/*
   Unix SMB/Netbios implementation.
   Version 1.9.
   Samba utility functions
   Copyright (C) Andrew Tridgell 1992-1998

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; either version 2 of the License, or
   (at your option) any later version.

   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, write to the Free Software
   Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/

/******************************************************************************
 *
 * RCS ID
 * $Id: debug,v 1.7 2000/04/22 14:50:35 david Exp $
 *
 * HISTORY
 * $Log: debug,v $
 * Revision 1.7  2000/04/22 14:50:35  david
 * Updates for nmbd module debugging.
 * Updates for integrating nmbd with main smbserver application
 *
 * Revision 1.6  2000/04/17 16:45:15  david
 * modifications for use within an RISCOS module
 *
 * Revision 1.5  2000/04/02 16:56:47  david
 * Updates to use the Internet event, use wimp poll event,
 * use non blocking sockets correctly,
 * compile libs in format suitable for RISCOS module
 * new nmbd module
 *
 * Revision 1.4  2000/01/29 17:19:01  david
 * Updates to support passwords
 *
 * Revision 1.3  1999/11/23 21:59:33  david
 * Updates for long filename support.
 *
 * Revision 1.2  1999/11/07 15:10:32  david
 * debug: added debug_log_close
 * doscalls: added saving of current directory (storeDirs)
 * util: moved netbios util functions from main.c.netbios back to this file
 *
 * Revision 1.1  1999/05/16 12:00:05  david
 * Initial revision
 *
 *
 *****************************************************************************/


#include "includes.h"

#if 0
#ifdef RISCOS_MODULE
#undef RISCOS_MODULE
#endif 
#endif

#define sys_fopen fopen
                              
#ifdef RISCOS_MODULE
static pstring msgbuf;
#endif
/* -------------------------------------------------------------------------- **
 * Defines...
 *
 *  FORMAT_BUFR_MAX - Index of the last byte of the format buffer;
 *                    format_bufr[FORMAT_BUFR_MAX] should always be reserved
 *                    for a terminating nul byte.
 */

#define FORMAT_BUFR_MAX ( sizeof( format_bufr ) - 1 )

/* -------------------------------------------------------------------------- **
 * This module implements Samba's debugging utility.
 *
 * The syntax of a debugging log file is represented as:
 *
 *  <debugfile> :== { <debugmsg> }
 *
 *  <debugmsg>  :== <debughdr> '\n' <debugtext>
 *
 *  <debughdr>  :== '[' TIME ',' LEVEL ']' [ [FILENAME ':'] [FUNCTION '()'] ]
 *
 *  <debugtext> :== { <debugline> }
 *
 *  <debugline> :== TEXT '\n'
 *
 * TEXT     is a string of characters excluding the newline character.
 * LEVEL    is the DEBUG level of the message (an integer in the range 0..10).
 * TIME     is a timestamp.
 * FILENAME is the name of the file from which the debug message was generated.
 * FUNCTION is the function from which the debug message was generated.
 *
 * Basically, what that all means is:
 *
 * - A debugging log file is made up of debug messages.
 *
 * - Each debug message is made up of a header and text.  The header is
 *   separated from the text by a newline.
 *
 * - The header begins with the timestamp and debug level of the message
 *   enclosed in brackets.  The filename and function from which the
 *   message was generated may follow.  The filename is terminated by a
 *   colon, and the function name is terminated by parenthesis.
 *
 * - The message text is made up of zero or more lines, each terminated by
 *   a newline.
 */

/* -------------------------------------------------------------------------- **
 * External variables.
 *
 *  dbf           - Global debug file handle.
 *  debugf        - Debug file name.
 *  append_log    - If True, then the output file will be opened in append
 *                  mode.
 *  DEBUGLEVEL    - System-wide debug message limit.  Messages with message-
 *                  levels higher than DEBUGLEVEL will not be processed.
 */

FILE   *dbf        = NULL;
pstring debugf    /* = "<samba$dir>.Resources.ALogFile"*/;
BOOL    append_log = False;
extern int     DEBUGLEVEL/* = 10*/;


