-- -- Title: Apply schema modifications to upgrade from 2.1 -- Database: Oracle -- Since: V2.2 Schema 91 -- Author: Derek Hulley -- -- In order to streamline the upgrade, all modifications to large tables need to -- be handled in as few steps as possible. This usually involves as few ALTER TABLE -- statements as possible. The general approach is: -- Create a table with the correct structure, including indexes and CONSTRAINTs -- Copy pristine data into the new table -- Drop the old table -- Rename the new table -- -- Please contact support@alfresco.com if you need assistance with the upgrade. -- -- ------------------------------- -- Build Namespaces and QNames -- -- ------------------------------- -- Create static namespace and qname tables -- The Primary Key is not added as it's easier to add in afterwards CREATE TABLE alf_namespace ( id NUMBER(19,0) DEFAULT 0 NOT NULL, version number(19,0) NOT NULL, uri VARCHAR2(100 CHAR) NOT NULL, PRIMARY KEY (id), UNIQUE (uri) ); CREATE TABLE alf_qname ( id NUMBER(19,0) DEFAULT 0 NOT NULL, version NUMBER(19,0) NOT NULL, ns_id NUMBER(19,0) NOT NULL, local_name VARCHAR2(200 char) NOT NULL, PRIMARY KEY (id), UNIQUE (ns_id, local_name) ); CREATE INDEX fk_alf_qn_ns on alf_qname (ns_id); ALTER TABLE alf_qname ADD CONSTRAINT fk_alf_qname_ns FOREIGN KEY (ns_id) REFERENCES alf_namespace (id); -- Create temporary table for dynamic (child) QNames CREATE TABLE t_qnames_dyn ( qname VARCHAR2(255) NOT NULL, namespace VARCHAR2(255), namespace_id NUMBER(19,0), local_name VARCHAR2(200 char) ); CREATE INDEX tidx_qnd_qn ON t_qnames_dyn (qname); CREATE INDEX tidx_qnd_ns ON t_qnames_dyn (namespace); -- Populate the table with the child association paths INSERT INTO t_qnames_dyn (qname) ( SELECT distinct qname FROM alf_child_assoc ); -- Extract the Namespace UPDATE t_qnames_dyn SET namespace = CONCAT('FILLER-', SUBSTRC(qname,2,INSTRC(qname,'}',1)-2)); -- Extract the Localname UPDATE t_qnames_dyn SET local_name = SUBSTRC(qname,INSTRC(qname, '}',-1)+1); -- Move the namespaces to the their new home INSERT INTO alf_namespace (id, uri, version) ( SELECT hibernate_sequence.nextval, y.* FROM ( SELECT DISTINCT(x.namespace), 1 FROM ( SELECT t.namespace, n.uri FROM t_qnames_dyn t LEFT OUTER JOIN alf_namespace n ON (n.uri = t.namespace) ) x WHERE x.uri IS NULL ) y ); -- Record the new namespace IDs UPDATE t_qnames_dyn t SET t.namespace_id = (SELECT ns.id FROM alf_namespace ns WHERE ns.uri = t.namespace); -- Recoup some storage ALTER TABLE t_qnames_dyn DROP COLUMN namespace; -- Create temporary table to hold static QNames CREATE TABLE t_qnames ( qname VARCHAR2(255) NOT NULL, namespace VARCHAR2(255), localname VARCHAR2(255), qname_id NUMBER(19,0) ); CREATE INDEX tidx_tqn_qn ON t_qnames (qname); CREATE INDEX tidx_tqn_ns ON t_qnames (namespace); CREATE INDEX tidx_tqn_ln ON t_qnames (localname); -- Populate the table with all known static QNames INSERT INTO t_qnames (qname) ( SELECT DISTINCT s.type_qname FROM alf_node s LEFT OUTER JOIN t_qnames t ON (s.type_qname = t.qname) WHERE t.qname IS NULL ); INSERT INTO t_qnames (qname) ( SELECT DISTINCT s.qname FROM alf_node_aspects s LEFT OUTER JOIN t_qnames t ON (s.qname = t.qname) WHERE t.qname IS NULL ); INSERT INTO t_qnames (qname) ( SELECT DISTINCT s.qname FROM alf_node_properties s LEFT OUTER JOIN t_qnames t ON (s.qname = t.qname) WHERE t.qname IS NULL ); INSERT INTO t_qnames (qname) ( SELECT DISTINCT s.qname FROM avm_aspects s LEFT OUTER JOIN t_qnames t ON (s.qname = t.qname) WHERE t.qname IS NULL ); INSERT INTO t_qnames (qname) ( SELECT DISTINCT s.name FROM avm_aspects_new s LEFT OUTER JOIN t_qnames t ON (s.name = t.qname) WHERE t.qname IS NULL ); INSERT INTO t_qnames (qname) ( SELECT DISTINCT s.qname FROM avm_node_properties s LEFT OUTER JOIN t_qnames t ON (s.qname = t.qname) WHERE t.qname IS NULL ); INSERT INTO t_qnames (qname) ( SELECT DISTINCT s.qname FROM avm_node_properties_new s LEFT OUTER JOIN t_qnames t ON (s.qname = t.qname) WHERE t.qname IS NULL ); INSERT INTO t_qnames (qname) ( SELECT DISTINCT s.qname FROM avm_store_properties s LEFT OUTER JOIN t_qnames t ON (s.qname = t.qname) WHERE t.qname IS NULL ); INSERT INTO t_qnames (qname) ( SELECT DISTINCT s.type_qname FROM alf_node_assoc s LEFT OUTER JOIN t_qnames t ON (s.type_qname = t.qname) WHERE t.qname IS NULL ); INSERT INTO t_qnames (qname) ( SELECT DISTINCT s.type_qname FROM alf_child_assoc s LEFT OUTER JOIN t_qnames t ON (s.type_qname = t.qname) WHERE t.qname IS NULL ); INSERT INTO t_qnames (qname) ( SELECT DISTINCT s.type_qname FROM alf_permission s LEFT OUTER JOIN t_qnames t ON (s.type_qname = t.qname) WHERE t.qname IS NULL ); -- Extract the namespace and localnames from the QNames UPDATE t_qnames SET namespace = CONCAT('FILLER-', SUBSTR(qname,2,INSTRC(qname,'}',1)-2)); UPDATE t_qnames SET localname = SUBSTR(qname,INSTRC(qname,'}',1)+1); -- Move the Namespaces to their new home INSERT INTO alf_namespace (id, uri, version) ( SELECT hibernate_sequence.nextval, y.