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windows-server-2003/net/sfm/afp/service/server/volume.c

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  1. /********************************************************************/
  2. /** Copyright(c) 1989 Microsoft Corporation. **/
  3. /********************************************************************/
  5. //***
  6. //
  7. // Filename: volume.c
  8. //
  9. // Description: This module contains support routines for the volume
  10. // category API's for the AFP server service
  11. //
  12. // History:
  13. // June 11,1992. NarenG Created original version.
  14. //
  15. #include "afpsvcp.h"
  17. static HANDLE hmutexInvalidVolume;
  19. // Invalid volume structure
  20. //
  21. typedef struct _AFP_BADVOLUME {
  23. LPWSTR lpwsName;
  25. LPWSTR lpwsPath;
  27. DWORD cbVariableData; // Number of bytes of name+path.
  29. struct _AFP_BADVOLUME * Next;
  31. } AFP_BADVOLUME, * PAFP_BADVOLUME;
  33. // Singly linked list of invalid volumes
  34. //
  35. typedef struct _AFP_INVALID_VOLUMES {
  37. DWORD cbTotalData;
  39. PAFP_BADVOLUME Head;
  41. } AFP_INVALID_VOLUMES;
  43. static AFP_INVALID_VOLUMES InvalidVolumeList;
  46. //**
  47. //
  48. // Call: AfpAdminrVolumeEnum
  49. //
  50. // Returns: NO_ERROR
  51. // ERROR_ACCESS_DENIED
  52. // non-zero returns from AfpServerIOCtrlGetInfo
  53. //
  54. // Description: This routine communicates with the AFP FSD to implement
  55. // the AfpAdminrVolumeEnum function.
  56. //
  57. DWORD
  58. AfpAdminrVolumeEnum(
  59. IN AFP_SERVER_HANDLE hServer,
  60. IN OUT PVOLUME_INFO_CONTAINER pInfoStruct,
  61. IN DWORD dwPreferedMaximumLength,
  62. OUT LPDWORD lpdwTotalEntries,
  63. IN OUT LPDWORD lpdwResumeHandle OPTIONAL
  64. )
  65. {
  66. AFP_REQUEST_PACKET AfpSrp;
  67. DWORD dwRetCode=0;
  68. DWORD dwAccessStatus=0;
  71. // Check if caller has access
  72. //
  73. if ( dwRetCode = AfpSecObjAccessCheck( AFPSVC_ALL_ACCESS, &dwAccessStatus))
  74. {
  75. AFP_PRINT(( "SFMSVC: AfpAdminrVolumeEnum, AfpSecObjAccessCheck failed %ld\n",dwRetCode));
  76. AfpLogEvent( AFPLOG_CANT_CHECK_ACCESS,
  77. 0, NULL, dwRetCode, EVENTLOG_ERROR_TYPE );
  78. return( ERROR_ACCESS_DENIED );
  79. }
  81. if ( dwAccessStatus )
  82. {
  83. AFP_PRINT(( "SFMSVC: AfpAdminrVolumeEnum, AfpSecObjAccessCheck returned %ld\n",dwAccessStatus));
  84. return( ERROR_ACCESS_DENIED );
  85. }
  87. // Set up request packet and make IOCTL to the FSD
  88. //
  89. AfpSrp.dwRequestCode = OP_VOLUME_ENUM;
  90. AfpSrp.dwApiType = AFP_API_TYPE_ENUM;
  91. AfpSrp.Type.Enum.cbOutputBufSize = dwPreferedMaximumLength;
  93. // If resume handle was not passed then we set it to zero, cause caller
  94. // wants all information starting from the beginning.
  95. //
  96. if ( lpdwResumeHandle )
  97. AfpSrp.Type.Enum.EnumRequestPkt.erqp_Index = *lpdwResumeHandle;
  98. else
  99. AfpSrp.Type.Enum.EnumRequestPkt.erqp_Index = 0;
  101. dwRetCode = AfpServerIOCtrlGetInfo( &AfpSrp );
  103. if ( dwRetCode != ERROR_MORE_DATA && dwRetCode != NO_ERROR )
  104. return( dwRetCode );
  106. *lpdwTotalEntries = AfpSrp.Type.Enum.dwTotalAvail;
  107. pInfoStruct->pBuffer =(PAFP_VOLUME_INFO)(AfpSrp.Type.Enum.pOutputBuf);
  108. pInfoStruct->dwEntriesRead = AfpSrp.Type.Enum.dwEntriesRead;
  110. if ( lpdwResumeHandle )
  111. *lpdwResumeHandle = AfpSrp.Type.Enum.EnumRequestPkt.erqp_Index;
  113. // Convert all offsets to pointers
  114. //
  115. AfpBufOffsetToPointer( (LPBYTE)(pInfoStruct->pBuffer),
  116. pInfoStruct->dwEntriesRead,
  117. AFP_VOLUME_STRUCT );
  119. return( dwRetCode );
  120. }
  122. //**
  123. //
  124. // Call: AfpAdminrVolumeSetInfo
  125. //
  126. // Returns: NO_ERROR
  127. // ERROR_ACCESS_DENIED
  128. // non-zero returns from AfpServerIOCtrl
  129. //
  130. // Description: This routine communicates with the AFP FSD to implement
  131. // the AfpAdminVolumeSetInfo function.
