xref: /openbmc/qemu/docs/system/secrets.rst (revision d2dfe0b5)
1.. _secret data:
2
3Providing secret data to QEMU
4-----------------------------
5
6There are a variety of objects in QEMU which require secret data to be provided
7by the administrator or management application. For example, network block
8devices often require a password, LUKS block devices require a passphrase to
9unlock key material, remote desktop services require an access password.
10QEMU has a general purpose mechanism for providing secret data to QEMU in a
11secure manner, using the ``secret`` object type.
12
13At startup this can be done using the ``-object secret,...`` command line
14argument. At runtime this can be done using the ``object_add`` QMP / HMP
15monitor commands. The examples that follow will illustrate use of ``-object``
16command lines, but they all apply equivalentely in QMP / HMP. When creating
17a ``secret`` object it must be given a unique ID string. This ID is then
18used to identify the object when configuring the thing which need the data.
19
20
21INSECURE: Passing secrets as clear text inline
22~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
23
24**The following should never be done in a production environment or on a
25multi-user host. Command line arguments are usually visible in the process
26listings and are often collected in log files by system monitoring agents
27or bug reporting tools. QMP/HMP commands and their arguments are also often
28logged and attached to bug reports. This all risks compromising secrets that
29are passed inline.**
30
31For the convenience of people debugging / developing with QEMU, it is possible
32to pass secret data inline on the command line.
33
34::
35
36   -object secret,id=secvnc0,data=87539319
37
38
39Again it is possible to provide the data in base64 encoded format, which is
40particularly useful if the data contains binary characters that would clash
41with argument parsing.
42
43::
44
45   -object secret,id=secvnc0,data=ODc1MzkzMTk=,format=base64
46
47
48**Note: base64 encoding does not provide any security benefit.**
49
50Passing secrets as clear text via a file
51~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
52
53The simplest approach to providing data securely is to use a file to store
54the secret:
55
56::
57
58   -object secret,id=secvnc0,file=vnc-password.txt
59
60
61In this example the file ``vnc-password.txt`` contains the plain text secret
62data. It is important to note that the contents of the file are treated as an
63opaque blob. The entire raw file contents is used as the value, thus it is
64important not to mistakenly add any trailing newline character in the file if
65this newline is not intended to be part of the secret data.
66
67In some cases it might be more convenient to pass the secret data in base64
68format and have QEMU decode to get the raw bytes before use:
69
70::
71
72   -object secret,id=sec0,file=vnc-password.txt,format=base64
73
74
75The file should generally be given mode ``0600`` or ``0400`` permissions, and
76have its user/group ownership set to the same account that the QEMU process
77will be launched under. If using mandatory access control such as SELinux, then
78the file should be labelled to only grant access to the specific QEMU process
79that needs access. This will prevent other processes/users from compromising the
80secret data.
81
82
83Passing secrets as cipher text inline
84~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
85
86To address the insecurity of passing secrets inline as clear text, it is
87possible to configure a second secret as an AES key to use for decrypting
88the data.
89
90The secret used as the AES key must always be configured using the file based
91storage mechanism:
92
93::
94
95   -object secret,id=secmaster,file=masterkey.data,format=base64
96
97
98In this case the ``masterkey.data`` file would be initialized with 32
99cryptographically secure random bytes, which are then base64 encoded.
100The contents of this file will by used as an AES-256 key to encrypt the
101real secret that can now be safely passed to QEMU inline as cipher text
102
103::
104
105   -object secret,id=secvnc0,keyid=secmaster,data=BASE64-CIPHERTEXT,iv=BASE64-IV,format=base64
106
107
108In this example ``BASE64-CIPHERTEXT`` is the result of AES-256-CBC encrypting
109the secret with ``masterkey.data`` and then base64 encoding the ciphertext.
110The ``BASE64-IV`` data is 16 random bytes which have been base64 encrypted.
111These bytes are used as the initialization vector for the AES-256-CBC value.
112
113A single master key can be used to encrypt all subsequent secrets, **but it is
114critical that a different initialization vector is used for every secret**.
115
116Passing secrets via the Linux keyring
117~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
118
119The earlier mechanisms described are platform agnostic. If using QEMU on a Linux
120host, it is further possible to pass secrets to QEMU using the Linux keyring:
121
122::
123
124   -object secret_keyring,id=secvnc0,serial=1729
125
126
127This instructs QEMU to load data from the Linux keyring secret identified by
128the serial number ``1729``. It is possible to combine use of the keyring with
129other features mentioned earlier such as base64 encoding:
130
131::
132
133   -object secret_keyring,id=secvnc0,serial=1729,format=base64
134
135
136and also encryption with a master key:
137
138::
139
140   -object secret_keyring,id=secvnc0,keyid=secmaster,serial=1729,iv=BASE64-IV
141
142
143Best practice
144~~~~~~~~~~~~~
145
146It is recommended for production deployments to use a master key secret, and
147then pass all subsequent inline secrets encrypted with the master key.
148
149Each QEMU instance must have a distinct master key, and that must be generated
150from a cryptographically secure random data source. The master key should be
151deleted immediately upon QEMU shutdown. If passing the master key as a file,
152the key file must have access control rules applied that restrict access to
153just the one QEMU process that is intended to use it. Alternatively the Linux
154keyring can be used to pass the master key to QEMU.
155
156The secrets for individual QEMU device backends must all then be encrypted
157with this master key.
158
159This procedure helps ensure that the individual secrets for QEMU backends will
160not be compromised, even if ``-object`` CLI args or ``object_add`` monitor
161commands are collected in log files and attached to public bug support tickets.
162The only item that needs strongly protecting is the master key file.
163