/* -------------------------------------------------------------------------- **
 * Internal variables.
 *
 *  stdout_logging  - Default False, if set to True then dbf will be set to
 *                    stdout and debug output will go to dbf only, and not
 *                    to syslog.  Set in setup_logging() and read in Debug1().
 *
 *  debug_count     - Number of debug messages that have been output.
 *                    Used to check log size.
 *
 *  syslog_level    - Internal copy of the message debug level.  Written by
 *                    dbghdr() and read by Debug1().
 *
 *  format_bufr     - Used to format debug messages.  The dbgtext() function
 *                    prints debug messages to a string, and then passes the
 *                    string to format_debug_text(), which uses format_bufr
 *                    to build the formatted output.
 *
 *  format_pos      - Marks the first free byte of the format_bufr.
 */

static BOOL    stdout_logging = False;
static int     debug_count    = 0;
#ifdef WITH_SYSLOG
static int     syslog_level   = 0;
#endif
static pstring format_bufr    = { '\0' };
static size_t     format_pos     = 0;
static BOOL logFileOk=False;

/* -------------------------------------------------------------------------- **
 * Functions...
 */

#if defined(SIGUSR2)
/* ************************************************************************** **
 * catch a sigusr2 - decrease the debug log level.
 * ************************************************************************** **
 */
void sig_usr2( int sig )
  {
  DEBUGLEVEL--;
  if( DEBUGLEVEL < 0 )
    DEBUGLEVEL = 0;

  DEBUG( 0, ( "Got SIGUSR2; set debug level to %d.\n", DEBUGLEVEL ) );

#if !defined(HAVE_SIGACTION)
  CatchSignal( SIGUSR2, SIGNAL_CAST sig_usr2 );
#endif

  } /* sig_usr2 */
#endif /* SIGUSR2 */

#if defined(SIGUSR1)
/* ************************************************************************** **
 * catch a sigusr1 - increase the debug log level. 
 * ************************************************************************** **
 */
void sig_usr1( int sig )
  {

  DEBUGLEVEL++;

  if( DEBUGLEVEL > 10 )
    DEBUGLEVEL = 10;

  DEBUG( 0, ( "Got SIGUSR1; set debug level to %d.\n", DEBUGLEVEL ) );

#if !defined(HAVE_SIGACTION)
  CatchSignal( SIGUSR1, SIGNAL_CAST sig_usr1 );
#endif

  } /* sig_usr1 */
#endif /* SIGUSR1 */


/* ************************************************************************** **
 * get ready for syslog stuff
 * ************************************************************************** **
 */
void setup_logging( char *pname, BOOL interactive )
  {
  if( interactive )
    {
    stdout_logging = True;
    dbf = stdout;
    }
#ifdef WITH_SYSLOG
  else
    {
    char *p = strrchr( pname,'/' );

    if( p )
      pname = p + 1;
#ifdef LOG_DAEMON
    openlog( pname, LOG_PID, SYSLOG_FACILITY );
#else /* for old systems that have no facility codes. */
    openlog( pname, LOG_PID );
#endif
    }
#endif

  if (strncmp(pname,"nmbd1",5)==0)
  {
    logFileOk=True;
  }
  } /* setup_logging */

/* ************************************************************************** **
 * reopen the log files
 * ************************************************************************** **
 */
void reopen_logs( void )
  {

  pstring fname;
  
  if( DEBUGLEVEL > 0 )
    {
    pstrcpy( fname, debugf );
    if( lp_loaded() && (*lp_logfile()) && logFileOk==False)
      pstrcpy( fname, lp_logfile() );

    if( !strcsequal( fname, debugf ) || !dbf || !file_exist( debugf, NULL ) )
      {
      mode_t oldumask = umask( 022 );

      pstrcpy( debugf, fname );
      if( dbf )
        (void)fclose( dbf );
      if( append_log )
        dbf = sys_fopen( debugf, "a" );
      else
        dbf = sys_fopen( debugf, "w" );
      /* Fix from klausr@ITAP.Physik.Uni-Stuttgart.De
       * to fix problem where smbd's that generate less
       * than 100 messages keep growing the log.
       */
      force_check_log_size();
      if( dbf )
        setbuf( dbf, NULL );
      (void)umask( oldumask );
      }
    }
  else
    {
    if( dbf )
      {
      (void)fclose( dbf );
      dbf = NULL;
      }
    }

