// 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 vfs import ( "gvisor.dev/gvisor/pkg/abi/linux" "gvisor.dev/gvisor/pkg/sentry/socket/unix/transport" ) // GetDentryOptions contains options to VirtualFilesystem.GetDentryAt() and // FilesystemImpl.GetDentryAt(). type GetDentryOptions struct { // If CheckSearchable is true, FilesystemImpl.GetDentryAt() must check that // the returned Dentry is a directory for which creds has search // permission. CheckSearchable bool } // MkdirOptions contains options to VirtualFilesystem.MkdirAt() and // FilesystemImpl.MkdirAt(). type MkdirOptions struct { // Mode is the file mode bits for the created directory. Mode linux.FileMode // If ForSyntheticMountpoint is true, FilesystemImpl.MkdirAt() may create // the given directory in memory only (as opposed to persistent storage). // The created directory should be able to support the creation of // subdirectories with ForSyntheticMountpoint == true. It does not need to // support the creation of subdirectories with ForSyntheticMountpoint == // false, or files of other types. // // FilesystemImpls are permitted to ignore the ForSyntheticMountpoint // option. // // The ForSyntheticMountpoint option exists because, unlike mount(2), the // OCI Runtime Specification permits the specification of mount points that // do not exist, under the expectation that container runtimes will create // them. (More accurately, the OCI Runtime Specification completely fails // to document this feature, but it's implemented by runc.) // ForSyntheticMountpoint allows such mount points to be created even when // the underlying persistent filesystem is immutable. ForSyntheticMountpoint bool } // MknodOptions contains options to VirtualFilesystem.MknodAt() and // FilesystemImpl.MknodAt(). type MknodOptions struct { // Mode is the file type and mode bits for the created file. Mode linux.FileMode // If Mode specifies a character or block device special file, DevMajor and // DevMinor are the major and minor device numbers for the created device. DevMajor uint32 DevMinor uint32 // Endpoint is the endpoint to bind to the created file, if a socket file is // being created for bind(2) on a Unix domain socket. Endpoint transport.BoundEndpoint } // MountFlags contains flags as specified for mount(2), e.g. MS_NOEXEC. // MS_RDONLY is not part of MountFlags because it's tracked in Mount.writers. type MountFlags struct { // NoExec is equivalent to MS_NOEXEC. NoExec bool // NoATime is equivalent to MS_NOATIME and indicates that the // filesystem should not update access time in-place. NoATime bool // NoDev is equivalent to MS_NODEV and indicates that the // filesystem should not allow access to devices (special files). // TODO(gVisor.dev/issue/3186): respect this flag in non FUSE // filesystems. NoDev bool // NoSUID is equivalent to MS_NOSUID and indicates that the // filesystem should not honor set-user-ID and set-group-ID bits or // file capabilities when executing programs. NoSUID bool } // MountOptions contains options to VirtualFilesystem.MountAt(). type MountOptions struct { // Flags contains flags as specified for mount(2), e.g. MS_NOEXEC. Flags MountFlags // ReadOnly is equivalent to MS_RDONLY. ReadOnly bool // GetFilesystemOptions contains options to FilesystemType.GetFilesystem(). GetFilesystemOptions GetFilesystemOptions // InternalMount indicates whether the mount operation is coming from the // application, i.e. through mount(2). If InternalMount is true, allow the use // of filesystem types for which RegisterFilesystemTypeOptions.AllowUserMount // == false. InternalMount bool } // OpenOptions contains options to VirtualFilesystem.OpenAt() and // FilesystemImpl.OpenAt(). type OpenOptions struct { // Flags contains access mode and flags as specified for open(2). // // FilesystemImpls are responsible for implementing the following flags: // O_RDONLY, O_WRONLY, O_RDWR, O_APPEND, O_CREAT, O_DIRECT, O_DSYNC, // O_EXCL, O_NOATIME, O_NOCTTY, O_NONBLOCK, O_PATH, O_SYNC, O_TMPFILE, and // O_TRUNC. VFS is responsible for handling O_DIRECTORY, O_LARGEFILE, and // O_NOFOLLOW. VFS users are responsible for handling O_CLOEXEC, since file // descriptors are mostly outside the scope of VFS. Flags uint32 // If FilesystemImpl.OpenAt() creates a file, Mode is the file mode for the // created file. Mode linux.FileMode // FileExec is set when the file is being opened to be executed. // VirtualFilesystem.OpenAt() checks that the caller has execute permissions // on the file, that the file is a regular file, and that the mount doesn't // have MS_NOEXEC set. FileExec bool } // ReadOptions