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c357eed5a5
typos in ECDSA certificate names; bz#2787 reported by Mike Gerow OpenBSD-Commit-ID: 824938b6aba1b31321324ba1f56c05f84834b163
295 lines
11 KiB
Plaintext
295 lines
11 KiB
Plaintext
This document describes a simple public-key certificate authentication
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system for use by SSH.
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Background
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----------
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The SSH protocol currently supports a simple public key authentication
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mechanism. Unlike other public key implementations, SSH eschews the use
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of X.509 certificates and uses raw keys. This approach has some benefits
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relating to simplicity of configuration and minimisation of attack
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surface, but it does not support the important use-cases of centrally
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managed, passwordless authentication and centrally certified host keys.
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These protocol extensions build on the simple public key authentication
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system already in SSH to allow certificate-based authentication. The
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certificates used are not traditional X.509 certificates, with numerous
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options and complex encoding rules, but something rather more minimal: a
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key, some identity information and usage options that have been signed
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with some other trusted key.
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A sshd server may be configured to allow authentication via certified
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keys, by extending the existing ~/.ssh/authorized_keys mechanism to
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allow specification of certification authority keys in addition to
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raw user keys. The ssh client will support automatic verification of
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acceptance of certified host keys, by adding a similar ability to
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specify CA keys in ~/.ssh/known_hosts.
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Certified keys are represented using new key types:
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ssh-rsa-cert-v01@openssh.com
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ssh-dss-cert-v01@openssh.com
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ecdsa-sha2-nistp256-cert-v01@openssh.com
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ecdsa-sha2-nistp384-cert-v01@openssh.com
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ecdsa-sha2-nistp521-cert-v01@openssh.com
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These include certification information along with the public key
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that is used to sign challenges. ssh-keygen performs the CA signing
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operation.
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Protocol extensions
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-------------------
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The SSH wire protocol includes several extensibility mechanisms.
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These modifications shall take advantage of namespaced public key
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algorithm names to add support for certificate authentication without
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breaking the protocol - implementations that do not support the
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extensions will simply ignore them.
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Authentication using the new key formats described below proceeds
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using the existing SSH "publickey" authentication method described
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in RFC4252 section 7.
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New public key formats
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----------------------
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The certificate key types take a similar high-level format (note: data
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types and encoding are as per RFC4251 section 5). The serialised wire
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encoding of these certificates is also used for storing them on disk.
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#define SSH_CERT_TYPE_USER 1
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#define SSH_CERT_TYPE_HOST 2
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RSA certificate
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string "ssh-rsa-cert-v01@openssh.com"
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string nonce
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mpint e
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mpint n
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uint64 serial
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uint32 type
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string key id
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string valid principals
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uint64 valid after
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uint64 valid before
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string critical options
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string extensions
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string reserved
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string signature key
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string signature
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DSA certificate
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string "ssh-dss-cert-v01@openssh.com"
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string nonce
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mpint p
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mpint q
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mpint g
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mpint y
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uint64 serial
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uint32 type
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string key id
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string valid principals
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uint64 valid after
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uint64 valid before
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string critical options
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string extensions
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string reserved
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string signature key
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string signature
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ECDSA certificate
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string "ecdsa-sha2-nistp256-cert-v01@openssh.com" |
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"ecdsa-sha2-nistp384-cert-v01@openssh.com" |
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"ecdsa-sha2-nistp521-cert-v01@openssh.com"
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string nonce
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string curve
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string public_key
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uint64 serial
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uint32 type
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string key id
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string valid principals
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uint64 valid after
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uint64 valid before
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string critical options
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string extensions
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string reserved
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string signature key
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string signature
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ED25519 certificate
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string "ssh-ed25519-cert-v01@openssh.com"
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string nonce
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string pk
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uint64 serial
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uint32 type
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string key id
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string valid principals
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uint64 valid after
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uint64 valid before
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string critical options
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string extensions
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string reserved
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string signature key
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string signature
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The nonce field is a CA-provided random bitstring of arbitrary length
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(but typically 16 or 32 bytes) included to make attacks that depend on
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inducing collisions in the signature hash infeasible.
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e and n are the RSA exponent and public modulus respectively.
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p, q, g, y are the DSA parameters as described in FIPS-186-2.
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curve and public key are respectively the ECDSA "[identifier]" and "Q"
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defined in section 3.1 of RFC5656.
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pk is the encoded Ed25519 public key as defined by
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draft-josefsson-eddsa-ed25519-03.
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serial is an optional certificate serial number set by the CA to
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provide an abbreviated way to refer to certificates from that CA.
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If a CA does not wish to number its certificates it must set this
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field to zero.
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type specifies whether this certificate is for identification of a user
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or a host using a SSH_CERT_TYPE_... value.