  } /* reopen_logs */

/* ************************************************************************** **
 * Force a check of the log size.
 * ************************************************************************** **
 */
void force_check_log_size( void )
  {
  debug_count = 100;
  } /* force_check_log_size */

/* ************************************************************************** **
 * Check to see if the log has grown to be too big.
 * ************************************************************************** **
 */
static void check_log_size( void )
  {  
    return;
#if 0
  int         maxlog;
  SMB_STRUCT_STAT st;

  if( debug_count++ < 100 || geteuid() != 0 )
    return;

  maxlog = lp_max_log_size() * 1024;
  if( !dbf || maxlog <= 0 )
    return;

  if( sys_fstat( fileno( dbf ), &st ) == 0 && st.st_size > maxlog )
    {
    (void)fclose( dbf );
    dbf = NULL;
    reopen_logs();
    if( dbf && file_size( debugf ) > maxlog )
      {
      pstring name;

      (void)fclose( dbf );
      dbf = NULL;
      slprintf( name, sizeof(name)-1, "%s.old", debugf );
      (void)rename( debugf, name );
      reopen_logs();
      }
    }
  debug_count = 0;   
#endif
  } /* check_log_size */

/* ************************************************************************** **
 * Write an debug message on the debugfile.
 * This is called by dbghdr() and format_debug_text().
 * ************************************************************************** **
 */
#ifdef HAVE_STDARG_H
 int Debug1( char *format_str, ... )
{
#else
 int Debug1(va_alist)
va_dcl
{  
  char *format_str;
#endif
  va_list ap;  
  int old_errno = errno;

  if( stdout_logging )
    {
#ifdef HAVE_STDARG_H
    va_start( ap, format_str );
#else
    va_start( ap );
    format_str = va_arg( ap, char * );
#endif
    (void)vfprintf( dbf, format_str, ap );
    va_end( ap );
    errno = old_errno;
    return( 0 );
    }
  
#ifdef WITH_SYSLOG
  if( !lp_syslog_only() )
#endif
    {
    if( !dbf )
      {
      mode_t oldumask = umask( 022 );

      if( append_log )
        dbf = sys_fopen( debugf, "a" );
      else
        dbf = sys_fopen( debugf, "w" );
      (void)umask( oldumask );
      if( dbf )
        {
        setbuf( dbf, NULL );
        }
      else
        {
        errno = old_errno;
        return(0);
        }
      }
    }

#ifdef WITH_SYSLOG
  if( syslog_level < lp_syslog() )
    {
    /* map debug levels to syslog() priorities
     * note that not all DEBUG(0, ...) calls are
     * necessarily errors
     */
    static int priority_map[] = { 
      LOG_ERR,     /* 0 */
      LOG_WARNING, /* 1 */
      LOG_NOTICE,  /* 2 */
      LOG_INFO,    /* 3 */
      };
    int     priority;
    pstring msgbuf;

    if( syslog_level >= ( sizeof(priority_map) / sizeof(priority_map[0]) )
     || syslog_level < 0)
      priority = LOG_DEBUG;
    else
      priority = priority_map[syslog_level];
      
#ifdef HAVE_STDARG_H
    va_start( ap, format_str );
#else
    va_start( ap );
    format_str = va_arg( ap, char * );
#endif
    vslprintf( msgbuf, sizeof(msgbuf)-1, format_str, ap );
    va_end( ap );
      
    msgbuf[255] = '\0';
    syslog( priority, "%s", msgbuf );
    }
#endif
  
  check_log_size();