* FROM ( SELECT DISTINCT(x.namespace), 1 FROM ( SELECT t.namespace, n.uri FROM t_qnames t LEFT OUTER JOIN alf_namespace n ON (n.uri = t.namespace) ) x WHERE x.uri IS NULL ) y ); -- Move the Localnames to their new home INSERT INTO alf_qname (id, ns_id, local_name, version) ( SELECT hibernate_sequence.nextval, y.* FROM ( SELECT x.ns_id, x.t_localname, 1 FROM ( SELECT n.id AS ns_id, t.localname AS t_localname, q.local_name AS q_localname FROM t_qnames t JOIN alf_namespace n ON (n.uri = t.namespace) LEFT OUTER JOIN alf_qname q ON (q.local_name = t.localname) ) x WHERE q_localname IS NULL GROUP BY x.ns_id, x.t_localname ) y ); -- Record the new qname IDs UPDATE t_qnames t SET t.qname_id = ( SELECT q.id FROM alf_qname q JOIN alf_namespace ns ON (q.ns_id = ns.id) WHERE ns.uri = t.namespace AND q.local_name = t.localname ); -- ---------------------------- -- Populate the Permissions -- -- ---------------------------- -- This is a small table so we change it in place ALTER TABLE alf_permission DROP UNIQUE (type_qname, name); ALTER TABLE alf_permission ADD ( type_qname_id NUMBER(19,0) NULL ); UPDATE alf_permission p SET p.type_qname_id = ( SELECT q.id FROM alf_qname q JOIN alf_namespace ns ON (q.ns_id = ns.id) WHERE CONCAT(CONCAT('{', SUBSTR(ns.uri, 8)), CONCAT('}', q.local_name)) = p.type_qname ); ALTER TABLE alf_permission DROP COLUMN type_qname; ALTER TABLE alf_permission MODIFY ( type_qname_id NUMBER(19,0) NOT NULL); ALTER TABLE alf_permission ADD UNIQUE (type_qname_id, name); CREATE INDEX fk_alf_perm_tqn ON alf_permission (type_qname_id); ALTER TABLE alf_permission ADD CONSTRAINT fk_alf_perm_tqn FOREIGN KEY (type_qname_id) REFERENCES alf_qname (id); -- ------------------- -- Build new Store -- -- ------------------- CREATE TABLE t_alf_store ( id number(19,0) NOT NULL, version number(19,0) NOT NULL, protocol varchar2(50 char) NOT NULL, identifier varchar2(100 char) NOT NULL, root_node_id number(19,0), PRIMARY KEY (id), UNIQUE (protocol, identifier) ); -- -------------------------- -- Populate the ADM nodes -- -- -------------------------- CREATE TABLE t_alf_node ( id number(19,0) NOT NULL, version number(19,0) NOT NULL, store_id number(19,0) NOT NULL, uuid varchar2(36 char) NOT NULL, transaction_id number(19,0) NOT NULL, node_deleted NUMBER(1) NOT NULL, type_qname_id number(19,0) NOT NULL, acl_id number(19,0), audit_creator varchar2(255 char), audit_created varchar2(30 char), audit_modifier varchar2(255 char), audit_modified varchar2(30 char), audit_accessed varchar2(30 char), PRIMARY KEY (id), UNIQUE (store_id, uuid) ); CREATE INDEX idx_alf_node_del on t_alf_node (node_deleted); CREATE INDEX fk_alf_node_acl on t_alf_node (acl_id); CREATE INDEX fk_alf_node_tqn on t_alf_node (type_qname_id); CREATE INDEX fk_alf_node_txn on t_alf_node (transaction_id); CREATE INDEX fk_alf_node_store on t_alf_node (store_id); ALTER TABLE t_alf_node ADD CONSTRAINT fk_alf_node_acl FOREIGN KEY (acl_id) REFERENCES alf_access_control_list (id) ADD CONSTRAINT fk_alf_node_tqn FOREIGN KEY (type_qname_id) REFERENCES alf_qname (id) ADD CONSTRAINT fk_alf_node_txn FOREIGN KEY (transaction_id) REFERENCES alf_transaction (id) ADD CONSTRAINT fk_alf_node_store FOREIGN KEY (store_id) REFERENCES t_alf_store (id) ; -- Fill the store table INSERT INTO t_alf_store (id, version, protocol, identifier, root_node_id) SELECT hibernate_sequence.nextval, 1, protocol, identifier, root_node_id FROM alf_store ; -- Add type_qname index for nodes CREATE INDEX tidx_node_tqn ON alf_node (type_qname); -- Copy data over INSERT INTO t_alf_node ( id, version, store_id, uuid, transaction_id, node_deleted, type_qname_id, acl_id, audit_creator, audit_created, audit_modifier, audit_modified ) SELECT n.id, 1, s.id, n.uuid, nstat.transaction_id, 0, q.qname_id, n.acl_id, null, null, null, null FROM alf_node n JOIN t_qnames q ON (q.qname = n.type_qname) JOIN alf_node_status nstat ON (nstat.node_id = n.id) JOIN t_alf_store s ON (s.protocol = nstat.protocol AND s.identifier = nstat.identifier) ; -- Hook the store up to the root node CREATE INDEX fk_alf_store_root ON t_alf_store (root_node_id); ALTER TABLE t_alf_store ADD CONSTRAINT fk_alf_store_root FOREIGN KEY (root_node_id) REFERENCES t_alf_node (id) ; -- ----------------------------- -- Populate Version Counter -- -- ----------------------------- CREATE