def datastore_search_sql(context, data_dict):
'''Execute SQL queries on the DataStore.
The datastore_search_sql action allows a user to search data in a resource
or connect multiple resources with join expressions. The underlying SQL
engine is the
`PostgreSQL engine <http://www.postgresql.org/docs/9.1/interactive/>`_.
There is an enforced timeout on SQL queries to avoid an unintended DOS.
The number of results returned is limited to 32000, unless set in the
site's configuration ``ckan.datastore.search.rows_max``
Queries are only allowed if you have access to the all the CKAN resources
in the query and send the appropriate authorization.
.. note:: This action is not available when
:ref:`ckan.datastore.sqlsearch.enabled` is set to false
.. note:: When source data columns (i.e. CSV) heading names are provided
in all UPPERCASE you need to double quote them in the SQL select
statement to avoid returning null results.
:param sql: a single SQL select statement
:type sql: string
**Results:**
The result of this action is a dictionary with the following keys:
:rtype: A dictionary with the following keys
:param fields: fields/columns and their extra metadata
:type fields: list of dictionaries
:param records: list of matching results
:type records: list of dictionaries
:param records_truncated: indicates whether the number of records returned
was limited by the internal limit, which is 32000 records (or other
value set in the site's configuration
``ckan.datastore.search.rows_max``). If records are truncated by this,
this key has value True, otherwise the key is not returned at all.
:type records_truncated: bool
'''
backend = DatastoreBackend.get_active_backend()
def check_access(table_names):
'''
Raise NotAuthorized if current user is not allowed to access
any of the tables passed
:type table_names: list strings
'''
p.toolkit.check_access(
'datastore_search_sql',
dict(context, table_names=table_names),
data_dict)
result = backend.search_sql(
dict(context, check_access=check_access),
data_dict)
result.pop('id', None)
result.pop('connection_url', None)
return result
def datastore_info(context, data_dict):
'''
Returns information about the data imported, such as column names
and types.
:rtype: A dictionary describing the columns and their types.
:param id: Id of the resource we want info about
:type id: A UUID
'''
backend = DatastoreBackend.get_active_backend()
p.toolkit.check_access('datastore_info', context, data_dict)
resource_id = _get_or_bust(data_dict, 'id')
p.toolkit.get_action('resource_show')(context, {'id': resource_id})
res_exists = backend.resource_exists(resource_id)
if not res_exists:
raise p.toolkit.ObjectNotFound(p.toolkit._(
u'Resource "{0}" was not found.'.format(resource_id)
))
info = backend.resource_fields(resource_id)
return info
def datastore_search_sql(context: Context, data_dict: dict[str, Any]):
'''Execute SQL queries on the DataStore.
The datastore_search_sql action allows a user to search data in a resource
or connect multiple resources with join expressions. The underlying SQL
engine is the
`PostgreSQL engine <http://www.postgresql.org/docs/9.1/interactive/>`_.
There is an enforced timeout on SQL queries to avoid an unintended DOS.
The number of results returned is limited to 32000, unless set in the
site's configuration ``ckan.datastore.search.rows_max``
Queries are only allowed if you have access to the all the CKAN resources
in the query and send the appropriate authorization.
.. note:: This action is not available by default and needs to be enabled
with the :ref:`ckan.datastore.sqlsearch.enabled` setting.
.. note:: When source data columns (i.e. CSV) heading names are provided
in all UPPERCASE you need to double quote them in the SQL select
statement to avoid returning null results.
:param sql: a single SQL select statement
:type sql: string
**Results:**
The result of this action is a dictionary with the following keys:
:rtype: A dictionary with the following keys
:param fields: fields/columns and their extra metadata
:type fields: list of dictionaries
:param records: list of matching results
:type records: list of dictionaries
:param records_truncated: indicates whether the number of records returned
was limited by the internal limit, which is 32000 records (or other
value set in the site's configuration
``ckan.datastore.search.rows_max``). If records are truncated by this,
this key has value True, otherwise the key is not returned at all.
:type records_truncated: bool
'''
backend = DatastoreBackend.get_active_backend()
def check_access(table_names: list[str]):
'''
Raise NotAuthorized if current user is not allowed to access
any of the tables passed
:type table_names: list strings
'''
p.toolkit.check_access(
'datastore_search_sql',
cast(Context, dict(context, table_names=table_names)),
data_dict)
result = backend.search_sql(
cast(Context, dict(context, check_access=check_access)),
data_dict)
result.pop('id', None)
result.pop('connection_url', None)
return result
def datastore_info(context, data_dict):
'''
Returns information about the data imported, such as column names
and types.
:rtype: A dictionary describing the columns and their types.
:param id: Id of the resource we want info about
:type id: A UUID
'''
backend = DatastoreBackend.get_active_backend()
p.toolkit.check_access('datastore_info', context, data_dict)
resource_id = _get_or_bust(data_dict, 'id')
p.toolkit.get_action('resource_show')(context, {'id': resource_id})
res_exists = backend.resource_exists(resource_id)
if not res_exists:
raise p.toolkit.ObjectNotFound(p.toolkit._(
u'Resource "{0}" was not found.'.format(resource_id)
))
info = backend.resource_fields(resource_id)
return info
def datastore_run_triggers(context, data_dict):
''' update each record with trigger
The datastore_run_triggers API action allows you to re-apply existing
triggers to an existing DataStore resource.
:param resource_id: resource id that the data is going to be stored under.
:type resource_id: string
**Results:**
:returns: The rowcount in the table.
:rtype: int
'''
res_id = data_dict['resource_id']
p.toolkit.check_access('datastore_run_triggers', context, data_dict)
backend = DatastoreBackend.get_active_backend()
connection = backend._get_write_engine().connect()
sql = sqlalchemy.text(u'''update {0} set _id=_id '''.format(
identifier(res_id)))
try:
results = connection.execute(sql)
except sqlalchemy.exc.DatabaseError as err:
message = six.ensure_text(err.args[0].split('\n')[0])
raise p.toolkit.ValidationError(
{u'records': [message.split(u') ', 1)[-1]]})
return results.rowcount
def datastore_run_triggers(context, data_dict):
''' update each record with trigger
The datastore_run_triggers API action allows you to re-apply exisitng
triggers to an existing DataStore resource.
:param resource_id: resource id that the data is going to be stored under.
:type resource_id: string
**Results:**
:returns: The rowcount in the table.
