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community.crypto
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community.crypto/tests/integration/targets/openssl_privatekey/tasks/impl.yml

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---
- name: "({{ select_crypto_backend }}) Generate privatekey1 - standard (check mode)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey1.pem'
select_crypto_backend: '{{ select_crypto_backend }}'
return_content: yes
check_mode: true
register: privatekey1_check
- name: "({{ select_crypto_backend }}) Generate privatekey1 - standard"
openssl_privatekey:
path: '{{ output_dir }}/privatekey1.pem'
select_crypto_backend: '{{ select_crypto_backend }}'
return_content: yes
register: privatekey1
- name: "({{ select_crypto_backend }}) Generate privatekey1 - standard (idempotence, check mode)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey1.pem'
select_crypto_backend: '{{ select_crypto_backend }}'
return_content: yes
check_mode: true
register: privatekey1_idempotence_check
- name: "({{ select_crypto_backend }}) Generate privatekey1 - standard (idempotence)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey1.pem'
select_crypto_backend: '{{ select_crypto_backend }}'
return_content: yes
register: privatekey1_idempotence
- name: "({{ select_crypto_backend }}) Generate privatekey2 - size 2048"
openssl_privatekey:
path: '{{ output_dir }}/privatekey2.pem'
size: 2048
select_crypto_backend: '{{ select_crypto_backend }}'
- name: "({{ select_crypto_backend }}) Generate privatekey3 - type DSA"
openssl_privatekey:
path: '{{ output_dir }}/privatekey3.pem'
type: DSA
size: 3072
select_crypto_backend: '{{ select_crypto_backend }}'
- name: "({{ select_crypto_backend }}) Generate privatekey4 - standard"
openssl_privatekey:
path: '{{ output_dir }}/privatekey4.pem'
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
- name: "({{ select_crypto_backend }}) Delete privatekey4 - standard"
openssl_privatekey:
state: absent
path: '{{ output_dir }}/privatekey4.pem'
select_crypto_backend: '{{ select_crypto_backend }}'
return_content: yes
register: privatekey4_delete
- name: "({{ select_crypto_backend }}) Delete privatekey4 - standard (idempotence)"
openssl_privatekey:
state: absent
path: '{{ output_dir }}/privatekey4.pem'
select_crypto_backend: '{{ select_crypto_backend }}'
register: privatekey4_delete_idempotence
- name: "({{ select_crypto_backend }}) Generate privatekey5 - standard - with passphrase"
openssl_privatekey:
path: '{{ output_dir }}/privatekey5.pem'
passphrase: ansible
cipher: "{{ 'aes256' if select_crypto_backend == 'pyopenssl' else 'auto' }}"
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
- name: "({{ select_crypto_backend }}) Generate privatekey5 - standard - idempotence"
openssl_privatekey:
path: '{{ output_dir }}/privatekey5.pem'
passphrase: ansible
cipher: "{{ 'aes256' if select_crypto_backend == 'pyopenssl' else 'auto' }}"
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
register: privatekey5_idempotence
- name: "({{ select_crypto_backend }}) Generate privatekey6 - standard - with non-ASCII passphrase"
openssl_privatekey:
path: '{{ output_dir }}/privatekey6.pem'
passphrase: ànsïblé
cipher: "{{ 'aes256' if select_crypto_backend == 'pyopenssl' else 'auto' }}"
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
- set_fact:
ecc_types: []
when: select_crypto_backend == 'pyopenssl'
- set_fact:
ecc_types:
- curve: secp384r1
openssl_name: secp384r1
min_cryptography_version: "0.5"
- curve: secp521r1
openssl_name: secp521r1
min_cryptography_version: "0.5"
- curve: secp224r1
openssl_name: secp224r1
min_cryptography_version: "0.5"
- curve: secp192r1
openssl_name: prime192v1
min_cryptography_version: "0.5"
- curve: secp256r1
openssl_name: secp256r1
min_cryptography_version: "0.5"
- curve: secp256k1
openssl_name: secp256k1
min_cryptography_version: "0.9"
- curve: brainpoolP256r1
openssl_name: brainpoolP256r1
min_cryptography_version: "2.2"
- curve: brainpoolP384r1
openssl_name: brainpoolP384r1
min_cryptography_version: "2.2"
- curve: brainpoolP512r1
openssl_name: brainpoolP512r1
min_cryptography_version: "2.2"