  132. //
  133. DWORD
  134. AfpAdminrVolumeSetInfo(
  135. IN AFP_SERVER_HANDLE hServer,
  136. IN PAFP_VOLUME_INFO pAfpVolumeInfo,
  137. IN DWORD dwParmNum
  138. )
  139. {
  140. AFP_REQUEST_PACKET AfpSrp;
  141. DWORD dwRetCode=0;
  142. LPBYTE pAfpVolumeInfoSR = NULL;
  143. DWORD cbAfpVolumeInfoSRSize;
  144. DWORD dwAccessStatus=0;
  147. // Check if caller has access
  148. //
  149. if ( dwRetCode = AfpSecObjAccessCheck( AFPSVC_ALL_ACCESS, &dwAccessStatus))
  150. {
  151. AFP_PRINT(( "SFMSVC: AfpAdminrVolumeSetInfo, AfpSecObjAccessCheck failed %ld\n",dwRetCode));
  152. AfpLogEvent( AFPLOG_CANT_CHECK_ACCESS, 0, NULL,
  153. dwRetCode, EVENTLOG_ERROR_TYPE );
  154. return( ERROR_ACCESS_DENIED );
  155. }
  157. if ( dwAccessStatus )
  158. {
  159. AFP_PRINT(( "SFMSVC: AfpAdminrVolumeSetInfo, AfpSecObjAccessCheck returned %ld\n",dwAccessStatus));
  160. return( ERROR_ACCESS_DENIED );
  161. }
  163. // MUTEX start
  164. //
  165. WaitForSingleObject( AfpGlobals.hmutexVolume, INFINITE );
  167. // This loop is used to allow break's instead of goto's to be used
  168. // on an error condition.
  169. //
  170. do {
  172. dwRetCode = NO_ERROR;
  174. // Make this buffer self-relative.
  175. //
  176. if ( dwRetCode = AfpBufMakeFSDRequest((LPBYTE)pAfpVolumeInfo,
  177. sizeof(SETINFOREQPKT),
  178. AFP_VOLUME_STRUCT,
  179. &pAfpVolumeInfoSR,
  180. &cbAfpVolumeInfoSRSize ))
  181. break;
  183. // Make IOCTL to set info
  184. //
  185. AfpSrp.dwRequestCode = OP_VOLUME_SET_INFO;
  186. AfpSrp.dwApiType = AFP_API_TYPE_SETINFO;
  187. AfpSrp.Type.SetInfo.pInputBuf = pAfpVolumeInfoSR;
  188. AfpSrp.Type.SetInfo.cbInputBufSize = cbAfpVolumeInfoSRSize;
  189. AfpSrp.Type.SetInfo.dwParmNum = dwParmNum;
  191. if ( dwRetCode = AfpServerIOCtrl( &AfpSrp ) )
  192. break;
  194. // Now IOCTL the FSD to get information to set in the registry
  195. // The input buffer for a GetInfo type call should point to a volume
  196. // structure with the volume name filled in. Since we already have
  197. // this from the previos SetInfo call, we use the same buffer with
  198. // the pointer advances by sizeof(SETINFOREQPKT) bytes.
