// /*************************************************************************** // The Disc Image Chef // ---------------------------------------------------------------------------- // // Filename : AppleHFSPlus.cs // Author(s) : Natalia Portillo // // Component : Apple Hierarchical File System Plus plugin. // // --[ Description ] ---------------------------------------------------------- // // Identifies the Apple Hierarchical File System Plus and shows information. // // --[ License ] -------------------------------------------------------------- // // This library is free software; you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as // published by the Free Software Foundation; either version 2.1 of the // License, or (at your option) any later version. // // This library is distributed in the hope that it will be useful, but // WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, see . // // ---------------------------------------------------------------------------- // Copyright © 2011-2016 Natalia Portillo // ****************************************************************************/ using System; using System.Text; using DiscImageChef; using System.Collections.Generic; // Information from Apple TechNote 1150: https://developer.apple.com/legacy/library/technotes/tn/tn1150.html namespace DiscImageChef.Filesystems { class AppleHFSPlus : Filesystem { /// /// "BD", HFS magic /// const UInt16 HFS_MAGIC = 0x4244; /// /// "H+", HFS+ magic /// const UInt16 HFSP_MAGIC = 0x482B; /// /// "HX", HFSX magic /// const UInt16 HFSX_MAGIC = 0x4858; public AppleHFSPlus() { Name = "Apple HFS+ filesystem"; PluginUUID = new Guid("36405F8D-0D26-6EBE-436F-62F0586B4F08"); } public AppleHFSPlus(ImagePlugins.ImagePlugin imagePlugin, ulong partitionStart, ulong partitionEnd) { Name = "Apple HFS+ filesystem"; PluginUUID = new Guid("36405F8D-0D26-6EBE-436F-62F0586B4F08"); } public override bool Identify(ImagePlugins.ImagePlugin imagePlugin, ulong partitionStart, ulong partitionEnd) { if((2 + partitionStart) >= imagePlugin.GetSectors()) return false; UInt16 drSigWord; UInt16 xdrStABNt; UInt16 drAlBlSt; UInt32 drAlBlkSiz; byte[] vh_sector; ulong hfsp_offset; vh_sector = imagePlugin.ReadSector(2 + partitionStart); // Read volume header, of HFS Wrapper MDB drSigWord = BigEndianBitConverter.ToUInt16(vh_sector, 0); // Check for HFS Wrapper MDB if(drSigWord == HFS_MAGIC) // "BD" { drSigWord = BigEndianBitConverter.ToUInt16(vh_sector, 0x07C); // Read embedded HFS+ signature if(drSigWord == HFSP_MAGIC) // "H+" { xdrStABNt = BigEndianBitConverter.ToUInt16(vh_sector, 0x07E); // Starting block number of embedded HFS+ volume drAlBlkSiz = BigEndianBitConverter.ToUInt32(vh_sector, 0x014); // Block size drAlBlSt = BigEndianBitConverter.ToUInt16(vh_sector, 0x01C); // Start of allocated blocks (in 512-byte/block) hfsp_offset = (drAlBlSt + xdrStABNt * (drAlBlkSiz / 512)) * (imagePlugin.GetSectorSize() / 512); } else { hfsp_offset = 0; } } else { hfsp_offset = 0; } vh_sector = imagePlugin.ReadSector(2 + partitionStart + hfsp_offset); // Read volume header drSigWord = BigEndianBitConverter.ToUInt16(vh_sector, 0); if(drSigWord == HFSP_MAGIC || drSigWord == HFSX_MAGIC) return true; return false; } public override void GetInformation(ImagePlugins.ImagePlugin imagePlugin, ulong partitionStart, ulong partitionEnd, out string information) { information = ""; UInt16 drSigWord; UInt16 xdrStABNt; UInt16 drAlBlSt; UInt32 