a862ff2d43
* Allow to specify collection_name separately for deprecation. * Use new functionality in Ansible. * Use new functionality in tests. * Update tagging/untagging functions. * Update pylint deprecated sanity test. * Update validate-modules. Missing are basic checks for version_added (validate semantic version format for collections). * Improve version validation. Re-add version_added validation. * Make sure collection names are added to return docs before schema validation. * Extra checks to avoid crashes on bad data. * Make C# module utils code work, and update/extend tests. * Add changelog fragment. * Stop extracting collection name from potentially tagged versions/dates. * Simplify C# code. * Update Windows modules docs. * Forgot semicolons.
944 lines
41 KiB
Python
944 lines
41 KiB
Python
#!/usr/bin/python
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# -*- coding: utf-8 -*-
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# Copyright: (c) 2016, Yanis Guenane <yanis+ansible@guenane.org>
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# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
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from __future__ import absolute_import, division, print_function
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__metaclass__ = type
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ANSIBLE_METADATA = {'metadata_version': '1.1',
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'status': ['preview'],
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'supported_by': 'community'}
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DOCUMENTATION = r'''
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---
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module: openssl_privatekey
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version_added: "2.3"
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short_description: Generate OpenSSL private keys
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description:
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- This module allows one to (re)generate OpenSSL private keys.
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- One can generate L(RSA,https://en.wikipedia.org/wiki/RSA_%28cryptosystem%29),
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L(DSA,https://en.wikipedia.org/wiki/Digital_Signature_Algorithm),
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L(ECC,https://en.wikipedia.org/wiki/Elliptic-curve_cryptography) or
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L(EdDSA,https://en.wikipedia.org/wiki/EdDSA) private keys.
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- Keys are generated in PEM format.
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- "Please note that the module regenerates private keys if they don't match
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the module's options. In particular, if you provide another passphrase
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(or specify none), change the keysize, etc., the private key will be
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regenerated. If you are concerned that this could **overwrite your private key**,
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consider using the I(backup) option."
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- The module can use the cryptography Python library, or the pyOpenSSL Python
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library. By default, it tries to detect which one is available. This can be
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overridden with the I(select_crypto_backend) option. Please note that the
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PyOpenSSL backend was deprecated in Ansible 2.9 and will be removed in Ansible 2.13."
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requirements:
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- Either cryptography >= 1.2.3 (older versions might work as well)
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- Or pyOpenSSL
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author:
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- Yanis Guenane (@Spredzy)
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- Felix Fontein (@felixfontein)
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options:
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state:
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description:
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- Whether the private key should exist or not, taking action if the state is different from what is stated.
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type: str
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default: present
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choices: [ absent, present ]
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size:
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description:
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- Size (in bits) of the TLS/SSL key to generate.
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type: int
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default: 4096
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type:
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description:
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- The algorithm used to generate the TLS/SSL private key.
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- Note that C(ECC), C(X25519), C(X448), C(Ed25519) and C(Ed448) require the C(cryptography) backend.
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C(X25519) needs cryptography 2.5 or newer, while C(X448), C(Ed25519) and C(Ed448) require
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cryptography 2.6 or newer. For C(ECC), the minimal cryptography version required depends on the
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I(curve) option.
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type: str
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default: RSA
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choices: [ DSA, ECC, Ed25519, Ed448, RSA, X25519, X448 ]
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curve:
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description:
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- Note that not all curves are supported by all versions of C(cryptography).
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- For maximal interoperability, C(secp384r1) or C(secp256r1) should be used.
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- We use the curve names as defined in the
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L(IANA registry for TLS,https://www.iana.org/assignments/tls-parameters/tls-parameters.xhtml#tls-parameters-8).
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type: str
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choices:
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- secp384r1
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- secp521r1
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- secp224r1
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- secp192r1
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- secp256r1
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- secp256k1
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- brainpoolP256r1
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- brainpoolP384r1
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- brainpoolP512r1
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- sect571k1
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- sect409k1
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- sect283k1
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- sect233k1
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- sect163k1
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- sect571r1
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- sect409r1
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- sect283r1
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- sect233r1
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- sect163r2
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version_added: "2.8"
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force:
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description:
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- Should the key be regenerated even if it already exists.
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type: bool
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default: no
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path:
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description:
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- Name of the file in which the generated TLS/SSL private key will be written. It will have 0600 mode.
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type: path
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required: true
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passphrase:
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description:
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- The passphrase for the private key.
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type: str
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version_added: "2.4"
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cipher:
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description:
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- The cipher to encrypt the private key. (Valid values can be found by
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running `openssl list -cipher-algorithms` or `openssl list-cipher-algorithms`,
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depending on your OpenSSL version.)
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- When using the C(cryptography) backend, use C(auto).
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type: str
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version_added: "2.4"
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select_crypto_backend:
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description:
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- Determines which crypto backend to use.
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- The default choice is C(auto), which tries to use C(cryptography) if available, and falls back to C(pyopenssl).
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- If set to C(pyopenssl), will try to use the L(pyOpenSSL,https://pypi.org/project/pyOpenSSL/) library.
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- If set to C(cryptography), will try to use the L(cryptography,https://cryptography.io/) library.
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- Please note that the C(pyopenssl) backend has been deprecated in Ansible 2.9, and will be removed in Ansible 2.13.
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From that point on, only the C(cryptography) backend will be available.
