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133 lines
6.2 KiB
Plaintext
133 lines
6.2 KiB
Plaintext
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For notes about internationalization, see README-NLS.
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EncFS is a program which provides an encrypted virtual filesystem for Linux
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using the FUSE kernel module ( see http://sourceforge.net/projects/avf to
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download the latest version of FUSE ). FUSE provides a loadable kernel module
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which exports a filesystem interface to user-mode. EncFS runs entirely in
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user-mode and acts as a transparent encrypted filesystem.
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Usage:
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- To see command line options, see the man page for encfs and encfsctl, or for
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brief usage message, run the programs without an argument (or '-h'):
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% encfs -h
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% man encfs
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- To create a new encrypted filesystem:
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% encfs [source dir] [destination mount point]
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eg.: "encfs ~/.crypt ~/crypt". Both directories should already exist,
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although Encfs will ask if it can create them if they do not. If the
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"~/.crypt" directory does not already contain encrypted filesystem data,
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then the user is prompted for a password for the new encryption directory.
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The encrypted files will be stored in ~/.crypt, and plaintext access will be
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through ~/crypt
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- To mount an existing filesystem:
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% encfs [source dir] [destination mount point]
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This works just like creating a new filesystem. If the Encfs control file
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is found in the directory, then an attempt is made to mount an existing
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filesystem. If the control file is not found, then the filesystem is
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created.
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Technology:
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- Encfs uses algorithms from third-party libraries (OpenSSL is the default) to
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encrypt data and filenames.
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- a user supplied password is used to decrypt a volume key, and the volume key
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is used for encrypting all file names and contents. This makes it possible
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to change the password without needing to re-encrypt all files.
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- EncFS has two encryption modes, which are used in different places:
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- Stream encryption:
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Used for filenames and partial blocks at the end of files.
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The cipher is run in CFB stream mode in multiple passes over the data,
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with data order reversal between passes to make data more
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interdependent.
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- Block encryption:
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Fixed size filesystem blocks are encrypted using the cipher in CBC
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mode. The filesystem block size is a multiple of the cipher block
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size, and is configurable on filesystem creation and can be up to 4096
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bytes in size. Each block has a deterministic initialization vector
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which allows for simple random access to blocks within a file.
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- Filename encryption:
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Filenames are encrypted using either a stream mode or a block mode, in both
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cases with an initialization vector based on the HMAC checksum of the
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filename.
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Using a deterministic initial vector allows fast directory lookups, as no
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salt value needs to be looked up when converting from plaintext name to
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encrypted name. It also means very similar filenames (such as "foo1" and
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"foo2") will encrypt to very different values, to frustrate any attempt to
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see how closely related two files are based on their encrypted names.
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- Data blocks are handled in fixed size blocks (64 byte blocks for Encfs
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versions 0.2 - 0.6, and user specified sizes in newer versions of Encfs,
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defaulting to 512 byte block). The block size is set during creation of the
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filesystem and is constant thereafter.
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Full filesystem blocks are encrypted in the cipher's block mode as described
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above. Partial filesystem blocks are encrypted using the cipher's stream
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mode, which involves multiple passes over the data along with data
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reordering to make the data in the partial block highly interdependent.
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For both modes this means that a change to a byte in the encrypted stream
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may affecting several bytes in the deciphered stream. This makes it hard
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for any change at all to go unnoticed.
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An additional option is to store Message Authentication Codes with each
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filesystem block. This adds about 8 bytes of overhead per block and a
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large performance penalty, but makes it possible detect any modification
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within a block.
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Also during filesystem creation, one can enable per-file initialization
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vectors. This causes a header with a random initialization vector to be
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maintained with each file. Each file then has its own 64 bit initialization
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vector which is augmented by the block number - so that each block within a
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file has a unique initialization vector. This makes it infeasible to copy a
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whole block from one file to another.
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Backward Compatibility:
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At the top level of the raw (encrypted) storage for an EncFS filesystem is a
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configuration file, created automatically by EncFS when a new filesystem is
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made.
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In Encfs versions 0.2 to 0.6, the file was called ".encfs3" - meaning
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version 3 of the Encfs configuration file format (earlier versions 1 and 2
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were prior to the encfs public release). EncFS 1.0.x used ".encfs4", and
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the Encfs 1.1.x uses yet another format (".encfs5"). The encfsctl program
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can be used to show information about a filesystem.
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Encfs 1.1 can read and write to existing filesystems, but older versions
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will not be able to mount a filesystem created by a newer version, as the
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newer versions use algorithms and/or new options which were not previously
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available.
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Utility:
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In addition to the "encfs" main program, a utility "encfsctl" has been
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provided which can perform some operations on encfs filesystems. Encfsctl
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can display information about the filesystem for the curious (the encryption
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algorithm used, key length, block size), and more importantly it can also
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change the user-supplied password used to encrypt the volume key.
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Dependencies:
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Encfs uses the OpenSSL toolkit (http://www.openssl.org) by default.
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OpenSSL is not covered by the GPL, and some people are concerned about the
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licenses being incompatible. Although I believe it should be clear that I
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intended to allow linking encfs with OpenSSL, I will make it more explicit:
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As a special exception to encfs's GPL license, the copyright holders give
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permission to link the code or portions of this program with the OpenSSL
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library, and distribute linked combinations including the two. This
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exception should be construed as narrowly as possible to allow OpenSSL to be
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used and distributed as part of encfs.
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