drAlBlkSiz; HFSPlusVolumeHeader HPVH = new HFSPlusVolumeHeader(); ulong hfsp_offset; bool wrapped; byte[] vh_sector; vh_sector = imagePlugin.ReadSector(2 + partitionStart); // Read volume header, of HFS Wrapper MDB drSigWord = BigEndianBitConverter.ToUInt16(vh_sector, 0); // Check for HFS Wrapper MDB if(drSigWord == HFS_MAGIC) // "BD" { drSigWord = BigEndianBitConverter.ToUInt16(vh_sector, 0x07C); // Read embedded HFS+ signature if(drSigWord == HFSP_MAGIC) // "H+" { xdrStABNt = BigEndianBitConverter.ToUInt16(vh_sector, 0x07E); // Starting block number of embedded HFS+ volume drAlBlkSiz = BigEndianBitConverter.ToUInt32(vh_sector, 0x014); // Block size drAlBlSt = BigEndianBitConverter.ToUInt16(vh_sector, 0x01C); // Start of allocated blocks (in 512-byte/block) hfsp_offset = (drAlBlSt + xdrStABNt * (drAlBlkSiz / 512)) * (imagePlugin.GetSectorSize() / 512); wrapped = true; } else { hfsp_offset = 0; wrapped = false; } } else { hfsp_offset = 0; wrapped = false; } vh_sector = imagePlugin.ReadSector(2 + partitionStart + hfsp_offset); // Read volume header HPVH.signature = BigEndianBitConverter.ToUInt16(vh_sector, 0x000); if(HPVH.signature == HFSP_MAGIC || HPVH.signature == HFSX_MAGIC) { StringBuilder sb = new StringBuilder(); if(HPVH.signature == 0x482B) sb.AppendLine("HFS+ filesystem."); if(HPVH.signature == 0x4858) sb.AppendLine("HFSX filesystem."); if(wrapped) sb.AppendLine("Volume is wrapped inside an HFS volume."); HPVH.version = BigEndianBitConverter.ToUInt16(vh_sector, 0x002); if(HPVH.version == 4 || HPVH.version == 5) { HPVH.attributes = BigEndianBitConverter.ToUInt32(vh_sector, 0x004); byte[] lastMountedVersion_b = new byte[4]; Array.Copy(vh_sector, 0x008, lastMountedVersion_b, 0, 4); HPVH.lastMountedVersion = Encoding.ASCII.GetString(lastMountedVersion_b); HPVH.journalInfoBlock = BigEndianBitConverter.ToUInt32(vh_sector, 0x00C); HPVH.createDate = BigEndianBitConverter.ToUInt32(vh_sector, 0x010); HPVH.modifyDate = BigEndianBitConverter.ToUInt32(vh_sector, 0x018); HPVH.backupDate = BigEndianBitConverter.ToUInt32(vh_sector, 0x020); HPVH.checkedDate = BigEndianBitConverter.ToUInt32(vh_sector, 0x028); HPVH.fileCount = BigEndianBitConverter.ToUInt32(vh_sector, 0x030); HPVH.folderCount = BigEndianBitConverter.ToUInt32(vh_sector, 0x034); HPVH.blockSize = BigEndianBitConverter.ToUInt32(vh_sector, 0x038); HPVH.totalBlocks = BigEndianBitConverter.ToUInt32(vh_sector, 0x03C); HPVH.freeBlocks = BigEndianBitConverter.ToUInt32(vh_sector, 0x040); HPVH.nextAllocation = BigEndianBitConverter.ToUInt32(vh_sector, 0x044); HPVH.rsrcClumpSize = BigEndianBitConverter.ToUInt32(vh_sector, 0x048); HPVH.dataClumpSize = BigEndianBitConverter.ToUInt32(vh_sector, 0x04C); HPVH.nextCatalogID = BigEndianBitConverter.ToUInt32(vh_sector, 0x050); HPVH.writeCount = BigEndianBitConverter.ToUInt32(vh_sector, 0x054); HPVH.drFndrInfo0 = BigEndianBitConverter.ToUInt32(vh_sector, 0x060); HPVH.drFndrInfo1 = BigEndianBitConverter.ToUInt32(vh_sector, 0x064); HPVH.drFndrInfo2 = BigEndianBitConverter.ToUInt32(vh_sector, 0x068); HPVH.drFndrInfo3 = BigEndianBitConverter.ToUInt32(vh_sector, 0x06C); HPVH.drFndrInfo5 = BigEndianBitConverter.ToUInt32(vh_sector, 0x074); HPVH.drFndrInfo6 = BigEndianBitConverter.ToUInt32(vh_sector, 0x078); HPVH.drFndrInfo7 = BigEndianBitConverter.ToUInt32(vh_sector, 0x07C); HPVH.allocationFile_logicalSize = BigEndianBitConverter.ToUInt64(vh_sector, 0x080); HPVH.extentsFile_logicalSize = BigEndianBitConverter.ToUInt64(vh_sector, 