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type: str
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default: auto
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choices: [ auto, cryptography, pyopenssl ]
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version_added: "2.8"
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format:
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description:
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- Determines which format the private key is written in. By default, PKCS1 (traditional OpenSSL format)
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is used for all keys which support it. Please note that not every key can be exported in any format.
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- The value C(auto) selects a fromat based on the key format. The value C(auto_ignore) does the same,
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but for existing private key files, it will not force a regenerate when its format is not the automatically
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selected one for generation.
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- Note that if the format for an existing private key mismatches, the key is *regenerated* by default.
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To change this behavior, use the I(format_mismatch) option.
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- The I(format) option is only supported by the C(cryptography) backend. The C(pyopenssl) backend will
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fail if a value different from C(auto_ignore) is used.
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type: str
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default: auto_ignore
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choices: [ pkcs1, pkcs8, raw, auto, auto_ignore ]
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version_added: "2.10"
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format_mismatch:
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description:
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- Determines behavior of the module if the format of a private key does not match the expected format, but all
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other parameters are as expected.
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- If set to C(regenerate) (default), generates a new private key.
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- If set to C(convert), the key will be converted to the new format instead.
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- Only supported by the C(cryptography) backend.
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type: str
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default: regenerate
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choices: [ regenerate, convert ]
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version_added: "2.10"
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backup:
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description:
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- Create a backup file including a timestamp so you can get
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the original private key back if you overwrote it with a new one by accident.
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type: bool
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default: no
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version_added: "2.8"
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return_content:
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description:
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- If set to C(yes), will return the (current or generated) private key's content as I(privatekey).
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- Note that especially if the private key is not encrypted, you have to make sure that the returned
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value is treated appropriately and not accidentally written to logs etc.! Use with care!
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type: bool
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default: no
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version_added: "2.10"
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regenerate:
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description:
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- Allows to configure in which situations the module is allowed to regenerate private keys.
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The module will always generate a new key if the destination file does not exist.
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- By default, the key will be regenerated when it doesn't match the module's options,
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except when the key cannot be read or the passphrase does not match. Please note that
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this B(changed) for Ansible 2.10. For Ansible 2.9, the behavior was as if C(full_idempotence)
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is specified.
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- If set to C(never), the module will fail if the key cannot be read or the passphrase
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isn't matching, and will never regenerate an existing key.
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- If set to C(fail), the module will fail if the key does not correspond to the module's
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options.
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- If set to C(partial_idempotence), the key will be regenerated if it does not conform to
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the module's options. The key is B(not) regenerated if it cannot be read (broken file),
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the key is protected by an unknown passphrase, or when they key is not protected by a
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passphrase, but a passphrase is specified.
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- If set to C(full_idempotence), the key will be regenerated if it does not conform to the
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module's options. This is also the case if the key cannot be read (broken file), the key
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is protected by an unknown passphrase, or when they key is not protected by a passphrase,
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but a passphrase is specified. Make sure you have a B(backup) when using this option!
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- If set to C(always), the module will always regenerate the key. This is equivalent to
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setting I(force) to C(yes).
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- Note that if I(format_mismatch) is set to C(convert) and everything matches except the
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format, the key will always be converted, except if I(regenerate) is set to C(always).
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type: str
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choices:
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- never
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- fail
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- partial_idempotence
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- full_idempotence
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- always
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default: full_idempotence
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version_added: '2.10'
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extends_documentation_fragment:
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- files
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seealso:
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- module: openssl_certificate
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- module: openssl_csr
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- module: openssl_dhparam
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- module: openssl_pkcs12
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- module: openssl_publickey
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'''
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EXAMPLES = r'''
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- name: Generate an OpenSSL private key with the default values (4096 bits, RSA)
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openssl_privatekey:
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path: /etc/ssl/private/ansible.com.pem
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- name: Generate an OpenSSL private key with the default values (4096 bits, RSA) and a passphrase
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openssl_privatekey:
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path: /etc/ssl/private/ansible.com.pem
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passphrase: ansible
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cipher: aes256
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- name: Generate an OpenSSL private key with a different size (2048 bits)
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openssl_privatekey:
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path: /etc/ssl/private/ansible.com.pem
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size: 2048
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- name: Force regenerate an OpenSSL private key if it already exists
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openssl_privatekey:
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path: /etc/ssl/private/ansible.com.pem
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force: yes
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- name: Generate an OpenSSL private key with a different algorithm (DSA)
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openssl_privatekey:
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path: /etc/ssl/private/ansible.com.pem
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type: DSA
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'''
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RETURN = r'''
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size:
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description: Size (in bits) of the TLS/SSL private key.
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returned: changed or success
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type: int
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sample: 4096
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type:
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description: Algorithm used to generate the TLS/SSL private key.
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returned: changed or success
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type: str
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sample: RSA
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curve:
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description: Elliptic curve used to generate the TLS/SSL private key.
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returned: changed or success, and I(type) is C(ECC)
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type: str
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sample: secp256r1
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filename:
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description: Path to the generated TLS/SSL private key file.
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returned: changed or success
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type: str
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sample: /etc/ssl/private/ansible.com.pem
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fingerprint:
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description:
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- The fingerprint of the public key. Fingerprint will be generated for each C(hashlib.algorithms) available.
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- The PyOpenSSL backend requires PyOpenSSL >= 16.0 for meaningful output.
