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add_functions_and_triggers.sql 39.33 KiB
--add triggers and trigger functions to radb (note, there are also the notification triggers in the add_notifications.sql file)
BEGIN;
-- only issue >warnings log messages. (only during this transaction)
SET LOCAL client_min_messages=warning;
CREATE OR REPLACE FUNCTION resource_allocation.on_task_updated()
RETURNS trigger AS
$BODY$
DECLARE
claim_tentative_status_id int := 0; --beware: hard coded instead of lookup for performance
claim_claimed_status_id int := 1; --beware: hard coded instead of lookup for performance
task_approved_status_id int := 300; --beware: hard coded instead of lookup for performance
BEGIN
IF NEW.status_id <> OLD.status_id THEN
IF NEW.status_id = task_approved_status_id THEN
UPDATE resource_allocation.resource_claim rc SET status_id=claim_tentative_status_id WHERE rc.task_id=NEW.id AND rc.status_id <> claim_tentative_status_id;
ELSIF NEW.status_id = ANY(ARRAY[400, 500, 600, 900, 1000, 1100]) THEN
--prevent task status to be upgraded to scheduled (or beyond) when not all its claims are claimed
IF EXISTS (SELECT id FROM resource_allocation.resource_claim WHERE task_id = NEW.id AND status_id <> claim_claimed_status_id) THEN
RAISE EXCEPTION 'Cannot update task status from % to % when not all its claims are claimed', OLD.status_id, NEW.status_id;
END IF;
END IF;
END IF;
RETURN NEW;
END;
$BODY$
LANGUAGE plpgsql VOLATILE
COST 100;
ALTER FUNCTION resource_allocation.on_task_updated()
OWNER TO resourceassignment;
COMMENT ON FUNCTION resource_allocation.on_task_updated()
IS 'function which is called by task table update trigger, which updates all the tasks resource claims to tentative state.';
DROP TRIGGER IF EXISTS T_on_task_updated ON resource_allocation.task CASCADE;
CREATE TRIGGER T_on_task_updated
AFTER UPDATE
ON resource_allocation.task
FOR EACH ROW
EXECUTE PROCEDURE resource_allocation.on_task_updated();
COMMENT ON TRIGGER T_on_task_updated ON resource_allocation.task
IS 'task table update trigger, calls the resource_allocation.on_task_updated() function.';
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.delete_conflict_reasons_after_resource_claim_update()
RETURNS trigger AS
$BODY$
BEGIN
IF OLD.status_id = 2 AND NEW.status_id <> 2 THEN --new status is not conflict
DELETE FROM resource_allocation.resource_claim_conflict_reason rccr WHERE rccr.resource_claim_id = NEW.id;
END IF;
RETURN NEW;
END;
$BODY$
LANGUAGE plpgsql VOLATILE
COST 100;
ALTER FUNCTION resource_allocation.delete_conflict_reasons_after_resource_claim_update()
OWNER TO resourceassignment;
COMMENT ON FUNCTION resource_allocation.delete_conflict_reasons_after_resource_claim_update()
IS 'function which is called by resource_claim table update trigger, which deletes resource_claim_conflict_reasons when the claim status is updated to !conflict.';
DROP TRIGGER IF EXISTS T_delete_conflict_reasons_after_resource_claim_update ON resource_allocation.resource_claim CASCADE;
CREATE TRIGGER T_delete_conflict_reasons_after_resource_claim_update
AFTER UPDATE
ON resource_allocation.resource_claim
FOR EACH ROW
EXECUTE PROCEDURE resource_allocation.delete_conflict_reasons_after_resource_claim_update();
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.before_insert_conflict_reason_do_resource_claim_status_check()
RETURNS trigger AS
$BODY$
BEGIN
-- check if referred resource_claim is in conflict status, else raise
IF (SELECT COUNT(id) FROM resource_allocation.resource_claim rc WHERE rc.id = NEW.resource_claim_id AND rc.status_id = 2) = 0 THEN
RAISE EXCEPTION 'resource_claim has no conflict status';
END IF;
RETURN NEW;
END;
$BODY$
LANGUAGE plpgsql VOLATILE
COST 100;
ALTER FUNCTION resource_allocation.before_insert_conflict_reason_do_resource_claim_status_check()
OWNER TO resourceassignment;
