WIP

2021-09-29 10:45:20 +02:00 · 2021-09-29 10:45:20 +02:00 · 45aaef98cf
parent d3ebf05027
commit 45aaef98cf
5 changed files with 792 additions and 35 deletions
--- a/README.md
+++ b/README.md
@ -1,3 +1,153 @@
 # eole-galaxy
-Utilitaires pour gérer les modules EOLE à partir d’ansible
+Utilitaires pour gérer les modules EOLE à partir d’ansible
 ## Alimentation de la configuration de Zéphir
 ### zephir_etab
 Le module a pour but la gestion des établissements.
 Un établissement est identifié par un numéro *rne*.
 ``` plantuml
 object etablissements
 etablissements : rne (character varying(8) not null pkey)
 etablissements : libelle (character varying(200) not null)
 etablissements : type (integer not null references types_etab)
 etablissements : ville (character varying(50) not null)
 etablissements : cp (character varying(5) not null)
 etablissements : adresse     (character varying(100))
 etablissements : tel         (character varying(20))
 etablissements : fax         (character varying(20))
 etablissements : mail        (character varying(100))
 etablissements : responsable (character varying(30))
 etablissements : remarques   (text)
 object types_etab
 types_etab : id      (integer, not null)
 types_etab : libelle (character varying(80), not null)
 ```
 Quoique les champs `libelle`, `type`, `ville`, `cp` soient également obligatoires à la création, ils ne sont pas distinctifs de l’établissement.
 Le champ type fait référence à la table `types_etab` qui contient déjà des valeurs appropriées pour le contexte de l’Éducation nationale.
 Aucune API n’est prévue pour modifier cette table.
 #### Fonctionnement du module
 Le module tire partie de l’API XMLRPC authentifiée accessible localement.
 Le module nécessite donc, outre les paramètres attendus par la base de données, des paramètres d’authentification.
 ##### Implémentation cible
 ``` flowchart
 st=>start: Entrée
 e=>end: Sortie
 createproxy=>operation: Création du proxy
 listetabs=>operation: Liste des établissements
 etabexist=>condition: L’établissement existe déjà ?
 samedata=>condition: Les données sont les mêmes ?
 doingnothing=>operation: Ne rien faire
 modifydata=>operation: Modification des données
 createetab=>operation: Création de l’établissement
 st->createproxy
 createproxy->listetabs
 listetabs->etabexist
 etabexist(yes)->samedata
 samedata(yes)->doingnothing
 doingnothing->e
 samedata(no)->modifydata
 modifydata->e
 etabexist(no)->createetab
 createetab->e
 ```
 ##### Implémentation actuelle
 ``` flowchart
 st3=>start: start run_module
 io5=>inputoutput: input: 
 op8=>operation: key_mapping = {'rne': 'rne', 'libelle': 'libelle', 'ville': 'ville', 'cp': 'code_postal', 'type': 'etab_type', 'adresse': 'adresse', 'tel': 'tel', 'fax': 'fax', 'mail': 'mail', 'responsable': 'responsable', 'remarques': 'remarques'}
 op10=>operation: module_args = dict(zephir_user=dict(type='str', required=True), zephir_user_password=dict(type='str', required=True), rne=dict(type='str', required=True), libelle=dict(type='str', required=True), ville=dict(type='str', required=True), code_postal=dict(type='str', required=True), etab_type=dict(type='int', required=True), adresse=dict(type='str', required=False, default=''), tel=dict(type='str', required=False, default=''), fax=dict(type='str', required=False, default=''), mail=dict(type='str', required=False, default=''), responsable=dict(type='str', required=False, default=''), remarques=dict(type='str', required=False, default=''), state=dict(type='str', required=True, default='present'))
 op12=>operation: result = dict(changed=False, rne=None, msg='')
 op14=>operation: module = AnsibleModule(argument_spec=module_args, supports_check_mode=True)
 cond17=>operation: module.exit_json(**result) if  module.check_mode
 op27=>operation: port_zephir = str((int(config.PORT_ZEPHIR) + 1))
 op29=>operation: proxy_addr = 'http://{0}:{1}@localhost:{2}/'.format(module.params['zephir_user'], module.params['zephir_user_password'], port_zephir)
 op31=>operation: proxy = EoleProxy(proxy_addr)
 op33=>operation: (return_code, etabs) = proxy.etabs.get_etab()
 cond36=>operation: etabs = {m['rne']: m for m in etabs} if  return_code
 cond47=>condition: if (module.params['rne'] in etabs)
 op51=>operation: result['msg'] = 'Etab {} already exists'.format(module.params['rne'])
 op53=>operation: data_change = {}
 cond56=>condition: for (key, value) in etabs[module.params['rne']]