  199. //
  200. AfpSrp.dwRequestCode = OP_VOLUME_GET_INFO;
  201. AfpSrp.dwApiType = AFP_API_TYPE_GETINFO;
  202. AfpSrp.Type.GetInfo.pInputBuf = pAfpVolumeInfoSR +
  203. sizeof(SETINFOREQPKT);
  204. AfpSrp.Type.GetInfo.cbInputBufSize = cbAfpVolumeInfoSRSize -
  205. sizeof(SETINFOREQPKT);
  207. if ( dwRetCode = AfpServerIOCtrlGetInfo( &AfpSrp ) )
  208. break;
  210. // Update the registry if the IOCTL was successful
  211. //
  212. AfpBufOffsetToPointer( AfpSrp.Type.GetInfo.pOutputBuf,
  213. 1,
  214. AFP_VOLUME_STRUCT
  215. );
  217. dwRetCode = AfpRegVolumeSetInfo( AfpSrp.Type.GetInfo.pOutputBuf );
  219. LocalFree( AfpSrp.Type.GetInfo.pOutputBuf );
  221. } while( FALSE );
  223. // MUTEX end
  224. //
  225. ReleaseMutex( AfpGlobals.hmutexVolume );
  227. if ( pAfpVolumeInfoSR )
  228. LocalFree( pAfpVolumeInfoSR );
  230. return( dwRetCode );
  232. }
  234. //**
  235. //
  236. // Call: AfpAdminrVolumeDelete
  237. //
  238. // Returns: NO_ERROR
  239. // ERROR_ACCESS_DENIED
  240. // non-zero returns from AfpServerIOCtrl
  241. //
  242. // Description: This routine communicates with the AFP FSD to implement
  243. // the AfpAdminVolumeDelete function.
  244. //
  245. DWORD
  246. AfpAdminrVolumeDelete(
  247. IN AFP_SERVER_HANDLE hServer,
  248. IN LPWSTR lpwsVolumeName
  249. )
  250. {
  251. AFP_REQUEST_PACKET AfpSrp;
  252. PAFP_VOLUME_INFO pAfpVolumeInfoSR;
  253. AFP_VOLUME_INFO AfpVolumeInfo;
  254. DWORD cbAfpVolumeInfoSRSize;
  255. DWORD dwRetCode=0;
  256. DWORD dwAccessStatus=0;
  258. // Check if caller has access
  259. //
  260. if ( dwRetCode = AfpSecObjAccessCheck( AFPSVC_ALL_ACCESS, &dwAccessStatus))
  261. {
  262. AFP_PRINT(( "SFMSVC: AfpAdminrVolumeDelete, AfpSecObjAccessCheck failed %ld\n",dwRetCode));
  263. AfpLogEvent( AFPLOG_CANT_CHECK_ACCESS, 0, NULL,
  264. dwRetCode, EVENTLOG_ERROR_TYPE );
  265. return( ERROR_ACCESS_DENIED );
  266. }
  268. if ( dwAccessStatus )
  269. {
  270. AFP_PRINT(( "SFMSVC: AfpAdminrVolumeDelete, AfpSecObjAccessCheck returned %ld\n",dwAccessStatus));
  271. return( ERROR_ACCESS_DENIED );
  272. }
  274. // Delete FSD request expects a AFP_VOLUME_INFO structure with only
  275. // the volume name field filled in.
  276. //
  277. AfpVolumeInfo.afpvol_name = lpwsVolumeName;
  278. AfpVolumeInfo.afpvol_password = NULL;
  279. AfpVolumeInfo.afpvol_path = NULL;
  281. // MUTEX start
  282. //
  283. WaitForSingleObject( AfpGlobals.hmutexVolume, INFINITE );
  285. // This loop is used to allow break's instead of goto's to be used
  286. // on an error condition.
  287. //
  288. do {
  290. dwRetCode = NO_ERROR;
  292. // Make this buffer self-relative.
  293. //
  294. if ( dwRetCode = AfpBufMakeFSDRequest((LPBYTE)&AfpVolumeInfo,
  295. 0,
  296. AFP_VOLUME_STRUCT,
  297. (LPBYTE*)&pAfpVolumeInfoSR,
  298. &cbAfpVolumeInfoSRSize ) )
  299. break;
  301. // IOCTL the FSD to delete the volume
  302. //
  303. AfpSrp.dwRequestCode = OP_VOLUME_DELETE;
  304. AfpSrp.dwApiType = AFP_API_TYPE_DELETE;
  305. AfpSrp.Type.Delete.pInputBuf = pAfpVolumeInfoSR;
  306. AfpSrp.Type.Delete.cbInputBufSize = cbAfpVolumeInfoSRSize;
  308. dwRetCode = AfpServerIOCtrl( &AfpSrp );
  310. LocalFree( pAfpVolumeInfoSR );
  312. if ( dwRetCode )
  313. break;
  315. // Update the registry if the IOCTL was successful
  316. //
  317. dwRetCode = AfpRegVolumeDelete( lpwsVolumeName );
  319. } while( FALSE );
  321. // MUTEX end
  322. //
  323. ReleaseMutex( AfpGlobals.hmutexVolume );
  325. return( dwRetCode );
  326. }
  328. //**
  329. //
  330. // Call: AfpAdminrVolumeAdd
  331. //
  332. // Returns: NO_ERROR
  333. // ERROR_ACCESS_DENIED
  334. // non-zero returns from AfpServerIOCtrl
  335. //
  336. // Description: This routine communicates with the AFP FSD to implement
  337. // the AfpAdminVolumeAdd function.
