/* * os_win32/syslog_win32.cpp * * Home page of code is: http://smartmontools.sourceforge.net * * Copyright (C) 2004-8 Christian Franke * * 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, or (at your option) * any later version. * * You should have received a copy of the GNU General Public License * (for example COPYING); if not, write to the Free * Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * */ // Win32 Emulation of syslog() for smartd // Writes to windows event log on NT4/2000/XP // (Register syslogevt.exe as event message file) // Writes to file ".log" on 9x/ME. // If facility is set to LOG_LOCAL[0-7], log is written to // file ".log", stdout, stderr, "[1-5].log". #include "syslog.h" #include #include #include #include #include // getpid() #define WIN32_LEAN_AND_MEAN #include // RegisterEventSourceA(), ReportEventA(), ... const char *syslog_win32_c_cvsid = "$Id: syslog_win32.cpp,v 1.1 2012/02/21 16:32:16 misho Exp $" SYSLOG_H_CVSID; #ifdef _MSC_VER // MSVC #define snprintf _snprintf #define vsnprintf _vsnprintf #endif #define ARGUSED(x) ((void)(x)) #ifndef _MT //MT runtime not necessary, because thread uses no unsafe lib functions //#error Program must be linked with multithreaded runtime library #endif #ifdef TESTEVT // Redirect event log to stdout for testing static BOOL Test_ReportEventA(HANDLE h, WORD type, WORD cat, DWORD id, PSID usid, WORD nstrings, WORD datasize, LPCTSTR * strings, LPVOID data) { int i; printf("%u %lu:%s", type, id, nstrings != 1?"\n":""); for (i = 0; i < nstrings; i++) printf(" \"%s\"\n", strings[i]); fflush(stdout); return TRUE; } HANDLE Test_RegisterEventSourceA(LPCTSTR server, LPCTSTR source) { return (HANDLE)42; } #define ReportEventA Test_ReportEventA #define RegisterEventSourceA Test_RegisterEventSourceA #endif // TESTEVT // Event message ids, // should be identical to MSG_SYSLOG* in "syslogevt.h" // (generated by "mc" from "syslogevt.mc") #define MSG_SYSLOG 0x00000000L #define MSG_SYSLOG_01 0x00000001L // ... #define MSG_SYSLOG_10 0x0000000AL static char sl_ident[100]; static char sl_logpath[sizeof(sl_ident) + sizeof("0.log")-1]; static FILE * sl_logfile; static char sl_pidstr[16]; static HANDLE sl_hevtsrc; // Ring buffer for event log output via thread #define MAXLINES 10 #define LINELEN 200 static HANDLE evt_hthread; static char evt_lines[MAXLINES][LINELEN+1]; static int evt_priorities[MAXLINES]; static volatile int evt_timeout; static int evt_index_in, evt_index_out; static HANDLE evt_wait_in, evt_wait_out; // Map syslog priority to event type static WORD pri2evtype(int priority) { switch (priority) { default: case LOG_EMERG: case LOG_ALERT: case LOG_CRIT: case LOG_ERR: return EVENTLOG_ERROR_TYPE; case LOG_WARNING: return EVENTLOG_WARNING_TYPE; case LOG_NOTICE: case LOG_INFO: case LOG_DEBUG: return EVENTLOG_INFORMATION_TYPE; } } // Map syslog priority to string static const char * pri2text(int priority) { switch (priority) { case LOG_EMERG: return "EMERG"; case LOG_ALERT: return "ALERT"; case LOG_CRIT: return "CRIT"; default: case LOG_ERR: return "ERROR"; case LOG_WARNING: return "Warn"; case LOG_NOTICE: return "Note"; case LOG_INFO: return "Info"; case LOG_DEBUG: return "Debug"; } } // Output cnt events from ring buffer static void report_events(int cnt) { const char * msgs[3+MAXLINES]; int i, pri; if (cnt <= 0) return; if (cnt > MAXLINES) cnt = MAXLINES; pri = evt_priorities[evt_index_out]; msgs[0] = sl_ident; msgs[1] = sl_pidstr; msgs[2] = pri2text(pri); for (i = 0; i < cnt; i++) { //assert(evt_priorities[evt_index_out] == pri); msgs[3+i] = evt_lines[evt_index_out]; if (++evt_index_out >= MAXLINES) evt_index_out = 0; } ReportEventA(sl_hevtsrc, pri2evtype(pri), // type 0, MSG_SYSLOG+cnt, // category, message id NULL, // no security id (WORD)(3+cnt), 0, // 3+cnt strings, ... msgs, NULL); // ... , no data } // Thread to combine several syslog lines into one event log entry static ULONG WINAPI event_logger_thread(LPVOID arg) { int cnt; ARGUSED(arg); cnt = 0; for (;;) { // Wait for first line ... int prior, i, rest; if (cnt == 0) { if (WaitForSingleObject(evt_wait_out, (evt_timeout? INFINITE : 0)) != WAIT_OBJECT_0) break; cnt = 1; } // ... wait some time for more lines with same prior i = evt_index_out; prior = evt_priorities[i]; rest = 0; while (cnt < MAXLINES) { long timeout = evt_timeout * ((1000L * (MAXLINES-cnt+1))/MAXLINES); if (WaitForSingleObject(evt_wait_out, timeout) != WAIT_OBJECT_0) break; if (++i >= MAXLINES) i = 0; if (evt_priorities[i] != prior) { rest = 1; break; } cnt++; } // Output all in one event log entry report_events(cnt); // Signal space if (!ReleaseSemaphore(evt_wait_in, cnt, NULL)) break; cnt = rest; } return 0; } static void on_exit_event_logger(void) { // Output lines immediate if exiting evt_timeout = 0; // Wait for thread to finish WaitForSingleObject(evt_hthread, 1000L); CloseHandle(evt_hthread); #if 0 if (sl_hevtsrc) { DeregisterEventSource(sl_hevtsrc); sl_hevtsrc = 0; } #else // Leave event message source open to prevent losing messages during shutdown #endif } static int start_event_logger() { DWORD tid; evt_timeout = 1; if ( !(evt_wait_in = CreateSemaphore(NULL, MAXLINES, MAXLINES, NULL)) || !(evt_wait_out = CreateSemaphore(NULL, 0, MAXLINES, NULL))) { fprintf(stderr,"CreateSemaphore failed, Error=%ld\n", GetLastError()); return -1; } if (!(evt_hthread = CreateThread(NULL, 0, event_logger_thread, NULL, 0, &tid))) { fprintf(stderr,"CreateThread failed, Error=%ld\n", GetLastError()); return -1; } atexit(on_exit_event_logger); return 0; } // Write lines to event log ring buffer static void write_event_log(int priority, const char * lines) { int cnt = 0; int i; for (i = 0; lines[i]; i++) { int len = 0; while (lines[i+len] && lines[i+len] != '\n') len++; ; if (len > 0) { // Wait for space if (WaitForSingleObject(evt_wait_in, INFINITE) != WAIT_OBJECT_0) return; // Copy line evt_priorities[evt_index_in] = priority; memcpy(evt_lines[evt_index_in], lines+i, (len < LINELEN ? len : LINELEN)); if (len < LINELEN) evt_lines[evt_index_in][len] = 0; if (++evt_index_in >= MAXLINES) evt_index_in = 0; // Signal avail if ring buffer full if (++cnt >= MAXLINES) { ReleaseSemaphore(evt_wait_out, cnt, NULL); cnt = 0; } i += len; } if (!lines[i]) break; } // Signal avail if (cnt > 0) ReleaseSemaphore(evt_wait_out, cnt, NULL); Sleep(1); } // Write lines to logfile