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699 lines
21 KiB
699 lines
21 KiB
7 years ago
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sshpk
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=========
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Parse, convert, fingerprint and use SSH keys (both public and private) in pure
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node -- no `ssh-keygen` or other external dependencies.
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Supports RSA, DSA, ECDSA (nistp-\*) and ED25519 key types, in PEM (PKCS#1,
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PKCS#8) and OpenSSH formats.
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This library has been extracted from
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[`node-http-signature`](https://github.com/joyent/node-http-signature)
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(work by [Mark Cavage](https://github.com/mcavage) and
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[Dave Eddy](https://github.com/bahamas10)) and
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[`node-ssh-fingerprint`](https://github.com/bahamas10/node-ssh-fingerprint)
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(work by Dave Eddy), with additions (including ECDSA support) by
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[Alex Wilson](https://github.com/arekinath).
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Install
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-------
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```
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npm install sshpk
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```
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Examples
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--------
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```js
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var sshpk = require('sshpk');
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var fs = require('fs');
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/* Read in an OpenSSH-format public key */
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var keyPub = fs.readFileSync('id_rsa.pub');
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var key = sshpk.parseKey(keyPub, 'ssh');
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/* Get metadata about the key */
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console.log('type => %s', key.type);
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console.log('size => %d bits', key.size);
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console.log('comment => %s', key.comment);
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/* Compute key fingerprints, in new OpenSSH (>6.7) format, and old MD5 */
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console.log('fingerprint => %s', key.fingerprint().toString());
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console.log('old-style fingerprint => %s', key.fingerprint('md5').toString());
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```
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Example output:
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```
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type => rsa
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size => 2048 bits
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comment => foo@foo.com
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fingerprint => SHA256:PYC9kPVC6J873CSIbfp0LwYeczP/W4ffObNCuDJ1u5w
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old-style fingerprint => a0:c8:ad:6c:32:9a:32:fa:59:cc:a9:8c:0a:0d:6e:bd
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```
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More examples: converting between formats:
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```js
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/* Read in a PEM public key */
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var keyPem = fs.readFileSync('id_rsa.pem');
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var key = sshpk.parseKey(keyPem, 'pem');
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/* Convert to PEM PKCS#8 public key format */
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var pemBuf = key.toBuffer('pkcs8');
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/* Convert to SSH public key format (and return as a string) */
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var sshKey = key.toString('ssh');
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```
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Signing and verifying:
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```js
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/* Read in an OpenSSH/PEM *private* key */
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var keyPriv = fs.readFileSync('id_ecdsa');
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var key = sshpk.parsePrivateKey(keyPriv, 'pem');
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var data = 'some data';
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/* Sign some data with the key */
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var s = key.createSign('sha1');
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s.update(data);
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var signature = s.sign();
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/* Now load the public key (could also use just key.toPublic()) */
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var keyPub = fs.readFileSync('id_ecdsa.pub');
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key = sshpk.parseKey(keyPub, 'ssh');
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/* Make a crypto.Verifier with this key */
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var v = key.createVerify('sha1');
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v.update(data);
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var valid = v.verify(signature);
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/* => true! */
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```
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Matching fingerprints with keys:
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```js
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var fp = sshpk.parseFingerprint('SHA256:PYC9kPVC6J873CSIbfp0LwYeczP/W4ffObNCuDJ1u5w');
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var keys = [sshpk.parseKey(...), sshpk.parseKey(...), ...];
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keys.forEach(function (key) {
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if (fp.matches(key))
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console.log('found it!');
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});
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```
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Usage
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-----
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## Public keys
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### `parseKey(data[, format = 'auto'[, options]])`
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Parses a key from a given data format and returns a new `Key` object.
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Parameters
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- `data` -- Either a Buffer or String, containing the key
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- `format` -- String name of format to use, valid options are:
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- `auto`: choose automatically from all below
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- `pem`: supports both PKCS#1 and PKCS#8
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- `ssh`: standard OpenSSH format,
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- `pkcs1`, `pkcs8`: variants of `pem`
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- `rfc4253`: raw OpenSSH wire format
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- `openssh`: new post-OpenSSH 6.5 internal format, produced by
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`ssh-keygen -o`
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- `options` -- Optional Object, extra options, with keys:
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- `filename` -- Optional String, name for the key being parsed
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(eg. the filename that was opened). Used to generate
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Error messages
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- `passphrase` -- Optional String, encryption passphrase used to decrypt an
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encrypted PEM file
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### `Key.isKey(obj)`
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Returns `true` if the given object is a valid `Key` object created by a version
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of `sshpk` compatible with this one.