:rtype: int
'''
res_id = data_dict['resource_id']
p.toolkit.check_access('datastore_trigger_each_row', context, data_dict)
backend = DatastoreBackend.get_active_backend()
connection = backend._get_write_engine().connect()
sql = sqlalchemy.text(u'''update {0} set _id=_id '''.format(
identifier(res_id)))
try:
results = connection.execute(sql)
except sqlalchemy.exc.DatabaseError as err:
message = err.args[0].split('\n')[0].decode('utf8')
raise p.toolkit.ValidationError({
u'records': [message.split(u') ', 1)[-1]]})
return results.rowcount
def update_config(self, config):
DatastoreBackend.register_backends()
DatastoreBackend.set_active_backend(config)
templates_base = config.get('ckan.base_templates_folder')
p.toolkit.add_template_directory(config, templates_base)
self.backend = DatastoreBackend.get_active_backend()
def update_config(self, config):
DatastoreBackend.register_backends()
DatastoreBackend.set_active_backend(config)
templates_base = config.get_value('ckan.base_templates_folder')
p.toolkit.add_template_directory(config, templates_base)
self.backend = DatastoreBackend.get_active_backend()
def datastore_function_delete(context, data_dict):
u'''
Delete a trigger function
:param name: function name
:type name: string
'''
p.toolkit.check_access('datastore_function_delete', context, data_dict)
backend = DatastoreBackend.get_active_backend()
backend.drop_function(data_dict['name'], data_dict['if_exists'])
def datastore_function_delete(context, data_dict):
u'''
Delete a trigger function
:param name: function name
:type name: string
'''
p.toolkit.check_access('datastore_function_delete', context, data_dict)
backend = DatastoreBackend.get_active_backend()
backend.drop_function(data_dict['name'], data_dict['if_exists'])
def _resource_exists(context, data_dict):
''' Returns true if the resource exists in CKAN and in the datastore '''
model = _get_or_bust(context, 'model')
res_id = _get_or_bust(data_dict, 'resource_id')
if not model.Resource.get(res_id):
return False
backend = DatastoreBackend.get_active_backend()
return backend.resource_exists(res_id)
def _resource_exists(context, data_dict):
''' Returns true if the resource exists in CKAN and in the datastore '''
model = _get_or_bust(context, 'model')
res_id = _get_or_bust(data_dict, 'resource_id')
if not model.Resource.get(res_id):
return False
backend = DatastoreBackend.get_active_backend()
return backend.resource_exists(res_id)
def datastore_info(context, data_dict):
'''
Returns detailed metadata about a resource.
:param resource_id: id or alias of the resource we want info about.
:type resource_id: string
**Results:**
:rtype: dictionary
:returns:
**meta**: resource metadata dictionary with the following keys:
- aliases - aliases (views) for the resource
- count - row count
- db_size - size of the datastore database (bytes)
- id - resource id (useful for dereferencing aliases)
- idx_size - size of all indices for the resource (bytes)
- size - size of resource (bytes)
- table_type - BASE TABLE, VIEW, FOREIGN TABLE or MATERIALIZED VIEW
**fields**: A list of dictionaries based on :ref:`fields`, with an
additional nested dictionary per field called **schema**, with the
following keys:
- native_type - native database data type
- index_name
- is_index
- notnull
- uniquekey
'''
backend = DatastoreBackend.get_active_backend()
resource_id = _get_or_bust(data_dict, 'id')
res_exists = backend.resource_exists(resource_id)
if not res_exists:
alias_exists, real_id = backend.resource_id_from_alias(resource_id)
if not alias_exists:
raise p.toolkit.ObjectNotFound(
p.toolkit._(u'Resource/Alias "{0}" was not found.'.format(
resource_id)))
else:
id = real_id
else:
id = resource_id
data_dict['id'] = id
p.toolkit.check_access('datastore_info', context, data_dict)
p.toolkit.get_action('resource_show')(context, {'id': id})
info = backend.resource_fields(id)
return info
def datastore_search_sql(context, data_dict):
'''Execute SQL queries on the DataStore.
The datastore_search_sql action allows a user to search data in a resource
or connect multiple resources with join expressions. The underlying SQL
engine is the
`PostgreSQL engine <http://www.postgresql.org/docs/9.1/interactive/>`_.
There is an enforced timeout on SQL queries to avoid an unintended DOS.
Queries are only allowed if you have access to the all the CKAN resources
in the query and send the appropriate authorization.
.. note:: This action is not available when
:ref:`ckan.datastore.sqlsearch.enabled` is set to false
.. note:: When source data columns (i.e. CSV) heading names are provdied
in all UPPERCASE you need to double quote them in the SQL select
statement to avoid returning null results.
:param sql: a single SQL select statement
:type sql: string
**Results:**
The result of this action is a dictionary with the following keys:
:rtype: A dictionary with the following keys
:param fields: fields/columns and their extra metadata
:type fields: list of dictionaries
:param records: list of matching results
:type records: list of dictionaries
'''
backend = DatastoreBackend.get_active_backend()
def check_access(table_names):
'''
Raise NotAuthorized if current user is not allowed to access
any of the tables passed
:type table_names: list strings
'''
p.toolkit.check_access(
'datastore_search_sql',
dict(context, table_names=table_names),
data_dict)
result = backend.search_sql(
dict(context, check_access=check_access),
data_dict)
result.pop('id', None)
result.pop('connection_url', None)
return result
def datastore_search_sql(context, data_dict):
'''Execute SQL queries on the DataStore.
The datastore_search_sql action allows a user to search data in a resource
or connect multiple resources with join expressions. The underlying SQL
engine is the
`PostgreSQL engine <http://www.postgresql.org/docs/9.1/interactive/>`_.
There is an enforced timeout on SQL queries to avoid an unintended DOS.
Queries are only allowed if you have access to the all the CKAN resources
in the query and send the appropriate authorization.
.. note:: This action is not available when
:ref:`ckan.datastore.sqlsearch.enabled` is set to false
.. note:: When source data columns (i.e. CSV) heading names are provdied
in all UPPERCASE you need to double quote them in the SQL select
statement to avoid returning null results.
:param sql: a single SQL select statement
:type sql: string
**Results:**
The result of this action is a dictionary with the following keys:
:rtype: A dictionary with the following keys
:param fields: fields/columns and their extra metadata
:type fields: list of dictionaries
:param records: list of matching results
:type records: list of dictionaries
'''
backend = DatastoreBackend.get_active_backend()
def check_access(table_names):
'''
Raise NotAuthorized if current user is not allowed to access
any of the tables passed
:type table_names: list strings
'''
p.toolkit.check_access(
'datastore_search_sql',
dict(context, table_names=table_names),
data_dict)
def datastore_search_sql(context, data_dict):
'''Execute SQL queries on the DataStore.
The datastore_search_sql action allows a user to search data in a resource
or connect multiple resources with join expressions. The underlying SQL
engine is the
`PostgreSQL engine <http://www.postgresql.org/docs/9.1/interactive/>`_.
There is an enforced timeout on SQL queries to avoid an unintended DOS.