TABLE t_alf_version_count ( id number(19,0) NOT NULL, version number(19,0) NOT NULL, store_id number(19,0) NOT NULL UNIQUE, version_count number(10,0) NOT NULL, PRIMARY KEY (id) ); ALTER TABLE t_alf_version_count ADD CONSTRAINT fk_alf_vc_store FOREIGN KEY (store_id) REFERENCES t_alf_store (id) ; INSERT INTO t_alf_version_count ( id, version, store_id, version_count ) SELECT hibernate_sequence.nextval, 1, s.id, vc.version_count FROM alf_version_count vc JOIN t_alf_store s ON (s.protocol = vc.protocol AND s.identifier = vc.identifier) ; DROP TABLE alf_version_count; ALTER TABLE t_alf_version_count RENAME TO alf_version_count; -- ----------------------------- -- Populate the Child Assocs -- -- ----------------------------- CREATE TABLE t_alf_child_assoc ( id number(19,0) NOT NULL, version number(19,0) NOT NULL, parent_node_id number(19,0) NOT NULL, type_qname_id number(19,0) NOT NULL, child_node_name varchar2(50 char) NOT NULL, child_node_name_crc number(19,0) NOT NULL, child_node_id number(19,0) NOT NULL, qname_ns_id number(19,0) NOT NULL, qname_localname varchar2(100 char) NOT NULL, is_primary number(1), assoc_index number(10,0), PRIMARY KEY (id), UNIQUE (parent_node_id, type_qname_id, child_node_name, child_node_name_crc) ); CREATE INDEX idx_alf_cass_qnln on t_alf_child_assoc (qname_localname); CREATE INDEX fk_alf_cass_pnode on t_alf_child_assoc (parent_node_id); CREATE INDEX fk_alf_cass_cnode on t_alf_child_assoc (child_node_id); CREATE INDEX fk_alf_cass_tqn on t_alf_child_assoc (type_qname_id); CREATE INDEX fk_alf_cass_qnns on t_alf_child_assoc (qname_ns_id); ALTER TABLE t_alf_child_assoc ADD CONSTRAINT fk_alf_cass_pnode FOREIGN KEY (parent_node_id) REFERENCES t_alf_node (id) ADD CONSTRAINT fk_alf_cass_cnode FOREIGN KEY (child_node_id) REFERENCES t_alf_node (id) ADD CONSTRAINT fk_alf_cass_tqn FOREIGN KEY (type_qname_id) REFERENCES alf_qname (id) ADD CONSTRAINT fk_alf_cass_qnns FOREIGN KEY (qname_ns_id) REFERENCES alf_namespace (id) ; INSERT INTO t_alf_child_assoc ( id, version, parent_node_id, child_node_id, child_node_name, child_node_name_crc, type_qname_id, qname_ns_id, qname_localname, is_primary, assoc_index ) SELECT ca.id, 1, ca.parent_node_id, ca.child_node_id, ca.child_node_name, child_node_name_crc, tqn.qname_id, tqndyn.namespace_id, tqndyn.local_name, ca.is_primary, ca.assoc_index FROM alf_child_assoc ca JOIN t_qnames_dyn tqndyn ON (ca.qname = tqndyn.qname) JOIN t_qnames tqn ON (ca.type_qname = tqn.qname) ; -- Clean up DROP TABLE t_qnames_dyn; DROP TABLE alf_child_assoc; ALTER TABLE t_alf_child_assoc RENAME TO alf_child_assoc; -- ---------------------------- -- Populate the Node Assocs -- -- ---------------------------- CREATE TABLE t_alf_node_assoc ( id number(19,0) NOT NULL, version number(19,0) NOT NULL, source_node_id number(19,0) NOT NULL, target_node_id number(19,0) NOT NULL, type_qname_id number(19,0) NOT NULL, PRIMARY KEY (id), UNIQUE (source_node_id, target_node_id, type_qname_id) ); CREATE INDEX fk_alf_nass_snode on t_alf_node_assoc (source_node_id); CREATE INDEX fk_alf_nass_tnode on t_alf_node_assoc (target_node_id); CREATE INDEX fk_alf_nass_tqn on t_alf_node_assoc (type_qname_id); ALTER TABLE t_alf_node_assoc ADD CONSTRAINT fk_alf_nass_snode FOREIGN KEY (source_node_id) REFERENCES t_alf_node (id) ADD CONSTRAINT fk_alf_nass_tnode FOREIGN KEY (target_node_id) REFERENCES t_alf_node (id) ADD CONSTRAINT fk_alf_nass_tqn FOREIGN KEY (type_qname_id) REFERENCES alf_qname (id) ; INSERT INTO t_alf_node_assoc ( id, version, source_node_id, target_node_id, type_qname_id ) SELECT na.id, 1, na.source_node_id, na.source_node_id, tqn.qname_id FROM alf_node_assoc na JOIN t_qnames tqn ON (na.type_qname = tqn.qname) ; -- Clean up DROP TABLE alf_node_assoc; ALTER TABLE t_alf_node_assoc RENAME TO alf_node_assoc; -- ---------------------------- -- Populate the Usage Deltas -- -- ---------------------------- CREATE TABLE t_alf_usage_delta ( id number(19,0) NOT NULL, version number(19,0) NOT NULL, node_id number(19,0) NOT NULL, delta_size number(19,0) NOT NULL, PRIMARY KEY (id) ); CREATE INDEX fk_alf_usaged_n on t_alf_usage_delta (node_id); ALTER TABLE t_alf_usage_delta ADD CONSTRAINT fk_alf_usaged_n FOREIGN KEY (node_id) REFERENCES t_alf_node (id) ; INSERT INTO t_alf_usage_delta ( id, version, node_id, delta_size ) SELECT ud.id, 1, ud.node_id, ud.delta_size FROM alf_usage_delta ud ; -- (optional) -- Clean up DROP TABLE alf_usage_delta; -- (optional) ALTER TABLE t_alf_usage_delta RENAME TO alf_usage_delta; -- ----------------------------- -- Populate the Node Aspects -- -- ----------------------------- CREATE TABLE t_alf_node_aspects ( node_id number(19,0) NOT