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author | Ayush Ranjan <ayushranjan@google.com> | 2019-07-11 15:04:23 -0700 |
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committer | gVisor bot <gvisor-bot@google.com> | 2019-07-11 15:05:36 -0700 |
commit | 5242face2eea968f5e3f367f7edfebdd3ae60430 (patch) | |
tree | d9f257d50b35fa179542300e8b9c98634952ac54 /pkg/sentry/fs/ext/disklayout/superblock.go | |
parent | a018b229b57dff92ca0d99079180aa556dacbabc (diff) |
ext: boilerplate code.
Renamed ext4 to ext since we are targeting ext(2/3/4).
Removed fs.go since we are targeting VFS2.
Added ext.go with filesystem struct.
PiperOrigin-RevId: 257689775
Diffstat (limited to 'pkg/sentry/fs/ext/disklayout/superblock.go')
-rw-r--r-- | pkg/sentry/fs/ext/disklayout/superblock.go | 468 |
1 files changed, 468 insertions, 0 deletions
diff --git a/pkg/sentry/fs/ext/disklayout/superblock.go b/pkg/sentry/fs/ext/disklayout/superblock.go new file mode 100644 index 000000000..e4b8f46fb --- /dev/null +++ b/pkg/sentry/fs/ext/disklayout/superblock.go @@ -0,0 +1,468 @@ +// Copyright 2019 The gVisor Authors. +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package disklayout + +// SuperBlock should be implemented by structs representing the ext superblock. +// The superblock holds a lot of information about the enclosing filesystem. +// This interface aims to provide access methods to important information held +// by the superblock. It does NOT expose all fields of the superblock, only the +// ones necessary. This can be expanded when need be. +// +// Location and replication: +// - The superblock is located at offset 1024 in block group 0. +// - Redundant copies of the superblock and group descriptors are kept in +// all groups if SbSparse feature flag is NOT set. If it is set, the +// replicas only exist in groups whose group number is either 0 or a +// power of 3, 5, or 7. +// - There is also a sparse superblock feature v2 in which there are just +// two replicas saved in the block groups pointed by sb.s_backup_bgs. +// +// Replicas should eventually be updated if the superblock is updated. +// +// See https://www.kernel.org/doc/html/latest/filesystems/ext4/globals.html#super-block. +type SuperBlock interface { + // InodesCount returns the total number of inodes in this filesystem. + InodesCount() uint32 + + // BlocksCount returns the total number of data blocks in this filesystem. + BlocksCount() uint64 + + // FreeBlocksCount returns the number of free blocks in this filesystem. + FreeBlocksCount() uint64 + + // FreeInodesCount returns the number of free inodes in this filesystem. + FreeInodesCount() uint32 + + // MountCount returns the number of mounts since the last fsck. + MountCount() uint16 + + // MaxMountCount returns the number of mounts allowed beyond which a fsck is + // needed. + MaxMountCount() uint16 + + // FirstDataBlock returns the absolute block number of the first data block, + // which contains the super block itself. + // + // If the filesystem has 1kb data blocks then this should return 1. For all + // other configurations, this typically returns 0. + // + // The first block group descriptor is in (FirstDataBlock() + 1)th block. + FirstDataBlock() uint32 + + // BlockSize returns the size of one data block in this filesystem. + // This can be calculated by 2^(10 + sb.s_log_block_size). This ensures that + // the smallest block size is 1kb. + BlockSize() uint64 + + // BlocksPerGroup returns the number of data blocks in a block group. + BlocksPerGroup() uint32 + + // ClusterSize returns block cluster size (set during mkfs time by admin). + // This can be calculated by 2^(10 + sb.s_log_cluster_size). This ensures that + // the smallest cluster size is 