  338. //
  339. DWORD
  340. AfpAdminrVolumeAdd(
  341. IN AFP_SERVER_HANDLE hServer,
  342. IN PAFP_VOLUME_INFO pAfpVolumeInfo
  343. )
  344. {
  345. AFP_REQUEST_PACKET AfpSrp;
  346. DWORD dwRetCode=0, dwLastDstCharIndex = 0;
  347. PAFP_VOLUME_INFO pAfpVolumeInfoSR = NULL;
  348. DWORD cbAfpVolumeInfoSRSize;
  349. DWORD dwAccessStatus=0;
  350. BOOL fCopiedIcon = FALSE;
  351. WCHAR wchSrcIconPath[MAX_PATH];
  352. WCHAR wchDstIconPath[MAX_PATH + AFPSERVER_VOLUME_ICON_FILE_SIZE + 1 + (sizeof(AFPSERVER_RESOURCE_STREAM)/sizeof(WCHAR))];
  353. WCHAR wchServerIconFile[AFPSERVER_VOLUME_ICON_FILE_SIZE] = AFPSERVER_VOLUME_ICON_FILE;
  355. // Check if caller has access
  356. //
  357. if ( dwRetCode = AfpSecObjAccessCheck( AFPSVC_ALL_ACCESS, &dwAccessStatus))
  358. {
  359. AFP_PRINT(( "SFMSVC: AfpAdminrVolumeAdd, AfpSecObjAccessCheck failed %ld\n",dwRetCode));
  360. AfpLogEvent( AFPLOG_CANT_CHECK_ACCESS, 0,
  361. NULL, dwRetCode, EVENTLOG_ERROR_TYPE );
  362. return( ERROR_ACCESS_DENIED );
  363. }
  365. if ( dwAccessStatus )
  366. {
  367. AFP_PRINT(( "SFMSVC: AfpAdminrVolumeAdd, AfpSecObjAccessCheck returned %ld\n",dwAccessStatus));
  368. return( ERROR_ACCESS_DENIED );
  369. }
  371. if ( pAfpVolumeInfo == NULL)
  372. {
  373. AFP_PRINT(( "SFMSVC: AfpAdminrVolumeAdd, pAfpVolumeInfo == NULL\n"));
  374. return( ERROR_INVALID_DATA );
  375. }
  377. // MUTEX start
  378. //
  379. WaitForSingleObject( AfpGlobals.hmutexVolume, INFINITE );
  381. // This loop is used to allow break's instead of goto's to be used
  382. // on an error condition.
  383. //
  384. do {
  386. // Copy the server icon to the volume root
  387. //
  389. // Construct a path to the NTSFM volume custom icon
  390. //
  391. if ( GetSystemDirectory( wchSrcIconPath, MAX_PATH ) )
  392. {
  393. wcscat( wchSrcIconPath, AFP_DEF_VOLICON_SRCNAME );
  395. if ( pAfpVolumeInfo->afpvol_path == NULL )
  396. {
  397. AFP_PRINT(( "SFMSVC: AfpAdminrVolumeAdd, pAfpVolumeInfo->afpvol_path == NULL\n"));
  398. dwRetCode = ERROR_INVALID_DATA;
  399. break;
  400. }
  402. // Construct a path to the destination volume "Icon<0D>" file
  403. //
  404. wcscpy( wchDstIconPath, pAfpVolumeInfo->afpvol_path );
  406. if ( wcslen(wchDstIconPath) == 0 )
  407. {
  408. AFP_PRINT(( "SFMSVC: AfpAdminrVolumeAdd, wcslen(wchDstIconPath) == 0\n"));
  409. dwRetCode = ERROR_INVALID_DATA;
  410. break;
  411. }
  413. if (wchDstIconPath[wcslen(wchDstIconPath) - 1] != TEXT('\\'))
  414. {
  415. wcscat( wchDstIconPath, TEXT("\\") );
  416. }
  417. wcscat( wchDstIconPath, wchServerIconFile );
  418. // Keep track of end of name without the resource fork tacked on
  419. //
  420. dwLastDstCharIndex = wcslen(wchDstIconPath);
  421. wcscat( wchDstIconPath, AFPSERVER_RESOURCE_STREAM );
  423. // Copy the icon file to the root of the volume (do not overwrite)
  424. //
  425. if ((fCopiedIcon = CopyFile( wchSrcIconPath, wchDstIconPath, TRUE )) ||
  426. (GetLastError() == ERROR_FILE_EXISTS))
  427. {
  428. pAfpVolumeInfo->afpvol_props_mask |= AFP_VOLUME_HAS_CUSTOM_ICON;
  430. // Make sure the file is hidden
  431. SetFileAttributes( wchDstIconPath,
  432. FILE_ATTRIBUTE_HIDDEN |
  433. FILE_ATTRIBUTE_ARCHIVE );
  434. }
  435. }
  436. else
  437. {
  438. dwRetCode = GetLastError ();
  439. break;
  440. }
  442. // Make this buffer self-relative.