0x0D0); HPVH.catalogFile_logicalSize = BigEndianBitConverter.ToUInt64(vh_sector, 0x120); HPVH.attributesFile_logicalSize = BigEndianBitConverter.ToUInt64(vh_sector, 0x170); HPVH.startupFile_logicalSize = BigEndianBitConverter.ToUInt64(vh_sector, 0x1C0); sb.AppendFormat("Filesystem version is {0}.", HPVH.version).AppendLine(); if((HPVH.attributes & 0x80) == 0x80) sb.AppendLine("Volume is locked on hardware."); if((HPVH.attributes & 0x100) == 0x100) sb.AppendLine("Volume is unmounted."); if((HPVH.attributes & 0x200) == 0x200) sb.AppendLine("There are bad blocks in the extents file."); if((HPVH.attributes & 0x400) == 0x400) sb.AppendLine("Volume does not require cache."); if((HPVH.attributes & 0x800) == 0x800) sb.AppendLine("Volume state is inconsistent."); if((HPVH.attributes & 0x1000) == 0x1000) sb.AppendLine("CNIDs are reused."); if((HPVH.attributes & 0x2000) == 0x2000) sb.AppendLine("Volume is journaled."); if((HPVH.attributes & 0x8000) == 0x8000) sb.AppendLine("Volume is locked on software."); sb.AppendFormat("Implementation that last mounted the volume: \"{0}\".", HPVH.lastMountedVersion).AppendLine(); if((HPVH.attributes & 0x2000) == 0x2000) sb.AppendFormat("Journal starts at allocation block {0}.", HPVH.journalInfoBlock).AppendLine(); sb.AppendFormat("Creation date: {0}", DateHandlers.MacToDateTime(HPVH.createDate)).AppendLine(); sb.AppendFormat("Last modification date: {0}", DateHandlers.MacToDateTime(HPVH.modifyDate)).AppendLine(); sb.AppendFormat("Last backup date: {0}", DateHandlers.MacToDateTime(HPVH.backupDate)).AppendLine(); sb.AppendFormat("Last check date: {0}", DateHandlers.MacToDateTime(HPVH.checkedDate)).AppendLine(); sb.AppendFormat("{0} files on volume.", HPVH.fileCount).AppendLine(); sb.AppendFormat("{0} folders on volume.", HPVH.folderCount).AppendLine(); sb.AppendFormat("{0} bytes per allocation block.", HPVH.blockSize).AppendLine(); sb.AppendFormat("{0} allocation blocks.", HPVH.totalBlocks).AppendLine(); sb.AppendFormat("{0} free blocks.", HPVH.freeBlocks).AppendLine(); sb.AppendFormat("Next allocation block: {0}.", HPVH.nextAllocation).AppendLine(); sb.AppendFormat("Resource fork clump size: {0} bytes.", HPVH.rsrcClumpSize).AppendLine(); sb.AppendFormat("Data fork clump size: {0} bytes.", HPVH.dataClumpSize).AppendLine(); sb.AppendFormat("Next unused CNID: {0}.", HPVH.nextCatalogID).AppendLine(); sb.AppendFormat("Volume has been mounted writable {0} times.", HPVH.writeCount).AppendLine(); sb.AppendFormat("Allocation File is {0} bytes.", HPVH.allocationFile_logicalSize).AppendLine(); sb.AppendFormat("Extents File is {0} bytes.", HPVH.extentsFile_logicalSize).AppendLine(); sb.AppendFormat("Catalog File is {0} bytes.", HPVH.catalogFile_logicalSize).AppendLine(); sb.AppendFormat("Attributes File is {0} bytes.", HPVH.attributesFile_logicalSize).AppendLine(); sb.AppendFormat("Startup File is {0} bytes.", HPVH.startupFile_logicalSize).AppendLine(); sb.AppendLine("Finder info:"); sb.AppendFormat("CNID of bootable system's directory: {0}", HPVH.drFndrInfo0).AppendLine(); sb.AppendFormat("CNID of first-run application's directory: {0}", HPVH.drFndrInfo1).AppendLine(); sb.AppendFormat("CNID of previously opened directory: {0}", HPVH.drFndrInfo2).AppendLine(); sb.AppendFormat("CNID of bootable Mac OS 8 or 9 directory: {0}", HPVH.drFndrInfo3).AppendLine(); sb.AppendFormat("CNID of bootable Mac OS X directory: {0}", HPVH.drFndrInfo5).AppendLine(); sb.AppendFormat("Mac