1kb. + // + // sb.s_log_cluster_size must equal sb.s_log_block_size if bigalloc feature + // is NOT set and consequently BlockSize() = ClusterSize() in that case. + ClusterSize() uint64 + + // ClustersPerGroup returns: + // - number of clusters per group if bigalloc is enabled. + // - BlocksPerGroup() otherwise. + ClustersPerGroup() uint32 + + // InodeSize returns the size of the inode disk record size in bytes. Use this + // to iterate over inode arrays on disk. + // + // In ext2 and ext3: + // - Each inode had a disk record of 128 bytes. + // - The inode struct size was fixed at 128 bytes. + // + // In ext4 its possible to allocate larger on-disk inodes: + // - Inode disk record size = sb.s_inode_size (function return value). + // = 256 (default) + // - Inode struct size = 128 + inode.i_extra_isize. + // = 128 + 32 = 160 (default) + InodeSize() uint16 + + // InodesPerGroup returns the number of inodes in a block group. + InodesPerGroup() uint32 + + // BgDescSize returns the size of the block group descriptor struct. + // + // In ext2, ext3, ext4 (without 64-bit feature), the block group descriptor + // is only 32 bytes long. + // In ext4 with 64-bit feature, the block group descriptor expands to AT LEAST + // 64 bytes. It might be bigger than that. + BgDescSize() uint16 + + // CompatibleFeatures returns the CompatFeatures struct which holds all the + // compatible features this fs supports. + CompatibleFeatures() CompatFeatures + + // IncompatibleFeatures returns the CompatFeatures struct which holds all the + // incompatible features this fs supports. + IncompatibleFeatures() IncompatFeatures + + // ReadOnlyCompatibleFeatures returns the CompatFeatures struct which holds all the + // readonly compatible features this fs supports. + ReadOnlyCompatibleFeatures() RoCompatFeatures + + // Magic() returns the magic signature which must be 0xef53. + Magic() uint16 + + // Revision returns the superblock revision. Superblock struct fields from + // offset 0x54 till 0x150 should only be used if superblock has DynamicRev. + Revision() SbRevision +} + +// SbRevision is the type for superblock revisions. +type SbRevision int + +// Super block revisions. +const ( + // OldRev is the good old (original) format. + OldRev SbRevision = 0 + + // DynamicRev is v2 format w/ dynamic inode sizes. + DynamicRev SbRevision = 1 +) + +// Superblock compatible features. +// This is not exhaustive, unused features are not listed. +const ( + // SbDirPrealloc indicates directory preallocation. + SbDirPrealloc = 0x1 + + // SbHasJournal indicates the presence of a journal. jbd2 should only work + // with this being set. + SbHasJournal = 0x4 + + // SbExtAttr indicates extended attributes support. + SbExtAttr = 0x8 + + // SbResizeInode indicates that the fs has reserved GDT blocks (right after + // group descriptors) for fs expansion. + SbResizeInode = 0x10 + + // SbDirIndex indicates that the fs has directory indices. + SbDirIndex = 0x20 + + // SbSparseV2 stands for Sparse superblock version 2. + SbSparseV2 = 0x200 +) + +// CompatFeatures represents a superblock's compatible feature set. If the +// kernel does not understand any of these feature, it can still read/write +// to this fs. +type CompatFeatures struct { + DirPrealloc bool + HasJournal bool + ExtAttr bool + ResizeInode bool + DirIndex bool + SparseV2 bool +} + +// ToInt converts superblock compatible features back to its 32-bit rep. +func (f CompatFeatures) ToInt() uint32 { + var res uint32 + + if f.DirPrealloc { + res |= SbDirPrealloc + } + if f.HasJournal { + res |= SbHasJournal + } + if f.ExtAttr { + res |= SbExtAttr + } + if f.ResizeInode { + res |= SbResizeInode + } + if f.DirIndex { + res |= SbDirIndex + } + if f.SparseV2 { + res |= SbSparseV2 + } + + return res +} + +// CompatFeaturesFromInt converts the integer representation of superblock +// compatible features to CompatFeatures struct. +func CompatFeaturesFromInt(f uint32) CompatFeatures { + return CompatFeatures{ + DirPrealloc: f&SbDirPrealloc > 0, + HasJournal: f&SbHasJournal > 0, + ExtAttr: f&SbExtAttr > 0, + ResizeInode: f&SbResizeInode > 0, + DirIndex: f&SbDirIndex > 0, + SparseV2: f&SbSparseV2 > 0, + } +} + +// Superblock incompatible features. +// This is not exhaustive, unused features are not listed. +const ( + // SbDirentFileType indicates that directory entries record the file type. + // We should use struct ext4_dir_entry_2 for dirents then. + SbDirentFileType = 0x2 + + // SbRecovery indicates that the filesystem needs recovery. + SbRecovery = 0x4 + + // SbJournalDev indicates that the filesystem has a separate journal device. + SbJournalDev = 0x8 + + // SbMetaBG indicates that the filesystem is using Meta block groups. Moves + // the group descriptors from the congested first block group into the first + // group of each metablock group to increase the maximum block groups limit + // and hence support much larger filesystems. + // + // See https://www.kernel.org/doc/html/latest/filesystems/ext4/overview.html#meta-block-groups. + SbMetaBG = 0x10 + + // SbExtents indicates that the filesystem uses extents. Must be set in ext4 + // filesystems. + SbExtents = 0x40 + + // SbIs64Bit indicates that this filesystem addresses blocks with 64-bits. + // Hence can support 2^64 data blocks. + SbIs64Bit = 0x80 + + // SbMMP indicates that this filesystem has multiple mount protection. + // + // See https://www.kernel.org/doc/html/latest/filesystems/ext4/globals.html#multiple-mount-protection. + SbMMP = 0x100 + + // SbFlexBg indicates that this filesystem has flexible block groups. Several + // block groups are tied into one logical block group so that all the metadata + // for the block groups (bitmaps and inode tables) are close together for + // faster loading. Consequently, large files will be continuous on disk. + // However, this does not affect the placement of redundant superblocks and + // group descriptors. + // + // See https://www.kernel.org/doc/html/latest/filesystems/ext4/overview.html#flexible-block-groups. + SbFlexBg = 0x200 + + // SbLargeDir shows that large directory enabled. Directory htree can be 3 + // levels deep. Directory htrees are allowed to be 2 levels deep otherwise. + SbLargeDir = 0x4000 + + // SbInlineData allows inline data in inodes for really small files. + SbInlineData = 0x8000 + + // SbEncrypted indicates that this fs contains encrypted inodes. + SbEncrypted = 0x10000 +) + +// IncompatFeatures represents a superblock's incompatible feature set. If the +// kernel does not understand any of these feature, it should refuse to mount. +type IncompatFeatures struct { + DirentFileType bool + Recovery bool + JournalDev bool + MetaBG bool + Extents bool + Is64Bit bool + MMP bool + FlexBg bool + LargeDir bool + InlineData bool + Encrypted bool +} + +// ToInt converts superblock incompatible features back to its 32-bit rep. +func (f IncompatFeatures) ToInt() uint32 { + var res uint32 + + if f.DirentFileType { + res |= SbDirentFileType + } + if f.Recovery { + res |= SbRecovery + } + if f.JournalDev { + res |= SbJournalDev + } + if f.MetaBG { + res |= SbMetaBG + } + if f.Extents { + res |= SbExtents + } + if f.Is64Bit { + res |= SbIs64Bit + } + if f.MMP { + res |= SbMMP + } + if f.FlexBg { + res |= SbFlexBg + } + if f.LargeDir { + res |= SbLargeDir + } + if f.InlineData { + res |= SbInlineData + } + if f.Encrypted { + res |= SbEncrypted + } + + return res +} + +// IncompatFeaturesFromInt converts the integer representation of superblock +// incompatible features to IncompatFeatures struct. +func IncompatFeaturesFromInt(f uint32) IncompatFeatures { + return IncompatFeatures{ + DirentFileType: f&SbDirentFileType > 0, + Recovery: f&SbRecovery > 0, + JournalDev: f&SbJournalDev > 0, + MetaBG: f&SbMetaBG > 0, + Extents: f&SbExtents > 0, + Is64Bit: f&SbIs64Bit > 0, + MMP: f&SbMMP > 0, + FlexBg: f&SbFlexBg > 0, + LargeDir: f&SbLargeDir > 0, + InlineData: f&SbInlineData > 0, + Encrypted: f&SbEncrypted > 0, + } +} + +// Superblock readonly compatible features. +// This is not exhaustive, unused features are not listed. +const ( + // SbSparse indicates sparse superblocks. Only groups with number either 0 or + // a power of 3, 5, or 7 will have redundant copies of the superblock and + // block descriptors. + SbSparse = 0x1 + + // SbLargeFile indicates that this fs has been used to store a file >= 2GiB. + SbLargeFile = 0x2 + + // SbHugeFile indicates that this fs contains files whose sizes are + // represented in units of logicals blocks, not 512-byte sectors. + SbHugeFile = 0x8 + + // SbGdtCsum indicates that group descriptors have checksums. + SbGdtCsum = 0x10 + + // SbDirNlink indicates that the new subdirectory limit is 64,999. Ext3 has a + // 32,000 subdirectory limit. + SbDirNlink = 0x20 + + // SbExtraIsize indicates that large inodes exist on this filesystem. + SbExtraIsize = 0x40 + + // SbHasSnapshot indicates the existence of a snapshot. + SbHasSnapshot = 0x80 + + // SbQuota enables usage tracking for all quota types. + SbQuota = 0x100 + + // SbBigalloc maps to the bigalloc feature. When set, the minimum allocation + // unit becomes a cluster rather than a data block. Then block bitmaps track + // clusters, not data blocks. + // + // See https://www.kernel.org/doc/html/latest/filesystems/ext4/overview.html#bigalloc. + SbBigalloc = 0x200 + + // SbMetadataCsum indicates that the fs supports metadata checksumming. + SbMetadataCsum = 0x400 + + // SbReadOnly marks this filesystem as readonly. Should refuse to mount in + // read/write mode. + SbReadOnly = 0x1000 +) + +// RoCompatFeatures represents a superblock's readonly compatible feature set. +// If the kernel does not understand any of these feature, it can still mount +// readonly. But if the user wants to mount read/write, the kernel should +// refuse to mount. +type RoCompatFeatures struct { + Sparse bool + LargeFile bool + HugeFile bool + GdtCsum bool + DirNlink bool + ExtraIsize bool + HasSnapshot bool + Quota bool + Bigalloc bool + MetadataCsum bool + ReadOnly bool +} + +// ToInt converts superblock readonly compatible features to its 32-bit rep. +func (f RoCompatFeatures) ToInt() uint32 { + var res uint32 + + if f.Sparse { + res |= SbSparse + } + if f.LargeFile { + res |= SbLargeFile + } + if f.HugeFile { + res |= SbHugeFile + } + if f.GdtCsum { + res |= SbGdtCsum + } + if f.DirNlink { + res |= SbDirNlink + } + if f.ExtraIsize { + res |= SbExtraIsize + } + if f.HasSnapshot { + res |= SbHasSnapshot + } + if f.Quota { + res |= SbQuota + } + if f.Bigalloc { + res |= SbBigalloc + } + if f.MetadataCsum { + res |= SbMetadataCsum + } + if f.ReadOnly { + res |= SbReadOnly + } + + return res +} + +// RoCompatFeaturesFromInt converts the integer representation of superblock +// readonly compatible features to RoCompatFeatures struct. +func RoCompatFeaturesFromInt(f uint32) RoCompatFeatures { + return RoCompatFeatures{ + Sparse: f&SbSparse > 0, + LargeFile: f&SbLargeFile > 0, + HugeFile: f&SbHugeFile > 0, + GdtCsum: f&SbGdtCsum > 0, + DirNlink: f&SbDirNlink > 0, + ExtraIsize: f&SbExtraIsize > 0, + HasSnapshot: f&SbHasSnapshot > 0, + Quota: f&SbQuota > 0, + Bigalloc: f&SbBigalloc > 0, + MetadataCsum: f&SbMetadataCsum > 0, + ReadOnly: f&SbReadOnly > 0, + } +} |