DataStore resource that belong to a private CKAN resource cannot be
searched with this action. Use
:meth:`~ckanext.datastore.logic.action.datastore_search` instead.
.. note:: This action is only available when using PostgreSQL 9.X and
using a read-only user on the database.
It is not available in :ref:`legacy mode<legacy-mode>`.
.. note:: When source data columns (i.e. CSV) heading names are provdied
in all UPPERCASE you need to double quote them in the SQL select
statement to avoid returning null results.
:param sql: a single SQL select statement
:type sql: string
**Results:**
The result of this action is a dictionary with the following keys:
:rtype: A dictionary with the following keys
:param fields: fields/columns and their extra metadata
:type fields: list of dictionaries
:param records: list of matching results
:type records: list of dictionaries
'''
backend = DatastoreBackend.get_active_backend()
p.toolkit.check_access('datastore_search_sql', context, data_dict)
result = backend.search_sql(context, data_dict)
result.pop('id', None)
result.pop('connection_url', None)
return result
def datastore_search_sql(context, data_dict):
'''Execute SQL queries on the DataStore.
The datastore_search_sql action allows a user to search data in a resource
or connect multiple resources with join expressions. The underlying SQL
engine is the
`PostgreSQL engine <http://www.postgresql.org/docs/9.1/interactive/>`_.
There is an enforced timeout on SQL queries to avoid an unintended DOS.
DataStore resource that belong to a private CKAN resource cannot be
searched with this action. Use
:meth:`~ckanext.datastore.logic.action.datastore_search` instead.
.. note:: This action is only available when using PostgreSQL 9.X and
using a read-only user on the database.
It is not available in :ref:`legacy mode<legacy-mode>`.
.. note:: When source data columns (i.e. CSV) heading names are provdied
in all UPPERCASE you need to double quote them in the SQL select
statement to avoid returning null results.
:param sql: a single SQL select statement
:type sql: string
**Results:**
The result of this action is a dictionary with the following keys:
:rtype: A dictionary with the following keys
:param fields: fields/columns and their extra metadata
:type fields: list of dictionaries
:param records: list of matching results
:type records: list of dictionaries
'''
backend = DatastoreBackend.get_active_backend()
p.toolkit.check_access('datastore_search_sql', context, data_dict)
result = backend.search_sql(context, data_dict)
result.pop('id', None)
result.pop('connection_url', None)
return result
def datastore_make_public(context, data_dict):
''' Allow access to the DataStore table through
:meth:`~ckanext.datastore.logic.action.datastore_search_sql`.
This action is called automatically when a CKAN dataset becomes
public.
:param resource_id: if of resource that should become public
:type resource_id: string
'''
backend = DatastoreBackend.get_active_backend()
if 'id' in data_dict:
data_dict['resource_id'] = data_dict['id']
res_id = _get_or_bust(data_dict, 'resource_id')
if not _resource_exists(context, data_dict):
raise p.toolkit.ObjectNotFound(
p.toolkit._(u'Resource "{0}" was not found.'.format(res_id)))
p.toolkit.check_access('datastore_change_permissions', context, data_dict)
backend.make_public(context, data_dict)
def datastore_function_create(context, data_dict):
u'''
Create a trigger function for use with datastore_create
:param name: function name
:type name: string
:param or_replace: True to replace if function already exists
(default: False)
:type or_replace: bool
:param rettype: set to 'trigger'
(only trigger functions may be created at this time)
:type rettype: string
:param definition: PL/pgSQL function body for trigger function
:type definition: string
'''
p.toolkit.check_access('datastore_function_create', context, data_dict)
backend = DatastoreBackend.get_active_backend()
backend.create_function(name=data_dict['name'],
arguments=data_dict.get('arguments', []),
rettype=data_dict['rettype'],
definition=data_dict['definition'],
or_replace=data_dict['or_replace'])
def datastore_function_create(context, data_dict):
u'''
Create a trigger function for use with datastore_create
:param name: function name
:type name: string
:param or_replace: True to replace if function already exists
(default: False)
:type or_replace: bool
:param rettype: set to 'trigger'
(only trigger functions may be created at this time)
:type rettype: string
:param definition: PL/pgSQL function body for trigger function
:type definition: string
'''
p.toolkit.check_access('datastore_function_create', context, data_dict)
backend = DatastoreBackend.get_active_backend()
backend.create_function(
name=data_dict['name'],
arguments=data_dict.get('arguments', []),
rettype=data_dict['rettype'],
definition=data_dict['definition'],
or_replace=data_dict['or_replace'])
def datastore_make_public(context, data_dict):
''' Allow access to the DataStore table through
:meth:`~ckanext.datastore.logic.action.datastore_search_sql`.
This action is called automatically when a CKAN dataset becomes
public.
:param resource_id: if of resource that should become public
:type resource_id: string
'''
backend = DatastoreBackend.get_active_backend()
if 'id' in data_dict:
data_dict['resource_id'] = data_dict['id']
res_id = _get_or_bust(data_dict, 'resource_id')
if not _resource_exists(context, data_dict):
raise p.toolkit.ObjectNotFound(p.toolkit._(
u'Resource "{0}" was not found.'.format(res_id)
))
p.toolkit.check_access('datastore_change_permissions', context, data_dict)
backend.make_public(context, data_dict)
def test_bigquery_engine(self):
DatastoreBackend.set_active_backend(config)
assert_is_instance(DatastoreBackend.get_active_backend(),
DatastoreBigQueryBackend)
def datastore_search(context, data_dict):
'''Search a DataStore resource.
The datastore_search action allows you to search data in a resource.
DataStore resources that belong to private CKAN resource can only be
read by you if you have access to the CKAN resource and send the
appropriate authorization.
:param resource_id: id or alias of the resource to be searched against
:type resource_id: string
:param filters: matching conditions to select, e.g
{"key1": "a", "key2": "b"} (optional)
:type filters: dictionary
:param q: full text query. If it's a string, it'll search on all fields on
each row. If it's a dictionary as {"key1": "a", "key2": "b"},
it'll search on each specific field (optional)
:type q: string or dictionary
:param distinct: return only distinct rows (optional, default: false)
:type distinct: bool
:param plain: treat as plain text query (optional, default: true)
:type plain: bool
:param language: language of the full text query
(optional, default: english)
:type language: string
:param limit: maximum number of rows to return (optional, default: 100)
:type limit: int
:param offset: offset this number of rows (optional)
:type offset: int
:param fields: fields to return
(optional, default: all fields in original order)
:type fields: list or comma separated string
:param sort: comma separated field names with ordering
e.g.: "fieldname1, fieldname2 desc"
:type sort: string
:param include_total: True to return total matching record count
(optional, default: true)
:type include_total: bool
:param records_format: the format for the records return value:
'objects' (default) list of {fieldname1: value1, ...} dicts,
'lists' list of [value1, value2, ...] lists,
'csv' string containing comma-separated values with no header,
'tsv' string containing tab-separated values with no header
:type records_format: controlled list
Setting the ``plain`` flag to false enables the entire PostgreSQL
`full text search query language`_.