  443. //
  444. if ( dwRetCode = AfpBufMakeFSDRequest( (LPBYTE)pAfpVolumeInfo,
  445. 0,
  446. AFP_VOLUME_STRUCT,
  447. (LPBYTE*)&pAfpVolumeInfoSR,
  448. &cbAfpVolumeInfoSRSize ) )
  449. break;
  451. // IOCTL the FSD to add the volume
  452. //
  453. AfpSrp.dwRequestCode = OP_VOLUME_ADD;
  454. AfpSrp.dwApiType = AFP_API_TYPE_ADD;
  455. AfpSrp.Type.Add.pInputBuf = pAfpVolumeInfoSR;
  456. AfpSrp.Type.Add.cbInputBufSize = cbAfpVolumeInfoSRSize;
  458. dwRetCode = AfpServerIOCtrl( &AfpSrp );
  460. // Don't allow icon bit to be written to the registry if it was set
  461. pAfpVolumeInfo->afpvol_props_mask &= ~AFP_VOLUME_HAS_CUSTOM_ICON;
  463. if ( dwRetCode )
  464. {
  465. // Delete the icon file we just copied if the volume add failed
  466. //
  467. if ( fCopiedIcon )
  468. {
  469. // Truncate the resource fork name so we delete the whole file
  470. wchDstIconPath[dwLastDstCharIndex] = 0;
  471. DeleteFile( wchDstIconPath );
  472. }
  474. break;
  475. }
  477. // Update the registry if the IOCTL was successful
  478. //
  479. dwRetCode = AfpRegVolumeAdd( pAfpVolumeInfo );
  481. if ( dwRetCode )
  482. break;
  484. // Delete this volume if it exists in the invalid volume list
  485. //
  486. AfpDeleteInvalidVolume( pAfpVolumeInfo->afpvol_name );
  488. } while( FALSE );
  490. // MUTEX end
  491. //
  492. ReleaseMutex( AfpGlobals.hmutexVolume );
  494. if ( pAfpVolumeInfoSR != NULL )
  495. LocalFree( pAfpVolumeInfoSR );
  497. return( dwRetCode );
  499. }
  501. //**
  502. //
  503. // Call: AfpAdminrVolumeGetInfo
  504. //
  505. // Returns: NO_ERROR
  506. // ERROR_ACCESS_DENIED
  507. // non-zero returns from AfpServerIOCtrlGetInfo
  508. //
  509. // Description: This routine communicates with the AFP FSD to implement
  510. // the AfpAdminVolumeGetInfo function.
  511. //
  512. DWORD
  513. AfpAdminrVolumeGetInfo(
  514. IN AFP_SERVER_HANDLE hServer,
  515. IN LPWSTR lpwsVolumeName,
  516. OUT PAFP_VOLUME_INFO* ppAfpVolumeInfo
  517. )
  518. {
  519. AFP_REQUEST_PACKET AfpSrp;
  520. PAFP_VOLUME_INFO pAfpVolumeInfoSR;
  521. AFP_VOLUME_INFO AfpVolumeInfo;
  522. DWORD cbAfpVolumeInfoSRSize;
  523. DWORD dwRetCode=0;
  524. DWORD dwAccessStatus=0;
  526. // Check if caller has access
  527. //
  528. if ( dwRetCode = AfpSecObjAccessCheck( AFPSVC_ALL_ACCESS, &dwAccessStatus))
  529. {
  530. AFP_PRINT(( "SFMSVC: AfpAdminrVolumeGetInfo, AfpSecObjAccessCheck failed %ld\n",dwRetCode));
  531. AfpLogEvent( AFPLOG_CANT_CHECK_ACCESS, 0, NULL,
  532. dwRetCode, EVENTLOG_ERROR_TYPE );
  533. return( ERROR_ACCESS_DENIED );
  534. }
  536. if ( dwAccessStatus )
  537. {
  538. AFP_PRINT(( "SFMSVC: AfpAdminrVolumeGetInfo, AfpSecObjAccessCheck returned %ld\n",dwAccessStatus));
  539. return( ERROR_ACCESS_DENIED );
  540. }
  543. // MUTEX start
  544. //
  545. WaitForSingleObject( AfpGlobals.hmutexVolume, INFINITE );
  547. // This loop is used to allow break's instead of goto's to be used
  548. // on an error condition.