#ifdef WITH_SYSLOG
  if( !lp_syslog_only() )
#endif
    {
#ifdef HAVE_STDARG_H
    va_start( ap, format_str );
#else
    va_start( ap );
    format_str = va_arg( ap, char * );
#endif
    (void)vfprintf( dbf, format_str, ap );
    va_end( ap );
    (void)fflush( dbf );
    }

  errno = old_errno;

  return( 0 );
  } /* Debug1 */


/* ************************************************************************** **
 * Print the buffer content via Debug1(), then reset the buffer.
 *
 *  Input:  none
 *  Output: none
 *
 * ************************************************************************** **
 */
static void bufr_print( void )
  {
  format_bufr[format_pos] = '\0';
  (void)Debug1( "%s", format_bufr );
  format_pos = 0;
  } /* bufr_print */

/* ************************************************************************** **
 * Format the debug message text.
 *
 *  Input:  msg - Text to be added to the "current" debug message text.
 *
 *  Output: none.
 *
 *  Notes:  The purpose of this is two-fold.  First, each call to syslog()
 *          (used by Debug1(), see above) generates a new line of syslog
 *          output.  This is fixed by storing the partial lines until the
 *          newline character is encountered.  Second, printing the debug
 *          message lines when a newline is encountered allows us to add
 *          spaces, thus indenting the body of the message and making it
 *          more readable.
 *
 * ************************************************************************** **
 */
static void format_debug_text( char *msg )
  {
  size_t i;
  BOOL timestamp = (!stdout_logging && (lp_timestamp_logs() || 
					!(lp_loaded())));

  for( i = 0; msg[i]; i++ )
    {
    /* Indent two spaces at each new line. */
    if(timestamp && 0 == format_pos)
      {
      format_bufr[0] = format_bufr[1] = ' ';
      format_pos = 2;
      }

    /* If there's room, copy the character to the format buffer. */
    if( format_pos < FORMAT_BUFR_MAX )
      format_bufr[format_pos++] = msg[i];

    /* If a newline is encountered, print & restart. */
    if( '\n' == msg[i] )
      bufr_print();

    /* If the buffer is full dump it out, reset it, and put out a line
     * continuation indicator.
     */
    if( format_pos >= FORMAT_BUFR_MAX )
      {
      bufr_print();
      (void)Debug1( " +>\n" );
      }
    }

  /* Just to be safe... */
  format_bufr[format_pos] = '\0';
  } /* format_debug_text */

/* ************************************************************************** **
 * Flush debug output, including the format buffer content.
 *
 *  Input:  none
 *  Output: none
 *
 * ************************************************************************** **
 */
void dbgflush( void )
  {
  bufr_print();
  (void)fflush( dbf );
  } /* dbgflush */

/* ************************************************************************** **
 * Print a Debug Header.
 *
 *  Input:  level - Debug level of the message (not the system-wide debug
 *                  level.
 *          file  - Pointer to a string containing the name of the file
 *                  from which this function was called, or an empty string
 *                  if the __FILE__ macro is not implemented.
 *          func  - Pointer to a string containing the name of the function
 *                  from which this function was called, or an empty string
 *                  if the __FUNCTION__ macro is not implemented.
 *          line  - line number of the call to dbghdr, assuming __LINE__
 *                  works.
 *
 *  Output: Always True.  This makes it easy to fudge a call to dbghdr()
 *          in a macro, since the function can be called as part of a test.
 *          Eg: ( (level <= DEBUGLEVEL) && (dbghdr(level,"",line)) )
 *
 *  Notes:  This function takes care of setting syslog_level.
 *
 * ************************************************************************** **
 */
BOOL dbghdr( int level, char *file, char *func, int line )
  {
  if( format_pos )
    {
    /* This is a fudge.  If there is stuff sitting in the format_bufr, then
     * the *right* thing to do is to call
     *   format_debug_text( "\n" );
     * to write the remainder, and then proceed with the new header.
     * Unfortunately, there are several places in the code at which
     * the DEBUG() macro is used to build partial lines.  That in mind,
     * we'll work under the assumption that an incomplete line indicates
     * that a new header is *not* desired.
     */
    return( True );
    }

