/* * Copyright 1995, 1996 Perforce Software. All rights reserved. */ /* * ErrorLog.cc - report layered errors */ # define NEED_SYSLOG # define NEED_FLOCK # define NEED_DBGBREAK # define NEED_CRITSEC # include <stdhdrs.h> # include <strbuf.h> # include <error.h> # include <errorlog.h> # include <lockfile.h> # include <filesys.h> /* * ErrorLog::errorLog - file where errors are written, type punned * ErrorLog::errorTag - string attached to reported errors */ Error AssertError; ErrorLog AssertLog; ErrorLog::ErrorLog( ErrorLog *from ) : hook(NULL), context(NULL) { errorFsys = 0; errorTag = from->errorTag; logType = from->logType; // clone errorFsys if( from->errorFsys && from->logType == type_none ) { errorFsys = FileSys::Create( FST_ATEXT ); errorFsys->Set( from->errorFsys->Name() ); errorFsys->Perms( FPM_RW ); } // We will not inherit the critical section. We also do not create // a new one, as only AssertLog will be using a critical section. vp_critsec = 0; } ErrorLog::~ErrorLog() { delete errorFsys; errorFsys = 0; # ifdef HAVE_CRITSEC if( vp_critsec ) { CRITICAL_SECTION *critsec; critsec = (CRITICAL_SECTION *)vp_critsec; DeleteCriticalSection( critsec ); delete critsec; vp_critsec = 0; } # endif } /* * Error::SysLog() - OS style System Logger entry point. */ void ErrorLog::SysLog( const Error *e, int tagged, const char *et, const char *buf ) { const char *errTag = errorTag; if( !errorTag ) init(); if( et ) errTag = et; # ifdef HAVE_SYSLOG // Default to LOG_DEBUG to maintain behavior from LogWrite. // Calls from LogWrite will always have e == NULL. int level = LOG_DEBUG; // If severity defined, determine level accordingly. if( e ) { if( e->GetSeverity() != E_FATAL ) level = LOG_WARNING; else level = LOG_ERR; } /* char * cast for Lynx 4.0 */ openlog( (char *)errTag, LOG_PID, LOG_DAEMON ); if( tagged ) syslog( level, "%s: %s", e->FmtSeverity(), buf ); else syslog( LOG_WARNING, "%s", buf ); closelog(); # endif # ifdef HAVE_EVENT_LOG // Log a warning unless exiting, then log an error. // (can exit on E_FAILED, through ::Abort) WORD level = EVENTLOG_INFORMATION_TYPE; if( e ) { if( e->GetSeverity() != E_FATAL ) level = EVENTLOG_WARNING_TYPE; else level = EVENTLOG_ERROR_TYPE; } // Log the event to the Windows Application Event log. // We don't configure our event IDs in the registry or have // an event message resource. Windows will preface our entry // with a silly warning message. HANDLE hEventSource = RegisterEventSource( NULL, errTag ); LPTSTR lpszStrings[1] = { (LPTSTR)buf }; if( hEventSource != NULL ) { ReportEvent( hEventSource, // handle of event source level, // event type 0, // event category, (doesn't matter) 0, // event ID NULL, // current user's SID, (let it default) 1, // strings in lpszStrings 0, // no bytes of raw data (LPCTSTR *)lpszStrings, // array of strings NULL ); // no raw data DeregisterEventSource(hEventSource); } # endif // HAVE_EVENT_LOG return; } void ErrorLog::init() { logType = type_stderr; errorTag = "Error"; errorFsys = 0; vp_critsec = 0; } void ErrorLog::EnableCritSec() { # ifdef HAVE_CRITSEC if( vp_critsec == NULL ) { CRITICAL_SECTION *critsec; critsec = new CRITICAL_SECTION; InitializeCriticalSection( critsec ); vp_critsec = (void *)critsec; } # endif } void ErrorLog::Report( const Error *e, int tagged ) { if( e->GetSeverity() == E_EMPTY ) return; if( !errorTag ) init(); StrBuf buf; e->Fmt( buf, tagged ? EF_INDENT | EF_NEWLINE : EF_NEWLINE ); # if