  549. //
  550. do {
  552. dwRetCode = NO_ERROR;
  554. // Get info FSD request expects a AFP_VOLUME_INFO structure with only
  555. // the volume name field filled in.
  556. //
  557. AfpVolumeInfo.afpvol_name = lpwsVolumeName;
  558. AfpVolumeInfo.afpvol_password = NULL;
  559. AfpVolumeInfo.afpvol_path = NULL;
  561. // Make this buffer self-relative.
  562. //
  563. if ( dwRetCode = AfpBufMakeFSDRequest((LPBYTE)&AfpVolumeInfo,
  564. 0,
  565. AFP_VOLUME_STRUCT,
  566. (LPBYTE*)&pAfpVolumeInfoSR,
  567. &cbAfpVolumeInfoSRSize ) )
  568. break;
  570. AfpSrp.dwRequestCode = OP_VOLUME_GET_INFO;
  571. AfpSrp.dwApiType = AFP_API_TYPE_GETINFO;
  572. AfpSrp.Type.GetInfo.pInputBuf = pAfpVolumeInfoSR;
  573. AfpSrp.Type.GetInfo.cbInputBufSize = cbAfpVolumeInfoSRSize;
  575. dwRetCode = AfpServerIOCtrlGetInfo( &AfpSrp );
  577. if ( dwRetCode != ERROR_MORE_DATA && dwRetCode != NO_ERROR )
  578. break;
  580. LocalFree( pAfpVolumeInfoSR );
  582. *ppAfpVolumeInfo = AfpSrp.Type.GetInfo.pOutputBuf;
  584. // Convert all offsets to pointers
  585. //
  586. AfpBufOffsetToPointer( (LPBYTE)*ppAfpVolumeInfo, 1, AFP_VOLUME_STRUCT);
  588. } while( FALSE );
  590. // MUTEX end
  591. //
  592. ReleaseMutex( AfpGlobals.hmutexVolume );
  594. return( dwRetCode );
  595. }
  597. //**
  598. //
  599. // Call: AfpAdminrInvalidVolumeEnum
  600. //
  601. // Returns: NO_ERROR
  602. // ERROR_ACCESS_DENIED
  603. //
  604. // Description: This routine will return a list of all invalid volumes. This
  605. // List is stored in a cache that is local to this module.
  606. //
  607. DWORD
  608. AfpAdminrInvalidVolumeEnum(
  609. IN AFP_SERVER_HANDLE hServer,
  610. IN OUT PVOLUME_INFO_CONTAINER pInfoStruct
  611. )
  612. {
  613. DWORD dwRetCode=0;
  614. DWORD dwAccessStatus=0;
  615. PAFP_VOLUME_INFO pOutputBuf;
  616. PAFP_VOLUME_INFO pOutputWalker;
  617. WCHAR * pwchVariableData;
  618. PAFP_BADVOLUME pAfpBadVolWalker;
  621. // Check if caller has access
  622. //
  623. if ( dwRetCode = AfpSecObjAccessCheck( AFPSVC_ALL_ACCESS, &dwAccessStatus))
  624. {
  625. AFP_PRINT(( "SFMSVC: AfpAdminrInvalidVolumeEnum, AfpSecObjAccessCheck failed %ld\n",dwRetCode));
  626. AfpLogEvent( AFPLOG_CANT_CHECK_ACCESS, 0, NULL,
  627. dwRetCode, EVENTLOG_ERROR_TYPE );
  628. return( ERROR_ACCESS_DENIED );
  629. }
  631. if ( dwAccessStatus )
  632. {
  633. AFP_PRINT(( "SFMSVC: AfpAdminrInvalidVolumeEnum, AfpSecObjAccessCheck returned %ld\n",dwAccessStatus));
  634. return( ERROR_ACCESS_DENIED );
  635. }
  637. // MUTEX start
  638. //
  639. WaitForSingleObject( hmutexInvalidVolume, INFINITE );
  641. // Allocate enough space to hold all the information.