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Parameters
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- `obj` -- Object to identify
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### `Key#type`
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String, the type of key. Valid options are `rsa`, `dsa`, `ecdsa`.
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### `Key#size`
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Integer, "size" of the key in bits. For RSA/DSA this is the size of the modulus;
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for ECDSA this is the bit size of the curve in use.
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### `Key#comment`
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Optional string, a key comment used by some formats (eg the `ssh` format).
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### `Key#curve`
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Only present if `this.type === 'ecdsa'`, string containing the name of the
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named curve used with this key. Possible values include `nistp256`, `nistp384`
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and `nistp521`.
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### `Key#toBuffer([format = 'ssh'])`
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Convert the key into a given data format and return the serialized key as
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a Buffer.
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Parameters
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- `format` -- String name of format to use, for valid options see `parseKey()`
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### `Key#toString([format = 'ssh])`
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Same as `this.toBuffer(format).toString()`.
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### `Key#fingerprint([algorithm = 'sha256'])`
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Creates a new `Fingerprint` object representing this Key's fingerprint.
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Parameters
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- `algorithm` -- String name of hash algorithm to use, valid options are `md5`,
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`sha1`, `sha256`, `sha384`, `sha512`
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### `Key#createVerify([hashAlgorithm])`
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Creates a `crypto.Verifier` specialized to use this Key (and the correct public
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key algorithm to match it). The returned Verifier has the same API as a regular
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one, except that the `verify()` function takes only the target signature as an
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argument.
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Parameters
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- `hashAlgorithm` -- optional String name of hash algorithm to use, any
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supported by OpenSSL are valid, usually including
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`sha1`, `sha256`.
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`v.verify(signature[, format])` Parameters
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- `signature` -- either a Signature object, or a Buffer or String
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- `format` -- optional String, name of format to interpret given String with.
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Not valid if `signature` is a Signature or Buffer.
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### `Key#createDiffieHellman()`
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### `Key#createDH()`
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Creates a Diffie-Hellman key exchange object initialized with this key and all
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necessary parameters. This has the same API as a `crypto.DiffieHellman`
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instance, except that functions take `Key` and `PrivateKey` objects as
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arguments, and return them where indicated for.
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This is only valid for keys belonging to a cryptosystem that supports DHE
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or a close analogue (i.e. `dsa`, `ecdsa` and `curve25519` keys). An attempt
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to call this function on other keys will yield an `Error`.
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## Private keys
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### `parsePrivateKey(data[, format = 'auto'[, options]])`
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Parses a private key from a given data format and returns a new
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`PrivateKey` object.
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Parameters
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- `data` -- Either a Buffer or String, containing the key
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- `format` -- String name of format to use, valid options are:
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- `auto`: choose automatically from all below
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- `pem`: supports both PKCS#1 and PKCS#8
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- `ssh`, `openssh`: new post-OpenSSH 6.5 internal format, produced by
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`ssh-keygen -o`
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- `pkcs1`, `pkcs8`: variants of `pem`
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- `rfc4253`: raw OpenSSH wire format
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- `options` -- Optional Object, extra options, with keys:
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- `filename` -- Optional String, name for the key being parsed
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(eg. the filename that was opened). Used to generate
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Error messages
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- `passphrase` -- Optional String, encryption passphrase used to decrypt an
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encrypted PEM file
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### `generatePrivateKey(type[, options])`
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Generates a new private key of a certain key type, from random data.
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Parameters
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- `type` -- String, type of key to generate. Currently supported are `'ecdsa'`
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and `'ed25519'`
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- `options` -- optional Object, with keys:
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- `curve` -- optional String, for `'ecdsa'` keys, specifies the curve to use.
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If ECDSA is specified and this option is not given, defaults to
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using `'nistp256'`.