- curve: sect571k1
openssl_name: sect571k1
min_cryptography_version: "0.5"
- curve: sect409k1
openssl_name: sect409k1
min_cryptography_version: "0.5"
- curve: sect283k1
openssl_name: sect283k1
min_cryptography_version: "0.5"
- curve: sect233k1
openssl_name: sect233k1
min_cryptography_version: "0.5"
- curve: sect163k1
openssl_name: sect163k1
min_cryptography_version: "0.5"
- curve: sect571r1
openssl_name: sect571r1
min_cryptography_version: "0.5"
- curve: sect409r1
openssl_name: sect409r1
min_cryptography_version: "0.5"
- curve: sect283r1
openssl_name: sect283r1
min_cryptography_version: "0.5"
- curve: sect233r1
openssl_name: sect233r1
min_cryptography_version: "0.5"
- curve: sect163r2
openssl_name: sect163r2
min_cryptography_version: "0.5"
when: select_crypto_backend == 'cryptography'
- name: "({{ select_crypto_backend }}) Test ECC key generation"
openssl_privatekey:
path: '{{ output_dir }}/privatekey-{{ item.curve }}.pem'
type: ECC
curve: "{{ item.curve }}"
select_crypto_backend: '{{ select_crypto_backend }}'
when: |
cryptography_version.stdout is version(item.min_cryptography_version, '>=') and
item.openssl_name in openssl_ecc_list
loop: "{{ ecc_types }}"
loop_control:
label: "{{ item.curve }}"
register: privatekey_ecc_generate
- name: "({{ select_crypto_backend }}) Test ECC key generation (idempotency)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey-{{ item.curve }}.pem'
type: ECC
curve: "{{ item.curve }}"
select_crypto_backend: '{{ select_crypto_backend }}'
when: |
cryptography_version.stdout is version(item.min_cryptography_version, '>=') and
item.openssl_name in openssl_ecc_list
loop: "{{ ecc_types }}"
loop_control:
label: "{{ item.curve }}"
register: privatekey_ecc_idempotency
- block:
- name: "({{ select_crypto_backend }}) Test other type generation"
openssl_privatekey:
path: '{{ output_dir }}/privatekey-{{ item.type }}.pem'
type: "{{ item.type }}"
select_crypto_backend: '{{ select_crypto_backend }}'
when: cryptography_version.stdout is version(item.min_version, '>=')
loop: "{{ types }}"
loop_control:
label: "{{ item.type }}"
ignore_errors: yes
register: privatekey_t1_generate
- name: "({{ select_crypto_backend }}) Test other type generation (idempotency)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey-{{ item.type }}.pem'
type: "{{ item.type }}"
select_crypto_backend: '{{ select_crypto_backend }}'
when: cryptography_version.stdout is version(item.min_version, '>=')
loop: "{{ types }}"
loop_control:
label: "{{ item.type }}"
ignore_errors: yes
register: privatekey_t1_idempotency
when: select_crypto_backend == 'cryptography'
vars:
types:
- type: X25519
min_version: '2.5'
- type: Ed25519
min_version: '2.6'
- type: Ed448
min_version: '2.6'
- type: X448
min_version: '2.6'
- name: "({{ select_crypto_backend }}) Generate privatekey with passphrase"
openssl_privatekey:
path: '{{ output_dir }}/privatekeypw.pem'
passphrase: hunter2
cipher: "{{ 'aes256' if select_crypto_backend == 'pyopenssl' else 'auto' }}"
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
backup: yes
register: passphrase_1
- name: "({{ select_crypto_backend }}) Generate privatekey with passphrase (idempotent)"
openssl_privatekey:
path: '{{ output_dir }}/privatekeypw.pem'
passphrase: hunter2
cipher: "{{ 'aes256' if select_crypto_backend == 'pyopenssl' else 'auto' }}"
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
backup: yes
register: passphrase_2
- name: "({{ select_crypto_backend }}) Regenerate privatekey without passphrase"
openssl_privatekey:
path: '{{ output_dir }}/privatekeypw.pem'
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
backup: yes
register: passphrase_3
- name: "({{ select_crypto_backend }}) Regenerate privatekey without passphrase (idempotent)"
openssl_privatekey:
path: '{{ output_dir }}/privatekeypw.pem'
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
backup: yes
register: passphrase_4
- name: "({{ select_crypto_backend }}) Regenerate privatekey with passphrase"
openssl_privatekey:
path: '{{ output_dir }}/privatekeypw.pem'
passphrase: hunter2
cipher: "{{ 'aes256' if select_crypto_backend == 'pyopenssl' else 'auto' }}"
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