  642. //
  643. pOutputBuf = MIDL_user_allocate( InvalidVolumeList.cbTotalData );
  645. if ( pOutputBuf == NULL ){
  646. ReleaseMutex( hmutexInvalidVolume );
  647. return( ERROR_NOT_ENOUGH_MEMORY );
  648. }
  650. ZeroMemory( pOutputBuf, InvalidVolumeList.cbTotalData );
  652. // Variable data begins from the end of the buffer.
  653. //
  654. pwchVariableData=(WCHAR*)((ULONG_PTR)pOutputBuf+InvalidVolumeList.cbTotalData);
  656. // Walk the list and create the array of volume structures
  657. //
  658. for( pAfpBadVolWalker = InvalidVolumeList.Head,
  659. pInfoStruct->dwEntriesRead = 0,
  660. pOutputWalker = pOutputBuf;
  662. pAfpBadVolWalker != NULL;
  664. pOutputWalker++,
  665. (pInfoStruct->dwEntriesRead)++,
  666. pAfpBadVolWalker = pAfpBadVolWalker->Next ) {
  668. pwchVariableData -= (STRLEN(pAfpBadVolWalker->lpwsName) + 1);
  670. STRCPY( (LPWSTR)pwchVariableData, pAfpBadVolWalker->lpwsName );
  672. pOutputWalker->afpvol_name = (LPWSTR)pwchVariableData;
  674. if ( pAfpBadVolWalker->lpwsPath != NULL ) {
  676. pwchVariableData -=( STRLEN(pAfpBadVolWalker->lpwsPath)+1 );
  678. STRCPY( (LPWSTR)pwchVariableData, pAfpBadVolWalker->lpwsPath );
  680. pOutputWalker->afpvol_path = (LPWSTR)pwchVariableData;
  682. }
  684. }
  686. // MUTEX end
  687. //
  688. ReleaseMutex( hmutexInvalidVolume );
  690. pInfoStruct->pBuffer = pOutputBuf;
  692. return( dwRetCode );
  693. }
  695. //**
  696. //
  697. // Call: AfpAdminrInvalidVolumeDelete
  698. //
  699. // Returns: NO_ERROR
  700. // ERROR_ACCESS_DENIED
  701. //
  702. // Description: This routine will remove an invalid volume from the registry
  703. // and the list of invalid volumes.
  704. //
  705. DWORD
  706. AfpAdminrInvalidVolumeDelete(
  707. IN AFP_SERVER_HANDLE hServer,
  708. IN LPWSTR lpwsVolumeName
  709. )
  710. {
  711. DWORD dwRetCode=0;
  712. DWORD dwAccessStatus=0;
  714. // Check if caller has access
  715. //
  716. if ( dwRetCode = AfpSecObjAccessCheck( AFPSVC_ALL_ACCESS, &dwAccessStatus))
  717. {
  718. AFP_PRINT(( "SFMSVC: AfpAdminrInvalidVolumeDelete, AfpSecObjAccessCheck failed %ld\n",dwRetCode));
  719. AfpLogEvent( AFPLOG_CANT_CHECK_ACCESS, 0, NULL,
  720. dwRetCode, EVENTLOG_ERROR_TYPE );
  721. return( ERROR_ACCESS_DENIED );
  722. }
  724. if ( dwAccessStatus )
  725. {
  726. AFP_PRINT(( "SFMSVC: AfpAdminrInvalidVolumeDelete, AfpSecObjAccessCheck returned %ld\n",dwAccessStatus));
  727. return( ERROR_ACCESS_DENIED );
  728. }
  731. // Remove this volume from the registry
  732. //
  733. if ( dwRetCode = AfpRegVolumeDelete( lpwsVolumeName ) ) {
  735. if ( dwRetCode == ERROR_FILE_NOT_FOUND )
  736. dwRetCode = (DWORD)AFPERR_VolumeNonExist;
  737. }
  739. // MUTEX start
  740. //
  741. WaitForSingleObject( hmutexInvalidVolume, INFINITE );
  743. AfpDeleteInvalidVolume( lpwsVolumeName );
  745. // MUTEX end
  746. //
  747. ReleaseMutex( hmutexInvalidVolume );
  749. return( dwRetCode );
  750. }
  752. //**
  753. //
  754. // Call: AfpAddInvalidVolume
  755. //
  756. // Returns: none
  757. //
  758. // Description: Will add a volume structure to a sigly linked list of volumes.