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### `PrivateKey.isPrivateKey(obj)`
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Returns `true` if the given object is a valid `PrivateKey` object created by a
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version of `sshpk` compatible with this one.
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Parameters
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- `obj` -- Object to identify
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### `PrivateKey#type`
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String, the type of key. Valid options are `rsa`, `dsa`, `ecdsa`.
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### `PrivateKey#size`
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Integer, "size" of the key in bits. For RSA/DSA this is the size of the modulus;
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for ECDSA this is the bit size of the curve in use.
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### `PrivateKey#curve`
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Only present if `this.type === 'ecdsa'`, string containing the name of the
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named curve used with this key. Possible values include `nistp256`, `nistp384`
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and `nistp521`.
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### `PrivateKey#toBuffer([format = 'pkcs1'])`
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Convert the key into a given data format and return the serialized key as
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a Buffer.
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Parameters
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- `format` -- String name of format to use, valid options are listed under
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`parsePrivateKey`. Note that ED25519 keys default to `openssh`
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format instead (as they have no `pkcs1` representation).
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### `PrivateKey#toString([format = 'pkcs1'])`
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Same as `this.toBuffer(format).toString()`.
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### `PrivateKey#toPublic()`
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Extract just the public part of this private key, and return it as a `Key`
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object.
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### `PrivateKey#fingerprint([algorithm = 'sha256'])`
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Same as `this.toPublic().fingerprint()`.
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### `PrivateKey#createVerify([hashAlgorithm])`
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Same as `this.toPublic().createVerify()`.
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### `PrivateKey#createSign([hashAlgorithm])`
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Creates a `crypto.Sign` specialized to use this PrivateKey (and the correct
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key algorithm to match it). The returned Signer has the same API as a regular
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one, except that the `sign()` function takes no arguments, and returns a
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`Signature` object.
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Parameters
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- `hashAlgorithm` -- optional String name of hash algorithm to use, any
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supported by OpenSSL are valid, usually including
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`sha1`, `sha256`.
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`v.sign()` Parameters
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- none
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### `PrivateKey#derive(newType)`
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Derives a related key of type `newType` from this key. Currently this is
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only supported to change between `ed25519` and `curve25519` keys which are
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stored with the same private key (but usually distinct public keys in order
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to avoid degenerate keys that lead to a weak Diffie-Hellman exchange).
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Parameters
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- `newType` -- String, type of key to derive, either `ed25519` or `curve25519`
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## Fingerprints
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### `parseFingerprint(fingerprint[, algorithms])`
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Pre-parses a fingerprint, creating a `Fingerprint` object that can be used to
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quickly locate a key by using the `Fingerprint#matches` function.
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Parameters
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- `fingerprint` -- String, the fingerprint value, in any supported format
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- `algorithms` -- Optional list of strings, names of hash algorithms to limit
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support to. If `fingerprint` uses a hash algorithm not on
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this list, throws `InvalidAlgorithmError`.
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### `Fingerprint.isFingerprint(obj)`
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Returns `true` if the given object is a valid `Fingerprint` object created by a
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version of `sshpk` compatible with this one.
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Parameters
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- `obj` -- Object to identify
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### `Fingerprint#toString([format])`
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Returns a fingerprint as a string, in the given format.
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Parameters
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- `format` -- Optional String, format to use, valid options are `hex` and
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`base64`. If this `Fingerprint` uses the `md5` algorithm, the
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default format is `hex`. Otherwise, the default is `base64`.
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### `Fingerprint#matches(key)`
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Verifies whether or not this `Fingerprint` matches a given `Key`. This function
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uses double-hashing to avoid leaking timing information. Returns a boolean.
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Parameters
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- `key` -- a `Key` object, the key to match this fingerprint against
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## Signatures
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### `parseSignature(signature, algorithm, format)`
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Parses a signature in a given format, creating a `Signature` object. Useful
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for converting between the SSH and ASN.1 (PKCS/OpenSSL) signature formats, and
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also returned as output from `PrivateKey#createSign().sign()`.
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A Signature object can also be passed to a verifier produced by
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`Key#createVerify()` and it will automatically be converted internally into the
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correct format for verification.