OS X Volume ID: {0:X8}{1:X8}", HPVH.drFndrInfo6, HPVH.drFndrInfo7).AppendLine(); xmlFSType = new Schemas.FileSystemType(); if(HPVH.backupDate > 0) { xmlFSType.BackupDate = DateHandlers.MacToDateTime(HPVH.backupDate); xmlFSType.BackupDateSpecified = true; } if(HPVH.drFndrInfo0 != 0 || HPVH.drFndrInfo3 != 0 || HPVH.drFndrInfo5 != 0) xmlFSType.Bootable = true; xmlFSType.Clusters = HPVH.totalBlocks; xmlFSType.ClusterSize = (int)HPVH.blockSize; if(HPVH.createDate > 0) { xmlFSType.CreationDate = DateHandlers.MacToDateTime(HPVH.createDate); xmlFSType.CreationDateSpecified = true; } xmlFSType.Dirty = (HPVH.attributes & 0x100) != 0x100; xmlFSType.Files = HPVH.fileCount; xmlFSType.FilesSpecified = true; xmlFSType.FreeClusters = HPVH.freeBlocks; xmlFSType.FreeClustersSpecified = true; if(HPVH.modifyDate > 0) { xmlFSType.ModificationDate = DateHandlers.MacToDateTime(HPVH.modifyDate); xmlFSType.ModificationDateSpecified = true; } if(HPVH.signature == 0x482B) xmlFSType.Type = "HFS+"; if(HPVH.signature == 0x4858) xmlFSType.Type = "HFSX"; if(HPVH.drFndrInfo6 != 0 && HPVH.drFndrInfo7 != 0) xmlFSType.VolumeSerial = String.Format("{0:X8}{1:x8}", HPVH.drFndrInfo6, HPVH.drFndrInfo7); } else { sb.AppendFormat("Filesystem version is {0}.", HPVH.version).AppendLine(); sb.AppendLine("This version is not supported yet."); } information = sb.ToString(); } else return; } /// /// HFS+ Volume Header, should be at offset 0x0400 bytes in volume with a size of 532 bytes /// struct HFSPlusVolumeHeader { /// 0x000, "H+" for HFS+, "HX" for HFSX public UInt16 signature; /// 0x002, 4 for HFS+, 5 for HFSX public UInt16 version; /// 0x004, Volume attributes public UInt32 attributes; /// 0x008, Implementation that last mounted the volume. /// Reserved by Apple: /// "8.10" Mac OS 8.1 to 9.2.2 /// "10.0" Mac OS X /// "HFSJ" Journaled implementation /// "fsck" /sbin/fsck public string lastMountedVersion; /// 0x00C, Allocation block number containing the journal public UInt32 journalInfoBlock; /// 0x010, Date of volume creation public ulong createDate; /// 0x018, Date of last volume modification public ulong modifyDate; /// 0x020, Date of last backup public ulong backupDate; /// 0x028, Date of last consistency check public ulong checkedDate; /// 0x030, File on the volume public UInt32 fileCount; /// 0x034, Folders on the volume public UInt32 folderCount; /// 0x038, Bytes per allocation block public UInt32 blockSize; /// 0x03C, Allocation blocks on the volume public UInt32 totalBlocks; /// 0x040, Free allocation blocks public UInt32 freeBlocks; /// 0x044, Hint for next allocation block public UInt32 nextAllocation; /// 0x048, Resource fork clump size public UInt32 rsrcClumpSize; /// 0x04C, Data fork clump size public UInt32 dataClumpSize; /// 0x050, Next unused CNID public UInt32 nextCatalogID; /// 0x054, Times that the volume has been mounted writable public UInt32 writeCount; /// 0x058, Used text encoding hints public UInt64 encodingsBitmap; /// 0x060, finderInfo[0], CNID for bootable system's directory public UInt32 drFndrInfo0; /// 0x064, finderInfo[1], CNID of the directory containing the boot application public UInt32 drFndrInfo1; /// 0x068, finderInfo[2], CNID of the directory that should be opened on boot public UInt32 drFndrInfo2; /// 0x06C, finderInfo[3], CNID for Mac OS 8 or 9 directory public UInt32 drFndrInfo3; /// 0x070, finderInfo[4], Reserved public UInt32 drFndrInfo4; /// 0x074, finderInfo[5], CNID for Mac OS