 cond73=>operation: data_change[key] = module.params[key_mapping[key]] if  (module.params[key_mapping[key]] != value)
 cond86=>operation: module.exit_json(**result) if  (not data_change)
 op99=>operation: (return_code, proxy_msg) = proxy.etabs.add_etab(module.params['rne'], module.params['libelle'], module.params['adresse'], module.params['ville'], module.params['code_postal'], module.params['tel'], module.params['fax'], module.params['mail'], module.params['responsable'], module.params['remarques'], module.params['etab_type'])
 cond102=>condition: if return_code
 op106=>operation: result['changed'] = True
 op108=>operation: result['rne'] = proxy_msg
 op110=>operation: result['msg'] = 'Etab {}'.format(module.params['rne'])
 sub119=>subroutine: module.exit_json(**result)
 e121=>end: end run_module
 op114=>operation: result['msg'] = 'Etab {} not created: {}'.format(module.params['libelle'], proxy_msg)
 sub116=>subroutine: module.fail_json(**result)
 st3->io5
 io5->op8
 op8->op10
 op10->op12
 op12->op14
 op14->cond17
 cond17->op27
 op27->op29
 op29->op31
 op31->op33
 op33->cond36
 cond36->cond47
 cond47(yes)->op51
 op51->op53
 op53->cond56
 cond56(yes)->cond73
 cond73->cond56
 cond56(no)->cond86
 cond86->op99
 op99->cond102
 cond102(yes)->op106
 op106->op108
 op108->op110
 op110->sub119
 sub119->e121
 cond102(no)->op114
 op114->sub116
 sub116->sub119
 cond47(no)->op99
 ```
 ### zephir_serveur
 ### zephir_module
 ### zephir_variante
 ## Configuration d’un serveur
 ### creoleset
 Le module a pour but de permettre la modification des variables de configuration creole.
 La difficulté réside dans les liens de dépendances qui peuvent exister entre variables et la nécessité de pouvoir faire des modifications par bloc, de façon atomique.
 ``` flowchart
 start=>start: début d’exécution
 e=>end: fin d’exécution
 creole_loader=>operation: Création de l’objet config en lecture/écriture
 tri_variables=>operation: Tri des variables à modifier
 start->creole_loader
 creole_loader->tri_variables
 tri_variables->e
 ```
 ### zephir_register
--- a/cadoles/eole/plugins/modules/creoleset.py
+++ b/cadoles/eole/plugins/modules/creoleset.py
@ -53,6 +53,15 @@ diff:
 from ansible.module_utils.basic import AnsibleModule
 from creole.loader import creole_loader, config_save_values
 def process_value(variable, value):
    if variable.impl_is_multi():
        if not isinstance(value, list):
            return [value]
    else:
        if isinstance(value, list):
            raise Exception('Variable {} is not multi'.format(variable))
    return value
 def run_module():
    # define available arguments/parameters a user can pass to the module
@ -89,8 +98,10 @@ def run_module():
    diff = []
    c.cfgimpl_get_settings().remove('disabled')
-    variables = {c.find_first(byname=variable['name']): variable['value']
+    variables = {}
-               for variable in module.params['variables']}
+    for variable in module.params['variables']:
        creole_variable = c.find_first(byname=variable['name'])
        variables[creole_variable] = process_value(creole_variable, variable['value'])
    slaves = [v for v in variables if v.impl_is_master_slaves('slave')]
@ -105,48 +116,66 @@ def run_module():
    ordered_variables.extend(masters.items())
    for variable, sub_variables in ordered_variables:
-        value = variables[variable]
+        new_value = variables[variable]
        if not isinstance(value, list):
            values = [value]
        else:
            values = value
        var_path = d.impl_get_path_by_opt(variable)
        old_value = c.getattr(var_path)
        if not variable.impl_is_multi():
            method = 'exact'
        else:
            method = module.params['state']
-        if method == 'exact':
+        if variable.impl_is_multi():
-            if old_value != values:
+            method = module.params['state']
-                diff.append('{}: {} => {}'.format(var_path, old_value, value))
+            if method == 'exact':
-            c.setattr(var_path, value)
+                if old_value != new_value:
                    diff.append('{}: {} => {}'.format(var_path, old_value, new_value))
                if sub_variables:
                    c.setattr(var_path, [])
                    for sub_variable in sub_variables:
                        sub_var_path = d.impl_get_path_by_opt(sub_variable)
                        c.setattr(sub_var_path, [])
