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Windows NT 4.0 source code leak
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windows-nt-4.0/private/windows/spooler/spllib/memblock.cxx

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  1. /*++
  3. Copyright (c) 1994 Microsoft Corporation
  4. All rights reserved.
  6. Module Name:
  8. memblock.cxx
  10. Abstract:
  12. Memory allocater for chunks of read only memory.
  14. Author:
  16. Albert Ting (AlbertT) 30-Aug-1994
  18. Revision History:
  20. --*/
  22. #include "spllibp.hxx"
  23. #pragma hdrstop
  25. TMemBlock::
  26. TMemBlock(
  27. UINT uGranularity,
  28. DWORD fdwFlags) :
  29. _uGranularity(uGranularity),
  30. _pIterBlock(NULL),
  31. _pIterData(NULL),
  32. _dwCount(0),
  33. _fdwFlags(fdwFlags)
  34. {
  35. DWORD dwSize = dwBlockHeaderSize() + _uGranularity;
  37. if( _fdwFlags & kFlagGlobalNew ){
  39. _pLast = (PBLOCK) new BYTE[dwSize];
  41. } else {
  43. _pLast = (PBLOCK)AllocMem( dwSize );
  44. }
  46. _pFirst = _pLast;
  48. if (_pFirst) {
  49. _pFirst->pNext = NULL;
  50. _dwNextFree = dwBlockHeaderSize();
  51. }
  52. }
  54. TMemBlock::
  55. ~TMemBlock()
  56. {
  57. PBLOCK pBlock;
  58. PBLOCK pBlockNext;
  60. for (pBlock = _pFirst; pBlock; pBlock = pBlockNext) {
  62. pBlockNext = pBlock;
  64. if( _fdwFlags & kFlagGlobalNew ){
  66. delete [] (PBYTE)pBlock;
  68. } else {
  70. //
  71. // Our Delete must mirror the New.
  72. //
  73. FreeMem(pBlock);
  74. }
  75. }
  76. }
  78. PVOID
  79. TMemBlock::
  80. pvAlloc(
  81. DWORD dwSize
  82. )
  83. {
  84. PDATA pData;
  86. //
  87. // If out of memory, fail.
  88. //
  89. if (!_pFirst) {
  90. goto FailOOM;
  91. }
  93. dwSize = Align(dwSize + dwDataHeaderSize());
  95. SPLASSERT(dwSize <= _uGranularity);
  97. if (dwSize + _dwNextFree > _uGranularity) {
  99. DWORD dwSize = dwBlockHeaderSize() + _uGranularity;
  101. //
  102. // Must allocate a new block
  103. //
  104. if( _fdwFlags & kFlagGlobalNew ){
  106. _pLast->pNext = (PBLOCK) new BYTE[dwSize];
  108. } else {
  110. _pLast->pNext = (PBLOCK)AllocMem( dwSize );
  111. }
  113. if (!_pLast->pNext) {
  114. goto FailOOM;
  115. }
  117. _pLast = _pLast->pNext;
  118. _pLast->pNext = NULL;
  120. _dwNextFree = dwBlockHeaderSize();
  121. }
  123. //
  124. // We have enough space in this link now;
  125. // update everything.
  126. //
  128. pData = (PDATA)((PBYTE)_pLast + _dwNextFree);
  129. pData->dwSize = dwSize;
  131. _dwNextFree += dwSize;
  132. _pLast->pDataLast = pData;
  133. _dwCount++;
  135. return pvDataToUser(pData);
  137. FailOOM:
  138. SetLastError(ERROR_NOT_ENOUGH_MEMORY);
  139. return NULL;
  140. }
  142. PVOID
  143. TMemBlock::
  144. pvFirst(
  145. VOID
  146. )
  147. {
  148. if (!_dwCount) {
  149. return NULL;
  150. }
  152. _pIterBlock = _pFirst;
  153. _pIterData = pBlockToData(_pIterBlock);
  154. _dwIterCount = 0;
  156. return pvDataToUser(_pIterData);
  157. }
  159. PVOID
  160. TMemBlock::
  161. pvIter(
  162. VOID
  163. )
  164. {
  165. _dwIterCount++;
  167. if (_dwIterCount == _dwCount)
  168. return NULL;
  170. //
  171. // Go to next block. If we're at the last pData, go to next block.
  172. //
  173. if (_pIterData == _pIterBlock->pDataLast) {
  175. _pIterBlock = _pIterBlock->pNext;
  176. _pIterData = pBlockToData(_pIterBlock);
  178. } else {
  180. _pIterData = pDataNext(_pIterData);
  181. }
  183. return pvDataToUser(_pIterData);
  184. }
  187. UINT
  188. TMemBlock::
  189. uSize(
  190. PVOID pvUser
  191. ) const
  192. {
  193. return pvUserToData(pvUser)->dwSize;
  194. }