diff options
| author | drebs <drebs@leap.se> | 2012-12-11 12:07:28 -0200 |
|---|---|---|
| committer | drebs <drebs@leap.se> | 2012-12-11 12:07:28 -0200 |
| commit | 4417d89bb9bdd59d717501c6db3f2215cdeb87fb (patch) | |
| tree | 8118bdbac78c1a723f18a5bc7f7292cd0d9b72db /src | |
| parent | 45908d847d09336d685dd38b698441a92570861e (diff) | |
SQLCipherDatabase now extends SQLitePartialExpandDatabase.
Diffstat (limited to 'src')
| -rw-r--r-- | src/leap/soledad/backends/sqlcipher.py | 831 |
1 files changed, 3 insertions, 828 deletions
diff --git a/src/leap/soledad/backends/sqlcipher.py b/src/leap/soledad/backends/sqlcipher.py index 24f47eed..fcdab251 100644 --- a/src/leap/soledad/backends/sqlcipher.py +++ b/src/leap/soledad/backends/sqlcipher.py @@ -30,6 +30,7 @@ import uuid import pkg_resources from u1db.backends import CommonBackend, CommonSyncTarget +from u1db.backends.sqlite_backend import SQLitePartialExpandDatabase from u1db import ( Document, errors, @@ -56,7 +57,7 @@ def open(path, create, document_factory=None, password=None): path, create=create, document_factory=document_factory, password=password) -class SQLCipherDatabase(CommonBackend): +class SQLCipherDatabase(SQLitePartialExpandDatabase): """A U1DB implementation that uses SQLCipher as its persistence layer.""" _sqlite_registry = {} @@ -74,25 +75,6 @@ class SQLCipherDatabase(CommonBackend): self._ensure_schema() self._factory = document_factory or Document - def set_document_factory(self, factory): - self._factory = factory - - def get_sync_target(self): - return SQLCipherSyncTarget(self) - - @classmethod - def _which_index_storage(cls, c): - try: - c.execute("SELECT value FROM u1db_config" - " WHERE name = 'index_storage'") - except dbapi2.OperationalError, e: - # The table does not exist yet - return None, e - else: - return c.fetchone()[0], None - - WAIT_FOR_PARALLEL_INIT_HALF_INTERVAL = 0.5 - @classmethod def _open_database(cls, sqlite_file, document_factory=None, password=None): if not os.path.isfile(sqlite_file): @@ -136,15 +118,6 @@ class SQLCipherDatabase(CommonBackend): password=password) @staticmethod - def delete_database(sqlite_file): - try: - os.unlink(sqlite_file) - except OSError as ex: - if ex.errno == errno.ENOENT: - raise errors.DatabaseDoesNotExist() - raise - - @staticmethod def register_implementation(klass): """Register that we implement an SQLCipherDatabase. @@ -152,803 +125,5 @@ class SQLCipherDatabase(CommonBackend): """ SQLCipherDatabase._sqlite_registry[klass._index_storage_value] = klass - def _get_sqlite_handle(self): - """Get access to the underlying sqlite database. - - This should only be used by the test suite, etc, for examining the - state of the underlying database. - """ - return self._db_handle - - def _close_sqlite_handle(self): - """Release access to the underlying sqlite database.""" - self._db_handle.close() - - def close(self): - self._close_sqlite_handle() - - def _is_initialized(self, c): - """Check if this database has been initialized.""" - c.execute("PRAGMA case_sensitive_like=ON") - try: - c.execute("SELECT value FROM u1db_config" - " WHERE name = 'sql_schema'") - except dbapi2.OperationalError: - # The table does not exist yet - val = None - else: - val = c.fetchone() - if val is not None: - return True - return False - - def _initialize(self, c): - """Create the schema in the database.""" - #read the script with sql commands - # TODO: Change how we set up the dependency. Most likely use something - # like lp:dirspec to grab the file from a common resource - # directory. Doesn't specifically need to be handled until we get - # to the point of packaging this. - schema_content = pkg_resources.resource_string( - __name__, 