A listing of all available resources can be found at the
alias ``_table_metadata``.
.. _full text search query language: http://www.postgresql.org/docs/9.1/static/datatype-textsearch.html#DATATYPE-TSQUERY
If you need to download the full resource, read :ref:`dump`.
**Results:**
The result of this action is a dictionary with the following keys:
:rtype: A dictionary with the following keys
:param fields: fields/columns and their extra metadata
:type fields: list of dictionaries
:param offset: query offset value
:type offset: int
:param limit: query limit value
:type limit: int
:param filters: query filters
:type filters: list of dictionaries
:param total: number of total matching records
:type total: int
:param records: list of matching results
:type records: depends on records_format value passed
'''
backend = DatastoreBackend.get_active_backend()
schema = context.get('schema', dsschema.datastore_search_schema())
data_dict, errors = _validate(data_dict, schema, context)
if errors:
raise p.toolkit.ValidationError(errors)
res_id = data_dict['resource_id']
if data_dict['resource_id'] not in WHITELISTED_RESOURCES:
res_exists, real_id = backend.resource_id_from_alias(res_id)
# Resource only has to exist in the datastore (because it could be an
# alias)
if not res_exists:
raise p.toolkit.ObjectNotFound(
p.toolkit._('Resource "{0}" was not found.'.format(res_id)))
# Replace potential alias with real id to simplify access checks
if real_id:
data_dict['resource_id'] = real_id
p.toolkit.check_access('datastore_search', context, data_dict)
result = backend.search(context, data_dict)
result.pop('id', None)
result.pop('connection_url', None)
return result
def datastore_search(context, data_dict):
'''Search a DataStore resource.
The datastore_search action allows you to search data in a resource. By
default 100 rows are returned - see the `limit` parameter for more info.
A DataStore resource that belongs to a private CKAN resource can only be
read by you if you have access to the CKAN resource and send the
appropriate authorization.
:param resource_id: id or alias of the resource to be searched against
:type resource_id: string
:param filters: matching conditions to select, e.g
{"key1": "a", "key2": "b"} (optional)
:type filters: dictionary
:param q: full text query. If it's a string, it'll search on all fields on
each row. If it's a dictionary as {"key1": "a", "key2": "b"},
it'll search on each specific field (optional)
:type q: string or dictionary
:param distinct: return only distinct rows (optional, default: false)
:type distinct: bool
:param plain: treat as plain text query (optional, default: true)
:type plain: bool
:param language: language of the full text query
(optional, default: english)
:type language: string
:param limit: maximum number of rows to return
(optional, default: ``100``, unless set in the site's configuration
``ckan.datastore.search.rows_default``, upper limit: ``32000`` unless
set in site's configuration ``ckan.datastore.search.rows_max``)
:type limit: int
:param offset: offset this number of rows (optional)
:type offset: int
:param fields: fields to return
(optional, default: all fields in original order)
:type fields: list or comma separated string
:param sort: comma separated field names with ordering
e.g.: "fieldname1, fieldname2 desc"
:type sort: string
:param include_total: True to return total matching record count
(optional, default: true)
:type include_total: bool
:param total_estimation_threshold: If "include_total" is True and
"total_estimation_threshold" is not None and the estimated total
(matching record count) is above the "total_estimation_threshold" then
this datastore_search will return an *estimate* of the total, rather
than a precise one. This is often good enough, and saves
computationally expensive row counting for larger results (e.g. >100000
rows). The estimated total comes from the PostgreSQL table statistics,
generated when Express Loader or DataPusher finishes a load, or by
autovacuum. NB Currently estimation can't be done if the user specifies
'filters' or 'distinct' options. (optional, default: None)
:type total_estimation_threshold: int or None
:param records_format: the format for the records return value:
'objects' (default) list of {fieldname1: value1, ...} dicts,
'lists' list of [value1, value2, ...] lists,
'csv' string containing comma-separated values with no header,
'tsv' string containing tab-separated values with no header
:type records_format: controlled list
Setting the ``plain`` flag to false enables the entire PostgreSQL
`full text search query language`_.
A listing of all available resources can be found at the
alias ``_table_metadata``.
.. _full text search query language: http://www.postgresql.org/docs/9.1/static/datatype-textsearch.html#DATATYPE-TSQUERY
If you need to download the full resource, read :ref:`dump`.
**Results:**
The result of this action is a dictionary with the following keys:
:rtype: A dictionary with the following keys
:param fields: fields/columns and their extra metadata
:type fields: list of dictionaries
:param offset: query offset value
:type offset: int
:param limit: queried limit value (if the requested ``limit`` was above the
``ckan.datastore.search.rows_max`` value then this response ``limit``
will be set to the value of ``ckan.datastore.search.rows_max``)
:type limit: int
:param filters: query filters
:type filters: list of dictionaries
:param total: number of total matching records
:type total: int
:param total_was_estimated: whether or not the total was estimated
:type total_was_estimated: bool
:param records: list of matching results
:type records: depends on records_format value passed
'''
backend = DatastoreBackend.get_active_backend()
schema = context.get('schema', dsschema.datastore_search_schema())
data_dict, errors = _validate(data_dict, schema, context)
if errors:
raise p.toolkit.ValidationError(errors)
res_id = data_dict['resource_id']
if data_dict['resource_id'] not in WHITELISTED_RESOURCES:
res_exists, real_id = backend.resource_id_from_alias(res_id)
# Resource only has to exist in the datastore (because it could be an
# alias)
if not res_exists:
raise p.toolkit.ObjectNotFound(
p.toolkit._('Resource "{0}" was not found.'.format(res_id)))
# Replace potential alias with real id to simplify access checks
if real_id:
data_dict['resource_id'] = real_id
p.toolkit.check_access('datastore_search', context, data_dict)
result = backend.search(context, data_dict)
result.pop('id', None)
result.pop('connection_url', None)
return result
def datastore_create(context, data_dict):
'''Adds a new table to the DataStore.
The datastore_create action allows you to post JSON data to be
stored against a resource. This endpoint also supports altering tables,
aliases and indexes and bulk insertion. This endpoint can be called
multiple times to initially insert more data, add fields, change the
aliases or indexes as well as the primary keys.
To create an empty datastore resource and a CKAN resource at the same time,
provide ``resource`` with a valid ``package_id`` and omit the
``resource_id``.
If you want to create a datastore resource from the content of a file,
provide ``resource`` with a valid ``url``.