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returned: changed or success
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type: dict
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sample:
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md5: "84:75:71:72:8d:04:b5:6c:4d:37:6d:66:83:f5:4c:29"
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sha1: "51:cc:7c:68:5d:eb:41:43:88:7e:1a:ae:c7:f8:24:72:ee:71:f6:10"
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sha224: "b1:19:a6:6c:14:ac:33:1d:ed:18:50:d3:06:5c:b2:32:91:f1:f1:52:8c:cb:d5:75:e9:f5:9b:46"
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sha256: "41:ab:c7:cb:d5:5f:30:60:46:99:ac:d4:00:70:cf:a1:76:4f:24:5d:10:24:57:5d:51:6e:09:97:df:2f:de:c7"
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sha384: "85:39:50:4e:de:d9:19:33:40:70:ae:10:ab:59:24:19:51:c3:a2:e4:0b:1c:b1:6e:dd:b3:0c:d9:9e:6a:46:af:da:18:f8:ef:ae:2e:c0:9a:75:2c:9b:b3:0f:3a:5f:3d"
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sha512: "fd:ed:5e:39:48:5f:9f:fe:7f:25:06:3f:79:08:cd:ee:a5:e7:b3:3d:13:82:87:1f:84:e1:f5:c7:28:77:53:94:86:56:38:69:f0:d9:35:22:01:1e:a6:60:...:0f:9b"
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backup_file:
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description: Name of backup file created.
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returned: changed and if I(backup) is C(yes)
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type: str
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sample: /path/to/privatekey.pem.2019-03-09@11:22~
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privatekey:
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description:
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- The (current or generated) private key's content.
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- Will be Base64-encoded if the key is in raw format.
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returned: if I(state) is C(present) and I(return_content) is C(yes)
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type: str
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version_added: "2.10"
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'''
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import abc
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import base64
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import os
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import traceback
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from distutils.version import LooseVersion
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MINIMAL_PYOPENSSL_VERSION = '0.6'
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MINIMAL_CRYPTOGRAPHY_VERSION = '1.2.3'
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PYOPENSSL_IMP_ERR = None
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try:
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import OpenSSL
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from OpenSSL import crypto
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PYOPENSSL_VERSION = LooseVersion(OpenSSL.__version__)
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except ImportError:
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PYOPENSSL_IMP_ERR = traceback.format_exc()
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PYOPENSSL_FOUND = False
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else:
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PYOPENSSL_FOUND = True
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CRYPTOGRAPHY_IMP_ERR = None
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try:
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import cryptography
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import cryptography.exceptions
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import cryptography.hazmat.backends
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import cryptography.hazmat.primitives.serialization
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import cryptography.hazmat.primitives.asymmetric.rsa
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import cryptography.hazmat.primitives.asymmetric.dsa
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import cryptography.hazmat.primitives.asymmetric.ec
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import cryptography.hazmat.primitives.asymmetric.utils
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CRYPTOGRAPHY_VERSION = LooseVersion(cryptography.__version__)
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except ImportError:
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CRYPTOGRAPHY_IMP_ERR = traceback.format_exc()
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CRYPTOGRAPHY_FOUND = False
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else:
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CRYPTOGRAPHY_FOUND = True
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from ansible.module_utils.crypto import (
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CRYPTOGRAPHY_HAS_X25519,
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CRYPTOGRAPHY_HAS_X25519_FULL,
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CRYPTOGRAPHY_HAS_X448,
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CRYPTOGRAPHY_HAS_ED25519,
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CRYPTOGRAPHY_HAS_ED448,
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)
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from ansible.module_utils import crypto as crypto_utils
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from ansible.module_utils._text import to_native, to_bytes
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from ansible.module_utils.basic import AnsibleModule, missing_required_lib
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class PrivateKeyError(crypto_utils.OpenSSLObjectError):
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pass
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class PrivateKeyBase(crypto_utils.OpenSSLObject):
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def __init__(self, module):
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super(PrivateKeyBase, self).__init__(
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module.params['path'],
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module.params['state'],
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module.params['force'],
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module.check_mode
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)
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self.size = module.params['size']
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self.passphrase = module.params['passphrase']
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self.cipher = module.params['cipher']
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self.privatekey = None
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self.fingerprint = {}
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self.format = module.params['format']
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self.format_mismatch = module.params['format_mismatch']
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self.privatekey_bytes = None
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self.return_content = module.params['return_content']
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self.regenerate = module.params['regenerate']
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if self.regenerate == 'always':
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self.force = True
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self.backup = module.params['backup']
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self.backup_file = None
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if module.params['mode'] is None:
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module.params['mode'] = '0600'
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|
|
@abc.abstractmethod
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def _generate_private_key(self):
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"""(Re-)Generate private key."""
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pass
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|
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@abc.abstractmethod
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def _ensure_private_key_loaded(self):
|
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"""Make sure that the private key has been loaded."""
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pass
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|
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@abc.abstractmethod
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def _get_private_key_data(self):
|
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"""Return bytes for self.privatekey"""
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pass
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|
|
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@abc.abstractmethod
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def _get_fingerprint(self):
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pass
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|
|
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def generate(self, module):
|
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"""Generate a keypair."""