'dbschema.sql') - # Note: We'd like to use c.executescript() here, but it seems that - # executescript always commits, even if you set - # isolation_level = None, so if we want to properly handle - # exclusive locking and rollbacks between processes, we need - # to execute it line-by-line - for line in schema_content.split(';'): - if not line: - continue - c.execute(line) - #add extra fields - self._extra_schema_init(c) - # A unique identifier should be set for this replica. Implementations - # don't have to strictly use uuid here, but we do want the uid to be - # unique amongst all databases that will sync with each other. - # We might extend this to using something with hostname for easier - # debugging. - self._set_replica_uid_in_transaction(uuid.uuid4().hex) - c.execute("INSERT INTO u1db_config VALUES" " ('index_storage', ?)", - (self._index_storage_value,)) - - def _ensure_schema(self): - """Ensure that the database schema has been created.""" - old_isolation_level = self._db_handle.isolation_level - c = self._db_handle.cursor() - if self._is_initialized(c): - return - try: - # autocommit/own mgmt of transactions - self._db_handle.isolation_level = None - with self._db_handle: - # only one execution path should initialize the db - c.execute("begin exclusive") - if self._is_initialized(c): - return - self._initialize(c) - finally: - self._db_handle.isolation_level = old_isolation_level - - def _extra_schema_init(self, c): - """Add any extra fields, etc to the basic table definitions.""" - - def _parse_index_definition(self, index_field): - """Parse a field definition for an index, returning a Getter.""" - # Note: We may want to keep a Parser object around, and cache the - # Getter objects for a greater length of time. Specifically, if - # you create a bunch of indexes, and then insert 50k docs, you'll - # re-parse the indexes between puts. The time to insert the docs - # is still likely to dominate put_doc time, though. - parser = query_parser.Parser() - getter = parser.parse(index_field) - return getter - - def _update_indexes(self, doc_id, raw_doc, getters, db_cursor): - """Update document_fields for a single document. - - :param doc_id: Identifier for this document - :param raw_doc: The python dict representation of the document. - :param getters: A list of [(field_name, Getter)]. Getter.get will be - called to evaluate the index definition for this document, and the - results will be inserted into the db. - :param db_cursor: An sqlite Cursor. - :return: None - """ - values = [] - for field_name, getter in getters: - for idx_value in getter.get(raw_doc): - values.append((doc_id, field_name, idx_value)) - if values: - db_cursor.executemany( - "INSERT INTO document_fields VALUES (?, ?, ?)", values) - - def _set_replica_uid(self, replica_uid): - """Force the replica_uid to be set.""" - with self._db_handle: - self._set_replica_uid_in_transaction(replica_uid) - - def _set_replica_uid_in_transaction(self, replica_uid): - """Set the replica_uid. A transaction should already be held.""" - c = self._db_handle.cursor() - c.execute("INSERT OR REPLACE INTO u1db_config" - " VALUES ('replica_uid', ?)", - (replica_uid,)) - self._real_replica_uid = replica_uid - - def _get_replica_uid(self): - if self._real_replica_uid is not None: - return self._real_replica_uid - c = self._db_handle.cursor() - c.execute("SELECT value FROM u1db_config WHERE name = 'replica_uid'") - val = c.fetchone() - if val is None: - return None - self._real_replica_uid = val[0] - return self._real_replica_uid - - _replica_uid = property(_get_replica_uid) - - def _get_generation(self): - c = self._db_handle.cursor() - c.execute('SELECT