COMMENT ON FUNCTION resource_allocation.before_insert_conflict_reason_do_resource_claim_status_check()
IS 'check if referred resource_claim is in conflict status, else raise';
DROP TRIGGER IF EXISTS T_before_insert_conflict_reason_do_resource_claim_status_check ON resource_allocation.resource_claim_conflict_reason CASCADE;
CREATE TRIGGER T_before_insert_conflict_reason_do_resource_claim_status_check
BEFORE INSERT
ON resource_allocation.resource_claim_conflict_reason
FOR EACH ROW
EXECUTE PROCEDURE resource_allocation.before_insert_conflict_reason_do_resource_claim_status_check();
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.delete_conflict_reasons_after_task_update()
RETURNS trigger AS
$BODY$
BEGIN
IF OLD.status_id = 335 AND NEW.status_id <> 335 THEN --new status is not conflict
DELETE FROM resource_allocation.task_conflict_reason tcr WHERE tcr.task_id = NEW.id;
END IF;
RETURN NEW;
END;
$BODY$
LANGUAGE plpgsql VOLATILE
COST 100;
ALTER FUNCTION resource_allocation.delete_conflict_reasons_after_task_update()
OWNER TO resourceassignment;
COMMENT ON FUNCTION resource_allocation.delete_conflict_reasons_after_task_update()
IS 'function which is called by task table update trigger, which deletes task_conflict_reasons when the task status is updated to !conflict.';
DROP TRIGGER IF EXISTS T_delete_conflict_reasons_after_task_update ON resource_allocation.task CASCADE;
CREATE TRIGGER T_delete_conflict_reasons_after_task_update
AFTER UPDATE
ON resource_allocation.task
FOR EACH ROW
EXECUTE PROCEDURE resource_allocation.delete_conflict_reasons_after_task_update();
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.before_insert_conflict_reason_do_task_status_check()
RETURNS trigger AS
$BODY$
BEGIN
-- check if referred task is in conflict status, else raise
IF (SELECT COUNT(id) FROM resource_allocation.task task WHERE task.id = NEW.task_id AND task.status_id = 335) = 0 THEN
RAISE EXCEPTION 'task has no conflict status';
END IF;
RETURN NEW;
END;
$BODY$
LANGUAGE plpgsql VOLATILE
COST 100;
ALTER FUNCTION resource_allocation.before_insert_conflict_reason_do_task_status_check()
OWNER TO resourceassignment;COMMENT ON FUNCTION resource_allocation.before_insert_conflict_reason_do_task_status_check()
IS 'check if referred task is in conflict status, else raise';
DROP TRIGGER IF EXISTS T_before_insert_conflict_reason_do_task_status_check ON resource_allocation.task_conflict_reason CASCADE;
CREATE TRIGGER T_before_insert_conflict_reason_do_task_status_check
BEFORE INSERT
ON resource_allocation.task_conflict_reason
FOR EACH ROW
EXECUTE PROCEDURE resource_allocation.before_insert_conflict_reason_do_task_status_check();
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.on_insertupdate_check_specification_startendtimes()
RETURNS trigger AS
$BODY$
DECLARE
task RECORD;
pred_task RECORD;
suc_task RECORD;
predecessor_task_id int;
successor_task_id int;
moved_seconds double precision;
duration double precision;
max_pred_endtime timestamp := '1900-01-01 00:00:00';
tmp_time timestamp;
min_starttime timestamp;
min_inter_task_delay int;
BEGIN
IF NEW.starttime >= NEW.endtime THEN
RAISE EXCEPTION 'task specification starttime >= endtime: %', NEW;
END IF;
--store task duration
SELECT EXTRACT(epoch FROM age(NEW.endtime, NEW.starttime)) INTO duration;
--deterimine max_pred_endtime
FOR task IN SELECT * FROM resource_allocation.task_view tv WHERE tv.specification_id = NEW.id LOOP
IF task.predecessor_ids IS NOT NULL THEN
FOREACH predecessor_task_id IN ARRAY task.predecessor_ids LOOP
FOR pred_task IN SELECT * FROM resource_allocation.task_view tv WHERE tv.id = predecessor_task_id LOOP
IF pred_task.endtime > max_pred_endtime THEN
max_pred_endtime := pred_task.endtime;
END IF;
END LOOP;
END LOOP;
END IF;
END LOOP;
--check if spec is before max_pred_endtime, correct if needed.