defined( HAVE_SYSLOG ) || defined( HAVE_EVENT_LOG ) if ( logType == type_syslog ) { SysLog( e, tagged, NULL, buf.Text() ); return; } # endif if( tagged ) { StrBuf out; out.Set( errorTag ); out.Extend( ' ' ); out.Append( e->FmtSeverity() ); out.Extend( ':' ); out.Extend( '\n' ); out.Append( &buf ); LogWrite( out ); } else LogWrite( buf ); if( hook ) (*hook)( context, e ); } void ErrorLog::LogWrite( const StrPtr &s ) { # if defined( HAVE_SYSLOG ) || defined( HAVE_EVENT_LOG ) if ( logType == type_syslog ) { // Pass e=NULL and tagged=0 to maintain previous bahavior, // see SysLog for details. SysLog( NULL, 0, NULL, s.Text() ); return; } # endif if( errorFsys ) { Error tmpe; # ifdef HAVE_CRITSEC if( vp_critsec ) { CRITICAL_SECTION *critsec; critsec = (CRITICAL_SECTION *)vp_critsec; EnterCriticalSection( critsec ); } # endif errorFsys->Open( FOM_WRITE, &tmpe ); // on error, do not report the error... if( !tmpe.Test() ) { errorFsys->Write( &s, &tmpe ); errorFsys->Close( &tmpe ); } else if( vp_critsec ) SysLog( NULL, 0, NULL, s.Text() ); # ifdef HAVE_CRITSEC if( vp_critsec ) { CRITICAL_SECTION *critsec; critsec = (CRITICAL_SECTION *)vp_critsec; LeaveCriticalSection( critsec ); } # endif return; } // Under a Windows Service, stderr is not valid. Observation // has shown that fileno(stderr) returns -2. This is not detected // as an invalid file descriptor by the Posix checks. I suppose // MS did this intentionally, just not sure why. // // Unix logType defaults to type_stderr. // Windows Services must call UnsetLogType(). // if ( logType == type_stdout || logType == type_stderr ) { FILE *flog=stderr; if( logType == type_stdout ) flog = stdout; // lock the file exclusive for this append, some platforms // don't do append correctly (you know who you are!) int fd = fileno( flog ); lockFile( fd, LOCKF_EX ); fputs( s.Text(), flog ); /* Flush even if stderr, for NT's buffered stderr. */ fflush( flog ); lockFile( fd, LOCKF_UN ); } } /* * Error::Abort() - blurt out an error and exit */ void ErrorLog::Abort( const Error *e ) { if( !e->Test() ) return; Report( e ); # ifdef HAVE_DBGBREAK if( IsDebuggerPresent() ) { char msg[128]; // Notice p4diag this is a Process abort event. sprintf (msg, "event: Process Abort"); OutputDebugString(msg); // Under p4diag, create a strack trace and mini dump. DebugBreak(); } # endif // HAVE_DBGBREAK exit(-1); } /* * ErrorLog::SetLog() - redirect Abort() and Report() to named file */ void ErrorLog::SetLog( const char *file ) { // Redirect to syslog, stdout or stderr? if( !strcmp( file, "syslog" ) ) { logType = type_syslog; return; } else if( !strcmp( file, "stdout" ) ) { logType = type_stdout; return; } else if( !strcmp( file, "stderr" ) ) { logType = type_stderr; return; } FileSys *fs = FileSys::Create( FST_ATEXT ); Error e; fs->Set( file ); fs->Perms( FPM_RW ); fs->MkDir( &e ); if( !e.Test() ) fs->Open( FOM_WRITE, &e ); if( e.Test() ) AssertLog.Report( &e ); else UnsetLogType(); fs->Close( &e ); if( errorFsys ) delete errorFsys; errorFsys = fs; } void ErrorLog::Rename( const char *file, Error *e ) { FileSys *fs = FileSys::Create( FST_ATEXT ); fs->Set( file ); errorFsys->Rename( fs, e ); delete fs; } offL_t ErrorLog::Size() { if( !errorFsys ) return 0; Error e; errorFsys->Open( FOM_READ, &e ); if( e.Test() ) return 0; offL_t size = errorFsys->GetSize(); errorFsys->Close( &e ); return size; } const char * ErrorLog::Name() { if( !errorFsys ) return 0; return errorFsys->Name(); }