                    c.cfgimpl_get_settings().remove('validator')
                    c.setattr(var_path, new_value)
                    for sub_variable in sub_variables:
                        sub_value = variables[sub_variable]
                        sub_var_path = d.impl_get_path_by_opt(sub_variable)
                        sub_old_value = c.getattr(sub_var_path)
                        if sub_old_value != sub_value:
                            diff.append('{}: {} => {}'.format(sub_var_path, sub_old_value, sub_value))
                            for i in range(len(new_value)):
                                c.getattr(sub_var_path)[i] = sub_value[i]
                    c.cfgimpl_get_settings().append('validator')
                else:
                    c.setattr(var_path, new_value)
            elif method == 'present':
                is_present = False
                group_dict = {}
                for sub_variable in sub_variables:
                    group_dict[d.impl_get_path_by_opt(sub_variable)] = variables[sub_variable]
                for v_index, value in enumerate(new_value):
                    for index, item in enumerate(c.getattr(var_path)):
                        if value == item and  all([c.getattr(sv)[index] == group_dict[sv] for sv in group_dict]):
                            is_present = True
                            break
                    if not is_present:
                        old_value.append(value)
                        diff.append('{}: {} => {}'.format(var_path, old_value[:-1], old_value))
                        for sub_variable, sub_value in group_dict.items():
                            if not isinstance(sub_value, list):
                                sub_value = [sub_value]
                            c.getattr(sub_variable)[-1] = sub_value[v_index]
                            diff.append('{}: {} => {}'.format(sub_variable, c.getattr(sub_variable)[:-1], c.getattr(sub_variable)))
        else:
            if old_value != new_value:
                diff.append('{}: {} => {}'.format(var_path, old_value, new_value))
                c.setattr(var_path, new_value)
            for sub_variable in sub_variables:
                sub_value = variables[sub_variable]
                sub_var_path = d.impl_get_path_by_opt(sub_variable)
                sub_old_value = c.getattr(sub_var_path)
                if sub_old_value != sub_value:
                    diff.append('{}: {} => {}'.format(sub_var_path, sub_old_value, sub_value))
-                c.setattr(sub_var_path, sub_value)
+                    c.setattr(sub_var_path, sub_value)
        if method == 'present':
            is_present = False
            group_dict = {}
            for sub_variable in sub_variables:
                group_dict[d.impl_get_path_by_opt(sub_variable)] = variables[sub_variable]
            for v_index, value in enumerate(values):
                for index, item in enumerate(c.getattr(var_path)):
                    if value == item and  all([c.getattr(sv)[index] == group_dict[sv] for sv in group_dict]):
                        is_present = True
                        break
                if not is_present:
                    old_value.append(value)
                    diff.append('{}: {} => {}'.format(var_path, old_value[:-1], old_value))
                    for sub_variable, sub_value in group_dict.items():
                        if not isinstance(sub_value, list):
                            sub_value = [sub_value]
                        c.getattr(sub_variable)[-1] = sub_value[v_index]
                        diff.append('{}: {} => {}'.format(sub_variable, c.getattr(sub_variable)[:-1], c.getattr(sub_variable)))
    result['diff'] = diff
    c.cfgimpl_get_settings().append('disabled')
--- a/cadoles/eole/plugins/modules/zephir_etab.py
+++ b/cadoles/eole/plugins/modules/zephir_etab.py
@ -0,0 +1,231 @@
 #!/usr/bin/python
 # GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
 from __future__ import (absolute_import, division, print_function)
 __metaclass__ = type
 DOCUMENTATION = r'''
 ---
 module: zephir_variante
 short_description: This is a module to automate edition of zephir configuration
 # If this is part of a collection, you need to use semantic versioning,
 # i.e. the version is of the form "2.5.0" and not "2.4".
 version_added: "1.0.0"
 description: This is my longer description explaining my test module.