See :ref:`fields` and :ref:`records` for details on how to lay out records.
:param resource_id: resource id that the data is going to be stored
against.
:type resource_id: string
:param force: set to True to edit a read-only resource
:type force: bool (optional, default: False)
:param resource: resource dictionary that is passed to
:meth:`~ckan.logic.action.create.resource_create`.
Use instead of ``resource_id`` (optional)
:type resource: dictionary
:param aliases: names for read only aliases of the resource. (optional)
:type aliases: list or comma separated string
:param fields: fields/columns and their extra metadata. (optional)
:type fields: list of dictionaries
:param records: the data, eg: [{"dob": "2005", "some_stuff": ["a", "b"]}]
(optional)
:type records: list of dictionaries
:param primary_key: fields that represent a unique key (optional)
:type primary_key: list or comma separated string
:param indexes: indexes on table (optional)
:type indexes: list or comma separated string
:param triggers: trigger functions to apply to this table on update/insert.
functions may be created with
:meth:`~ckanext.datastore.logic.action.datastore_function_create`.
eg: [
{"function": "trigger_clean_reference"},
{"function": "trigger_check_codes"}]
:type triggers: list of dictionaries
:param calculate_record_count: updates the stored count of records, used to
optimize datastore_search in combination with the
`total_estimation_threshold` parameter. If doing a series of requests
to change a resource, you only need to set this to True on the last
request.
:type calculate_record_count: bool (optional, default: False)
Please note that setting the ``aliases``, ``indexes`` or ``primary_key``
replaces the existing aliases or constraints. Setting ``records`` appends
the provided records to the resource.
**Results:**
:returns: The newly created data object, excluding ``records`` passed.
:rtype: dictionary
See :ref:`fields` and :ref:`records` for details on how to lay out records.
'''
backend = DatastoreBackend.get_active_backend()
schema = context.get('schema', dsschema.datastore_create_schema())
records = data_dict.pop('records', None)
resource = data_dict.pop('resource', None)
data_dict, errors = _validate(data_dict, schema, context)
resource_dict = None
if records:
data_dict['records'] = records
if resource:
data_dict['resource'] = resource
if errors:
raise p.toolkit.ValidationError(errors)
p.toolkit.check_access('datastore_create', context, data_dict)
if 'resource' in data_dict and 'resource_id' in data_dict:
raise p.toolkit.ValidationError(
{'resource': ['resource cannot be used with resource_id']})
if 'resource' not in data_dict and 'resource_id' not in data_dict:
raise p.toolkit.ValidationError(
{'resource_id': ['resource_id or resource required']})
if 'resource' in data_dict:
has_url = 'url' in data_dict['resource']
# A datastore only resource does not have a url in the db
data_dict['resource'].setdefault('url', '_datastore_only_resource')
resource_dict = p.toolkit.get_action('resource_create')(
context, data_dict['resource'])
data_dict['resource_id'] = resource_dict['id']
# create resource from file
if has_url:
if not p.plugin_loaded('datapusher'):
raise p.toolkit.ValidationError(
{'resource': ['The datapusher has to be enabled.']})
p.toolkit.get_action('datapusher_submit')(
context, {
'resource_id': resource_dict['id'],
'set_url_type': True
})
# since we'll overwrite the datastore resource anyway, we
# don't need to create it here
return
# create empty resource
else:
# no need to set the full url because it will be set in before_show
resource_dict['url_type'] = 'datastore'
p.toolkit.get_action('resource_update')(context, resource_dict)
else:
if not data_dict.pop('force', False):
resource_id = data_dict['resource_id']
_check_read_only(context, resource_id)
# validate aliases
aliases = datastore_helpers.get_list(data_dict.get('aliases', []))
for alias in aliases:
if not datastore_helpers.is_valid_table_name(alias):
raise p.toolkit.ValidationError(
{'alias': [u'"{0}" is not a valid alias name'.format(alias)]})
try:
result = backend.create(context, data_dict)
except InvalidDataError as err:
raise p.toolkit.ValidationError(text_type(err))
if data_dict.get('calculate_record_count', False):
backend.calculate_record_count(data_dict['resource_id'])
# Set the datastore_active flag on the resource if necessary
model = _get_or_bust(context, 'model')
resobj = model.Resource.get(data_dict['resource_id'])
if resobj.extras.get('datastore_active') is not True:
log.debug('Setting datastore_active=True on resource {0}'.format(
resobj.id))
set_datastore_active_flag(model, data_dict, True)
result.pop('id', None)
result.pop('connection_url', None)
result.pop('records', None)
return result
def test_postgres_backend_with_standard_config(self):
assert isinstance(DatastoreBackend.get_active_backend(),
DatastorePostgresqlBackend)
def test_sqlite_engine(self):
DatastoreBackend.set_active_backend(config)
assert_is_instance(
DatastoreBackend.get_active_backend(),
DatastoreExampleSqliteBackend)
def test_postgres_backend_with_standard_config(self):
assert_is_instance(
DatastoreBackend.get_active_backend(),
DatastorePostgresqlBackend)
:type force: bool (optional, default: False)
:param filters: filters to apply before deleting (eg {"name": "fred"}).
If missing delete whole table and all dependent views.
(optional)
:type filters: dictionary
**Results:**
:returns: Original filters sent.
:rtype: dictionary
'''
schema = context.get('schema', dsschema.datastore_upsert_schema())
<<<<<<< HEAD
=======
backend = DatastoreBackend.get_active_backend()
>>>>>>> ckan-2.7.2
# Remove any applied filters before running validation.
filters = data_dict.pop('filters', None)
data_dict, errors = _validate(data_dict, schema, context)
if filters is not None:
if not isinstance(filters, dict):
raise p.toolkit.ValidationError({
'filters': [
'filters must be either a dict or null.'
]
})
data_dict['filters'] = filters
def datastore_delete(context, data_dict):
'''Deletes a table or a set of records from the DataStore.
:param resource_id: resource id that the data will be deleted from.
(optional)
:type resource_id: string
:param force: set to True to edit a read-only resource
:type force: bool (optional, default: False)
:param filters: filters to apply before deleting (eg {"name": "fred"}).
If missing delete whole table and all dependent views.
(optional)
:type filters: dictionary
**Results:**
:returns: Original filters sent.
:rtype: dictionary
'''
schema = context.get('schema', dsschema.datastore_upsert_schema())
backend = DatastoreBackend.get_active_backend()
# Remove any applied filters before running validation.
filters = data_dict.pop('filters', None)
data_dict, errors = _validate(data_dict, schema, context)
if filters is not None:
if not isinstance(filters, dict):
raise p.toolkit.ValidationError({
'filters': [
'filters must be either a dict or null.'