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key id is a free-form text field that is filled in by the CA at the time
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of signing; the intention is that the contents of this field are used to
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identify the identity principal in log messages.
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"valid principals" is a string containing zero or more principals as
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strings packed inside it. These principals list the names for which this
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certificate is valid; hostnames for SSH_CERT_TYPE_HOST certificates and
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usernames for SSH_CERT_TYPE_USER certificates. As a special case, a
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zero-length "valid principals" field means the certificate is valid for
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any principal of the specified type.
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"valid after" and "valid before" specify a validity period for the
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certificate. Each represents a time in seconds since 1970-01-01
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00:00:00. A certificate is considered valid if:
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valid after <= current time < valid before
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criticial options is a set of zero or more key options encoded as
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below. All such options are "critical" in the sense that an implementation
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must refuse to authorise a key that has an unrecognised option.
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extensions is a set of zero or more optional extensions. These extensions
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are not critical, and an implementation that encounters one that it does
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not recognise may safely ignore it.
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Generally, critical options are used to control features that restrict
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access where extensions are used to enable features that grant access.
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This ensures that certificates containing unknown restrictions do not
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inadvertently grant access while allowing new protocol features to be
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enabled via extensions without breaking certificates' backwards
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compatibility.
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The reserved field is currently unused and is ignored in this version of
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the protocol.
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The signature key field contains the CA key used to sign the
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certificate. The valid key types for CA keys are ssh-rsa,
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ssh-dss, ssh-ed25519 and the ECDSA types ecdsa-sha2-nistp256,
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ecdsa-sha2-nistp384, ecdsa-sha2-nistp521. "Chained" certificates, where
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the signature key type is a certificate type itself are NOT supported.
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Note that it is possible for a RSA certificate key to be signed by a
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Ed25519 or ECDSA CA key and vice-versa.
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signature is computed over all preceding fields from the initial string
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up to, and including the signature key. Signatures are computed and
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encoded according to the rules defined for the CA's public key algorithm
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(RFC4253 section 6.6 for ssh-rsa and ssh-dss, RFC5656 for the ECDSA
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types), and draft-josefsson-eddsa-ed25519-03 for Ed25519.
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Critical options
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----------------
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The critical options section of the certificate specifies zero or more
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options on the certificates validity. The format of this field
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is a sequence of zero or more tuples:
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string name
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string data
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Options must be lexically ordered by "name" if they appear in the
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sequence. Each named option may only appear once in a certificate.
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The name field identifies the option and the data field encodes
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option-specific information (see below). All options are
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"critical", if an implementation does not recognise a option
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then the validating party should refuse to accept the certificate.
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Custom options should append the originating author or organisation's
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domain name to the option name, e.g. "my-option@example.com".
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No critical options are defined for host certificates at present. The
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supported user certificate options and the contents and structure of
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their data fields are:
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Name Format Description
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-----------------------------------------------------------------------------
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force-command string Specifies a command that is executed
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(replacing any the user specified on the
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ssh command-line) whenever this key is
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used for authentication.
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source-address string Comma-separated list of source addresses
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from which this certificate is accepted
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for authentication. Addresses are
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specified in CIDR format (nn.nn.nn.nn/nn
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or hhhh::hhhh/nn).
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If this option is not present then
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certificates may be presented from any
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source address.
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Extensions
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----------
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The extensions section of the certificate specifies zero or more
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non-critical certificate extensions. The encoding and ordering of
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extensions in this field is identical to that of the critical options,
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as is the requirement that each name appear only once.
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If an implementation does not recognise an extension, then it should
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ignore it.
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Custom options should append the originating author or organisation's
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domain name to the option name, e.g. "my-option@example.com".
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No extensions are defined for host certificates at present. The
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supported user certificate extensions and the contents and structure of
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their data fields are:
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Name Format Description
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-----------------------------------------------------------------------------
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permit-X11-forwarding empty Flag indicating that X11 forwarding
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should be permitted. X11 forwarding will
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be refused if this option is absent.
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permit-agent-forwarding empty Flag indicating that agent forwarding
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should be allowed. Agent forwarding
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must not be permitted unless this
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option is present.
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permit-port-forwarding empty Flag indicating that port-forwarding
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should be allowed. If this option is
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not present then no port forwarding will
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be allowed.
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permit-pty empty Flag indicating that PTY allocation
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should be permitted. In the absence of
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this option PTY allocation will be
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disabled.
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permit-user-rc empty Flag indicating that execution of
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~/.ssh/rc should be permitted. Execution
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of this script will not be permitted if
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this option is not present.
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$OpenBSD: PROTOCOL.certkeys,v 1.13 2017/11/03 02:32:19 djm Exp $
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