) AllocMem ((long) sizeof (struct DateStamp), 0L); if (now != NULL) { if (first_clock == TRUE) { first_clock = FALSE; (void) DateStamp (now); begin = *now; } (void) DateStamp (now); millisec = 24 * 3600 * (1000 / HZ) * (now -> ds_Days - begin.ds_Days); millisec += 60 * (1000 / HZ) * (now -> ds_Minute - begin.ds_Minute); millisec += (1000 / HZ) * (now -> ds_Tick - begin.ds_Tick); (void) FreeMem (now, (long) sizeof (struct DateStamp)); } return (millisec); } #else static unsigned long Clock () { return (0); } #endif /* RUSAGE */ #endif /* THREADS */ #ifdef NO_VARARGS /* * Fake vfprintf for systems that don't support it. If this * doesn't work, you are probably SOL... */ static int vfprintf (stream, format, ap) FILE *stream; char *format; va_list ap; { int rtnval; ARGS_DCL; ARG0 = va_arg (ap, ARGS_TYPE); ARG1 = va_arg (ap, ARGS_TYPE); ARG2 = va_arg (ap, ARGS_TYPE); ARG3 = va_arg (ap, ARGS_TYPE); ARG4 = va_arg (ap, ARGS_TYPE); ARG5 = va_arg (ap, ARGS_TYPE); ARG6 = va_arg (ap, ARGS_TYPE); ARG7 = va_arg (ap, ARGS_TYPE); ARG8 = va_arg (ap, ARGS_TYPE); ARG9 = va_arg (ap, ARGS_TYPE); rtnval = fprintf (stream, format, ARGS_LIST); return (rtnval); } #endif /* NO_VARARGS */