  759. //
  760. VOID
  761. AfpAddInvalidVolume(
  762. IN LPWSTR lpwsName,
  763. IN LPWSTR lpwsPath
  764. )
  765. {
  766. DWORD dwRetCode = NO_ERROR;
  767. WCHAR* pwchVariableData = NULL;
  768. PAFP_BADVOLUME pAfpVolumeInfo = NULL;
  769. DWORD cbVariableData;
  771. // MUTEX start
  772. //
  773. WaitForSingleObject( hmutexInvalidVolume, INFINITE );
  775. do {
  777. cbVariableData = (STRLEN(lpwsName)+1) * sizeof(WCHAR);
  779. if ( lpwsPath != NULL )
  780. cbVariableData += ( (STRLEN(lpwsPath)+1)*sizeof(WCHAR) );
  782. pwchVariableData = (WCHAR*)LocalAlloc( LPTR, cbVariableData );
  784. if ( pwchVariableData == NULL ) {
  785. dwRetCode = ERROR_NOT_ENOUGH_MEMORY;
  786. break;
  787. }
  789. pAfpVolumeInfo = (PAFP_BADVOLUME)LocalAlloc( LPTR,
  790. sizeof(AFP_BADVOLUME));
  791. if ( pAfpVolumeInfo == NULL ) {
  792. dwRetCode = ERROR_NOT_ENOUGH_MEMORY;
  793. break;
  794. }
  796. // Add the volume strucutre
  797. //
  798. pAfpVolumeInfo->Next = InvalidVolumeList.Head;
  800. InvalidVolumeList.Head = pAfpVolumeInfo;
  802. // Add the name and the path
  803. //
  804. STRCPY( (LPWSTR)pwchVariableData, lpwsName );
  805. pAfpVolumeInfo->lpwsName = (LPWSTR)pwchVariableData;
  807. if ( lpwsPath != NULL ) {
  809. pwchVariableData += ( STRLEN( lpwsName ) + 1);
  810. STRCPY( (LPWSTR)pwchVariableData, lpwsPath );
  811. pAfpVolumeInfo->lpwsPath = (LPWSTR)pwchVariableData;
  812. }
  814. pAfpVolumeInfo->cbVariableData = cbVariableData;
  816. InvalidVolumeList.cbTotalData += ( sizeof( AFP_VOLUME_INFO ) +
  817. cbVariableData );
  819. } while( FALSE );
  821. if ( dwRetCode != NO_ERROR ) {
  823. if ( pAfpVolumeInfo != NULL )
  824. LocalFree( pAfpVolumeInfo );
  826. if ( pwchVariableData != NULL ) {
  827. LocalFree( pwchVariableData );
  828. }
  829. }
  831. // MUTEX end
  832. //
  833. ReleaseMutex( hmutexInvalidVolume );
  834. }
  836. //**
  837. //
  838. // Call: AfpDeleteInvalidVolume
  839. //
  840. // Returns: none
  841. //
  842. // Description: Will delete a volume structure from the list of invalid
  843. // volumes, if it is found.
  844. //
  845. VOID
  846. AfpDeleteInvalidVolume(
  847. IN LPWSTR lpwsVolumeName
  848. )
  849. {
  850. PAFP_BADVOLUME pTmp;
  851. PAFP_BADVOLUME pBadVolWalker;
  853. // Walk the list and delete the volume structure
  854. //
  855. if ( InvalidVolumeList.Head != NULL ) {
  857. if ( STRICMP( InvalidVolumeList.Head->lpwsName, lpwsVolumeName ) == 0 ){
  859. pTmp = InvalidVolumeList.Head;
  861. InvalidVolumeList.cbTotalData -= ( sizeof( AFP_VOLUME_INFO )
  862. + pTmp->cbVariableData );
  864. InvalidVolumeList.Head = pTmp->Next;
  866. LocalFree( pTmp->lpwsName );
  867. LocalFree( pTmp );
  868. }
  869. else {
  871. for( pBadVolWalker = InvalidVolumeList.Head;
  872. pBadVolWalker->Next != NULL;
  873. pBadVolWalker = pBadVolWalker->Next ) {
  875. if ( STRICMP( pBadVolWalker->Next->lpwsName, lpwsVolumeName )
  876. == 0 ) {
  878. pTmp = pBadVolWalker->Next;
  880. InvalidVolumeList.cbTotalData -= ( sizeof( AFP_VOLUME_INFO )
  881. + pTmp->cbVariableData );
  883. pBadVolWalker->Next = pTmp->Next;
  885. LocalFree( pTmp->lpwsName );
  886. LocalFree( pTmp);
  888. break;
  889. }
  891. }
  892. }
  893. }
  894. }