X directory public UInt32 drFndrInfo5; /// 0x078, finderInfo[6], first part of Mac OS X volume ID public UInt32 drFndrInfo6; /// 0x07C, finderInfo[7], second part of Mac OS X volume ID public UInt32 drFndrInfo7; // HFSPlusForkData allocationFile; /// 0x080 public UInt64 allocationFile_logicalSize; /// 0x088 public UInt32 allocationFile_clumpSize; /// 0x08C public UInt32 allocationFile_totalBlocks; /// 0x090 public UInt32 allocationFile_extents_startBlock0; /// 0x094 public UInt32 allocationFile_extents_blockCount0; /// 0x098 public UInt32 allocationFile_extents_startBlock1; /// 0x09C public UInt32 allocationFile_extents_blockCount1; /// 0x0A0 public UInt32 allocationFile_extents_startBlock2; /// 0x0A4 public UInt32 allocationFile_extents_blockCount2; /// 0x0A8 public UInt32 allocationFile_extents_startBlock3; /// 0x0AC public UInt32 allocationFile_extents_blockCount3; /// 0x0B0 public UInt32 allocationFile_extents_startBlock4; /// 0x0B4 public UInt32 allocationFile_extents_blockCount4; /// 0x0B8 public UInt32 allocationFile_extents_startBlock5; /// 0x0BC public UInt32 allocationFile_extents_blockCount5; /// 0x0C0 public UInt32 allocationFile_extents_startBlock6; /// 0x0C4 public UInt32 allocationFile_extents_blockCount6; /// 0x0C8 public UInt32 allocationFile_extents_startBlock7; /// 0x0CC public UInt32 allocationFile_extents_blockCount7; // HFSPlusForkData extentsFile; /// 0x0D0 public UInt64 extentsFile_logicalSize; /// 0x0D8 public UInt32 extentsFile_clumpSize; /// 0x0DC public UInt32 extentsFile_totalBlocks; /// 0x0E0 public UInt32 extentsFile_extents_startBlock0; /// 0x0E4 public UInt32 extentsFile_extents_blockCount0; /// 0x0E8 public UInt32 extentsFile_extents_startBlock1; /// 0x0EC public UInt32 extentsFile_extents_blockCount1; /// 0x0F0 public UInt32 extentsFile_extents_startBlock2; /// 0x0F4 public UInt32 extentsFile_extents_blockCount2; /// 0x0F8 public UInt32 extentsFile_extents_startBlock3; /// 0x0FC public UInt32 extentsFile_extents_blockCount3; /// 0x100 public UInt32 extentsFile_extents_startBlock4; /// 0x104 public UInt32 extentsFile_extents_blockCount4; /// 0x108 public UInt32 extentsFile_extents_startBlock5; /// 0x10C public UInt32 extentsFile_extents_blockCount5; /// 0x110 public UInt32 extentsFile_extents_startBlock6; /// 0x114 public UInt32 extentsFile_extents_blockCount6; /// 0x118 public UInt32 extentsFile_extents_startBlock7; /// 0x11C public UInt32 extentsFile_extents_blockCount7; // HFSPlusForkData catalogFile; /// 0x120 public UInt64 catalogFile_logicalSize; /// 0x128 public UInt32 catalogFile_clumpSize; /// 0x12C public UInt32 catalogFile_totalBlocks; /// 0x130 public UInt32 catalogFile_extents_startBlock0; /// 0x134 public UInt32 catalogFile_extents_blockCount0; /// 0x138 public UInt32 catalogFile_extents_startBlock1; /// 0x13C public UInt32 catalogFile_extents_blockCount1; /// 0x140 public UInt32 catalogFile_extents_startBlock2; /// 0x144 public UInt32 catalogFile_extents_blockCount2; /// 0x148 public UInt32 catalogFile_extents_startBlock3; /// 0x14C public UInt32 catalogFile_extents_blockCount3; /// 0x150 public UInt32 catalogFile_extents_startBlock4; /// 0x154 public UInt32 catalogFile_extents_blockCount4; /// 0x158 public UInt32 catalogFile_extents_startBlock5; /// 0x15C public UInt32 catalogFile_extents_blockCount5; /// 0x160 public UInt32 catalogFile_extents_startBlock6; /// 0x164 public UInt32 catalogFile_extents_blockCount6; /// 0x168 public UInt32 