backup: yes
register: passphrase_5
- name: "({{ select_crypto_backend }}) Create broken key"
copy:
dest: "{{ output_dir }}/broken"
content: "broken"
- name: "({{ select_crypto_backend }}) Regenerate broken key"
openssl_privatekey:
path: '{{ output_dir }}/broken.pem'
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
register: output_broken
- name: "({{ select_crypto_backend }}) Remove module"
openssl_privatekey:
path: '{{ output_dir }}/privatekeypw.pem'
passphrase: hunter2
cipher: "{{ 'aes256' if select_crypto_backend == 'pyopenssl' else 'auto' }}"
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
backup: yes
state: absent
register: remove_1
- name: "({{ select_crypto_backend }}) Remove module (idempotent)"
openssl_privatekey:
path: '{{ output_dir }}/privatekeypw.pem'
passphrase: hunter2
cipher: "{{ 'aes256' if select_crypto_backend == 'pyopenssl' else 'auto' }}"
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
backup: yes
state: absent
register: remove_2
- name: "({{ select_crypto_backend }}) Generate privatekey_mode (mode 0400)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_mode.pem'
mode: '0400'
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
register: privatekey_mode_1
- name: "({{ select_crypto_backend }}) Stat for privatekey_mode"
stat:
path: '{{ output_dir }}/privatekey_mode.pem'
register: privatekey_mode_1_stat
- name: "({{ select_crypto_backend }}) Generate privatekey_mode (mode 0400, idempotency)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_mode.pem'
mode: '0400'
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
register: privatekey_mode_2
- name: Make sure that mtime actually changes.
# The "privatekey_mode_1_stat.stat.mtime != privatekey_mode_3_stat.stat.mtime" test should be
# changed to compare content instead of mtime. On macOS 10.15, mtime resolution is one second,
# and the machine (VM) is fast enough that both modifications can happen in the same second.
pause:
seconds: 1
- name: "({{ select_crypto_backend }}) Generate privatekey_mode (mode 0400, force)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_mode.pem'
mode: '0400'
force: yes
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
register: privatekey_mode_3
- name: "({{ select_crypto_backend }}) Stat for privatekey_mode"
stat:
path: '{{ output_dir }}/privatekey_mode.pem'
register: privatekey_mode_3_stat
- block:
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_1 - auto format"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_fmt_1.pem'
format: auto
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
register: privatekey_fmt_1_step_1
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_1 - auto format (idempotent)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_fmt_1.pem'
format: auto
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
register: privatekey_fmt_1_step_2
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_1 - PKCS1 format"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_fmt_1.pem'
format: pkcs1
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
register: privatekey_fmt_1_step_3
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_1 - PKCS8 format"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_fmt_1.pem'
format: pkcs8
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
register: privatekey_fmt_1_step_4
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_1 - PKCS8 format (idempotent)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_fmt_1.pem'
format: pkcs8
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
register: privatekey_fmt_1_step_5
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_1 - auto format (ignore)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_fmt_1.pem'
format: auto_ignore
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
register: privatekey_fmt_1_step_6
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_1 - auto format (no ignore)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_fmt_1.pem'
format: auto
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
register: privatekey_fmt_1_step_7