NULL, qname_id number(19,0) NOT NULL, PRIMARY KEY (node_id, qname_id) ); CREATE INDEX fk_alf_nasp_n on t_alf_node_aspects (node_id); CREATE INDEX fk_alf_nasp_qn on t_alf_node_aspects (qname_id); ALTER TABLE t_alf_node_aspects ADD CONSTRAINT fk_alf_nasp_n FOREIGN KEY (node_id) REFERENCES t_alf_node (id) ADD CONSTRAINT fk_alf_nasp_qn FOREIGN KEY (qname_id) REFERENCES alf_qname (id) ; -- Note the omission of sys:referencable. This is implicit. INSERT INTO t_alf_node_aspects ( node_id, qname_id ) SELECT na.node_id, tqn.qname_id FROM alf_node_aspects na JOIN t_qnames tqn ON (na.qname = tqn.qname) WHERE tqn.qname NOT IN ( '{http://www.alfresco.org/model/system/1.0}referenceable' ) ; -- Clean up DROP TABLE alf_node_aspects; ALTER TABLE t_alf_node_aspects RENAME TO alf_node_aspects; -- --------------------------------- -- Populate the AVM Node Aspects -- -- --------------------------------- CREATE TABLE t_avm_aspects ( node_id number(19,0) NOT NULL, qname_id number(19,0) NOT NULL, PRIMARY KEY (node_id, qname_id) ); CREATE INDEX fk_avm_nasp_n on t_avm_aspects (node_id); CREATE INDEX fk_avm_nasp_qn on t_avm_aspects (qname_id); ALTER TABLE t_avm_aspects ADD CONSTRAINT fk_avm_nasp_n FOREIGN KEY (node_id) REFERENCES avm_nodes (id) ADD CONSTRAINT fk_avm_nasp_qn FOREIGN KEY (qname_id) REFERENCES alf_qname (id) ; INSERT INTO t_avm_aspects ( node_id, qname_id ) SELECT aspects_old.node_id, tqn.qname_id FROM avm_aspects aspects_old JOIN t_qnames tqn ON (aspects_old.qname = tqn.qname) ; INSERT INTO t_avm_aspects ( node_id, qname_id ) SELECT anew.id, tqn.qname_id FROM avm_aspects_new anew JOIN t_qnames tqn ON (anew.name = tqn.qname) LEFT JOIN avm_aspects aold ON (anew.id = aold.node_id AND anew.name = aold.qname) WHERE aold.id IS NULL ; -- Clean up DROP TABLE avm_aspects; DROP TABLE avm_aspects_new; ALTER TABLE t_avm_aspects RENAME TO avm_aspects; -- ---------------------------------- -- Migrate Sundry Property Tables -- -- ---------------------------------- -- Create temporary mapping for property types CREATE TABLE t_prop_types ( type_name varchar2(15 char) NOT NULL, type_id number(10,0) NOT NULL, PRIMARY KEY (type_name) ); INSERT INTO t_prop_types values ('NULL', 0); INSERT INTO t_prop_types values ('BOOLEAN', 1); INSERT INTO t_prop_types values ('INTEGER', 2); INSERT INTO t_prop_types values ('LONG', 3); INSERT INTO t_prop_types values ('FLOAT', 4); INSERT INTO t_prop_types values ('DOUBLE', 5); INSERT INTO t_prop_types values ('STRING', 6); INSERT INTO t_prop_types values ('DATE', 7); INSERT INTO t_prop_types values ('DB_ATTRIBUTE', 8); INSERT INTO t_prop_types values ('SERIALIZABLE', 9); INSERT INTO t_prop_types values ('MLTEXT', 10); INSERT INTO t_prop_types values ('CONTENT', 11); INSERT INTO t_prop_types values ('NODEREF', 12); INSERT INTO t_prop_types values ('CHILD_ASSOC_REF', 13); INSERT INTO t_prop_types values ('ASSOC_REF', 14); INSERT INTO t_prop_types values ('QNAME', 15); INSERT INTO t_prop_types values ('PATH', 16); INSERT INTO t_prop_types values ('LOCALE', 17); INSERT INTO t_prop_types values ('VERSION_NUMBER', 18); -- Modify the avm_store_properties table CREATE TABLE t_avm_store_properties ( id number(19,0) NOT NULL, avm_store_id number(19,0), qname_id number(19,0) NOT NULL, actual_type_n number(10,0) NOT NULL, persisted_type_n number(10,0) NOT NULL, multi_valued number(1) NOT NULL, boolean_value number(1), long_value number(19,0), float_value float, double_value DOUBLE PRECISION, string_value varchar2(1024 char), serializable_value blob, PRIMARY KEY (id) ); CREATE INDEX fk_avm_sprop_store on t_avm_store_properties (avm_store_id); CREATE INDEX fk_avm_sprop_qname on t_avm_store_properties (qname_id); ALTER TABLE t_avm_store_properties ADD CONSTRAINT fk_avm_sprop_store FOREIGN KEY (avm_store_id) REFERENCES avm_stores (id) ADD CONSTRAINT fk_avm_sprop_qname FOREIGN KEY (qname_id) REFERENCES alf_qname (id) ; INSERT INTO t_avm_store_properties ( id, avm_store_id, qname_id, actual_type_n, persisted_type_n, multi_valued, boolean_value, long_value, float_value, double_value, string_value, serializable_value ) SELECT hibernate_sequence.nextval, p.avm_store_id, tqn.qname_id, ptypes_actual.type_id, ptypes_persisted.type_id, p.multi_valued, p.boolean_value, p.long_value, p.float_value, p.double_value, p.string_value, TO_LOB(p.serializable_value) FROM avm_store_properties p JOIN t_qnames tqn ON (p.qname = tqn.qname) JOIN t_prop_types ptypes_actual ON (ptypes_actual.type_name = p.actual_type) JOIN t_prop_types ptypes_persisted ON (ptypes_persisted.type_name = p.persisted_type) ; DROP TABLE avm_store_properties; ALTER TABLE t_avm_store_properties RENAME TO