contains options to FileDescription.PRead(), // FileDescriptionImpl.PRead(), FileDescription.Read(), and // FileDescriptionImpl.Read(). type ReadOptions struct { // Flags contains flags as specified for preadv2(2). Flags uint32 } // RenameOptions contains options to VirtualFilesystem.RenameAt() and // FilesystemImpl.RenameAt(). type RenameOptions struct { // Flags contains flags as specified for renameat2(2). Flags uint32 // If MustBeDir is true, the renamed file must be a directory. MustBeDir bool } // SetStatOptions contains options to VirtualFilesystem.SetStatAt(), // FilesystemImpl.SetStatAt(), FileDescription.SetStat(), and // FileDescriptionImpl.SetStat(). type SetStatOptions struct { // Stat is the metadata that should be set. Only fields indicated by // Stat.Mask should be set. // // If Stat specifies that a timestamp should be set, // FilesystemImpl.SetStatAt() and FileDescriptionImpl.SetStat() must // special-case StatxTimestamp.Nsec == UTIME_NOW as described by // utimensat(2); however, they do not need to check for StatxTimestamp.Nsec // == UTIME_OMIT (VFS users must unset the corresponding bit in Stat.Mask // instead). Stat linux.Statx // NeedWritePerm indicates that write permission on the file is needed for // this operation. This is needed for truncate(2) (note that ftruncate(2) // does not require the same check--instead, it checks that the fd is // writable). NeedWritePerm bool } // BoundEndpointOptions contains options to VirtualFilesystem.BoundEndpointAt() // and FilesystemImpl.BoundEndpointAt(). type BoundEndpointOptions struct { // Addr is the path of the file whose socket endpoint is being retrieved. // It is generally irrelevant: most endpoints are stored at a dentry that // was created through a bind syscall, so the path can be stored on creation. // However, if the endpoint was created in FilesystemImpl.BoundEndpointAt(), // then we may not know what the original bind address was. // // For example, if connect(2) is called with address "foo" which corresponds // a remote named socket in goferfs, we need to generate an endpoint wrapping // that file. In this case, we can use Addr to set the endpoint address to // "foo". Note that Addr is only a best-effort attempt--we still do not know // the exact address that was used on the remote fs to bind the socket (it // may have been "foo", "./foo", etc.). Addr string } // GetXattrOptions contains options to VirtualFilesystem.GetXattrAt(), // FilesystemImpl.GetXattrAt(), FileDescription.GetXattr(), and // FileDescriptionImpl.GetXattr(). type GetXattrOptions struct { // Name is the name of the extended attribute to retrieve. Name string // Size is the maximum value size that the caller will tolerate. If the value // is larger than size, getxattr methods may return ERANGE, but they are also // free to ignore the hint entirely (i.e. the value returned may be larger // than size). All size checking is done independently at the syscall layer. Size uint64 } // SetXattrOptions contains options to VirtualFilesystem.SetXattrAt(), // FilesystemImpl.SetXattrAt(), FileDescription.SetXattr(), and // FileDescriptionImpl.SetXattr(). type SetXattrOptions struct { // Name is the name of the extended attribute being mutated. Name string // Value is the extended attribute's new value. Value string // Flags contains flags as specified for setxattr/lsetxattr/fsetxattr(2). Flags uint32 } // StatOptions contains options to VirtualFilesystem.StatAt(), // FilesystemImpl.StatAt(), FileDescription.Stat(), and // FileDescriptionImpl.Stat(). type StatOptions struct { // Mask is the set of fields in the returned Statx that the FilesystemImpl // or FileDescriptionImpl should provide. Bits are as in linux.Statx.Mask. // // The FilesystemImpl or FileDescriptionImpl may return fields not // requested in Mask, and may fail to return fields requested in Mask that // are not supported by the underlying filesystem implementation, without // returning an error. Mask uint32 // Sync specifies the synchronization required, and is one of // linux.AT_STATX_SYNC_AS_STAT (which is 0, and therefore the default), // linux.AT_STATX_SYNC_FORCE_SYNC, or linux.AT_STATX_SYNC_DONT_SYNC. Sync uint32 } // UmountOptions contains options to VirtualFilesystem.UmountAt(). type UmountOptions struct { // Flags contains flags as specified for umount2(2). Flags uint32 } // WriteOptions contains options to FileDescription.PWrite(), // FileDescriptionImpl.PWrite(), FileDescription.Write(), and // FileDescriptionImpl.Write(). type WriteOptions struct { // Flags contains flags as specified for pwritev2(2). Flags uint32 }