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_1 - raw format (fail)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_fmt_1.pem'
format: raw
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
ignore_errors: yes
register: privatekey_fmt_1_step_8
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_1 - PKCS8 format (convert)"
openssl_privatekey_info:
path: '{{ output_dir }}/privatekey_fmt_1.pem'
select_crypto_backend: '{{ select_crypto_backend }}'
register: privatekey_fmt_1_step_9_before
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_1 - PKCS8 format (convert)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_fmt_1.pem'
format: pkcs8
format_mismatch: convert
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
register: privatekey_fmt_1_step_9
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_1 - PKCS8 format (convert)"
openssl_privatekey_info:
path: '{{ output_dir }}/privatekey_fmt_1.pem'
select_crypto_backend: '{{ select_crypto_backend }}'
register: privatekey_fmt_1_step_9_after
when: 'select_crypto_backend == "cryptography"'
- block:
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_2 - PKCS8 format"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_fmt_2.pem'
type: X448
format: pkcs8
select_crypto_backend: '{{ select_crypto_backend }}'
ignore_errors: yes
register: privatekey_fmt_2_step_1
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_2 - PKCS8 format (idempotent)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_fmt_2.pem'
type: X448
format: pkcs8
select_crypto_backend: '{{ select_crypto_backend }}'
ignore_errors: yes
register: privatekey_fmt_2_step_2
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_2 - raw format"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_fmt_2.pem'
type: X448
format: raw
select_crypto_backend: '{{ select_crypto_backend }}'
return_content: yes
ignore_errors: yes
register: privatekey_fmt_2_step_3
- name: "({{ select_crypto_backend }}) Read privatekey_fmt_2.pem"
slurp:
src: "{{ output_dir }}/privatekey_fmt_2.pem"
ignore_errors: yes
register: content
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_2 - verify that returned content is base64 encoded"
assert:
that:
- privatekey_fmt_2_step_3.privatekey == content.content
when: privatekey_fmt_2_step_1 is not failed
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_2 - raw format (idempotent)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_fmt_2.pem'
type: X448
format: raw
select_crypto_backend: '{{ select_crypto_backend }}'
return_content: yes
ignore_errors: yes
register: privatekey_fmt_2_step_4
- name: "({{ select_crypto_backend }}) Read privatekey_fmt_2.pem"
slurp:
src: "{{ output_dir }}/privatekey_fmt_2.pem"
ignore_errors: yes
register: content
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_2 - verify that returned content is base64 encoded"
assert:
that:
- privatekey_fmt_2_step_4.privatekey == content.content
when: privatekey_fmt_2_step_1 is not failed
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_2 - auto format (ignore)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_fmt_2.pem'
type: X448
format: auto_ignore
select_crypto_backend: '{{ select_crypto_backend }}'
return_content: yes
ignore_errors: yes
register: privatekey_fmt_2_step_5
- name: "({{ select_crypto_backend }}) Read privatekey_fmt_2.pem"
slurp:
src: "{{ output_dir }}/privatekey_fmt_2.pem"
ignore_errors: yes
register: content
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_2 - verify that returned content is base64 encoded"
assert:
that:
- privatekey_fmt_2_step_5.privatekey == content.content
when: privatekey_fmt_2_step_1 is not failed
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_2 - auto format (no ignore)"
openssl_privatekey:
path: '{{ output_dir }}/privatekey_fmt_2.pem'
type: X448
format: auto
select_crypto_backend: '{{ select_crypto_backend }}'
return_content: yes
ignore_errors: yes
register: privatekey_fmt_2_step_6
- name: "({{ select_crypto_backend }}) Generate privatekey_fmt_2 - verify that returned content is not base64 encoded"
assert:
that:
- privatekey_fmt_2_step_6.privatekey == lookup('file', output_dir ~ '/privatekey_fmt_2.pem', rstrip=False)