avm_store_properties; -- Modify the avm_node_properties_new table CREATE TABLE t_avm_node_properties ( node_id number(19,0) NOT NULL, actual_type_n number(10,0) NOT NULL, persisted_type_n number(10,0) NOT NULL, multi_valued number(1) NOT NULL, boolean_value number(1), long_value number(19,0), float_value FLOAT, double_value DOUBLE PRECISION, string_value varchar2(1024 char), serializable_value BLOB, qname_id number(19,0) NOT NULL, PRIMARY KEY (node_id, qname_id) ); CREATE INDEX fk_avm_nprop_n on t_avm_node_properties (node_id); CREATE INDEX fk_avm_nprop_qn on t_avm_node_properties (qname_id); ALTER TABLE t_avm_node_properties ADD CONSTRAINT fk_avm_nprop_n FOREIGN KEY (node_id) REFERENCES avm_nodes (id) ADD CONSTRAINT fk_avm_nprop_qn FOREIGN KEY (qname_id) REFERENCES alf_qname (id) ; INSERT INTO t_avm_node_properties ( node_id, qname_id, actual_type_n, persisted_type_n, multi_valued, boolean_value, long_value, float_value, double_value, string_value, serializable_value ) SELECT p.node_id, tqn.qname_id, ptypes_actual.type_id, ptypes_persisted.type_id, p.multi_valued, p.boolean_value, p.long_value, p.float_value, p.double_value, p.string_value, TO_LOB(p.serializable_value) FROM avm_node_properties_new p JOIN t_qnames tqn ON (p.qname = tqn.qname) JOIN t_prop_types ptypes_actual ON (ptypes_actual.type_name = p.actual_type) JOIN t_prop_types ptypes_persisted ON (ptypes_persisted.type_name = p.persisted_type) ; INSERT INTO t_avm_node_properties ( node_id, qname_id, actual_type_n, persisted_type_n, multi_valued, boolean_value, long_value, float_value, double_value, string_value, serializable_value ) SELECT p.node_id, tqn.qname_id, ptypes_actual.type_id, ptypes_persisted.type_id, p.multi_valued, p.boolean_value, p.long_value, p.float_value, p.double_value, p.string_value, TO_LOB(p.serializable_value) FROM avm_node_properties p JOIN t_qnames tqn ON (p.qname = tqn.qname) JOIN t_prop_types ptypes_actual ON (ptypes_actual.type_name = p.actual_type) JOIN t_prop_types ptypes_persisted ON (ptypes_persisted.type_name = p.persisted_type) LEFT OUTER JOIN t_avm_node_properties tanp ON (tqn.qname_id = tanp.qname_id) WHERE tanp.qname_id IS NULL ; DROP TABLE avm_node_properties_new; DROP TABLE avm_node_properties; ALTER TABLE t_avm_node_properties RENAME TO avm_node_properties; -- ----------------- -- Build Locales -- -- ----------------- CREATE TABLE alf_locale ( id number(19,0) NOT NULL, version number(19,0) DEFAULT 1 NOT NULL, locale_str varchar2(20 char) NOT NULL, PRIMARY KEY (id), UNIQUE (locale_str) ); INSERT INTO alf_locale (id, locale_str) VALUES (1, '.default'); -- Locales come from the attribute table which was used to support MLText persistence INSERT INTO alf_locale (id, locale_str) SELECT hibernate_sequence.nextval, mkey FROM ( SELECT DISTINCT(ma.mkey) FROM alf_node_properties np JOIN alf_attributes a1 ON (np.attribute_value = a1.id) JOIN alf_map_attribute_entries ma ON (ma.map_id = a1.id) ) ; -- ------------------------------- -- Migrate ADM Property Tables -- -- ------------------------------- CREATE TABLE t_alf_node_properties ( node_id number(19,0) NOT NULL, qname_id number(19,0) NOT NULL, locale_id number(19,0) NOT NULL, list_index number(10,0) NOT NULL, actual_type_n number(10,0) NOT NULL, persisted_type_n number(10,0) NOT NULL, boolean_value number(1), long_value number(19,0), float_value FLOAT, double_value DOUBLE PRECISION, string_value varchar2(1024 char), serializable_value BLOB, PRIMARY KEY (node_id, qname_id, list_index, locale_id) ); CREATE INDEX fk_alf_nprop_n on t_alf_node_properties (node_id); CREATE INDEX fk_alf_nprop_qn on t_alf_node_properties (qname_id); CREATE INDEX fk_alf_nprop_loc on t_alf_node_properties (locale_id); ALTER TABLE t_alf_node_properties ADD CONSTRAINT fk_alf_nprop_n FOREIGN KEY (node_id) REFERENCES t_alf_node (id) ADD CONSTRAINT fk_alf_nprop_qn FOREIGN KEY (qname_id) REFERENCES alf_qname (id) ADD CONSTRAINT fk_alf_nprop_loc FOREIGN KEY (locale_id) REFERENCES alf_locale (id) ; -- Copy values over INSERT INTO t_alf_node_properties ( node_id, qname_id, list_index, locale_id, actual_type_n, persisted_type_n, boolean_value, long_value, float_value, double_value, string_value, serializable_value ) SELECT np.node_id, tqn.qname_id, -1, 1, ptypes_actual.type_id, ptypes_persisted.type_id, np.boolean_value, np.long_value, np.float_value, np.double_value, np.string_value, TO_LOB(np.serializable_value) FROM alf_node_properties np JOIN t_qnames tqn ON (np.qname = tqn.qname) JOIN t_prop_types ptypes_actual ON (ptypes_actual.type_name = np.actual_type) JOIN t_prop_types ptypes_persisted ON (ptypes_persisted.type_name = np.persisted_type) WHERE