]
})
data_dict['filters'] = filters
if errors:
raise p.toolkit.ValidationError(errors)
p.toolkit.check_access('datastore_delete', context, data_dict)
if not data_dict.pop('force', False):
resource_id = data_dict['resource_id']
_check_read_only(context, resource_id)
res_id = data_dict['resource_id']
res_exists = backend.resource_exists(res_id)
if not res_exists:
raise p.toolkit.ObjectNotFound(p.toolkit._(
u'Resource "{0}" was not found.'.format(res_id)
))
result = backend.delete(context, data_dict)
# Set the datastore_active flag on the resource if necessary
model = _get_or_bust(context, 'model')
resource = model.Resource.get(data_dict['resource_id'])
if (not data_dict.get('filters') and
resource is not None and
resource.extras.get('datastore_active') is True):
log.debug(
'Setting datastore_active=False on resource {0}'.format(
resource.id)
)
set_datastore_active_flag(model, data_dict, False)
result.pop('id', None)
result.pop('connection_url', None)
return result
def datastore_upsert(context, data_dict):
'''Updates or inserts into a table in the DataStore
The datastore_upsert API action allows you to add or edit records to
an existing DataStore resource. In order for the *upsert* and *update*
methods to work, a unique key has to be defined via the datastore_create
action. The available methods are:
*upsert*
Update if record with same key already exists, otherwise insert.
Requires unique key.
*insert*
Insert only. This method is faster that upsert, but will fail if any
inserted record matches an existing one. Does *not* require a unique
key.
*update*
Update only. An exception will occur if the key that should be updated
does not exist. Requires unique key.
:param resource_id: resource id that the data is going to be stored under.
:type resource_id: string
:param force: set to True to edit a read-only resource
:type force: bool (optional, default: False)
:param records: the data, eg: [{"dob": "2005", "some_stuff": ["a","b"]}]
(optional)
:type records: list of dictionaries
:param method: the method to use to put the data into the datastore.
Possible options are: upsert, insert, update
(optional, default: upsert)
:type method: string
:param calculate_record_count: updates the stored count of records, used to
optimize datastore_search in combination with the
`total_estimation_threshold` parameter. If doing a series of requests
to change a resource, you only need to set this to True on the last
request.
:type calculate_record_count: bool (optional, default: False)
:param dry_run: set to True to abort transaction instead of committing,
e.g. to check for validation or type errors.
:type dry_run: bool (optional, default: False)
**Results:**
:returns: The modified data object.
:rtype: dictionary
'''
backend = DatastoreBackend.get_active_backend()
schema = context.get('schema', dsschema.datastore_upsert_schema())
records = data_dict.pop('records', None)
data_dict, errors = _validate(data_dict, schema, context)
if records:
data_dict['records'] = records
if errors:
raise p.toolkit.ValidationError(errors)
p.toolkit.check_access('datastore_upsert', context, data_dict)
resource_id = data_dict['resource_id']
if not data_dict.pop('force', False):
_check_read_only(context, resource_id)
res_exists = backend.resource_exists(resource_id)
if not res_exists:
raise p.toolkit.ObjectNotFound(
p.toolkit._(u'Resource "{0}" was not found.'.format(resource_id)))
result = backend.upsert(context, data_dict)
result.pop('id', None)
result.pop('connection_url', None)
if data_dict.get('calculate_record_count', False):
backend.calculate_record_count(data_dict['resource_id'])
return result
def datastore_create(context, data_dict):
'''Adds a new table to the DataStore.
The datastore_create action allows you to post JSON data to be
stored against a resource. This endpoint also supports altering tables,
aliases and indexes and bulk insertion. This endpoint can be called
multiple times to initially insert more data, add fields, change the
aliases or indexes as well as the primary keys.
To create an empty datastore resource and a CKAN resource at the same time,
provide ``resource`` with a valid ``package_id`` and omit the
``resource_id``.
If you want to create a datastore resource from the content of a file,
provide ``resource`` with a valid ``url``.
See :ref:`fields` and :ref:`records` for details on how to lay out records.
:param resource_id: resource id that the data is going to be stored
against.
:type resource_id: string
:param force: set to True to edit a read-only resource
:type force: bool (optional, default: False)
:param resource: resource dictionary that is passed to
:meth:`~ckan.logic.action.create.resource_create`.
Use instead of ``resource_id`` (optional)
:type resource: dictionary
:param aliases: names for read only aliases of the resource. (optional)
:type aliases: list or comma separated string
:param fields: fields/columns and their extra metadata. (optional)
:type fields: list of dictionaries
:param records: the data, eg: [{"dob": "2005", "some_stuff": ["a", "b"]}]
(optional)
:type records: list of dictionaries
:param primary_key: fields that represent a unique key (optional)
:type primary_key: list or comma separated string
:param indexes: indexes on table (optional)
:type indexes: list or comma separated string
:param triggers: trigger functions to apply to this table on update/insert.
functions may be created with
:meth:`~ckanext.datastore.logic.action.datastore_function_create`.
eg: [
{"function": "trigger_clean_reference"},
{"function": "trigger_check_codes"}]
:type triggers: list of dictionaries
Please note that setting the ``aliases``, ``indexes`` or ``primary_key``
replaces the exising aliases or constraints. Setting ``records`` appends
the provided records to the resource.
**Results:**
:returns: The newly created data object, excluding ``records`` passed.
:rtype: dictionary
See :ref:`fields` and :ref:`records` for details on how to lay out records.