when: privatekey_fmt_2_step_1 is not failed
when: 'select_crypto_backend == "cryptography" and cryptography_version.stdout is version("2.6", ">=")'
# Test regenerate option
- name: "({{ select_crypto_backend }}) Regenerate - setup simple keys"
openssl_privatekey:
path: '{{ output_dir }}/regenerate-a-{{ item }}.pem'
type: RSA
size: '{{ default_rsa_key_size }}'
select_crypto_backend: '{{ select_crypto_backend }}'
loop: "{{ regenerate_values }}"
- name: "({{ select_crypto_backend }}) Regenerate - setup password protected keys"
openssl_privatekey:
path: '{{ output_dir }}/regenerate-b-{{ item }}.pem'
type: RSA
size: '{{ default_rsa_key_size }}'
passphrase: hunter2
cipher: "{{ 'aes256' if select_crypto_backend == 'pyopenssl' else 'auto' }}"
select_crypto_backend: '{{ select_crypto_backend }}'
loop: "{{ regenerate_values }}"
- name: "({{ select_crypto_backend }}) Regenerate - setup broken keys"
copy:
dest: '{{ output_dir }}/regenerate-c-{{ item }}.pem'
content: 'broken key'
mode: '0700'
loop: "{{ regenerate_values }}"
- name: "({{ select_crypto_backend }}) Regenerate - modify broken keys (check mode)"
openssl_privatekey:
path: '{{ output_dir }}/regenerate-c-{{ item }}.pem'
type: RSA
size: '{{ default_rsa_key_size }}'
regenerate: '{{ item }}'
select_crypto_backend: '{{ select_crypto_backend }}'
check_mode: yes
loop: "{{ regenerate_values }}"
ignore_errors: yes
register: result
- assert:
that:
- result.results[0] is failed
- "'Unable to read the key. The key is protected with a another passphrase / no passphrase or broken. Will not proceed.' in result.results[0].msg or 'Cannot load raw key' in result.results[0].msg"
- result.results[1] is failed
- "'Unable to read the key. The key is protected with a another passphrase / no passphrase or broken. Will not proceed.' in result.results[1].msg or 'Cannot load raw key' in result.results[1].msg"
- result.results[2] is failed
- "'Unable to read the key. The key is protected with a another passphrase / no passphrase or broken. Will not proceed.' in result.results[2].msg or 'Cannot load raw key' in result.results[2].msg"
- result.results[3] is changed
- result.results[4] is changed
- name: "({{ select_crypto_backend }}) Regenerate - modify broken keys"
openssl_privatekey:
path: '{{ output_dir }}/regenerate-c-{{ item }}.pem'
type: RSA
size: '{{ default_rsa_key_size }}'
regenerate: '{{ item }}'
select_crypto_backend: '{{ select_crypto_backend }}'
loop: "{{ regenerate_values }}"
ignore_errors: yes
register: result
- assert:
that:
- result.results[0] is failed
- "'Unable to read the key. The key is protected with a another passphrase / no passphrase or broken. Will not proceed.' in result.results[0].msg or 'Cannot load raw key' in result.results[0].msg"
- result.results[1] is failed
- "'Unable to read the key. The key is protected with a another passphrase / no passphrase or broken. Will not proceed.' in result.results[1].msg or 'Cannot load raw key' in result.results[1].msg"
- result.results[2] is failed
- "'Unable to read the key. The key is protected with a another passphrase / no passphrase or broken. Will not proceed.' in result.results[2].msg or 'Cannot load raw key' in result.results[2].msg"
- result.results[3] is changed
- result.results[4] is changed
- name: "({{ select_crypto_backend }}) Regenerate - modify password protected keys (check mode)"
openssl_privatekey:
path: '{{ output_dir }}/regenerate-b-{{ item }}.pem'
type: RSA
size: '{{ default_rsa_key_size }}'
regenerate: '{{ item }}'
select_crypto_backend: '{{ select_crypto_backend }}'
check_mode: yes
loop: "{{ regenerate_values }}"
ignore_errors: yes
register: result
- assert:
that:
- result.results[0] is failed
- "'Unable to read the key. The key is protected with a another passphrase / no passphrase or broken. Will not proceed.' in result.results[0].msg"
- result.results[1] is failed
- "'Unable to read the key. The key is protected with a another passphrase / no passphrase or broken. Will not proceed.' in result.results[1].msg"
- result.results[2] is failed
- "'Unable to read the key. The key is protected with a another passphrase / no passphrase or broken. Will not proceed.' in result.results[2].msg"