np.attribute_value IS NULL ; -- Update cm:auditable properties on the nodes UPDATE t_alf_node n SET audit_creator = ( SELECT string_value FROM t_alf_node_properties np JOIN alf_qname qn ON (np.qname_id = qn.id) JOIN alf_namespace ns ON (qn.ns_id = ns.id) WHERE np.node_id = n.id AND ns.uri = 'FILLER-http://www.alfresco.org/model/content/1.0' AND qn.local_name = 'creator' ); UPDATE t_alf_node n SET audit_created = ( SELECT string_value FROM t_alf_node_properties np JOIN alf_qname qn ON (np.qname_id = qn.id) JOIN alf_namespace ns ON (qn.ns_id = ns.id) WHERE np.node_id = n.id AND ns.uri = 'FILLER-http://www.alfresco.org/model/content/1.0' AND qn.local_name = 'created' ); UPDATE t_alf_node n SET audit_modifier = ( SELECT string_value FROM t_alf_node_properties np JOIN alf_qname qn ON (np.qname_id = qn.id) JOIN alf_namespace ns ON (qn.ns_id = ns.id) WHERE np.node_id = n.id AND ns.uri = 'FILLER-http://www.alfresco.org/model/content/1.0' AND qn.local_name = 'modifier' ); UPDATE t_alf_node n SET audit_modified = ( SELECT string_value FROM t_alf_node_properties np JOIN alf_qname qn ON (np.qname_id = qn.id) JOIN alf_namespace ns ON (qn.ns_id = ns.id) WHERE np.node_id = n.id AND ns.uri = 'FILLER-http://www.alfresco.org/model/content/1.0' AND qn.local_name = 'modified' ); -- Remove the unused cm:auditable properties DELETE FROM t_alf_node_properties WHERE EXISTS ( SELECT 1 FROM alf_qname, alf_namespace WHERE t_alf_node_properties.qname_id = alf_qname.id AND alf_qname.ns_id = alf_namespace.id AND alf_namespace.uri = 'FILLER-http://www.alfresco.org/model/content/1.0' AND alf_qname.local_name IN ('creator', 'created', 'modifier', 'modified') ) ; -- Copy all MLText values over INSERT INTO t_alf_node_properties ( node_id, qname_id, list_index, locale_id, actual_type_n, persisted_type_n, boolean_value, long_value, float_value, double_value, string_value, serializable_value ) SELECT np.node_id, tqn.qname_id, -1, loc.id, -1, 0, 0, 0, 0, 0, a2.string_value, TO_LOB(a2.serializable_value) FROM alf_node_properties np JOIN t_qnames tqn ON (np.qname = tqn.qname) JOIN alf_attributes a1 ON (np.attribute_value = a1.id) JOIN alf_map_attribute_entries ma ON (ma.map_id = a1.id) JOIN alf_locale loc ON (ma.mkey = loc.locale_str) JOIN alf_attributes a2 ON (ma.attribute_id = a2.id) ; -- (OPTIONAL) UPDATE t_alf_node_properties SET actual_type_n = 6, persisted_type_n = 6, serializable_value = NULL WHERE actual_type_n = -1 AND string_value IS NOT NULL ; UPDATE t_alf_node_properties SET actual_type_n = 9, persisted_type_n = 9 WHERE actual_type_n = -1 AND serializable_value IS NOT NULL ; -- Delete the node properties and move the fixed values over DROP TABLE alf_node_properties; ALTER TABLE t_alf_node_properties RENAME TO alf_node_properties; CREATE TABLE t_del_attributes ( id number(19,0) NOT NULL, PRIMARY KEY (id) ); INSERT INTO t_del_attributes SELECT id FROM alf_attributes WHERE type = 'M' ; DELETE FROM t_del_attributes WHERE EXISTS ( SELECT 1 FROM alf_map_attribute_entries ma WHERE ma.attribute_id = t_del_attributes.id ) ; DELETE FROM t_del_attributes WHERE EXISTS ( SELECT 1 FROM alf_list_attribute_entries la WHERE la.attribute_id = t_del_attributes.id ) ; DELETE FROM t_del_attributes WHERE EXISTS ( SELECT 1 FROM alf_global_attributes ga WHERE ga.attribute = t_del_attributes.id ) ; INSERT INTO t_del_attributes SELECT a.id FROM t_del_attributes t JOIN alf_map_attribute_entries ma ON (ma.map_id = t.id) JOIN alf_attributes a ON (ma.attribute_id = a.id) ; DELETE FROM alf_map_attribute_entries WHERE EXISTS ( SELECT 1 FROM t_del_attributes t WHERE alf_map_attribute_entries.map_id = t.id ) ; DELETE FROM alf_attributes WHERE EXISTS ( SELECT 1 FROM t_del_attributes t WHERE alf_attributes.id = t.id ) ; DROP TABLE t_del_attributes; -- --------------------------------------------------- -- Remove the FILLER- values from the namespace uri -- -- --------------------------------------------------- UPDATE alf_namespace SET uri = '.empty' WHERE uri = 'FILLER-'; UPDATE alf_namespace SET uri = SUBSTR(uri, 8) WHERE uri LIKE 'FILLER-%'; -- ------------------ -- Final clean up -- -- ------------------ DROP TABLE t_qnames; DROP TABLE t_prop_types; DROP TABLE alf_node_status; DROP INDEX FKBD4FF53D22DBA5BA; -- (OPTIONAL) ALTER TABLE alf_store DROP CONSTRAINT FKBD4FF53D22DBA5BA; -- (OPTIONAL) ALTER TABLE alf_store DROP CONSTRAINT alf_store_root; -- (OPTIONAL) DROP TABLE alf_node; ALTER TABLE t_alf_node RENAME TO alf_node; DROP TABLE alf_store; ALTER TABLE t_alf_store RENAME TO alf_store; -- ------------------------------------- -- Modify index and constraint names -- -- ------------------------------------- -- Since