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Parameters
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- `signature` -- a Buffer (binary) or String (base64), data of the actual
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signature in the given format
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- `algorithm` -- a String, name of the algorithm to be used, possible values
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are `rsa`, `dsa`, `ecdsa`
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- `format` -- a String, either `asn1` or `ssh`
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### `Signature.isSignature(obj)`
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Returns `true` if the given object is a valid `Signature` object created by a
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version of `sshpk` compatible with this one.
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Parameters
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- `obj` -- Object to identify
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### `Signature#toBuffer([format = 'asn1'])`
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Converts a Signature to the given format and returns it as a Buffer.
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Parameters
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- `format` -- a String, either `asn1` or `ssh`
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### `Signature#toString([format = 'asn1'])`
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Same as `this.toBuffer(format).toString('base64')`.
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## Certificates
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`sshpk` includes basic support for parsing certificates in X.509 (PEM) format
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and the OpenSSH certificate format. This feature is intended to be used mainly
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to access basic metadata about certificates, extract public keys from them, and
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also to generate simple self-signed certificates from an existing key.
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Notably, there is no implementation of CA chain-of-trust verification, and only
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very minimal support for key usage restrictions. Please do the security world
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a favour, and DO NOT use this code for certificate verification in the
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traditional X.509 CA chain style.
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### `parseCertificate(data, format)`
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Parameters
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- `data` -- a Buffer or String
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- `format` -- a String, format to use, one of `'openssh'`, `'pem'` (X.509 in a
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PEM wrapper), or `'x509'` (raw DER encoded)
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### `createSelfSignedCertificate(subject, privateKey[, options])`
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Parameters
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- `subject` -- an Identity, the subject of the certificate
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- `privateKey` -- a PrivateKey, the key of the subject: will be used both to be
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placed in the certificate and also to sign it (since this is
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|
a self-signed certificate)
|
||
|
- `options` -- optional Object, with keys:
|
||
|
- `lifetime` -- optional Number, lifetime of the certificate from now in
|
||
|
seconds
|
||
|
- `validFrom`, `validUntil` -- optional Dates, beginning and end of
|
||
|
certificate validity period. If given
|
||
|
`lifetime` will be ignored
|
||
|
- `serial` -- optional Buffer, the serial number of the certificate
|
||
|
- `purposes` -- optional Array of String, X.509 key usage restrictions
|
||
|
|
||
|
### `createCertificate(subject, key, issuer, issuerKey[, options])`
|
||
|
|
||
|
Parameters
|
||
|
|
||
|
- `subject` -- an Identity, the subject of the certificate
|
||
|
- `key` -- a Key, the public key of the subject
|
||
|
- `issuer` -- an Identity, the issuer of the certificate who will sign it
|
||
|
- `issuerKey` -- a PrivateKey, the issuer's private key for signing
|
||
|
- `options` -- optional Object, with keys:
|
||
|
- `lifetime` -- optional Number, lifetime of the certificate from now in
|
||
|
seconds
|
||
|
- `validFrom`, `validUntil` -- optional Dates, beginning and end of
|
||
|
certificate validity period. If given
|
||
|
`lifetime` will be ignored
|
||
|
- `serial` -- optional Buffer, the serial number of the certificate
|
||
|
- `purposes` -- optional Array of String, X.509 key usage restrictions
|
||
|
|
||
|
### `Certificate#subjects`
|
||
|
|
||
|
Array of `Identity` instances describing the subject of this certificate.
|
||
|
|
||
|
### `Certificate#issuer`
|
||
|
|
||
|
The `Identity` of the Certificate's issuer (signer).
|
||
|
|
||
|
### `Certificate#subjectKey`
|
||
|
|
||
|
The public key of the subject of the certificate, as a `Key` instance.
|
||
|
|
||
|
### `Certificate#issuerKey`
|
||
|
|
||
|
The public key of the signing issuer of this certificate, as a `Key` instance.
|
||
|
May be `undefined` if the issuer's key is unknown (e.g. on an X509 certificate).
|
||
|
|
||
|
### `Certificate#serial`
|
||
|
|
||
|
The serial number of the certificate. As this is normally a 64-bit or wider
|
||
|
integer, it is returned as a Buffer.