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if not self.check(module, perms_required=False, ignore_conversion=True) or self.force:
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# Regenerate
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if self.backup:
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self.backup_file = module.backup_local(self.path)
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self._generate_private_key()
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privatekey_data = self._get_private_key_data()
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if self.return_content:
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self.privatekey_bytes = privatekey_data
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crypto_utils.write_file(module, privatekey_data, 0o600)
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self.changed = True
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elif not self.check(module, perms_required=False, ignore_conversion=False):
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# Convert
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if self.backup:
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self.backup_file = module.backup_local(self.path)
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self._ensure_private_key_loaded()
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privatekey_data = self._get_private_key_data()
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if self.return_content:
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self.privatekey_bytes = privatekey_data
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crypto_utils.write_file(module, privatekey_data, 0o600)
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self.changed = True
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self.fingerprint = self._get_fingerprint()
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file_args = module.load_file_common_arguments(module.params)
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if module.set_fs_attributes_if_different(file_args, False):
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self.changed = True
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def remove(self, module):
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if self.backup:
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self.backup_file = module.backup_local(self.path)
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super(PrivateKeyBase, self).remove(module)
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|
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@abc.abstractmethod
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def _check_passphrase(self):
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pass
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@abc.abstractmethod
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def _check_size_and_type(self):
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pass
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@abc.abstractmethod
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def _check_format(self):
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pass
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def check(self, module, perms_required=True, ignore_conversion=True):
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"""Ensure the resource is in its desired state."""
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state_and_perms = super(PrivateKeyBase, self).check(module, perms_required=False)
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|
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if not state_and_perms:
|
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# key does not exist
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return False
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|
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if not self._check_passphrase():
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if self.regenerate in ('full_idempotence', 'always'):
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return False
|
|
module.fail_json(msg='Unable to read the key. The key is protected with a another passphrase / no passphrase or broken.'
|
|
' Will not proceed. To force regeneration, call the module with `generate`'
|
|
' set to `full_idempotence` or `always`, or with `force=yes`.')
|
|
|
|
if self.regenerate != 'never':
|
|
if not self._check_size_and_type():
|
|
if self.regenerate in ('partial_idempotence', 'full_idempotence', 'always'):
|
|
return False
|
|
module.fail_json(msg='Key has wrong type and/or size.'
|
|
' Will not proceed. To force regeneration, call the module with `generate`'
|
|
' set to `partial_idempotence`, `full_idempotence` or `always`, or with `force=yes`.')
|
|
|
|
if not self._check_format():
|
|
# During conversion step, convert if format does not match and format_mismatch == 'convert'
|
|
if not ignore_conversion and self.format_mismatch == 'convert':
|
|
return False
|
|
# During generation step, regenerate if format does not match and format_mismatch == 'regenerate'
|
|
if ignore_conversion and self.format_mismatch == 'regenerate' and self.regenerate != 'never':
|
|
if not ignore_conversion or self.regenerate in ('partial_idempotence', 'full_idempotence', 'always'):
|
|
return False
|
|
module.fail_json(msg='Key has wrong format.'
|
|
' Will not proceed. To force regeneration, call the module with `generate`'
|
|
' set to `partial_idempotence`, `full_idempotence` or `always`, or with `force=yes`.'
|
|
' To convert the key, set `format_mismatch` to `convert`.')
|
|
|
|
# check whether permissions are correct (in case that needs to be checked)
|
|
return not perms_required or super(PrivateKeyBase, self).check(module, perms_required=perms_required)
|
|
|
|
def dump(self):
|
|
"""Serialize the object into a dictionary."""
|
|
|
|
result = {
|
|
'size': self.size,
|
|
'filename': self.path,
|
|
'changed': self.changed,
|
|
'fingerprint': self.fingerprint,
|
|
}
|
|
if self.backup_file:
|
|
result['backup_file'] = self.backup_file
|
|
if self.return_content:
|
|
if self.privatekey_bytes is None:
|
|
self.privatekey_bytes = crypto_utils.load_file_if_exists(self.path, ignore_errors=True)
|
|
if self.privatekey_bytes:
|
|
if crypto_utils.identify_private_key_format(self.privatekey_bytes) == 'raw':
|
|
result['privatekey'] = base64.b64encode(self.privatekey_bytes)
|
|
else:
|
|
result['privatekey'] = self.privatekey_bytes.decode('utf-8')
|
|
else:
|
|
result['privatekey'] = None
|
|
|
|
return result
|
|
|
|
|
|
# Implementation with using pyOpenSSL
|
|
class PrivateKeyPyOpenSSL(PrivateKeyBase):
|
|
|
|
def __init__(self, module):
|
|
super(PrivateKeyPyOpenSSL, self).__init__(module)
|
|
|
|
if module.params['type'] == 'RSA':
|
|
self.type = crypto.TYPE_RSA
|
|
elif module.params['type'] == 'DSA':
|
|
self.type = crypto.TYPE_DSA
|
|
else:
|
|
module.fail_json(msg="PyOpenSSL backend only supports RSA and DSA keys.")
|
|
|
|
if self.format != 'auto_ignore':
|
|
module.fail_json(msg="PyOpenSSL backend only supports auto_ignore format.")
|
|
|
|
def _generate_private_key(self):
|
|
"""(Re-)Generate private key."""
|
|
self.privatekey = crypto.PKey()
|
|
try:
|
|
self.privatekey.generate_key(self.type, self.size)
|
|
except (TypeError, ValueError) as exc:
|
|
raise PrivateKeyError(exc)
|
|
|
|
def _ensure_private_key_loaded(self):
|
|
"""Make sure that the private key has been loaded."""