#ifdef WITH_SYSLOG
  /* Set syslog_level. */
  syslog_level = level;
#endif

  /* Don't print a header if we're logging to stdout. */
  if( stdout_logging )
    return( True );

  /* Print the header if timestamps are turned on.  If parameters are
   * not yet loaded, then default to timestamps on.
   */
  if( lp_timestamp_logs() || !(lp_loaded()) )
    {
    /* Print it all out at once to prevent split syslog output. */
    (void)Debug1( "[%s, %d] %s:%s(%d)\n",
                  timestring(), level, file, func, line );
    }

  return( True );
  } /* dbghdr */

/* ************************************************************************** **
 * Add text to the body of the "current" debug message via the format buffer.
 *
 *  Input:  format_str  - Format string, as used in printf(), et. al.
 *          ...         - Variable argument list.
 *
 *  ..or..  va_alist    - Old style variable parameter list starting point.
 *
 *  Output: Always True.  See dbghdr() for more info, though this is not
 *          likely to be used in the same way.
 *
 * ************************************************************************** **
 */
#ifdef HAVE_STDARG_H
 BOOL dbgtext( char *format_str, ... )
  {
  va_list ap;
#ifndef RISCOS_MODULE
  pstring msgbuf;
#endif

  va_start( ap, format_str ); 
  vslprintf( msgbuf, sizeof(/*msgbuf*/pstring)-1, format_str, ap );
  va_end( ap );

  format_debug_text( msgbuf );               


  return( True );
  } /* dbgtext */

#else
 BOOL dbgtext( va_alist )
 va_dcl
  {
  char *format_str;
  va_list ap; 
#ifndef RISCOS_MODULE
  pstring msgbuf;
#endif

  va_start( ap );
  format_str = va_arg( ap, char * );
  vslprintf( msgbuf, sizeof(/*msgbuf*/pstring)-1, format_str, ap );
  va_end( ap );

  format_debug_text( msgbuf );

  return( True );
  } /* dbgtext */

#endif

/* ************************************************************************** */

void writeLog(char *s, int fd, char *buf, int n)
{
   int i,j,count=0,count2=0;
   char  tempBuf[100];    
/*
   extern FILE* dbf;
   extern int DEBUGLEVEL; 
*/
   FILE *logfile=dbf;

             
  if (DEBUGLEVEL>=1)
  {
              
   if (logfile!=NULL)
   {
      if (fd==0)
      {
         fprintf(logfile,"%s\n",s);
      }
      else
      {
         fprintf(logfile,"%s:%d,%d:\n",s,fd,n);
                       
         if (n>128)
            n=128;

         for (i=0;i<32;i++)
         {
            fprintf(logfile,"%.2X ",i);
         }                             
         fprintf(logfile,"\n-----------------------------------------------------------------------------------------------\n");

         for (i=0;i<n;i++)
         {               
            tempBuf[count2++]=*buf;
            count += fprintf(logfile,"%.2X ",(*buf)&0xff);
            buf++;
            if ( ((i+1)%32) ==0)
            {
               fprintf(logfile,"\n");
               for (j=0;j<count2;j++)
               {                                     
                  if (tempBuf[j]>31 && tempBuf[j]<127)
                  {
                     fprintf(logfile," %c ",tempBuf[j]);
                  }
                  else
                  {
                     fprintf(logfile," . ");
                  }
               }        
               fprintf(logfile,"\n");
               count=0;
               count2=0;
            }
         }
         fprintf(logfile,"\n");
         if (count2!=0)
         {
               for (j=0;j<count2;j++)
               {                                     
                  if (tempBuf[j]>31 && tempBuf[j]<128)
                  {
                     fprintf(logfile," %c ",tempBuf[j]);
                  }
                  else
                  {
                     fprintf(logfile," . ");
                  }
               }        
               fprintf(logfile,"\n");
               count2=0;
         }
      }
   }

  }
}

void debug_log_close(void)
{

  if( stdout_logging )
    return;

  if (dbf)
  {
    fclose(dbf);
    dbf=NULL;
  }
}

void init_debugf(char* fname)
{
  pstrcpy(debugf,fname);
}
 


