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windows-xp/Source/XPSP1/NT/base/fs/lfs/sysinit.c

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  1. /*++
  3. Copyright (c) 1990 Microsoft Corporation
  5. Module Name:
  7. SysInit.c
  9. Abstract:
  11. This module implements the Log File Service initialization.
  13. Author:
  15. Brian Andrew [BrianAn] 20-June-1991
  17. Revision History:
  19. --*/
  21. #include "lfsprocs.h"
  23. //
  24. // The debug trace level
  25. //
  27. #define Dbg (DEBUG_TRACE_INITIALIZATION)
  29. #undef MODULE_POOL_TAG
  30. #define MODULE_POOL_TAG ('IsfL')
  32. #ifdef ALLOC_PRAGMA
  33. #pragma alloc_text(PAGE, LfsInitializeLogFileService)
  34. #endif
  36. extern USHORT LfsUsaSeqNumber;
  39. BOOLEAN
  40. LfsInitializeLogFileService (
  41. )
  43. /*++
  45. Routine Description:
  47. This routine must be called during system initialization before the
  48. first call to logging service, to allow the Log File Service to initialize
  49. its global data structures. This routine has no dependencies on other
  50. system components being initialized.
  52. This routine will initialize the global structures used by the logging
  53. service and start the Lfs worker thread.
  55. Arguments:
  57. None
  59. Return Value:
  61. TRUE if initialization was successful
  63. --*/
  65. {
  66. LARGE_INTEGER CurrentTime;
  68. PAGED_CODE();
  70. DebugTrace( +1, Dbg, "LfsInitializeLogFileService: Enter\n", 0 );
  72. //
  73. // If the structure has already been initialized then we can return
  74. // immediately.
  75. //
  77. if (LfsData.NodeTypeCode == LFS_NTC_DATA
  78. && LfsData.NodeByteSize == sizeof( LFS_DATA )
  79. && FlagOn( LfsData.Flags, LFS_DATA_INITIALIZED )) {
  81. DebugTrace( -1, Dbg, "LfsInitializeLogFileService: Exit -> %01x\n", TRUE );
  83. return TRUE;
  84. }
  86. //
  87. // Zero out the structure initially.
  88. //
  90. RtlZeroMemory( &LfsData, sizeof( LFS_DATA ));
  92. //
  93. // Assume the operation will fail.
  94. //
  96. LfsData.Flags = LFS_DATA_INIT_FAILED;
  98. //
  99. // Initialize the global structure for Lfs.
  100. //
  102. LfsData.NodeTypeCode = LFS_NTC_DATA;
  103. LfsData.NodeByteSize = sizeof( LFS_DATA );
  105. InitializeListHead( &LfsData.LfcbLinks );
  107. //
  108. // Initialize the synchronization objects.
  109. //
  111. ExInitializeFastMutex( &LfsData.LfsDataLock );
  113. //
  114. // Initialize the buffer allocation. System will be robust enough to tolerate
  115. // allocation failures.
  116. //
  118. ExInitializeFastMutex( &LfsData.BufferLock );
  119. KeInitializeEvent( &LfsData.BufferNotification, NotificationEvent, TRUE );
  120. LfsData.Buffer1 = LfsAllocatePoolNoRaise( PagedPool, LFS_BUFFER_SIZE );
  122. if (LfsData.Buffer1 == NULL) {
  124. return FALSE;
  125. }
  127. LfsData.Buffer2 = LfsAllocatePoolNoRaise( PagedPool, LFS_BUFFER_SIZE );
  129. //
  130. // Make sure we got both.
  131. //
  133. if (LfsData.Buffer2 == NULL) {
  135. LfsFreePool( LfsData.Buffer1 );
  136. LfsData.Buffer1 = NULL;
  137. return FALSE;
  138. }
  140. //
  141. // Initialization has been successful.
  142. //
  144. ClearFlag( LfsData.Flags, LFS_DATA_INIT_FAILED );
  145. SetFlag( LfsData.Flags, LFS_DATA_INITIALIZED );
  147. //
  148. // Get a random number as a seed for the Usa sequence numbers. Use the lower
  149. // bits of the current time.
  150. //
  152. KeQuerySystemTime( &CurrentTime );
  153. LfsUsaSeqNumber = (USHORT) CurrentTime.LowPart;
  155. DebugTrace( -1, Dbg, "LfsInitializeLogFileService: Exit -> %01x\n", TRUE );
  157. return TRUE;
  158. }