max(generation) FROM transaction_log') - val = c.fetchone()[0] - if val is None: - return 0 - return val - - def _get_generation_info(self): - c = self._db_handle.cursor() - c.execute( - 'SELECT max(generation), transaction_id FROM transaction_log ') - val = c.fetchone() - if val[0] is None: - return(0, '') - return val - - def _get_trans_id_for_gen(self, generation): - if generation == 0: - return '' - c = self._db_handle.cursor() - c.execute( - 'SELECT transaction_id FROM transaction_log WHERE generation = ?', - (generation,)) - val = c.fetchone() - if val is None: - raise errors.InvalidGeneration - return val[0] - - def _get_transaction_log(self): - c = self._db_handle.cursor() - c.execute("SELECT doc_id, transaction_id FROM transaction_log" - " ORDER BY generation") - return c.fetchall() - - def _get_doc(self, doc_id, check_for_conflicts=False): - """Get just the document content, without fancy handling.""" - c = self._db_handle.cursor() - if check_for_conflicts: - c.execute( - "SELECT document.doc_rev, document.content, " - "count(conflicts.doc_rev) FROM document LEFT OUTER JOIN " - "conflicts ON conflicts.doc_id = document.doc_id WHERE " - "document.doc_id = ? GROUP BY document.doc_id, " - "document.doc_rev, document.content;", (doc_id,)) - else: - c.execute( - "SELECT doc_rev, content, 0 FROM document WHERE doc_id = ?", - (doc_id,)) - val = c.fetchone() - if val is None: - return None - doc_rev, content, conflicts = val - doc = self._factory(doc_id, doc_rev, content) - doc.has_conflicts = conflicts > 0 - return doc - - def _has_conflicts(self, doc_id): - c = self._db_handle.cursor() - c.execute("SELECT 1 FROM conflicts WHERE doc_id = ? LIMIT 1", - (doc_id,)) - val = c.fetchone() - if val is None: - return False - else: - return True - - def get_doc(self, doc_id, include_deleted=False): - doc = self._get_doc(doc_id, check_for_conflicts=True) - if doc is None: - return None - if doc.is_tombstone() and not include_deleted: - return None - return doc - - def get_all_docs(self, include_deleted=False): - """Get all documents from the database.""" - generation = self._get_generation() - results = [] - c = self._db_handle.cursor() - c.execute( - "SELECT document.doc_id, document.doc_rev, document.content, " - "count(conflicts.doc_rev) FROM document LEFT OUTER JOIN conflicts " - "ON conflicts.doc_id = document.doc_id GROUP BY document.doc_id, " - "document.doc_rev, document.content;") - rows = c.fetchall() - for doc_id, doc_rev, content, conflicts in rows: - if content is None and not include_deleted: - continue - doc = self._factory(doc_id, doc_rev, content) - doc.has_conflicts = conflicts > 0 - results.append(doc) - return (generation, results) - - def put_doc(self, doc): - if doc.doc_id is None: - raise errors.InvalidDocId() - self._check_doc_id(doc.doc_id) - self._check_doc_size(doc) - with self._db_handle: - old_doc = self._get_doc(doc.doc_id, check_for_conflicts=True) - if old_doc and old_doc.has_conflicts: - raise errors.ConflictedDoc() - if old_doc and doc.rev is None and old_doc.is_tombstone(): - new_rev = self._allocate_doc_rev(old_doc.rev) - else: - if old_doc is not None: - if old_doc.rev != doc.rev: - raise errors.RevisionConflict() - else: - if doc.rev is not None: - raise errors.RevisionConflict() - new_rev = self._allocate_doc_rev(doc.rev) - doc.rev = new_rev - self._put_and_update_indexes(old_doc, doc) - return new_rev - - def _expand_to_fields(self, doc_id, base_field, raw_doc, save_none): - """Convert a dict representation into named fields. - - So something like: {'key1': 'val1', 'key2': 'val2'} - gets converted into: [(doc_id, 'key1', 'val1', 0) - (doc_id, 'key2', 'val2', 0)] - :param