|
|
if self.privatekey is None:
|
|
try:
|
|
self.privatekey = privatekey = crypto_utils.load_privatekey(self.path, self.passphrase)
|
|
except crypto_utils.OpenSSLBadPassphraseError as exc:
|
|
raise PrivateKeyError(exc)
|
|
|
|
def _get_private_key_data(self):
|
|
"""Return bytes for self.privatekey"""
|
|
if self.cipher and self.passphrase:
|
|
return crypto.dump_privatekey(crypto.FILETYPE_PEM, self.privatekey,
|
|
self.cipher, to_bytes(self.passphrase))
|
|
else:
|
|
return crypto.dump_privatekey(crypto.FILETYPE_PEM, self.privatekey)
|
|
|
|
def _get_fingerprint(self):
|
|
return crypto_utils.get_fingerprint(self.path, self.passphrase)
|
|
|
|
def _check_passphrase(self):
|
|
try:
|
|
crypto_utils.load_privatekey(self.path, self.passphrase)
|
|
return True
|
|
except Exception as dummy:
|
|
return False
|
|
|
|
def _check_size_and_type(self):
|
|
def _check_size(privatekey):
|
|
return self.size == privatekey.bits()
|
|
|
|
def _check_type(privatekey):
|
|
return self.type == privatekey.type()
|
|
|
|
self._ensure_private_key_loaded()
|
|
return _check_size(self.privatekey) and _check_type(self.privatekey)
|
|
|
|
def _check_format(self):
|
|
# Not supported by this backend
|
|
return True
|
|
|
|
def dump(self):
|
|
"""Serialize the object into a dictionary."""
|
|
|
|
result = super(PrivateKeyPyOpenSSL, self).dump()
|
|
|
|
if self.type == crypto.TYPE_RSA:
|
|
result['type'] = 'RSA'
|
|
else:
|
|
result['type'] = 'DSA'
|
|
|
|
return result
|
|
|
|
|
|
# Implementation with using cryptography
|
|
class PrivateKeyCryptography(PrivateKeyBase):
|
|
|
|
def _get_ec_class(self, ectype):
|
|
ecclass = cryptography.hazmat.primitives.asymmetric.ec.__dict__.get(ectype)
|
|
if ecclass is None:
|
|
self.module.fail_json(msg='Your cryptography version does not support {0}'.format(ectype))
|
|
return ecclass
|
|
|
|
def _add_curve(self, name, ectype, deprecated=False):
|
|
def create(size):
|
|
ecclass = self._get_ec_class(ectype)
|
|
return ecclass()
|
|
|
|
def verify(privatekey):
|
|
ecclass = self._get_ec_class(ectype)
|
|
return isinstance(privatekey.private_numbers().public_numbers.curve, ecclass)
|
|
|
|
self.curves[name] = {
|
|
'create': create,
|
|
'verify': verify,
|
|
'deprecated': deprecated,
|
|
}
|
|
|
|
def __init__(self, module):
|
|
super(PrivateKeyCryptography, self).__init__(module)
|
|
|
|
self.curves = dict()
|
|
self._add_curve('secp384r1', 'SECP384R1')
|
|
self._add_curve('secp521r1', 'SECP521R1')
|
|
self._add_curve('secp224r1', 'SECP224R1')
|
|
self._add_curve('secp192r1', 'SECP192R1')
|
|
self._add_curve('secp256r1', 'SECP256R1')
|
|
self._add_curve('secp256k1', 'SECP256K1')
|
|
self._add_curve('brainpoolP256r1', 'BrainpoolP256R1', deprecated=True)
|
|
self._add_curve('brainpoolP384r1', 'BrainpoolP384R1', deprecated=True)
|
|
self._add_curve('brainpoolP512r1', 'BrainpoolP512R1', deprecated=True)
|
|
self._add_curve('sect571k1', 'SECT571K1', deprecated=True)
|
|
self._add_curve('sect409k1', 'SECT409K1', deprecated=True)
|
|
self._add_curve('sect283k1', 'SECT283K1', deprecated=True)
|
|
self._add_curve('sect233k1', 'SECT233K1', deprecated=True)
|
|
self._add_curve('sect163k1', 'SECT163K1', deprecated=True)
|
|
self._add_curve('sect571r1', 'SECT571R1', deprecated=True)
|
|
self._add_curve('sect409r1', 'SECT409R1', deprecated=True)
|
|
self._add_curve('sect283r1', 'SECT283R1', deprecated=True)
|
|
self._add_curve('sect233r1', 'SECT233R1', deprecated=True)
|
|
self._add_curve('sect163r2', 'SECT163R2', deprecated=True)
|
|
|
|
self.module = module
|
|
self.cryptography_backend = cryptography.hazmat.backends.default_backend()
|
|
|
|
self.type = module.params['type']
|
|
self.curve = module.params['curve']
|
|
if not CRYPTOGRAPHY_HAS_X25519 and self.type == 'X25519':
|
|
self.module.fail_json(msg='Your cryptography version does not support X25519')
|
|
if not CRYPTOGRAPHY_HAS_X25519_FULL and self.type == 'X25519':
|
|
self.module.fail_json(msg='Your cryptography version does not support X25519 serialization')
|
|
if not CRYPTOGRAPHY_HAS_X448 and self.type == 'X448':
|
|
self.module.fail_json(msg='Your cryptography version does not support X448')
|
|
if not CRYPTOGRAPHY_HAS_ED25519 and self.type == 'Ed25519':
|
|
self.module.fail_json(msg='Your cryptography version does not support Ed25519')
|
|
if not CRYPTOGRAPHY_HAS_ED448 and self.type == 'Ed448':
|
|
self.module.fail_json(msg='Your cryptography version does not support Ed448')
|
|
|
|
def _get_wanted_format(self):
|
|
if self.format not in ('auto', 'auto_ignore'):
|
|
return self.format
|
|
if self.type in ('X25519', 'X448', 'Ed25519', 'Ed448'):
|
|
return 'pkcs8'
|
|
else:
|
|
return 'pkcs1'
|
|
|
|
def _generate_private_key(self):
|
|
"""(Re-)Generate private key."""