- result.results[3] is changed
- result.results[4] is changed
- name: "({{ select_crypto_backend }}) Regenerate - modify password protected keys"
openssl_privatekey:
path: '{{ output_dir }}/regenerate-b-{{ item }}.pem'
type: RSA
size: '{{ default_rsa_key_size }}'
regenerate: '{{ item }}'
select_crypto_backend: '{{ select_crypto_backend }}'
loop: "{{ regenerate_values }}"
ignore_errors: yes
register: result
- assert:
that:
- result.results[0] is failed
- "'Unable to read the key. The key is protected with a another passphrase / no passphrase or broken. Will not proceed.' in result.results[0].msg"
- result.results[1] is failed
- "'Unable to read the key. The key is protected with a another passphrase / no passphrase or broken. Will not proceed.' in result.results[1].msg"
- result.results[2] is failed
- "'Unable to read the key. The key is protected with a another passphrase / no passphrase or broken. Will not proceed.' in result.results[2].msg"
- result.results[3] is changed
- result.results[4] is changed
- name: "({{ select_crypto_backend }}) Regenerate - not modify regular keys (check mode)"
openssl_privatekey:
path: '{{ output_dir }}/regenerate-a-{{ item }}.pem'
type: RSA
size: '{{ default_rsa_key_size }}'
regenerate: '{{ item }}'
select_crypto_backend: '{{ select_crypto_backend }}'
check_mode: yes
loop: "{{ regenerate_values }}"
register: result
- assert:
that:
- result.results[0] is not changed
- result.results[1] is not changed
- result.results[2] is not changed
- result.results[3] is not changed
- result.results[4] is changed
- name: "({{ select_crypto_backend }}) Regenerate - not modify regular keys"
openssl_privatekey:
path: '{{ output_dir }}/regenerate-a-{{ item }}.pem'
type: RSA
size: '{{ default_rsa_key_size }}'
regenerate: '{{ item }}'
select_crypto_backend: '{{ select_crypto_backend }}'
loop: "{{ regenerate_values }}"
register: result
- assert:
that:
- result.results[0] is not changed
- result.results[1] is not changed
- result.results[2] is not changed
- result.results[3] is not changed
- result.results[4] is changed
- name: "({{ select_crypto_backend }}) Regenerate - adjust key size (check mode)"
openssl_privatekey:
path: '{{ output_dir }}/regenerate-a-{{ item }}.pem'
type: RSA
size: '{{ default_rsa_key_size + 20 }}'
regenerate: '{{ item }}'
select_crypto_backend: '{{ select_crypto_backend }}'
check_mode: yes
loop: "{{ regenerate_values }}"
ignore_errors: yes
register: result
- assert:
that:
- result.results[0] is success and result.results[0] is not changed
- result.results[1] is failed
- "'Key has wrong type and/or size. Will not proceed.' in result.results[1].msg"
- result.results[2] is changed
- result.results[3] is changed
- result.results[4] is changed
- name: "({{ select_crypto_backend }}) Regenerate - adjust key size"
openssl_privatekey:
path: '{{ output_dir }}/regenerate-a-{{ item }}.pem'
type: RSA
size: '{{ default_rsa_key_size + 20 }}'
regenerate: '{{ item }}'
select_crypto_backend: '{{ select_crypto_backend }}'
loop: "{{ regenerate_values }}"
ignore_errors: yes
register: result
- assert:
that:
- result.results[0] is success and result.results[0] is not changed
- result.results[1] is failed
- "'Key has wrong type and/or size. Will not proceed.' in result.results[1].msg"
- result.results[2] is changed
- result.results[3] is changed
- result.results[4] is changed
- name: "({{ select_crypto_backend }}) Regenerate - redistribute keys"
copy:
src: '{{ output_dir }}/regenerate-a-always.pem'
dest: '{{ output_dir }}/regenerate-a-{{ item }}.pem'
remote_src: true
loop: "{{ regenerate_values }}"
when: "item != 'always'"
- name: "({{ select_crypto_backend }}) Regenerate - adjust key type (check mode)"
openssl_privatekey:
path: '{{ output_dir }}/regenerate-a-{{ item }}.pem'
type: DSA
size: '{{ default_rsa_key_size }}'
regenerate: '{{ item }}'
select_crypto_backend: '{{ select_crypto_backend }}'
check_mode: yes
loop: "{{ regenerate_values }}"
ignore_errors: yes
register: result
- assert:
that:
- result.results[0] is success and result.results[0] is not changed
- result.results[1] is failed
- "'Key has wrong type and/or size. Will not proceed.' in result.results[1].msg"