static void write_logfile(FILE * f, int priority, const char * lines) { time_t now; char stamp[sizeof("2004-04-04 10:00:00")+13]; int i; now = time((time_t*)0); if (!strftime(stamp, sizeof(stamp)-1, "%Y-%m-%d %H:%M:%S", localtime(&now))) strcpy(stamp,"?"); for (i = 0; lines[i]; i++) { int len = 0; while (lines[i+len] && lines[i+len] != '\n') len++; if (len > 0) { fprintf(f, "%s %s[%s]: %-5s: ", stamp, sl_ident, sl_pidstr, pri2text(priority)); fwrite(lines+i, len, 1, f); fputc('\n', f); i += len; } if (!lines[i]) break; } } void openlog(const char *ident, int logopt, int facility) { int pid; if (sl_logpath[0] || sl_logfile || sl_hevtsrc) return; // Already open strncpy(sl_ident, ident, sizeof(sl_ident)-1); // logopt==LOG_PID assumed ARGUSED(logopt); pid = getpid(); if (snprintf(sl_pidstr, sizeof(sl_pidstr)-1, (pid >= 0 ? "%d" : "0x%X"), pid) < 0) strcpy(sl_pidstr,"?"); if (facility == LOG_LOCAL0) // "ident.log" strcat(strcpy(sl_logpath, sl_ident), ".log"); else if (facility == LOG_LOCAL1) // stdout sl_logfile = stdout; else if (facility == LOG_LOCAL2) // stderr sl_logfile = stderr; else if (LOG_LOCAL2 < facility && facility <= LOG_LOCAL7) { // "ident[1-5].log" snprintf(sl_logpath, sizeof(sl_logpath)-1, "%s%d.log", sl_ident, LOG_FAC(facility)-LOG_FAC(LOG_LOCAL2)); } else // Assume LOG_DAEMON, use event log if possible, else "ident.log" if (!(sl_hevtsrc = RegisterEventSourceA(NULL/*localhost*/, sl_ident))) { // Cannot open => Use logfile long err = GetLastError(); strcat(strcpy(sl_logpath, sl_ident), ".log"); if (GetVersion() & 0x80000000) fprintf(stderr, "%s: No event log on Win9x/ME, writing to %s\n", sl_ident, sl_logpath); else fprintf(stderr, "%s: Cannot register event source (Error=%ld), writing to %s\n", sl_ident, err, sl_logpath); } else { // Start event log thread start_event_logger(); } //assert(sl_logpath[0] || sl_logfile || sl_hevtsrc); } void closelog() { } void vsyslog(int priority, const char * message, va_list args) { char buffer[1000]; // Translation of %m to error text not supported yet if (strstr(message, "%m")) message = "Internal error: \"%%m\" in log message"; // Format message if (vsnprintf(buffer, sizeof(buffer)-1, message, args) < 0) strcpy(buffer, "Internal Error: buffer overflow"); if (sl_hevtsrc) { // Write to event log write_event_log(priority, buffer); } else if (sl_logfile) { // Write to stdout/err write_logfile(sl_logfile, priority, buffer); fflush(sl_logfile); } else if (sl_logpath[0]) { // Append to logfile FILE * f; if (!(f = fopen(sl_logpath, "a"))) return; write_logfile(f, priority, buffer); fclose(f); } } #ifdef TEST // Test program void syslog(int priority, const char *message, ...) { va_list args; va_start(args, message); vsyslog(priority, message, args); va_end(args); } int main(int argc, char* argv[]) { int i; openlog(argc < 2 ? "test" : argv[1], LOG_PID, (argc < 3 ? LOG_DAEMON : LOG_LOCAL1)); syslog(LOG_INFO, "Info\n"); syslog(LOG_WARNING, "Warning %d\n\n", 42); syslog(LOG_ERR, "Error %s", "Fatal"); for (i = 0; i < 100; i++) { char buf[LINELEN]; if (i % 13 == 0) Sleep(1000L); sprintf(buf, "Log Line %d\n", i); syslog(i % 17 ? LOG_INFO : LOG_ERR, buf); } closelog(); return 0; } #endif