IF max_pred_endtime > '1900-01-01 00:00:00' THEN
SELECT c.value::integer INTO min_inter_task_delay FROM resource_allocation.config c WHERE c.name = 'min_inter_task_delay';
IF min_inter_task_delay IS NULL THEN
min_inter_task_delay := 0;
END IF;
min_starttime := max_pred_endtime + min_inter_task_delay * interval '1 second';
IF min_starttime > NEW.starttime THEN
NEW.starttime := min_starttime;
NEW.endtime := min_starttime + duration * interval '1 second';
END IF;
END IF;
--move successor tasks by same amount if needed
IF TG_OP = 'UPDATE' THEN
IF NEW.endtime <> OLD.endtime THEN
SELECT EXTRACT(epoch FROM age(NEW.endtime, OLD.endtime)) INTO moved_seconds;
FOR task IN SELECT * FROM resource_allocation.task_view tv WHERE tv.specification_id = NEW.id LOOP
IF task.successor_ids IS NOT NULL THEN
FOREACH successor_task_id IN ARRAY task.successor_ids LOOP
FOR suc_task IN SELECT * FROM resource_allocation.task_view tv WHERE tv.id = successor_task_id LOOP
UPDATE resource_allocation.specification SET (starttime, endtime) = (starttime + moved_seconds * interval '1 second', endtime + moved_seconds * interval '1 second') WHERE id = suc_task.specification_id; END LOOP;
END LOOP;
END IF;
END LOOP;
END IF;
END IF;
RETURN NEW;
END;
$BODY$
LANGUAGE plpgsql VOLATILE
COST 100;
ALTER FUNCTION resource_allocation.on_insertupdate_check_specification_startendtimes()
OWNER TO resourceassignment;
DROP TRIGGER IF EXISTS T_specification_insertupdate_check_startendtimes ON resource_allocation.specification;
CREATE TRIGGER T_specification_insertupdate_check_startendtimes
BEFORE INSERT OR UPDATE
ON resource_allocation.specification
FOR EACH ROW
EXECUTE PROCEDURE resource_allocation.on_insertupdate_check_specification_startendtimes();
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.on_claim_insertupdate_check_startendtimes()
RETURNS trigger AS
$BODY$
BEGIN
IF NEW.starttime >= NEW.endtime THEN
RAISE EXCEPTION 'claim starttime >= endtime: %', NEW;
END IF;
RETURN NEW;
END;
$BODY$
LANGUAGE plpgsql VOLATILE
COST 100;
ALTER FUNCTION resource_allocation.on_claim_insertupdate_check_startendtimes()
OWNER TO resourceassignment;
DROP TRIGGER IF EXISTS T_claim_insertupdate_check_startendtimes ON resource_allocation.resource_claim;
CREATE TRIGGER T_claim_insertupdate_check_startendtimes
BEFORE INSERT OR UPDATE
ON resource_allocation.resource_claim
FOR EACH ROW
EXECUTE PROCEDURE resource_allocation.on_claim_insertupdate_check_startendtimes();
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.process_new_claim_into_resource_usages(new_claim resource_allocation.resource_claim)
RETURNS void AS
$$
DECLARE
usage_at_or_before_start RECORD;
usage_at_or_before_end RECORD;
intermediate_usage RECORD;
BEGIN
-- find last known resource_usage at or before claim starttime
SELECT * FROM resource_allocation.resource_usage ru
WHERE ru.resource_id = new_claim.resource_id
AND ru.status_id = new_claim.status_id
AND ru.as_of_timestamp <= new_claim.starttime
ORDER BY ru.as_of_timestamp DESC
LIMIT 1
INTO usage_at_or_before_start;
-- find last known resource_usage before claim endtime
SELECT * FROM resource_allocation.resource_usage ru
WHERE ru.resource_id = new_claim.resource_id
AND ru.status_id = new_claim.status_id
AND ru.as_of_timestamp <= new_claim.endtime ORDER BY ru.as_of_timestamp DESC
LIMIT 1
INTO usage_at_or_before_end;
--add new_claim.claim_size at claim starttime to resource_usage depending on state of usage_at_or_before_start
IF usage_at_or_before_start IS NOT NULL THEN
IF usage_at_or_before_start.as_of_timestamp = new_claim.starttime THEN
--update at the claim starttime the already existing usage value at the claim starttime + new claim size
UPDATE resource_allocation.resource_usage ru SET usage = usage_at_or_before_start.usage + new_claim.claim_size
WHERE ru.id = usage_at_or_before_start.id;
ELSE
--insert at the claim starttime the existing usage value before claim starttime + new claim size