one has to rebuild indexes after changing a column to a BLOB, this -- is also a good time to remap the BLOB column! DROP INDEX fk_attributes_n_acl; -- (optional) DROP INDEX fk_attr_n_acl; -- (optional) ALTER TABLE alf_attributes DROP CONSTRAINT fk_attributes_n_acl; -- (optional) DROP INDEX FK64D0B9CF69B9F16A; -- (optional) ALTER TABLE alf_global_attributes DROP CONSTRAINT FK64D0B9CF69B9F16A; -- (optional) DROP INDEX FKC7D52FB02C5AB86C; -- (optional) ALTER TABLE alf_list_attribute_entries DROP CONSTRAINT FKC7D52FB02C5AB86C; -- (optional) DROP INDEX FKC7D52FB0ACD8822C; -- (optional) ALTER TABLE alf_list_attribute_entries DROP CONSTRAINT FKC7D52FB0ACD8822C; -- (optional) DROP INDEX FK335CAE26AEAC208C; -- (optional) ALTER TABLE alf_map_attribute_entries DROP CONSTRAINT FK335CAE26AEAC208C; -- (optional) DROP INDEX FK335CAE262C5AB86C; -- (optional) ALTER TABLE alf_map_attribute_entries DROP CONSTRAINT FK335CAE262C5AB86C; -- (optional) ALTER TABLE alf_attributes DROP PRIMARY KEY DROP INDEX; ALTER TABLE alf_attributes MODIFY (serializable_value BLOB NULL); -- (optional) ALTER TABLE alf_attributes ADD PRIMARY KEY (id); CREATE INDEX fk_alf_attr_acl ON alf_attributes (acl_id); DROP INDEX adt_woy_idx; -- (optional) DROP INDEX adt_date_idx; -- (optional) DROP INDEX adt_y_idx; -- (optional) DROP INDEX adt_q_idx; -- (optional) DROP INDEX adt_m_idx; -- (optional) DROP INDEX adt_dow_idx; -- (optional) DROP INDEX adt_doy_idx; -- (optional) DROP INDEX adt_dom_idx; -- (optional) DROP INDEX adt_hy_idx; -- (optional) DROP INDEX adt_wom_idx; -- (optional) CREATE INDEX idx_alf_adtd_woy ON alf_audit_date (week_of_year); CREATE INDEX idx_alf_adtd_q ON alf_audit_date (quarter); CREATE INDEX idx_alf_adtd_wom ON alf_audit_date (week_of_month); CREATE INDEX idx_alf_adtd_dom ON alf_audit_date (day_of_month); CREATE INDEX idx_alf_adtd_doy ON alf_audit_date (day_of_year); CREATE INDEX idx_alf_adtd_dow ON alf_audit_date (day_of_week); CREATE INDEX idx_alf_adtd_m ON alf_audit_date (month); CREATE INDEX idx_alf_adtd_hy ON alf_audit_date (half_year); CREATE INDEX idx_alf_adtd_fy ON alf_audit_date (full_year); CREATE INDEX idx_alf_adtd_dat ON alf_audit_date (date_only); DROP INDEX adt_user_idx; -- (optional) DROP INDEX adt_store_idx; -- (optional) DROP INDEX FKEAD18174A0F9B8D9; DROP INDEX FKEAD1817484342E39; DROP INDEX FKEAD18174F524CFD7; ALTER TABLE alf_audit_fact DROP CONSTRAINT FKEAD18174A0F9B8D9 DROP CONSTRAINT FKEAD1817484342E39 DROP CONSTRAINT FKEAD18174F524CFD7 ; CREATE INDEX idx_alf_adtf_ref ON alf_audit_fact (store_protocol, store_id, node_uuid); CREATE INDEX idx_alf_adtf_usr ON alf_audit_fact (user_id); CREATE INDEX fk_alf_adtf_src ON alf_audit_fact (audit_source_id); CREATE INDEX fk_alf_adtf_date ON alf_audit_fact (audit_date_id); CREATE INDEX fk_alf_adtf_conf ON alf_audit_fact (audit_conf_id); ALTER TABLE alf_audit_fact ADD CONSTRAINT fk_alf_adtf_src FOREIGN KEY (audit_source_id) REFERENCES alf_audit_source (id) ADD CONSTRAINT fk_alf_adtf_date FOREIGN KEY (audit_date_id) REFERENCES alf_audit_date (id) ADD CONSTRAINT fk_alf_adtf_conf FOREIGN KEY (audit_conf_id) REFERENCES alf_audit_config (id) ; DROP INDEX app_source_app_idx; -- (optional) DROP INDEX app_source_ser_idx; -- (optional) DROP INDEX app_source_met_idx; -- (optional) CREATE INDEX idx_alf_adts_met ON alf_audit_source (method); CREATE INDEX idx_alf_adts_ser ON alf_audit_source (service); CREATE INDEX idx_alf_adts_app ON alf_audit_source (application); -- alf_global_attributes.attribute is declared unique. Indexes may automatically have been created. CREATE INDEX fk_alf_gatt_att ON alf_global_attributes (attribute); -- (optional) ALTER TABLE alf_global_attributes ADD CONSTRAINT fk_alf_gatt_att FOREIGN KEY (attribute) REFERENCES alf_attributes (id) ; CREATE INDEX fk_alf_lent_att ON alf_list_attribute_entries (attribute_id); CREATE INDEX fk_alf_lent_latt ON alf_list_attribute_entries (list_id); ALTER TABLE alf_list_attribute_entries ADD CONSTRAINT fk_alf_lent_att FOREIGN KEY (attribute_id) REFERENCES alf_attributes (id) ADD CONSTRAINT fk_alf_lent_latt FOREIGN KEY (list_id) REFERENCES alf_attributes (id) ; CREATE INDEX fk_alf_matt_matt ON alf_map_attribute_entries (map_id); CREATE INDEX fk_alf_matt_att ON alf_map_attribute_entries (attribute_id); ALTER TABLE alf_map_attribute_entries ADD CONSTRAINT fk_alf_matt_matt FOREIGN KEY (map_id) REFERENCES alf_attributes (id) ADD CONSTRAINT fk_alf_matt_att FOREIGN KEY (attribute_id) REFERENCES alf_attributes (id) ; DROP INDEX idx_commit_time_ms; -- (optional) DROP INDEX FKB8761A3A9AE340B7; CREATE INDEX fk_alf_txn_svr ON alf_transaction (server_id); CREATE INDEX idx_alf_txn_ctms ON