|
||
|
|
||
|
### `Certificate#purposes`
|
||
|
|
||
|
Array of Strings indicating the X.509 key usage purposes that this certificate
|
||
|
is valid for. The possible strings at the moment are:
|
||
|
|
||
|
* `'signature'` -- key can be used for digital signatures
|
||
|
* `'identity'` -- key can be used to attest about the identity of the signer
|
||
|
(X.509 calls this `nonRepudiation`)
|
||
|
* `'codeSigning'` -- key can be used to sign executable code
|
||
|
* `'keyEncryption'` -- key can be used to encrypt other keys
|
||
|
* `'encryption'` -- key can be used to encrypt data (only applies for RSA)
|
||
|
* `'keyAgreement'` -- key can be used for key exchange protocols such as
|
||
|
Diffie-Hellman
|
||
|
* `'ca'` -- key can be used to sign other certificates (is a Certificate
|
||
|
Authority)
|
||
|
* `'crl'` -- key can be used to sign Certificate Revocation Lists (CRLs)
|
||
|
|
||
|
### `Certificate#isExpired([when])`
|
||
|
|
||
|
Tests whether the Certificate is currently expired (i.e. the `validFrom` and
|
||
|
`validUntil` dates specify a range of time that does not include the current
|
||
|
time).
|
||
|
|
||
|
Parameters
|
||
|
|
||
|
- `when` -- optional Date, if specified, tests whether the Certificate was or
|
||
|
will be expired at the specified time instead of now
|
||
|
|
||
|
Returns a Boolean.
|
||
|
|
||
|
### `Certificate#isSignedByKey(key)`
|
||
|
|
||
|
Tests whether the Certificate was validly signed by the given (public) Key.
|
||
|
|
||
|
Parameters
|
||
|
|
||
|
- `key` -- a Key instance
|
||
|
|
||
|
Returns a Boolean.
|
||
|
|
||
|
### `Certificate#isSignedBy(certificate)`
|
||
|
|
||
|
Tests whether this Certificate was validly signed by the subject of the given
|
||
|
certificate. Also tests that the issuer Identity of this Certificate and the
|
||
|
subject Identity of the other Certificate are equivalent.
|
||
|
|
||
|
Parameters
|
||
|
|
||
|
- `certificate` -- another Certificate instance
|
||
|
|
||
|
Returns a Boolean.
|
||
|
|
||
|
### `Certificate#fingerprint([hashAlgo])`
|
||
|
|
||
|
Returns the X509-style fingerprint of the entire certificate (as a Fingerprint
|
||
|
instance). This matches what a web-browser or similar would display as the
|
||
|
certificate fingerprint and should not be confused with the fingerprint of the
|
||
|
subject's public key.
|
||
|
|
||
|
Parameters
|
||
|
|
||
|
- `hashAlgo` -- an optional String, any hash function name
|
||
|
|
||
|
### `Certificate#toBuffer([format])`
|
||
|
|
||
|
Serializes the Certificate to a Buffer and returns it.
|
||
|
|
||
|
Parameters
|
||
|
|
||
|
- `format` -- an optional String, output format, one of `'openssh'`, `'pem'` or
|
||
|
`'x509'`. Defaults to `'x509'`.
|
||
|
|
||
|
Returns a Buffer.
|
||
|
|
||
|
### `Certificate#toString([format])`
|
||
|
|
||
|
- `format` -- an optional String, output format, one of `'openssh'`, `'pem'` or
|
||
|
`'x509'`. Defaults to `'pem'`.
|
||
|
|
||
|
Returns a String.
|
||
|
|
||
|
## Certificate identities
|
||
|
|
||
|
### `identityForHost(hostname)`
|
||
|
|
||
|
Constructs a host-type Identity for a given hostname.
|
||
|
|
||
|
Parameters
|
||
|
|
||
|
- `hostname` -- the fully qualified DNS name of the host
|
||
|
|
||
|
Returns an Identity instance.
|
||
|
|
||
|
### `identityForUser(uid)`
|
||
|
|
||
|
Constructs a user-type Identity for a given UID.
|
||
|
|
||
|
Parameters
|
||
|
|
||
|
- `uid` -- a String, user identifier (login name)
|
||
|
|
||
|
Returns an Identity instance.