doc_id: Just added to every record. - :param base_field: if set, these are nested keys, so each field should - be appropriately prefixed. - :param raw_doc: The python dictionary. - """ - # TODO: Handle lists - values = [] - for field_name, value in raw_doc.iteritems(): - if value is None and not save_none: - continue - if base_field: - full_name = base_field + '.' + field_name - else: - full_name = field_name - if value is None or isinstance(value, (int, float, basestring)): - values.append((doc_id, full_name, value, len(values))) - else: - subvalues = self._expand_to_fields(doc_id, full_name, value, - save_none) - for _, subfield_name, val, _ in subvalues: - values.append((doc_id, subfield_name, val, len(values))) - return values - - def _put_and_update_indexes(self, old_doc, doc): - """Actually insert a document into the database. - - This both updates the existing documents content, and any indexes that - refer to this document. - """ - raise NotImplementedError(self._put_and_update_indexes) - - def whats_changed(self, old_generation=0): - c = self._db_handle.cursor() - c.execute("SELECT generation, doc_id, transaction_id" - " FROM transaction_log" - " WHERE generation > ? ORDER BY generation DESC", - (old_generation,)) - results = c.fetchall() - cur_gen = old_generation - seen = set() - changes = [] - newest_trans_id = '' - for generation, doc_id, trans_id in results: - if doc_id not in seen: - changes.append((doc_id, generation, trans_id)) - seen.add(doc_id) - if changes: - cur_gen = changes[0][1] # max generation - newest_trans_id = changes[0][2] - changes.reverse() - else: - c.execute("SELECT generation, transaction_id" - " FROM transaction_log ORDER BY generation DESC LIMIT 1") - results = c.fetchone() - if not results: - cur_gen = 0 - newest_trans_id = '' - else: - cur_gen, newest_trans_id = results - - return cur_gen, newest_trans_id, changes - - def delete_doc(self, doc): - with self._db_handle: - old_doc = self._get_doc(doc.doc_id, check_for_conflicts=True) - if old_doc is None: - raise errors.DocumentDoesNotExist - if old_doc.rev != doc.rev: - raise errors.RevisionConflict() - if old_doc.is_tombstone(): - raise errors.DocumentAlreadyDeleted - if old_doc.has_conflicts: - raise errors.ConflictedDoc() - new_rev = self._allocate_doc_rev(doc.rev) - doc.rev = new_rev - doc.make_tombstone() - self._put_and_update_indexes(old_doc, doc) - return new_rev - - def _get_conflicts(self, doc_id): - c = self._db_handle.cursor() - c.execute("SELECT doc_rev, content FROM conflicts WHERE doc_id = ?", - (doc_id,)) - return [self._factory(doc_id, doc_rev, content) - for doc_rev, content in c.fetchall()] - - def get_doc_conflicts(self, doc_id): - with self._db_handle: - conflict_docs = self._get_conflicts(doc_id) - if not conflict_docs: - return [] - this_doc = self._get_doc(doc_id) - this_doc.has_conflicts = True - return [this_doc] + conflict_docs - - def _get_replica_gen_and_trans_id(self, other_replica_uid): - c = self._db_handle.cursor() - c.execute("SELECT known_generation, known_transaction_id FROM sync_log" - " WHERE replica_uid = ?", - (other_replica_uid,)) - val = c.fetchone() - if val is None: - other_gen = 0 - trans_id = '' - else: - other_gen = val[0] - trans_id = val[1] - return other_gen, trans_id - - def _set_replica_gen_and_trans_id(self, other_replica_uid, - other_generation, other_transaction_id): - with self._db_handle: - self._do_set_replica_gen_and_trans_id( - other_replica_uid, other_generation, other_transaction_id) - - def _do_set_replica_gen_and_trans_id(self, other_replica_uid, - other_generation, - other_transaction_id): - c = self._db_handle.cursor() - c.execute("INSERT OR REPLACE INTO sync_log