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Linux/Documentation/security/keys/ecryptfs.rst

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Diff markup

Differences between /Documentation/security/keys/ecryptfs.rst (Version linux-6.12-rc7) and /Documentation/security/keys/ecryptfs.rst (Version linux-6.5.13)


  1 ==========================================          1 ==========================================
  2 Encrypted keys for the eCryptfs filesystem          2 Encrypted keys for the eCryptfs filesystem
  3 ==========================================          3 ==========================================
  4                                                     4 
  5 ECryptfs is a stacked filesystem which transpa      5 ECryptfs is a stacked filesystem which transparently encrypts and decrypts each
  6 file using a randomly generated File Encryptio      6 file using a randomly generated File Encryption Key (FEK).
  7                                                     7 
  8 Each FEK is in turn encrypted with a File Encr      8 Each FEK is in turn encrypted with a File Encryption Key Encryption Key (FEKEK)
  9 either in kernel space or in user space with a      9 either in kernel space or in user space with a daemon called 'ecryptfsd'.  In
 10 the former case the operation is performed dir     10 the former case the operation is performed directly by the kernel CryptoAPI
 11 using a key, the FEKEK, derived from a user pr     11 using a key, the FEKEK, derived from a user prompted passphrase;  in the latter
 12 the FEK is encrypted by 'ecryptfsd' with the h     12 the FEK is encrypted by 'ecryptfsd' with the help of external libraries in order
 13 to support other mechanisms like public key cr     13 to support other mechanisms like public key cryptography, PKCS#11 and TPM based
 14 operations.                                        14 operations.
 15                                                    15 
 16 The data structure defined by eCryptfs to cont     16 The data structure defined by eCryptfs to contain information required for the
 17 FEK decryption is called authentication token      17 FEK decryption is called authentication token and, currently, can be stored in a
 18 kernel key of the 'user' type, inserted in the     18 kernel key of the 'user' type, inserted in the user's session specific keyring
 19 by the userspace utility 'mount.ecryptfs' ship     19 by the userspace utility 'mount.ecryptfs' shipped with the package
 20 'ecryptfs-utils'.                                  20 'ecryptfs-utils'.
 21                                                    21 
 22 The 'encrypted' key type has been extended wit     22 The 'encrypted' key type has been extended with the introduction of the new
 23 format 'ecryptfs' in order to be used in conju     23 format 'ecryptfs' in order to be used in conjunction with the eCryptfs
 24 filesystem.  Encrypted keys of the newly intro     24 filesystem.  Encrypted keys of the newly introduced format store an
 25 authentication token in its payload with a FEK     25 authentication token in its payload with a FEKEK randomly generated by the
 26 kernel and protected by the parent master key.     26 kernel and protected by the parent master key.
 27                                                    27 
 28 In order to avoid known-plaintext attacks, the     28 In order to avoid known-plaintext attacks, the datablob obtained through
 29 commands 'keyctl print' or 'keyctl pipe' does      29 commands 'keyctl print' or 'keyctl pipe' does not contain the overall
 30 authentication token, which content is well kn     30 authentication token, which content is well known, but only the FEKEK in
 31 encrypted form.                                    31 encrypted form.
 32                                                    32 
 33 The eCryptfs filesystem may really benefit fro     33 The eCryptfs filesystem may really benefit from using encrypted keys in that the
 34 required key can be securely generated by an A     34 required key can be securely generated by an Administrator and provided at boot
 35 time after the unsealing of a 'trusted' key in     35 time after the unsealing of a 'trusted' key in order to perform the mount in a
 36 controlled environment.  Another advantage is      36 controlled environment.  Another advantage is that the key is not exposed to
 37 threats of malicious software, because it is a     37 threats of malicious software, because it is available in clear form only at
 38 kernel level.                                      38 kernel level.
 39                                                    39 
 40 Usage::                                            40 Usage::
 41                                                    41 
 42    keyctl add encrypted name "new ecryptfs key     42    keyctl add encrypted name "new ecryptfs key-type:master-key-name keylen" ring
 43    keyctl add encrypted name "load hex_blob" r     43    keyctl add encrypted name "load hex_blob" ring
 44    keyctl update keyid "update key-type:master     44    keyctl update keyid "update key-type:master-key-name"
 45                                                    45 
 46 Where::                                            46 Where::
 47                                                    47 
 48         name:= '<16 hexadecimal characters>'       48         name:= '<16 hexadecimal characters>'
 49         key-type:= 'trusted' | 'user'              49         key-type:= 'trusted' | 'user'
 50         keylen:= 64                                50         keylen:= 64
 51                                                    51 
 52                                                    52 
 53 Example of encrypted key usage with the eCrypt     53 Example of encrypted key usage with the eCryptfs filesystem:
 54                                                    54 
 55 Create an encrypted key "1000100010001000" of      55 Create an encrypted key "1000100010001000" of length 64 bytes with format
 56 'ecryptfs' and save it using a previously load     56 'ecryptfs' and save it using a previously loaded user key "test"::
 57                                                    57 
 58     $ keyctl add encrypted 1000100010001000 "n     58     $ keyctl add encrypted 1000100010001000 "new ecryptfs user:test 64" @u
 59     19184530                                       59     19184530
 60                                                    60 
 61     $ keyctl print 19184530                        61     $ keyctl print 19184530
 62     ecryptfs user:test 64 490045d4bfe48c99f0d4     62     ecryptfs user:test 64 490045d4bfe48c99f0d465fbbbb79e7500da954178e2de0697
 63     dd85091f5450a0511219e9f7cd70dcd49803818146     63     dd85091f5450a0511219e9f7cd70dcd498038181466f78ac8d4c19504fcc72402bfc41c2
 64     f253a41b7507ccaa4b2b03fff19a69d1cc0b16e717     64     f253a41b7507ccaa4b2b03fff19a69d1cc0b16e71746473f023a95488b6edfd86f7fdd40
 65     9d292e4bacded1258880122dd553a661               65     9d292e4bacded1258880122dd553a661
 66                                                    66 
 67     $ keyctl pipe 19184530 > ecryptfs.blob         67     $ keyctl pipe 19184530 > ecryptfs.blob
 68                                                    68 
 69 Mount an eCryptfs filesystem using the created     69 Mount an eCryptfs filesystem using the created encrypted key "1000100010001000"
 70 into the '/secret' directory::                     70 into the '/secret' directory::
 71                                                    71 
 72     $ mount -i -t ecryptfs -oecryptfs_sig=1000     72     $ mount -i -t ecryptfs -oecryptfs_sig=1000100010001000,\
 73       ecryptfs_cipher=aes,ecryptfs_key_bytes=3     73       ecryptfs_cipher=aes,ecryptfs_key_bytes=32 /secret /secret
                                                      

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