alf_transaction (commit_time_ms); ALTER TABLE alf_transaction DROP CONSTRAINT FKB8761A3A9AE340B7; ALTER TABLE alf_transaction ADD CONSTRAINT fk_alf_txn_svr FOREIGN KEY (server_id) REFERENCES alf_server (id) ; DROP INDEX fk_avm_ce_child; -- (optional) DROP INDEX fk_avm_ce_parent; -- (optional) ALTER TABLE avm_child_entries DROP CONSTRAINT fk_avm_ce_child; -- (optional) ALTER TABLE avm_child_entries DROP CONSTRAINT fk_avm_ce_parent; -- (optional) CREATE INDEX fk_avm_ce_child ON avm_child_entries (child_id); CREATE INDEX fk_avm_ce_parent ON avm_child_entries (parent_id); ALTER TABLE avm_child_entries ADD CONSTRAINT fk_avm_ce_child FOREIGN KEY (child_id) REFERENCES avm_nodes (id) ADD CONSTRAINT fk_avm_ce_parent FOREIGN KEY (parent_id) REFERENCES avm_nodes (id) ; DROP INDEX fk_avm_hl_desc; -- (optional) DROP INDEX fk_avm_hl_ancestor; -- (optional) DROP INDEX idx_avm_hl_revpk; -- (optional) ALTER TABLE avm_history_links DROP CONSTRAINT fk_avm_hl_desc; -- (optional) ALTER TABLE avm_history_links DROP CONSTRAINT fk_avm_hl_ancestor; -- (optional) DROP INDEX idx_avm_hl_revpk; -- (optional) CREATE INDEX fk_avm_hl_desc ON avm_history_links (descendent); CREATE INDEX fk_avm_hl_ancestor ON avm_history_links (ancestor); CREATE INDEX idx_avm_hl_revpk ON avm_history_links (descendent, ancestor); ALTER TABLE avm_history_links ADD CONSTRAINT fk_avm_hl_desc FOREIGN KEY (descendent) REFERENCES avm_nodes (id) ADD CONSTRAINT fk_avm_hl_ancestor FOREIGN KEY (ancestor) REFERENCES avm_nodes (id) ; DROP INDEX fk_avm_ml_to; -- (optional) DROP INDEX fk_avm_ml_from; -- (optional) ALTER TABLE avm_merge_links DROP CONSTRAINT fk_avm_ml_to; -- (optional) ALTER TABLE avm_merge_links DROP CONSTRAINT fk_avm_ml_from; -- (optional) CREATE INDEX fk_avm_ml_to ON avm_merge_links (mto); CREATE INDEX fk_avm_ml_from ON avm_merge_links (mfrom); ALTER TABLE avm_merge_links ADD CONSTRAINT fk_avm_ml_to FOREIGN KEY (mto) REFERENCES avm_nodes (id) ADD CONSTRAINT fk_avm_ml_from FOREIGN KEY (mfrom) REFERENCES avm_nodes (id) ; DROP INDEX fk_avm_n_acl; -- (optional) DROP INDEX fk_avm_n_store; -- (optional) DROP INDEX idx_avm_n_pi; -- (optional) ALTER TABLE avm_nodes DROP CONSTRAINT fk_avm_n_acl; -- (optional) ALTER TABLE avm_nodes DROP CONSTRAINT fk_avm_n_store; -- (optional) CREATE INDEX fk_avm_n_acl ON avm_nodes (acl_id); CREATE INDEX fk_avm_n_store ON avm_nodes (store_new_id); CREATE INDEX idx_avm_n_pi ON avm_nodes (primary_indirection); ALTER TABLE avm_nodes ADD CONSTRAINT fk_avm_n_acl FOREIGN KEY (acl_id) REFERENCES alf_access_control_list (id) ADD CONSTRAINT fk_avm_n_store FOREIGN KEY (store_new_id) REFERENCES avm_stores (id) ; DROP INDEX fk_avm_s_root; -- (optional) ALTER TABLE avm_stores DROP CONSTRAINT fk_avm_s_root; -- (optional) CREATE INDEX fk_avm_s_acl ON avm_stores (acl_id); CREATE INDEX fk_avm_s_root ON avm_stores (current_root_id); ALTER TABLE avm_stores ADD CONSTRAINT fk_avm_s_acl FOREIGN KEY (acl_id) REFERENCES alf_access_control_list (id) ADD CONSTRAINT fk_avm_s_root FOREIGN KEY (current_root_id) REFERENCES avm_nodes (id) ; DROP INDEX FK182E672DEB9D70C; -- (optional) ALTER TABLE avm_version_layered_node_entry DROP CONSTRAINT FK182E672DEB9D70C; -- (optional) CREATE INDEX fk_avm_vlne_vr ON avm_version_layered_node_entry (version_root_id); ALTER TABLE avm_version_layered_node_entry ADD CONSTRAINT fk_avm_vlne_vr FOREIGN KEY (version_root_id) REFERENCES avm_version_roots (id) ; DROP INDEX idx_avm_vr_version; -- (optional) DROP INDEX idx_avm_vr_revuq; -- (optional) DROP INDEX fk_avm_vr_root; -- (optional) DROP INDEX fk_avm_vr_store; -- (optional) ALTER TABLE avm_version_roots DROP CONSTRAINT fk_avm_vr_root; -- (optional) ALTER TABLE avm_version_roots DROP CONSTRAINT fk_avm_vr_store; -- (optional) CREATE INDEX idx_avm_vr_version ON avm_version_roots (version_id); CREATE INDEX idx_avm_vr_revuq ON avm_version_roots (avm_store_id, version_id); CREATE INDEX fk_avm_vr_root ON avm_version_roots (root_id); CREATE INDEX fk_avm_vr_store ON avm_version_roots (avm_store_id); ALTER TABLE avm_version_roots ADD CONSTRAINT fk_avm_vr_root FOREIGN KEY (root_id) REFERENCES avm_nodes (id) ADD CONSTRAINT fk_avm_vr_store FOREIGN KEY (avm_store_id) REFERENCES avm_stores (id) ; -- -- Record script finish -- DELETE FROM alf_applied_patch WHERE id = 'patch.db-V2.2-Upgrade-From-2.1'; INSERT INTO alf_applied_patch (id, description, fixes_from_schema, fixes_to_schema, applied_to_schema, target_schema, applied_on_date, applied_to_server, was_executed, succeeded, report) VALUES ( 'patch.db-V2.2-Upgrade-From-2.1', 'Manually executed script upgrade V2.2: Upgrade from 2.1', 0, 85, -1, 91, null, 'UNKOWN', 1, 1, 'Script completed' );