 options:
    zephir_user:
        description: zephir user authorized to perform action
        required: true
        type: str
    zephir_user_password:
        description: zephir user password
        required: true
        type: str
    rne:
        description: Unique identifier
        required: true
        type: str
    libelle:
        description: etab libelle
        required: true
        type: str
    ville:
        description: city where etab belongs
        required: true
        type: str
    code_postal:
        description: postal code related to city
        required: true
        type: str
    etab_type:
        description: integer identifying etab type
        required: true
        type: int
    adresse:
        description: etab postal address
        required: false
        type: str
    tel:
        description: telephone number used to contact the one in charge
        required: false
        type: str
    fax:
        description: fax number used to transfer data to the one in charge
        required: false
        type: str
    mail:
        description: mail address used to contact the one in charge
        required: false
        type: str
    responsable: identity of the one in charge
        description:
        required: false
        type: str
    remarque: other information
        description:
        required: false
        type: str
    state:
        description: wether data have to be added or deleted from the database
        required: false
        type: str
 # Specify this value according to your collection
 # in format of namespace.collection.doc_fragment_name
 extends_documentation_fragment:
    - cadoles.eole.zephir_variante
 author:
    - Cadoles
 '''
 EXAMPLES = r'''
 # Pass in a message
 - libelle: Test with a message
  cadoles.eole.zephir_variante:
    module: eolebase-2.7.2
    module: dhcp
 '''
 RETURN = r'''
 # These are examples of possible return values, and in general should use other names for return values.
 id:
    description: id the variant is associated with.
    type: int
    returned: always
    sample: 1
 module:
    description: module the variant is associated with.
    type: str
    returned: always
    sample: eolebase-2.7.2
 '''
 from ansible.module_utils.basic import AnsibleModule
 from zephir.eolerpclib import EoleProxy
 from zephir.web import config
 def run_module():
    # define available arguments/parameters a user can pass to the module
    key_mapping = {'rne': 'rne',
                   'libelle': 'libelle',
                   'ville': 'ville',
                   'cp': 'code_postal',
                   'type': 'etab_type',
                   'adresse': 'adresse',
                   'tel': 'tel',
                   'fax': 'fax',
                   'mail': 'mail',
                   'responsable': 'responsable',
                   'remarques': 'remarques'
                   }
    module_args = dict(
            zephir_user=dict(type='str', required=True),
            zephir_user_password=dict(type='str', required=True),
            rne=dict(type='str', required=True),
            libelle=dict(type='str', required=True),
            ville=dict(type='str', required=True),
            code_postal=dict(type='str', required=True),
            etab_type=dict(type='int', required=True),
            adresse=dict(type='str', required=False, default=''),
            tel=dict(type='str', required=False, default=''),
            fax=dict(type='str', required=False, default=''),
            mail=dict(type='str', required=False, default=''),
            responsable=dict(type='str', required=False, default=''),
            remarques=dict(type='str', required=False, default=''),
            state=dict(type='str', required=False, default='present'),
    )
    # seed the result dict in the object
    # we primarily care about changed and state
    # changed is if this module effectively modified the target
    # state will include any data that you want your module to pass back
    # for consumption, for example, in a subsequent task
    result = dict(
        changed=False,
        rne=None,
        msg='',
    )
    # the AnsibleModule object will be our abstraction working with Ansible
    # this includes instantiation, a couple of common attr would be the
    # args/params passed to the execution, as well as if the module
    # supports check mode
    module = AnsibleModule(
        argument_spec=module_args,
        supports_check_mode=True
    )
    if module.check_mode:
        module.exit_json(**result)
        #module.fail_json(**result)
        #module.params['module']
    port_zephir = int(config.PORT_ZEPHIR) + 1