|
||
|
|
||
|
### `identityForEmail(email)`
|
||
|
|
||
|
Constructs an email-type Identity for a given email address.
|
||
|
|
||
|
Parameters
|
||
|
|
||
|
- `email` -- a String, email address
|
||
|
|
||
|
Returns an Identity instance.
|
||
|
|
||
|
### `identityFromDN(dn)`
|
||
|
|
||
|
Parses an LDAP-style DN string (e.g. `'CN=foo, C=US'`) and turns it into an
|
||
|
Identity instance.
|
||
|
|
||
|
Parameters
|
||
|
|
||
|
- `dn` -- a String
|
||
|
|
||
|
Returns an Identity instance.
|
||
|
|
||
|
### `Identity#toString()`
|
||
|
|
||
|
Returns the identity as an LDAP-style DN string.
|
||
|
e.g. `'CN=foo, O=bar corp, C=us'`
|
||
|
|
||
|
### `Identity#type`
|
||
|
|
||
|
The type of identity. One of `'host'`, `'user'`, `'email'` or `'unknown'`
|
||
|
|
||
|
### `Identity#hostname`
|
||
|
### `Identity#uid`
|
||
|
### `Identity#email`
|
||
|
|
||
|
Set when `type` is `'host'`, `'user'`, or `'email'`, respectively. Strings.
|
||
|
|
||
|
### `Identity#cn`
|
||
|
|
||
|
The value of the first `CN=` in the DN, if any.
|
||
|
|
||
|
Errors
|
||
|
------
|
||
|
|
||
|
### `InvalidAlgorithmError`
|
||
|
|
||
|
The specified algorithm is not valid, either because it is not supported, or
|
||
|
because it was not included on a list of allowed algorithms.
|
||
|
|
||
|
Thrown by `Fingerprint.parse`, `Key#fingerprint`.
|
||
|
|
||
|
Properties
|
||
|
|
||
|
- `algorithm` -- the algorithm that could not be validated
|
||
|
|
||
|
### `FingerprintFormatError`
|
||
|
|
||
|
The fingerprint string given could not be parsed as a supported fingerprint
|
||
|
format, or the specified fingerprint format is invalid.
|
||
|
|
||
|
Thrown by `Fingerprint.parse`, `Fingerprint#toString`.
|
||
|
|
||
|
Properties
|
||
|
|
||
|
- `fingerprint` -- if caused by a fingerprint, the string value given
|
||
|
- `format` -- if caused by an invalid format specification, the string value given
|
||
|
|
||
|
### `KeyParseError`
|
||
|
|
||
|
The key data given could not be parsed as a valid key.
|
||
|
|
||
|
Properties
|
||
|
|
||
|
- `keyName` -- `filename` that was given to `parseKey`
|
||
|
- `format` -- the `format` that was trying to parse the key (see `parseKey`)
|
||
|
- `innerErr` -- the inner Error thrown by the format parser
|
||
|
|
||
|
### `KeyEncryptedError`
|
||
|
|
||
|
The key is encrypted with a symmetric key (ie, it is password protected). The
|
||
|
parsing operation would succeed if it was given the `passphrase` option.
|
||
|
|
||
|
Properties
|
||
|
|
||
|
- `keyName` -- `filename` that was given to `parseKey`
|
||
|
- `format` -- the `format` that was trying to parse the key (currently can only
|
||
|
be `"pem"`)
|
||
|
|
||
|
### `CertificateParseError`
|
||
|
|
||
|
The certificate data given could not be parsed as a valid certificate.
|
||
|
|
||
|
Properties
|
||
|
|
||
|
- `certName` -- `filename` that was given to `parseCertificate`
|
||
|
- `format` -- the `format` that was trying to parse the key
|
||
|
(see `parseCertificate`)
|
||
|
- `innerErr` -- the inner Error thrown by the format parser
|
||
|
|
||
|
Friends of sshpk
|
||
|
----------------
|
||
|
|
||
|
* [`sshpk-agent`](https://github.com/arekinath/node-sshpk-agent) is a library
|
||
|
for speaking the `ssh-agent` protocol from node.js, which uses `sshpk`
|