|
|
try:
|
|
if self.type == 'RSA':
|
|
self.privatekey = cryptography.hazmat.primitives.asymmetric.rsa.generate_private_key(
|
|
public_exponent=65537, # OpenSSL always uses this
|
|
key_size=self.size,
|
|
backend=self.cryptography_backend
|
|
)
|
|
if self.type == 'DSA':
|
|
self.privatekey = cryptography.hazmat.primitives.asymmetric.dsa.generate_private_key(
|
|
key_size=self.size,
|
|
backend=self.cryptography_backend
|
|
)
|
|
if CRYPTOGRAPHY_HAS_X25519_FULL and self.type == 'X25519':
|
|
self.privatekey = cryptography.hazmat.primitives.asymmetric.x25519.X25519PrivateKey.generate()
|
|
if CRYPTOGRAPHY_HAS_X448 and self.type == 'X448':
|
|
self.privatekey = cryptography.hazmat.primitives.asymmetric.x448.X448PrivateKey.generate()
|
|
if CRYPTOGRAPHY_HAS_ED25519 and self.type == 'Ed25519':
|
|
self.privatekey = cryptography.hazmat.primitives.asymmetric.ed25519.Ed25519PrivateKey.generate()
|
|
if CRYPTOGRAPHY_HAS_ED448 and self.type == 'Ed448':
|
|
self.privatekey = cryptography.hazmat.primitives.asymmetric.ed448.Ed448PrivateKey.generate()
|
|
if self.type == 'ECC' and self.curve in self.curves:
|
|
if self.curves[self.curve]['deprecated']:
|
|
self.module.warn('Elliptic curves of type {0} should not be used for new keys!'.format(self.curve))
|
|
self.privatekey = cryptography.hazmat.primitives.asymmetric.ec.generate_private_key(
|
|
curve=self.curves[self.curve]['create'](self.size),
|
|
backend=self.cryptography_backend
|
|
)
|
|
except cryptography.exceptions.UnsupportedAlgorithm as dummy:
|
|
self.module.fail_json(msg='Cryptography backend does not support the algorithm required for {0}'.format(self.type))
|
|
|
|
def _ensure_private_key_loaded(self):
|
|
"""Make sure that the private key has been loaded."""
|
|
if self.privatekey is None:
|
|
self.privatekey = self._load_privatekey()
|
|
|
|
def _get_private_key_data(self):
|
|
"""Return bytes for self.privatekey"""
|
|
# Select export format and encoding
|
|
try:
|
|
export_format = self._get_wanted_format()
|
|
export_encoding = cryptography.hazmat.primitives.serialization.Encoding.PEM
|
|
if export_format == 'pkcs1':
|
|
# "TraditionalOpenSSL" format is PKCS1
|
|
export_format = cryptography.hazmat.primitives.serialization.PrivateFormat.TraditionalOpenSSL
|
|
elif export_format == 'pkcs8':
|
|
export_format = cryptography.hazmat.primitives.serialization.PrivateFormat.PKCS8
|
|
elif export_format == 'raw':
|
|
export_format = cryptography.hazmat.primitives.serialization.PrivateFormat.Raw
|
|
export_encoding = cryptography.hazmat.primitives.serialization.Encoding.Raw
|
|
except AttributeError:
|
|
self.module.fail_json(msg='Cryptography backend does not support the selected output format "{0}"'.format(self.format))
|
|
|
|
# Select key encryption
|
|
encryption_algorithm = cryptography.hazmat.primitives.serialization.NoEncryption()
|
|
if self.cipher and self.passphrase:
|
|
if self.cipher == 'auto':
|
|
encryption_algorithm = cryptography.hazmat.primitives.serialization.BestAvailableEncryption(to_bytes(self.passphrase))
|
|
else:
|
|
self.module.fail_json(msg='Cryptography backend can only use "auto" for cipher option.')
|
|
|
|
# Serialize key
|
|
try:
|
|
return self.privatekey.private_bytes(
|
|
encoding=export_encoding,
|
|
format=export_format,
|
|
encryption_algorithm=encryption_algorithm
|
|
)
|
|
except ValueError as dummy:
|
|
self.module.fail_json(
|
|
msg='Cryptography backend cannot serialize the private key in the required format "{0}"'.format(self.format)
|
|
)
|
|
except Exception as dummy:
|
|
self.module.fail_json(
|
|
msg='Error while serializing the private key in the required format "{0}"'.format(self.format),
|
|
exception=traceback.format_exc()
|
|
)
|
|
|
|
def _load_privatekey(self):
|
|
try:
|
|
# Read bytes
|
|
with open(self.path, 'rb') as f:
|
|
data = f.read()