    proxy_addr = "http://{0}:{1}@localhost:{2}/".format(module.params['zephir_user'], module.params['zephir_user_password'], port_zephir)
    proxy = EoleProxy(proxy_addr)
    return_code, etabs = proxy.etabs.get_etab()
    if return_code:
        etabs = {m['rne']:m for m in etabs}
    if module.params['rne'] in etabs:
        if module.params['state'] == 'absent':
            return_code, proxy_msg = proxy.etabs.del_etab(module.params['rne'])
            result['changed'] = True
            result['rne'] = proxy_msg
            result['msg'] = 'Etab {}'.format(module.params['rne'])
            module.exit_json(**result)
        result['msg'] = 'Etab {} already exists'.format(module.params['rne'])
        data_change = {}
        for key, value in etabs[module.params['rne']].items():
            if module.params[key_mapping[key]] != value:
                data_change[key] = module.params[key_mapping[key]]
        if not data_change:
            result['changed'] = False
            result['rne'] = proxy_msg
            result['msg'] = 'Etab {}'.format(module.params['rne'])
            module.exit_json(**result)
        return_code, proxy_msg = proxy.etabs.edit_etab(module.params['rne'],  data_change)
    else:
        if module.params['state'] == 'absent':
            result['changed'] = False
            result['rne'] = proxy_msg
            result['msg'] = 'Etab {}'.format(module.params['rne'])
            module.exit_json(**result)
        return_code, proxy_msg = proxy.etabs.add_etab(module.params['rne'],
                                                  module.params['libelle'],
                                                  module.params['adresse'],
                                                  module.params['ville'],
                                                  module.params['code_postal'],
                                                  module.params['tel'],
                                                  module.params['fax'],
                                                  module.params['mail'],
                                                  module.params['responsable'],
                                                  module.params['remarques'],
                                                  module.params['etab_type'])
        result['changed'] = True
        result['rne'] = proxy_msg
        result['msg'] = 'Etab {}'.format(module.params['rne'])
        module.exit_json(**result)
    if return_code:
        result['changed'] = True
        result['rne'] = proxy_msg
        result['msg'] = 'Etab {}'.format(module.params['rne'])
        module.exit_json(**result)
    else:
        result['msg'] = 'Etab {} not created: {}'.format(module.params['libelle'], proxy_msg)
        module.fail_json(**result)
 def main():
    run_module()
 if __name__ == '__main__':
    main()
--- a/cadoles/eole/plugins/modules/zephir_serveur.py
+++ b/cadoles/eole/plugins/modules/zephir_serveur.py
@ -0,0 +1,201 @@
 #!/usr/bin/python
 # GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
 from __future__ import (absolute_import, division, print_function)
 __metaclass__ = type
 DOCUMENTATION = r'''
 ---
 module: zephir_variante
 short_description: This is a module to automate edition of zephir configuration
 # If this is part of a collection, you need to use semantic versioning,
 # i.e. the version is of the form "2.5.0" and not "2.4".
 version_added: "1.0.0"
 description: This is my longer description explaining my test module.
 options:
    zephir_user:
        description: zephir user authorized to perform action
        required: true
        type: str
    zephir_user_password:
        description: zephir user password
        required: true
        type: str
    etab:
        description: etab the server is related to
        required: true
        type: str
    module:
        description: module the server is an instance of
        required: true
        type: str
    variante:
        description: module variant the server is an instance of
        required: false
        type: int
 # Specify this value according to your collection
 # in format of namespace.collection.doc_fragment_name
 extends_documentation_fragment:
    - cadoles.eole.zephir_variante
 author:
    - Cadoles
 '''
 EXAMPLES = r'''
 # Pass in a message
 - name: Test with a message
  cadoles.eole.zephir_variante:
    module: eolebase-2.7.2
    module: dhcp
 '''
 RETURN = r'''
 # These are examples of possible return values, and in general should use other names for return values.
 id:
    description: id the variant is associated with.
    type: int
    returned: always
    sample: 1
 module:
    description: module the variant is associated with.