VALUES (?, ?, ?)", - (other_replica_uid, other_generation, - other_transaction_id)) - - def _put_doc_if_newer(self, doc, save_conflict, replica_uid=None, - replica_gen=None, replica_trans_id=None): - with self._db_handle: - return super(SQLCipherDatabase, self)._put_doc_if_newer(doc, - save_conflict=save_conflict, - replica_uid=replica_uid, replica_gen=replica_gen, - replica_trans_id=replica_trans_id) - - def _add_conflict(self, c, doc_id, my_doc_rev, my_content): - c.execute("INSERT INTO conflicts VALUES (?, ?, ?)", - (doc_id, my_doc_rev, my_content)) - - def _delete_conflicts(self, c, doc, conflict_revs): - deleting = [(doc.doc_id, c_rev) for c_rev in conflict_revs] - c.executemany("DELETE FROM conflicts" - " WHERE doc_id=? AND doc_rev=?", deleting) - doc.has_conflicts = self._has_conflicts(doc.doc_id) - - def _prune_conflicts(self, doc, doc_vcr): - if self._has_conflicts(doc.doc_id): - autoresolved = False - c_revs_to_prune = [] - for c_doc in self._get_conflicts(doc.doc_id): - c_vcr = vectorclock.VectorClockRev(c_doc.rev) - if doc_vcr.is_newer(c_vcr): - c_revs_to_prune.append(c_doc.rev) - elif doc.same_content_as(c_doc): - c_revs_to_prune.append(c_doc.rev) - doc_vcr.maximize(c_vcr) - autoresolved = True - if autoresolved: - doc_vcr.increment(self._replica_uid) - doc.rev = doc_vcr.as_str() - c = self._db_handle.cursor() - self._delete_conflicts(c, doc, c_revs_to_prune) - - def _force_doc_sync_conflict(self, doc): - my_doc = self._get_doc(doc.doc_id) - c = self._db_handle.cursor() - self._prune_conflicts(doc, vectorclock.VectorClockRev(doc.rev)) - self._add_conflict(c, doc.doc_id, my_doc.rev, my_doc.get_json()) - doc.has_conflicts = True - self._put_and_update_indexes(my_doc, doc) - - def resolve_doc(self, doc, conflicted_doc_revs): - with self._db_handle: - cur_doc = self._get_doc(doc.doc_id) - # TODO: https://bugs.launchpad.net/u1db/+bug/928274 - # I think we have a logic bug in resolve_doc - # Specifically, cur_doc.rev is always in the final vector - # clock of revisions that we supersede, even if it wasn't in - # conflicted_doc_revs. We still add it as a conflict, but the - # fact that _put_doc_if_newer propagates resolutions means I - # think that conflict could accidentally be resolved. We need - # to add a test for this case first. (create a rev, create a - # conflict, create another conflict, resolve the first rev - # and first conflict, then make sure that the resolved - # rev doesn't supersede the second conflict rev.) It *might* - # not matter, because the superseding rev is in as a - # conflict, but it does seem incorrect - new_rev = self._ensure_maximal_rev(cur_doc.rev, - conflicted_doc_revs) - superseded_revs = set(conflicted_doc_revs) - c = self._db_handle.cursor() - doc.rev = new_rev - if cur_doc.rev in superseded_revs: - self._put_and_update_indexes(cur_doc, doc) - else: - self._add_conflict(c, doc.doc_id, new_rev, doc.get_json()) - # TODO: Is there some way that we could construct a rev that would - # end up in superseded_revs, such that we add a conflict, and - # then immediately delete it? - self._delete_conflicts(c, doc, superseded_revs) - - def list_indexes(self): - """Return the list of indexes and their definitions.""" - c = self._db_handle.cursor() - # TODO: How do we test the ordering? - c.execute("SELECT name, field FROM index_definitions" - " ORDER BY name, offset") - definitions = [] - cur_name = None - for name, field in c.fetchall(): - if cur_name != name: - definitions.append((name, [])) - cur_name = name - definitions[-1][-1].append(field) - return definitions - - def _get_index_definition(self, index_name): - """Return the stored definition for a given index_name.""" - c = self._db_handle.cursor() - c.execute("SELECT field FROM index_definitions" - " WHERE name = ? ORDER BY offset", (index_name,)) - fields = [x[0] for x in c.fetchall()] - if not fields: - raise errors.IndexDoesNotExist - return fields - - @staticmethod - def _strip_glob(value): - """Remove the trailing * from a value.""" - assert value[-1] == '*' - return value[:-1] - - def _format_query(self, definition, key_values): - # First, build the definition. We join the document_fields table - # against itself, as many times as the 'width' of our definition. - # We then do a query for each key_value, one-at-a-time. - # Note: All of these strings are static, we could cache them, etc. - tables = ["document_fields d%d" % i for i in range(len(definition))] - novalue_where = ["d.doc_id = d%d.doc_id" - " AND d%d.field_name = ?" - % (i, i) for i in range(len(definition))] - wildcard_where = [novalue_where[i] - + (" AND d%d.value NOT NULL" % (i,)) - for i in range(len(definition))] - exact_where = [novalue_where[i] - + (" AND d%d.value = ?" % (i,)) - for i in range(len(definition))] - like_where = [novalue_where[i] - + (" AND d%d.value GLOB ?" % (i,)) - for i in range(len(definition))] - is_wildcard = False - # Merge the lists together, so that: - # [field1, field2, field3], [val1, val2, val3] - # Becomes: - # (field1, val1, field2, val2, field3, val3) - args = [] - where = [] - for idx, (field, value) in enumerate(zip(definition, key_values)): - args.append(field) - if value.endswith('*'): - if value == '*': - where.append(wildcard_where[idx]) - else: - # This is a glob match - if is_wildcard: - # We can't have a partial wildcard following - # another wildcard - raise errors.InvalidGlobbing - where.append(like_where[idx]) - args.append(value) - is_wildcard = True - else: - if is_wildcard: - raise errors.InvalidGlobbing - where.append(exact_where[idx]) - args.append(value) - statement = ( - "SELECT d.doc_id, d.doc_rev, d.content, count(c.doc_rev) FROM " - "document d, %s LEFT OUTER JOIN conflicts c ON c.doc_id = " - "d.doc_id WHERE %s GROUP BY d.doc_id, d.doc_rev, d.content ORDER " - "BY %s;" % (', '.join(tables), ' AND '.join(where), ', '.join( - ['d%d.value' % i for i in range(len(definition))]))) - return statement, args - - def get_from_index(self, index_name, *key_values): - definition = self._get_index_definition(index_name) - if len(key_values) != len(definition): - raise errors.InvalidValueForIndex() - statement, args = self._format_query(definition, key_values) - c = self._db_handle.cursor() - try: - c.execute(statement, tuple(args)) - except dbapi2.OperationalError, e: - raise dbapi2.OperationalError(str(e) + - '\nstatement: %s\nargs: %s\n' % (statement, args)) - res = c.fetchall() - results = [] - for row in res: - doc = self._factory(row[0], row[1], row[2]) - doc.has_conflicts = row[3] > 0 - results.append(doc) - return results - - def _format_range_query(self, definition, start_value, end_value): - tables = ["document_fields d%d" % i for i in range(len(definition))] - novalue_where = [ - "d.doc_id = d%d.doc_id AND d%d.field_name = ?" % (i, i) for i in - range(len(definition))] - wildcard_where = [ - novalue_where[i] + (" AND d%d.value NOT NULL" % (i,)) for i in - range(len(definition))] - like_where = [ - novalue_where[i] + ( - " AND (d%d.value < ? OR d%d.value GLOB ?)" % (i, i)) for i in - range(len(definition))] - range_where_lower = [ - novalue_where[i] + (" AND d%d.value >= ?" % (i,)) for i in - range(len(definition))] - range_where_upper = [ - novalue_where[i] + (" AND d%d.value <= ?" % (i,)) for i in - range(len(definition))] - args = [] - where = [] - if start_value: - if isinstance(start_value, basestring): - start_value = (start_value,) - if len(start_value) != len(definition): - raise errors.InvalidValueForIndex() - is_wildcard = False - for idx, (field, value) in enumerate(zip(definition, start_value)): - args.append(field) - if value.endswith('*'): - if value == '*': - where.append(wildcard_where[idx]) - else: - # This is a glob match - if is_wildcard: - # We can't have a partial wildcard following - # another wildcard - raise errors.InvalidGlobbing - where.append(range_where_lower[idx]) - args.append(self._strip_glob(value)) - is_wildcard = True - else: - if is_wildcard: - raise errors.InvalidGlobbing - where.append(range_where_lower[idx]) - args.append(value) - if end_value: - if isinstance(end_value, basestring): - end_value = (end_value,) - if len(end_value) != len(definition): - raise errors.InvalidValueForIndex() - is_wildcard = False - for idx, (field, value) in enumerate(zip(definition, end_value)): - args.append(field) - if value.endswith('*'): - if value == '*': - where.append(wildcard_where[idx]) - else: - # This is a glob match - if is_wildcard: - # We can't have a partial wildcard following - # another wildcard - raise errors.InvalidGlobbing - where.append(like_where[idx]) - args.append(self._strip_glob(value)) - args.append(value) - is_wildcard = True - else: - if is_wildcard: - raise errors.InvalidGlobbing - where.append(range_where_upper[idx]) - args.append(value) - statement = ( - "SELECT d.doc_id, d.doc_rev, d.content, count(c.doc_rev) FROM " - "document d, %s LEFT OUTER JOIN conflicts c ON c.doc_id = " - "d.doc_id WHERE %s GROUP BY d.doc_id, d.doc_rev, d.content ORDER " - "BY %s;" % (', '.join(tables), ' AND '.join(where), ', '.join( - ['d%d.value' % i for i in range(len(definition))]))) - return statement, args - - def get_range_from_index(self, index_name, start_value=None, - end_value=None): - """Return all documents with key values in the specified range.""" - definition = self._get_index_definition(index_name) - statement, args = self._format_range_query( - definition, start_value, end_value) - c = self._db_handle.cursor() - try: - c.execute(statement, tuple(args)) - except dbapi2.OperationalError, e: - raise dbapi2.OperationalError(str(e) + - '\nstatement: %s\nargs: %s\n' % (statement, args)) - res = c.fetchall() - results = [] - for row in res: - doc = self._factory(row[0], row[1], row[2]) - doc.has_conflicts = row[3] > 0 - results.append(doc) - return results - - def get_index_keys(self, index_name): - c = self._db_handle.cursor() - definition = self._get_index_definition(index_name) - value_fields = ', '.join([ - 'd%d.value' % i for i in range(len(definition))]) - tables = ["document_fields d%d" % i for i in range(len(definition))] - novalue_where = [ - "d.doc_id = d%d.doc_id AND d%d.field_name = ?" % (i, i) for i in - range(len(definition))] - where = [ - novalue_where[i] + (" AND d%d.value NOT NULL" % (i,)) for i in - range(len(definition))] - statement = ( - "SELECT %s FROM document d, %s WHERE %s GROUP BY %s;" % ( - value_fields, ', '.join(tables), ' AND '.join(where), - value_fields)) - try: - c.execute(statement, tuple(definition)) - except dbapi2.OperationalError, e: - raise dbapi2.OperationalError(str(e) + - '\nstatement: %s\nargs: %s\n' % (statement, tuple(definition))) - return c.fetchall() - - def delete_index(self, index_name): - with self._db_handle: - c = self._db_handle.cursor() - c.execute("DELETE FROM index_definitions WHERE name = ?", - (index_name,)) - c.execute( - "DELETE FROM document_fields WHERE document_fields.field_name " - " NOT IN (SELECT field from index_definitions)") - - -class SQLCipherSyncTarget(CommonSyncTarget): - - def