|
|
# Interpret bytes depending on format.
|
|
format = crypto_utils.identify_private_key_format(data)
|
|
if format == 'raw':
|
|
if len(data) == 56 and CRYPTOGRAPHY_HAS_X448:
|
|
return cryptography.hazmat.primitives.asymmetric.x448.X448PrivateKey.from_private_bytes(data)
|
|
if len(data) == 57 and CRYPTOGRAPHY_HAS_ED448:
|
|
return cryptography.hazmat.primitives.asymmetric.ed448.Ed448PrivateKey.from_private_bytes(data)
|
|
if len(data) == 32:
|
|
if CRYPTOGRAPHY_HAS_X25519 and (self.type == 'X25519' or not CRYPTOGRAPHY_HAS_ED25519):
|
|
return cryptography.hazmat.primitives.asymmetric.x25519.X25519PrivateKey.from_private_bytes(data)
|
|
if CRYPTOGRAPHY_HAS_ED25519 and (self.type == 'Ed25519' or not CRYPTOGRAPHY_HAS_X25519):
|
|
return cryptography.hazmat.primitives.asymmetric.ed25519.Ed25519PrivateKey.from_private_bytes(data)
|
|
if CRYPTOGRAPHY_HAS_X25519 and CRYPTOGRAPHY_HAS_ED25519:
|
|
try:
|
|
return cryptography.hazmat.primitives.asymmetric.x25519.X25519PrivateKey.from_private_bytes(data)
|
|
except Exception:
|
|
return cryptography.hazmat.primitives.asymmetric.ed25519.Ed25519PrivateKey.from_private_bytes(data)
|
|
raise PrivateKeyError('Cannot load raw key')
|
|
else:
|
|
return cryptography.hazmat.primitives.serialization.load_pem_private_key(
|
|
data,
|
|
None if self.passphrase is None else to_bytes(self.passphrase),
|
|
backend=self.cryptography_backend
|
|
)
|
|
except Exception as e:
|
|
raise PrivateKeyError(e)
|
|
|
|
def _get_fingerprint(self):
|
|
# Get bytes of public key
|
|
private_key = self._load_privatekey()
|
|
public_key = private_key.public_key()
|
|
public_key_bytes = public_key.public_bytes(
|
|
cryptography.hazmat.primitives.serialization.Encoding.DER,
|
|
cryptography.hazmat.primitives.serialization.PublicFormat.SubjectPublicKeyInfo
|
|
)
|
|
# Get fingerprints of public_key_bytes
|
|
return crypto_utils.get_fingerprint_of_bytes(public_key_bytes)
|
|
|
|
def _check_passphrase(self):
|
|
try:
|
|
with open(self.path, 'rb') as f:
|
|
data = f.read()
|
|
format = crypto_utils.identify_private_key_format(data)
|
|
if format == 'raw':
|
|
# Raw keys cannot be encrypted. To avoid incompatibilities, we try to
|
|
# actually load the key (and return False when this fails).
|
|
self._load_privatekey()
|
|
# Loading the key succeeded. Only return True when no passphrase was
|
|
# provided.
|
|
return self.passphrase is None
|
|
else:
|
|
return cryptography.hazmat.primitives.serialization.load_pem_private_key(
|
|
data,
|
|
None if self.passphrase is None else to_bytes(self.passphrase),
|
|
backend=self.cryptography_backend
|
|
)
|
|
except Exception as dummy:
|
|
return False
|
|
|
|
def _check_size_and_type(self):
|
|
self._ensure_private_key_loaded()
|
|
|
|
if isinstance(self.privatekey, cryptography.hazmat.primitives.asymmetric.rsa.RSAPrivateKey):
|
|
return self.type == 'RSA' and self.size == self.privatekey.key_size
|
|
if isinstance(self.privatekey, cryptography.hazmat.primitives.asymmetric.dsa.DSAPrivateKey):
|
|
return self.type == 'DSA' and self.size == self.privatekey.key_size
|
|
if CRYPTOGRAPHY_HAS_X25519 and isinstance(self.privatekey, cryptography.hazmat.primitives.asymmetric.x25519.X25519PrivateKey):
|
|
return self.type == 'X25519'
|
|
if CRYPTOGRAPHY_HAS_X448 and isinstance(self.privatekey, cryptography.hazmat.primitives.asymmetric.x448.X448PrivateKey):
|
|
return self.type == 'X448'
|
|
if CRYPTOGRAPHY_HAS_ED25519 and isinstance(self.privatekey, cryptography.hazmat.primitives.asymmetric.ed25519.Ed25519PrivateKey):
|
|
return self.type == 'Ed25519'
|
|
if CRYPTOGRAPHY_HAS_ED448 and isinstance(self.privatekey, cryptography.hazmat.primitives.asymmetric.ed448.Ed448PrivateKey):
|
|
return self.type == 'Ed448'
|
|
if isinstance(self.privatekey, cryptography.hazmat.primitives.asymmetric.ec.EllipticCurvePrivateKey):
|
|
if self.type != 'ECC':
|
|
return False
|
|
if self.curve not in self.curves:
|
|
return False
|
|
return self.curves[self.curve]['verify'](self.privatekey)
|
|
|
|
return False
|
|
|
|
def _check_format(self):
|
|
if self.format == 'auto_ignore':
|
|
return True
|
|
try:
|
|
with open(self.path, 'rb') as f:
|
|
content = f.read()
|
|
format = crypto_utils.identify_private_key_format(content)
|
|
return format == self._get_wanted_format()
|
|
except Exception as dummy:
|
|
return False
|
|
|
|
def dump(self):
|
|
"""Serialize the object into a dictionary."""