catalogFile_extents_startBlock7; /// 0x16C public UInt32 catalogFile_extents_blockCount7; // HFSPlusForkData attributesFile; /// 0x170 public UInt64 attributesFile_logicalSize; /// 0x178 public UInt32 attributesFile_clumpSize; /// 0x17C public UInt32 attributesFile_totalBlocks; /// 0x180 public UInt32 attributesFile_extents_startBlock0; /// 0x184 public UInt32 attributesFile_extents_blockCount0; /// 0x188 public UInt32 attributesFile_extents_startBlock1; /// 0x18C public UInt32 attributesFile_extents_blockCount1; /// 0x190 public UInt32 attributesFile_extents_startBlock2; /// 0x194 public UInt32 attributesFile_extents_blockCount2; /// 0x198 public UInt32 attributesFile_extents_startBlock3; /// 0x19C public UInt32 attributesFile_extents_blockCount3; /// 0x1A0 public UInt32 attributesFile_extents_startBlock4; /// 0x1A4 public UInt32 attributesFile_extents_blockCount4; /// 0x1A8 public UInt32 attributesFile_extents_startBlock5; /// 0x1AC public UInt32 attributesFile_extents_blockCount5; /// 0x1B0 public UInt32 attributesFile_extents_startBlock6; /// 0x1B4 public UInt32 attributesFile_extents_blockCount6; /// 0x1B8 public UInt32 attributesFile_extents_startBlock7; /// 0x1BC public UInt32 attributesFile_extents_blockCount7; // HFSPlusForkData startupFile; /// 0x1C0 public UInt64 startupFile_logicalSize; /// 0x1C8 public UInt32 startupFile_clumpSize; /// 0x1CC public UInt32 startupFile_totalBlocks; /// 0x1D0 public UInt32 startupFile_extents_startBlock0; /// 0x1D4 public UInt32 startupFile_extents_blockCount0; /// 0x1D8 public UInt32 startupFile_extents_startBlock1; /// 0x1E0 public UInt32 startupFile_extents_blockCount1; /// 0x1E4 public UInt32 startupFile_extents_startBlock2; /// 0x1E8 public UInt32 startupFile_extents_blockCount2; /// 0x1EC public UInt32 startupFile_extents_startBlock3; /// 0x1F0 public UInt32 startupFile_extents_blockCount3; /// 0x1F4 public UInt32 startupFile_extents_startBlock4; /// 0x1F8 public UInt32 startupFile_extents_blockCount4; /// 0x1FC public UInt32 startupFile_extents_startBlock5; /// 0x200 public UInt32 startupFile_extents_blockCount5; /// 0x204 public UInt32 startupFile_extents_startBlock6; /// 0x208 public UInt32 startupFile_extents_blockCount6; /// 0x20C public UInt32 startupFile_extents_startBlock7; /// 0x210 public UInt32 startupFile_extents_blockCount7; } public override Errno Mount() { return Errno.NotImplemented; } public override Errno Mount(bool debug) { return Errno.NotImplemented; } public override Errno Unmount() { return Errno.NotImplemented; } public override Errno MapBlock(string path, long fileBlock, ref long deviceBlock) { return Errno.NotImplemented; } public override Errno GetAttributes(string path, ref FileAttributes attributes) { return Errno.NotImplemented; } public override Errno ListXAttr(string path, ref List xattrs) { return Errno.NotImplemented; } public override Errno GetXattr(string path, string xattr, ref byte[] buf) { return Errno.NotImplemented; } public override Errno Read(string path, long offset, long size, ref byte[] buf) { return Errno.NotImplemented; } public override Errno ReadDir(string path, ref List contents) { return Errno.NotImplemented; } public override Errno StatFs(ref FileSystemInfo stat) { return Errno.NotImplemented; } public override Errno Stat(string path, ref FileEntryInfo stat) { return Errno.NotImplemented; } public override Errno ReadLink(string path, ref string dest) { return Errno.NotImplemented; } } }