'''
backend = DatastoreBackend.get_active_backend()
schema = context.get('schema', dsschema.datastore_create_schema())
records = data_dict.pop('records', None)
resource = data_dict.pop('resource', None)
data_dict, errors = _validate(data_dict, schema, context)
resource_dict = None
if records:
data_dict['records'] = records
if resource:
data_dict['resource'] = resource
if errors:
raise p.toolkit.ValidationError(errors)
p.toolkit.check_access('datastore_create', context, data_dict)
if 'resource' in data_dict and 'resource_id' in data_dict:
raise p.toolkit.ValidationError({
'resource': ['resource cannot be used with resource_id']
})
if 'resource' not in data_dict and 'resource_id' not in data_dict:
raise p.toolkit.ValidationError({
'resource_id': ['resource_id or resource required']
})
if 'resource' in data_dict:
has_url = 'url' in data_dict['resource']
# A datastore only resource does not have a url in the db
data_dict['resource'].setdefault('url', '_datastore_only_resource')
resource_dict = p.toolkit.get_action('resource_create')(
context, data_dict['resource'])
data_dict['resource_id'] = resource_dict['id']
# create resource from file
if has_url:
if not p.plugin_loaded('datapusher'):
raise p.toolkit.ValidationError({'resource': [
'The datapusher has to be enabled.']})
p.toolkit.get_action('datapusher_submit')(context, {
'resource_id': resource_dict['id'],
'set_url_type': True
})
# since we'll overwrite the datastore resource anyway, we
# don't need to create it here
return
# create empty resource
else:
# no need to set the full url because it will be set in before_show
resource_dict['url_type'] = 'datastore'
p.toolkit.get_action('resource_update')(context, resource_dict)
else:
if not data_dict.pop('force', False):
resource_id = data_dict['resource_id']
_check_read_only(context, resource_id)
# validate aliases
aliases = datastore_helpers.get_list(data_dict.get('aliases', []))
for alias in aliases:
if not datastore_helpers.is_valid_table_name(alias):
raise p.toolkit.ValidationError({
'alias': [u'"{0}" is not a valid alias name'.format(alias)]
})
# create a private datastore resource, if necessary
model = _get_or_bust(context, 'model')
resource = model.Resource.get(data_dict['resource_id'])
legacy_mode = 'ckan.datastore.read_url' not in config
if not legacy_mode and resource.package.private:
data_dict['private'] = True
try:
result = backend.create(context, data_dict)
except InvalidDataError as err:
raise p.toolkit.ValidationError(unicode(err))
# Set the datastore_active flag on the resource if necessary
if resource.extras.get('datastore_active') is not True:
log.debug(
'Setting datastore_active=True on resource {0}'.format(resource.id)
)
set_datastore_active_flag(model, data_dict, True)
result.pop('id', None)
result.pop('private', None)
result.pop('connection_url', None)
result.pop('records', None)
return result
def datastore_delete(context, data_dict):
'''Deletes a table or a set of records from the DataStore.
:param resource_id: resource id that the data will be deleted from.
(optional)
:type resource_id: string
:param force: set to True to edit a read-only resource
:type force: bool (optional, default: False)
:param filters: filters to apply before deleting (eg {"name": "fred"}).
If missing delete whole table and all dependent views.
(optional)
:type filters: dictionary
:param calculate_record_count: updates the stored count of records, used to
optimize datastore_search in combination with the
`total_estimation_threshold` parameter. If doing a series of requests
to change a resource, you only need to set this to True on the last
request.
:type calculate_record_count: bool (optional, default: False)
**Results:**
:returns: Original filters sent.
:rtype: dictionary
'''
schema = context.get('schema', dsschema.datastore_delete_schema())
backend = DatastoreBackend.get_active_backend()
# Remove any applied filters before running validation.
filters = data_dict.pop('filters', None)
data_dict, errors = _validate(data_dict, schema, context)
if filters is not None:
if not isinstance(filters, dict):
raise p.toolkit.ValidationError(
{'filters': ['filters must be either a dict or null.']})
data_dict['filters'] = filters
if errors:
raise p.toolkit.ValidationError(errors)
p.toolkit.check_access('datastore_delete', context, data_dict)
if not data_dict.pop('force', False):
resource_id = data_dict['resource_id']
_check_read_only(context, resource_id)
res_id = data_dict['resource_id']
res_exists = backend.resource_exists(res_id)
if not res_exists:
raise p.toolkit.ObjectNotFound(
p.toolkit._(u'Resource "{0}" was not found.'.format(res_id)))
result = backend.delete(context, data_dict)
if data_dict.get('calculate_record_count', False):
backend.calculate_record_count(data_dict['resource_id'])
# Set the datastore_active flag on the resource if necessary
model = _get_or_bust(context, 'model')
resource = model.Resource.get(data_dict['resource_id'])
if (not data_dict.get('filters') and resource is not None
and resource.extras.get('datastore_active') is True):
log.debug('Setting datastore_active=False on resource {0}'.format(
resource.id))
set_datastore_active_flag(model, data_dict, False)
result.pop('id', None)
result.pop('connection_url', None)
return result
def update_config(self, config):
DatastoreBackend.register_backends()
DatastoreBackend.set_active_backend(config)
p.toolkit.add_template_directory(config, 'templates')
self.backend = DatastoreBackend.get_active_backend()
def test_sqlite_engine(self):
DatastoreBackend.set_active_backend(config)
assert isinstance(
DatastoreBackend.get_active_backend(),
DatastoreExampleSqliteBackend,
)
def datastore_search(context, data_dict):
'''Search a DataStore resource.
The datastore_search action allows you to search data in a resource.
DataStore resources that belong to private CKAN resource can only be
read by you if you have access to the CKAN resource and send the
appropriate authorization.
:param resource_id: id or alias of the resource to be searched against
:type resource_id: string
:param filters: matching conditions to select, e.g
{"key1": "a", "key2": "b"} (optional)
:type filters: dictionary
:param q: full text query. If it's a string, it'll search on all fields on
each row. If it's a dictionary as {"key1": "a", "key2": "b"},
it'll search on each specific field (optional)
:type q: string or dictionary
:param distinct: return only distinct rows (optional, default: false)
:type distinct: bool
:param plain: treat as plain text query (optional, default: true)
:type plain: bool
:param language: language of the full text query
(optional, default: english)
:type language: string
:param limit: maximum number of rows to return (optional, default: 100)
:type limit: int
:param offset: offset this number of rows (optional)
:type offset: int
:param fields: fields to return
(optional, default: all fields in original order)
:type fields: list or comma separated string
:param sort: comma separated field names with ordering
e.g.: "fieldname1, fieldname2 desc"
:type sort: string
:param include_total: True to return total matching record count
(optional, default: true)
:type include_total: bool
:param records_format: the format for the records return value:
'objects' (default) list of {fieldname1: value1, ...} dicts,
'lists' list of [value1, value2, ...] lists,
'csv' string containing comma-separated values with no header,
'tsv' string containing tab-separated values with no header
:type records_format: controlled list
Setting the ``plain`` flag to false enables the entire PostgreSQL
`full text search query language`_.
A listing of all available resources can be found at the
alias ``_table_metadata``.
.. _full text search query language: http://www.postgresql.org/docs/9.1/static/datatype-textsearch.html#DATATYPE-TSQUERY
If you need to download the full resource, read :ref:`dump`.
**Results:**
The result of this action is a dictionary with the following keys:
:rtype: A dictionary with the following keys
:param fields: fields/columns and their extra metadata
:type fields: list of dictionaries
:param offset: query offset value
:type offset: int
:param limit: query limit value
:type limit: int
:param filters: query filters
:type filters: list of dictionaries
:param total: number of total matching records
:type total: int
:param records: list of matching results
:type records: depends on records_format value passed
'''
backend = DatastoreBackend.get_active_backend()
schema = context.get('schema', dsschema.datastore_search_schema())
data_dict, errors = _validate(data_dict, schema, context)
if errors:
raise p.toolkit.ValidationError(errors)
res_id = data_dict['resource_id']
if data_dict['resource_id'] not in WHITELISTED_RESOURCES:
res_exists, real_id = backend.resource_id_from_alias(res_id)
# Resource only has to exist in the datastore (because it could be an
# alias)
if not res_exists:
raise p.toolkit.ObjectNotFound(p.toolkit._(
'Resource "{0}" was not found.'.format(res_id)
))
# Replace potential alias with real id to simplify access checks
if real_id:
data_dict['resource_id'] = real_id
p.toolkit.check_access('datastore_search', context, data_dict)
result = backend.search(context, data_dict)
result.pop('id', None)
result.pop('connection_url', None)
return result
def datastore_search(context, data_dict):
'''Search a DataStore resource.