|
|
result = super(PrivateKeyCryptography, self).dump()
|
|
result['type'] = self.type
|
|
if self.type == 'ECC':
|
|
result['curve'] = self.curve
|
|
return result
|
|
|
|
|
|
def main():
|
|
|
|
module = AnsibleModule(
|
|
argument_spec=dict(
|
|
state=dict(type='str', default='present', choices=['present', 'absent']),
|
|
size=dict(type='int', default=4096),
|
|
type=dict(type='str', default='RSA', choices=[
|
|
'DSA', 'ECC', 'Ed25519', 'Ed448', 'RSA', 'X25519', 'X448'
|
|
]),
|
|
curve=dict(type='str', choices=[
|
|
'secp384r1', 'secp521r1', 'secp224r1', 'secp192r1', 'secp256r1',
|
|
'secp256k1', 'brainpoolP256r1', 'brainpoolP384r1', 'brainpoolP512r1',
|
|
'sect571k1', 'sect409k1', 'sect283k1', 'sect233k1', 'sect163k1',
|
|
'sect571r1', 'sect409r1', 'sect283r1', 'sect233r1', 'sect163r2',
|
|
]),
|
|
force=dict(type='bool', default=False),
|
|
path=dict(type='path', required=True),
|
|
passphrase=dict(type='str', no_log=True),
|
|
cipher=dict(type='str'),
|
|
backup=dict(type='bool', default=False),
|
|
format=dict(type='str', default='auto_ignore', choices=['pkcs1', 'pkcs8', 'raw', 'auto', 'auto_ignore']),
|
|
format_mismatch=dict(type='str', default='regenerate', choices=['regenerate', 'convert']),
|
|
select_crypto_backend=dict(type='str', choices=['auto', 'pyopenssl', 'cryptography'], default='auto'),
|
|
return_content=dict(type='bool', default=False),
|
|
regenerate=dict(
|
|
type='str',
|
|
default='full_idempotence',
|
|
choices=['never', 'fail', 'partial_idempotence', 'full_idempotence', 'always']
|
|
),
|
|
),
|
|
supports_check_mode=True,
|
|
add_file_common_args=True,
|
|
required_together=[
|
|
['cipher', 'passphrase']
|
|
],
|
|
required_if=[
|
|
['type', 'ECC', ['curve']],
|
|
],
|
|
)
|
|
|
|
base_dir = os.path.dirname(module.params['path']) or '.'
|
|
if not os.path.isdir(base_dir):
|
|
module.fail_json(
|
|
name=base_dir,
|
|
msg='The directory %s does not exist or the file is not a directory' % base_dir
|
|
)
|
|
|
|
backend = module.params['select_crypto_backend']
|
|
if backend == 'auto':
|
|
# Detection what is possible
|
|
can_use_cryptography = CRYPTOGRAPHY_FOUND and CRYPTOGRAPHY_VERSION >= LooseVersion(MINIMAL_CRYPTOGRAPHY_VERSION)
|
|
can_use_pyopenssl = PYOPENSSL_FOUND and PYOPENSSL_VERSION >= LooseVersion(MINIMAL_PYOPENSSL_VERSION)
|
|
|
|
# Decision
|
|
if module.params['cipher'] and module.params['passphrase'] and module.params['cipher'] != 'auto':
|
|
# First try pyOpenSSL, then cryptography
|
|
if can_use_pyopenssl:
|
|
backend = 'pyopenssl'
|
|
elif can_use_cryptography:
|
|
backend = 'cryptography'
|
|
else:
|
|
# First try cryptography, then pyOpenSSL
|
|
if can_use_cryptography:
|
|
backend = 'cryptography'
|
|
elif can_use_pyopenssl:
|
|
backend = 'pyopenssl'
|
|
|
|
# Success?
|
|
if backend == 'auto':
|
|
module.fail_json(msg=("Can't detect any of the required Python libraries "
|
|
"cryptography (>= {0}) or PyOpenSSL (>= {1})").format(
|
|
MINIMAL_CRYPTOGRAPHY_VERSION,
|
|
MINIMAL_PYOPENSSL_VERSION))
|
|
try:
|
|
if backend == 'pyopenssl':
|
|
if not PYOPENSSL_FOUND:
|
|
module.fail_json(msg=missing_required_lib('pyOpenSSL >= {0}'.format(MINIMAL_PYOPENSSL_VERSION)),
|
|
exception=PYOPENSSL_IMP_ERR)
|
|
module.deprecate('The module is using the PyOpenSSL backend. This backend has been deprecated',
|
|
version='2.13', collection_name='ansible.builtin')
|
|
private_key = PrivateKeyPyOpenSSL(module)
|
|
elif backend == 'cryptography':
|
|
if not CRYPTOGRAPHY_FOUND:
|
|
module.fail_json(msg=missing_required_lib('cryptography >= {0}'.format(MINIMAL_CRYPTOGRAPHY_VERSION)),
|
|
exception=CRYPTOGRAPHY_IMP_ERR)
|
|
private_key = PrivateKeyCryptography(module)
|
|
|
|
if private_key.state == 'present':
|
|
if module.check_mode:
|
|
result = private_key.dump()
|
|
result['changed'] = private_key.force \
|
|
or not private_key.check(module, ignore_conversion=True) \
|
|
or not private_key.check(module, ignore_conversion=False)
|
|
module.exit_json(**result)
|
|
|
|
private_key.generate(module)
|
|
else:
|
|
if module.check_mode:
|
|
result = private_key.dump()
|
|
result['changed'] = os.path.exists(module.params['path'])
|
|
module.exit_json(**result)
|
|
|
|
private_key.remove(module)
|
|
|
|
result = private_key.dump()
|
|
module.exit_json(**result)
|
|
except crypto_utils.OpenSSLObjectError as exc:
|
|
module.fail_json(msg=to_native(exc))
|
|
|
|
|
|
if __name__ == '__main__':
|
|
main()
|