    type: str
    returned: always
    sample: eolebase-2.7.2
 '''
 from ansible.module_utils.basic import AnsibleModule
 from zephir.eolerpclib import EoleProxy
 from zephir.web import config
 import time
 def serveur_id_from_libelle(proxy, libelle):
    return_code, servers = proxy.serveurs.get_serveur()
    servers = {s['libelle']: s['id'] for s in servers}
    return servers.get(libelle, None)
 def etab_id_from_libelle(proxy, libelle):
    return_code, etabs = proxy.etabs.get_etab()
    etabs = {e['libelle']: e['rne'] for e in etabs}
    return etabs.get(libelle, None)
 def module_id_from_libelle(proxy, libelle):
    return_code, modules = proxy.modules.get_module()
    modules = {m['libelle']: m['id'] for m in modules}
    return modules.get(libelle, None)
 def variante_id_from_libelle(proxy, libelle):
    return_code, variantes = proxy.modules.get_variante()
    variantes = {v['libelle']: v['id'] for v in variantes}
    return variantes.get(libelle, None)
 def run_module():
    # define available arguments/parameters a user can pass to the module
    module_args = dict(
            zephir_user=dict(type='str', required=True),
            zephir_user_password=dict(type='str', required=True),
            rne=dict(type='str', required=True),
            libelle=dict(type='str', required=True),
            materiel=dict(type='str', required=False, default=''),
            processeur=dict(type='str', required=False, default=''),
            disque_dur=dict(type='str', required=False, default=''),
            date_install=dict(type='str', required=False, default=time.strftime('%Y-%m-%d', time.localtime())),
            installateur=dict(type='str', required=False, default=''),
            tel=dict(type='str', required=False, default=''),
            remarques=dict(type='str', required=False, default=''),
            module_initial=dict(type='str', required=False),
            module_actuel=dict(type='str', required=True),
            timeout=dict(type='int', required=False, default=60),
            variante=dict(type='str', required=True),
            cle_rsa1=dict(type='str', required=False, default=''),
            id_groupe=dict(type='int', required=False, default=-1),
    )
    # seed the result dict in the object
    # we primarily care about changed and state
    # changed is if this module effectively modified the target
    # state will include any data that you want your module to pass back
    # for consumption, for example, in a subsequent task
    result = dict(
        changed=False,
        id=None,
        msg='',
    )
    # the AnsibleModule object will be our abstraction working with Ansible
    # this includes instantiation, a couple of common attr would be the
    # args/params passed to the execution, as well as if the module
    # supports check mode
    module = AnsibleModule(
        argument_spec=module_args,
        supports_check_mode=True
    )
    if module.check_mode:
        module.exit_json(**result)
        #module.fail_json(**result)
        #module.params['module']
    port_zephir = str(int(config.PORT_ZEPHIR) + 1)
    proxy_addr = "http://{0}:{1}@localhost:{2}/".format(module.params['zephir_user'], module.params['zephir_user_password'], port_zephir)
    proxy = EoleProxy(proxy_addr)
    module.params['module_actuel'] = module_id_from_libelle(proxy, module.params['module_actuel'])
    module.params['variante'] = variante_id_from_libelle(proxy, module.params['variante'])
    module.params['rne'] = etab_id_from_libelle(proxy, module.params['rne'])
    if not module.params.get('module_initial', None):
        module.params['module_initial'] = module.params['module_actuel']
    else:
        module.params['module_initial'] = module_id_from_libelle(proxy, module.params['module_initial'])
    return_code, module_descr = proxy.modules.get_module(module.params['module_actuel'])
    if not return_code:
        result['msg'] = 'Unknown module {}'.format(module.params['module_actuel'])
        module.fail_json(**result)
    return_code, proxy_msg = proxy.serveurs.add_serveur(
            module.params['rne'],
            module.params['libelle'],
            module.params['materiel'],
            module.params['processeur'],
            module.params['disque_dur'],
            module.params['date_install'],
            module.params['installateur'],
            module.params['tel'],
            module.params['remarques'],
            module.params['module_initial'],
            module.params['module_actuel'],
            module.params['timeout'],
            module.params['variante'],
            module.params['cle_rsa1'],
            module.params['id_groupe'],
            )
    if return_code:
        result['changed'] = True
        result['id'] = proxy_msg
        result['msg'] = 'Server {} created in etab {} with id {}'.format(module.params['libelle'], module.params['rne'], result['id'])
    else:
        result['msg'] = 'Server {} already exists {}'.format(module.params['libelle'], proxy_msg)
    # during the execution of the module, if there is an exception or a
    # conditional state that effectively causes a failure, run
    # AnsibleModule.fail_json() to pass in the message and the result
    # in the event of a successful module execution, you will want to
    # simple AnsibleModule.exit_json(), passing the key/value results
    module.exit_json(**result)
 def main():
    run_module()
 if __name__ == '__main__':
    main()
--- a/cadoles/eole/plugins/modules/zephir_variante.py
+++ b/cadoles/eole/plugins/modules/zephir_variante.py
@ -0,0 +1,146 @@
 #!/usr/bin/python
 # GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
 from __future__ import (absolute_import, division, print_function)
 __metaclass__ = type
 DOCUMENTATION = r'''