get_sync_info(self, source_replica_uid): - source_gen, source_trans_id = self._db._get_replica_gen_and_trans_id( - source_replica_uid) - my_gen, my_trans_id = self._db._get_generation_info() - return ( - self._db._replica_uid, my_gen, my_trans_id, source_gen, - source_trans_id) - - def record_sync_info(self, source_replica_uid, source_replica_generation, - source_replica_transaction_id): - if self._trace_hook: - self._trace_hook('record_sync_info') - self._db._set_replica_gen_and_trans_id( - source_replica_uid, source_replica_generation, - source_replica_transaction_id) - - -class SQLCipherPartialExpandDatabase(SQLCipherDatabase): - """An SQLCipher Backend that expands documents into a document_field table. - - It stores the original document text in document.doc. For fields that are - indexed, the data goes into document_fields. - """ - - _index_storage_value = 'expand referenced' - - def _get_indexed_fields(self): - """Determine what fields are indexed.""" - c = self._db_handle.cursor() - c.execute("SELECT field FROM index_definitions") - return set([x[0] for x in c.fetchall()]) - - def _evaluate_index(self, raw_doc, field): - parser = query_parser.Parser() - getter = parser.parse(field) - return getter.get(raw_doc) - - def _put_and_update_indexes(self, old_doc, doc): - c = self._db_handle.cursor() - if doc and not doc.is_tombstone(): - raw_doc = json.loads(doc.get_json()) - else: - raw_doc = {} - if old_doc is not None: - c.execute("UPDATE document SET doc_rev=?, content=?" - " WHERE doc_id = ?", - (doc.rev, doc.get_json(), doc.doc_id)) - c.execute("DELETE FROM document_fields WHERE doc_id = ?", - (doc.doc_id,)) - else: - c.execute("INSERT INTO document (doc_id, doc_rev, content)" - " VALUES (?, ?, ?)", - (doc.doc_id, doc.rev, doc.get_json())) - indexed_fields = self._get_indexed_fields() - if indexed_fields: - # It is expected that len(indexed_fields) is shorter than - # len(raw_doc) - getters = [(field, self._parse_index_definition(field)) - for field in indexed_fields] - self._update_indexes(doc.doc_id, raw_doc, getters, c) - trans_id = self._allocate_transaction_id() - c.execute("INSERT INTO transaction_log(doc_id, transaction_id)" - " VALUES (?, ?)", (doc.doc_id, trans_id)) - - def create_index(self, index_name, *index_expressions): - with self._db_handle: - c = self._db_handle.cursor() - cur_fields = self._get_indexed_fields() - definition = [(index_name, idx, field) - for idx, field in enumerate(index_expressions)] - try: - c.executemany("INSERT INTO index_definitions VALUES (?, ?, ?)", - definition) - except dbapi2.IntegrityError as e: - stored_def = self._get_index_definition(index_name) - if stored_def == [x[-1] for x in definition]: - return - raise errors.IndexNameTakenError, e, sys.exc_info()[2] - new_fields = set( - [f for f in index_expressions if f not in cur_fields]) - if new_fields: - self._update_all_indexes(new_fields) - - def _iter_all_docs(self): - c = self._db_handle.cursor() - c.execute("SELECT doc_id, content FROM document") - while True: - next_rows = c.fetchmany() - if not next_rows: - break - for row in next_rows: - yield row - - def _update_all_indexes(self, new_fields): - """Iterate all the documents, and add content to document_fields. - - :param new_fields: The index definitions that need to be added. - """ - getters = [(field, self._parse_index_definition(field)) - for field in new_fields] - c = self._db_handle.cursor() - for doc_id, doc in self._iter_all_docs(): - if doc is None: - continue - raw_doc = json.loads(doc) - self._update_indexes(doc_id, raw_doc, getters, c) -SQLCipherDatabase.register_implementation(SQLCipherPartialExpandDatabase) +SQLCipherDatabase.register_implementation(SQLCipherDatabase) |