- result.results[2] is changed
- result.results[3] is changed
- result.results[4] is changed
- name: "({{ select_crypto_backend }}) Regenerate - adjust key type"
openssl_privatekey:
path: '{{ output_dir }}/regenerate-a-{{ item }}.pem'
type: DSA
size: '{{ default_rsa_key_size }}'
regenerate: '{{ item }}'
select_crypto_backend: '{{ select_crypto_backend }}'
loop: "{{ regenerate_values }}"
ignore_errors: yes
register: result
- assert:
that:
- result.results[0] is success and result.results[0] is not changed
- result.results[1] is failed
- "'Key has wrong type and/or size. Will not proceed.' in result.results[1].msg"
- result.results[2] is changed
- result.results[3] is changed
- result.results[4] is changed
- block:
- name: "({{ select_crypto_backend }}) Regenerate - redistribute keys"
copy:
src: '{{ output_dir }}/regenerate-a-always.pem'
dest: '{{ output_dir }}/regenerate-a-{{ item }}.pem'
remote_src: true
loop: "{{ regenerate_values }}"
when: "item != 'always'"
- name: "({{ select_crypto_backend }}) Regenerate - format mismatch (check mode)"
openssl_privatekey:
path: '{{ output_dir }}/regenerate-a-{{ item }}.pem'
type: DSA
size: '{{ default_rsa_key_size }}'
format: pkcs8
regenerate: '{{ item }}'
select_crypto_backend: '{{ select_crypto_backend }}'
check_mode: yes
loop: "{{ regenerate_values }}"
ignore_errors: yes
register: result
- assert:
that:
- result.results[0] is success and result.results[0] is not changed
- result.results[1] is failed
- "'Key has wrong format. Will not proceed.' in result.results[1].msg"
- result.results[2] is changed
- result.results[3] is changed
- result.results[4] is changed
- name: "({{ select_crypto_backend }}) Regenerate - format mismatch"
openssl_privatekey:
path: '{{ output_dir }}/regenerate-a-{{ item }}.pem'
type: DSA
size: '{{ default_rsa_key_size }}'
format: pkcs8
regenerate: '{{ item }}'
select_crypto_backend: '{{ select_crypto_backend }}'
loop: "{{ regenerate_values }}"
ignore_errors: yes
register: result
- assert:
that:
- result.results[0] is success and result.results[0] is not changed
- result.results[1] is failed
- "'Key has wrong format. Will not proceed.' in result.results[1].msg"
- result.results[2] is changed
- result.results[3] is changed
- result.results[4] is changed
- name: "({{ select_crypto_backend }}) Regenerate - redistribute keys"
copy:
src: '{{ output_dir }}/regenerate-a-always.pem'
dest: '{{ output_dir }}/regenerate-a-{{ item }}.pem'
remote_src: true
loop: "{{ regenerate_values }}"
when: "item != 'always'"
- name: "({{ select_crypto_backend }}) Regenerate - convert format (check mode)"
openssl_privatekey:
path: '{{ output_dir }}/regenerate-a-{{ item }}.pem'
type: DSA
size: '{{ default_rsa_key_size }}'
format: pkcs1
format_mismatch: convert
regenerate: '{{ item }}'
select_crypto_backend: '{{ select_crypto_backend }}'
check_mode: yes
loop: "{{ regenerate_values }}"
register: result
- assert:
that:
- result.results[0] is changed
- result.results[1] is changed
- result.results[2] is changed
- result.results[3] is changed
- result.results[4] is changed
- name: "({{ select_crypto_backend }}) Regenerate - convert format"
openssl_privatekey:
path: '{{ output_dir }}/regenerate-a-{{ item }}.pem'
type: DSA
size: '{{ default_rsa_key_size }}'
format: pkcs1
format_mismatch: convert
regenerate: '{{ item }}'
select_crypto_backend: '{{ select_crypto_backend }}'
loop: "{{ regenerate_values }}"
register: result
- assert:
that:
- result.results[0] is changed
- result.results[1] is changed
- result.results[2] is changed
- result.results[3] is changed
- result.results[4] is changed
# for all values but 'always', the key should have not been regenerated.
# verify this by comparing fingerprints:
- result.results[0].fingerprint == result.results[1].fingerprint
- result.results[0].fingerprint == result.results[2].fingerprint
- result.results[0].fingerprint == result.results[3].fingerprint
- result.results[0].fingerprint != result.results[4].fingerprint
when: 'select_crypto_backend == "cryptography" and cryptography_version.stdout is version("2.6", ">=")'
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