 ---
 module: zephir_variante
 short_description: This is a module to automate edition of zephir configuration
 # If this is part of a collection, you need to use semantic versioning,
 # i.e. the version is of the form "2.5.0" and not "2.4".
 version_added: "1.0.0"
 description: This is my longer description explaining my test module.
 options:
    zephir_user:
        description: zephir user authorized to perform action
        required: true
        type: str
    zephir_user_password:
        description: zephir user password
        required: true
        type: str
    module:
        description: module the variant is related to
        required: true
        type: str
    name:
        description: variant name
        required: true
        type: str
    copy_id:
        description: variant id this variant is copied from
        required: false
        type: int
    variant_password:
        description: password protecting variant edition
        required: false
        type: str
 # Specify this value according to your collection
 # in format of namespace.collection.doc_fragment_name
 extends_documentation_fragment:
    - cadoles.eole.zephir_variante
 author:
    - Cadoles
 '''
 EXAMPLES = r'''
 # Pass in a message
 - name: Test with a message
  cadoles.eole.zephir_variante:
    module: eolebase-2.7.2
    module: dhcp
 '''
 RETURN = r'''
 # These are examples of possible return values, and in general should use other names for return values.
 id:
    description: id the variant is associated with.
    type: int
    returned: always
    sample: 1
 module:
    description: module the variant is associated with.
    type: str
    returned: always
    sample: eolebase-2.7.2
 '''
 from ansible.module_utils.basic import AnsibleModule
 from zephir.eolerpclib import EoleProxy
 from zephir.web import config
 def run_module():
    # define available arguments/parameters a user can pass to the module
    module_args = dict(
            zephir_user=dict(type='str', required=True),
            zephir_user_password=dict(type='str', required=True),
            module=dict(type='str', required=True),
            name=dict(type='str', required=True),
            copied_id=dict(type='int', required=False),
            variant_password=dict(type='str', required=False),
    )
    # seed the result dict in the object
    # we primarily care about changed and state
    # changed is if this module effectively modified the target
    # state will include any data that you want your module to pass back
    # for consumption, for example, in a subsequent task
    result = dict(
        changed=False,
        id=None,
        msg='',
    )
    # the AnsibleModule object will be our abstraction working with Ansible
    # this includes instantiation, a couple of common attr would be the
    # args/params passed to the execution, as well as if the module
    # supports check mode
    module = AnsibleModule(
        argument_spec=module_args,
        supports_check_mode=True
    )
    if module.check_mode:
        module.exit_json(**result)
        #module.fail_json(**result)
        #module.params['module']
    port_zephir = str(int(config.PORT_ZEPHIR) + 1)
    proxy_addr = "http://{0}:{1}@localhost:{2}/".format(module.params['zephir_user'], module.params['zephir_user_password'], port_zephir)
    proxy = EoleProxy(proxy_addr)
    modules = {m['libelle']: m['id'] for m in proxy.modules.get_module()[1]}
    module_id = modules.get(module.params['module'], None)
    if not module_id:
        result['msg'] = 'Unknown module {}'.format(module.params['module'])
        module.fail_json(**result)
    return_code, proxy_msg = proxy.modules.add_variante(module_id, module.params['name'])
    if return_code:
        result['changed'] = True
        result['id'] = proxy_msg
        result['msg'] = 'Variant {} of module {} created with id {}'.format(module.params['name'], module.params['module'], result['id'])
    else:
        result['msg'] = 'Variant {} already exists'.format(module.params['name'])
    # during the execution of the module, if there is an exception or a
    # conditional state that effectively causes a failure, run
    # AnsibleModule.fail_json() to pass in the message and the result
    # in the event of a successful module execution, you will want to
    # simple AnsibleModule.exit_json(), passing the key/value results
    module.exit_json(**result)
 def main():
    run_module()
 if __name__ == '__main__':
    main()