The datastore_search action allows you to search data in a resource. By
default 100 rows are returned - see the `limit` parameter for more info.
A DataStore resource that belongs to a private CKAN resource can only be
read by you if you have access to the CKAN resource and send the
appropriate authorization.
:param resource_id: id or alias of the resource to be searched against
:type resource_id: string
:param filters: matching conditions to select, e.g
{"key1": "a", "key2": "b"} (optional)
:type filters: dictionary
:param q: full text query. If it's a string, it'll search on all fields on
each row. If it's a dictionary as {"key1": "a", "key2": "b"},
it'll search on each specific field (optional)
:type q: string or dictionary
:param distinct: return only distinct rows (optional, default: false)
:type distinct: bool
:param plain: treat as plain text query (optional, default: true)
:type plain: bool
:param language: language of the full text query
(optional, default: english)
:type language: string
:param limit: maximum number of rows to return
(optional, default: ``100``, unless set in the site's configuration
``ckan.datastore.search.rows_default``, upper limit: ``32000`` unless
set in site's configuration ``ckan.datastore.search.rows_max``)
:type limit: int
:param offset: offset this number of rows (optional)
:type offset: int
:param fields: fields to return
(optional, default: all fields in original order)
:type fields: list or comma separated string
:param sort: comma separated field names with ordering
e.g.: "fieldname1, fieldname2 desc"
:type sort: string
:param include_total: True to return total matching record count
(optional, default: true)
:type include_total: bool
:param total_estimation_threshold: If "include_total" is True and
"total_estimation_threshold" is not None and the estimated total
(matching record count) is above the "total_estimation_threshold" then
this datastore_search will return an *estimate* of the total, rather
than a precise one. This is often good enough, and saves
computationally expensive row counting for larger results (e.g. >100000
rows). The estimated total comes from the PostgreSQL table statistics,
generated when Express Loader or DataPusher finishes a load, or by
autovacuum. NB Currently estimation can't be done if the user specifies
'filters' or 'distinct' options. (optional, default: None)
:type total_estimation_threshold: int or None
:param records_format: the format for the records return value:
'objects' (default) list of {fieldname1: value1, ...} dicts,
'lists' list of [value1, value2, ...] lists,
'csv' string containing comma-separated values with no header,
'tsv' string containing tab-separated values with no header
:type records_format: controlled list
Setting the ``plain`` flag to false enables the entire PostgreSQL
`full text search query language`_.
A listing of all available resources can be found at the
alias ``_table_metadata``.
.. _full text search query language: http://www.postgresql.org/docs/9.1/static/datatype-textsearch.html#DATATYPE-TSQUERY
If you need to download the full resource, read :ref:`dump`.
**Results:**
The result of this action is a dictionary with the following keys:
:rtype: A dictionary with the following keys
:param fields: fields/columns and their extra metadata
:type fields: list of dictionaries
:param offset: query offset value
:type offset: int
:param limit: queried limit value (if the requested ``limit`` was above the
``ckan.datastore.search.rows_max`` value then this response ``limit``
will be set to the value of ``ckan.datastore.search.rows_max``)
:type limit: int
:param filters: query filters
:type filters: list of dictionaries
:param total: number of total matching records
:type total: int
:param total_was_estimated: whether or not the total was estimated
:type total_was_estimated: bool
:param records: list of matching results
:type records: depends on records_format value passed
'''
backend = DatastoreBackend.get_active_backend()
schema = context.get('schema', dsschema.datastore_search_schema())
data_dict, errors = _validate(data_dict, schema, context)
if errors:
raise p.toolkit.ValidationError(errors)
res_id = data_dict['resource_id']
if data_dict['resource_id'] not in WHITELISTED_RESOURCES:
res_exists, real_id = backend.resource_id_from_alias(res_id)
# Resource only has to exist in the datastore (because it could be an
# alias)
if not res_exists:
raise p.toolkit.ObjectNotFound(p.toolkit._(
'Resource "{0}" was not found.'.format(res_id)
))
# Replace potential alias with real id to simplify access checks
if real_id:
data_dict['resource_id'] = real_id
p.toolkit.check_access('datastore_search', context, data_dict)
result = backend.search(context, data_dict)
result.pop('id', None)
result.pop('connection_url', None)
return result
def datastore_upsert(context, data_dict):
'''Updates or inserts into a table in the DataStore
The datastore_upsert API action allows you to add or edit records to
an existing DataStore resource. In order for the *upsert* and *update*
methods to work, a unique key has to be defined via the datastore_create
action. The available methods are:
*upsert*
Update if record with same key already exists, otherwise insert.
Requires unique key.
*insert*
Insert only. This method is faster that upsert, but will fail if any
inserted record matches an existing one. Does *not* require a unique
key.
*update*
Update only. An exception will occur if the key that should be updated
does not exist. Requires unique key.
:param resource_id: resource id that the data is going to be stored under.
:type resource_id: string
:param force: set to True to edit a read-only resource
:type force: bool (optional, default: False)
:param records: the data, eg: [{"dob": "2005", "some_stuff": ["a","b"]}]
(optional)
:type records: list of dictionaries
:param method: the method to use to put the data into the datastore.
Possible options are: upsert, insert, update
(optional, default: upsert)
:type method: string
**Results:**
:returns: The modified data object.
:rtype: dictionary
'''
backend = DatastoreBackend.get_active_backend()
schema = context.get('schema', dsschema.datastore_upsert_schema())
records = data_dict.pop('records', None)
data_dict, errors = _validate(data_dict, schema, context)
if records:
data_dict['records'] = records
if errors:
raise p.toolkit.ValidationError(errors)
p.toolkit.check_access('datastore_upsert', context, data_dict)
resource_id = data_dict['resource_id']
if not data_dict.pop('force', False):
_check_read_only(context, resource_id)
res_exists = backend.resource_exists(resource_id)
if not res_exists:
raise p.toolkit.ObjectNotFound(p.toolkit._(
u'Resource "{0}" was not found.'.format(resource_id)
))
result = backend.upsert(context, data_dict)
result.pop('id', None)
result.pop('connection_url', None)
return result