INSERT INTO resource_allocation.resource_usage (resource_id, status_id, as_of_timestamp, usage)
VALUES (new_claim.resource_id, new_claim.status_id, new_claim.starttime, usage_at_or_before_start.usage + new_claim.claim_size);
END IF;
ELSE
-- no previous usage known, so insert this claim's size as the first usage
INSERT INTO resource_allocation.resource_usage (resource_id, status_id, as_of_timestamp, usage)
VALUES (new_claim.resource_id, new_claim.status_id, new_claim.starttime, new_claim.claim_size);
END IF;
--close resource_usage for this new_claim claim at claim endtime depending on state of usage_at_or_before_end
IF usage_at_or_before_end IS NOT NULL THEN
IF usage_at_or_before_end.as_of_timestamp <> new_claim.endtime THEN
--insert at the claim endtime the existing usage value before claim endtime
INSERT INTO resource_allocation.resource_usage (resource_id, status_id, as_of_timestamp, usage)
VALUES (new_claim.resource_id, new_claim.status_id, new_claim.endtime, usage_at_or_before_end.usage);
END IF;
ELSE
-- no previous usage known, so insert 0 as the last usage
INSERT INTO resource_allocation.resource_usage (resource_id, status_id, as_of_timestamp, usage)
VALUES (new_claim.resource_id, new_claim.status_id, new_claim.endtime, 0);
END IF;
--now modify any existing usages between new_claim claim starttime and endtime
FOR intermediate_usage IN SELECT * FROM resource_allocation.resource_usage ru
WHERE ru.resource_id = new_claim.resource_id
AND ru.status_id = new_claim.status_id
AND ru.as_of_timestamp > new_claim.starttime
AND ru.as_of_timestamp < new_claim.endtime
LOOP
UPDATE resource_allocation.resource_usage ru SET usage = intermediate_usage.usage + new_claim.claim_size
WHERE ru.id = intermediate_usage.id;
END LOOP;
END;
$$ LANGUAGE plpgsql;
ALTER FUNCTION resource_allocation.process_new_claim_into_resource_usages(new_claim resource_allocation.resource_claim) OWNER TO resourceassignment;
COMMENT ON FUNCTION resource_allocation.process_new_claim_into_resource_usages(new_claim resource_allocation.resource_claim)
IS 'helper function which is called by resource_claim table insert and update triggers, which fills/updates the resource_allocation.resource_usage table with timeseries of accumulated resource_claim.sizes';
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.rebuild_resource_usages_table_from_claims()
RETURNS void AS
$$
DECLARE
claim resource_allocation.resource_claim;
BEGIN
LOCK TABLE resource_allocation.resource_claim IN EXCLUSIVE MODE;
LOCK TABLE resource_allocation.resource_usage IN EXCLUSIVE MODE;
TRUNCATE TABLE resource_allocation.resource_usage RESTART IDENTITY CASCADE;
FOR claim IN SELECT * FROM resource_allocation.resource_claim LOOP
PERFORM resource_allocation.process_new_claim_into_resource_usages(claim);
END LOOP;
END;
$$ LANGUAGE plpgsql;
ALTER FUNCTION resource_allocation.rebuild_resource_usages_table_from_claims() OWNER TO resourceassignment;
COMMENT ON FUNCTION resource_allocation.rebuild_resource_usages_table_from_claims()
IS 'function which truncates the resource_usages table, and repopulates it by calling process_new_claim_into_resource_usages for each known claim.';
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.process_old_claim_outof_resource_usages(old_claim resource_allocation.resource_claim)
RETURNS void AS
$$
DECLARE
usage_at_start RECORD;
usage_before_start RECORD;
usage_at_end RECORD;
intermediate_usage RECORD;
BEGIN
-- find resource_usage at claim starttime
SELECT * FROM resource_allocation.resource_usage ru
WHERE ru.resource_id = old_claim.resource_id
AND ru.status_id = old_claim.status_id
AND ru.as_of_timestamp = old_claim.starttime
LIMIT 1
INTO usage_at_start;
-- find last known resource_usage at claim endtime
SELECT * FROM resource_allocation.resource_usage ru
WHERE ru.resource_id = old_claim.resource_id
AND ru.status_id = old_claim.status_id
AND ru.as_of_timestamp = old_claim.endtime
LIMIT 1
INTO usage_at_end;
-- both usage_at_start and usage_at_end should exist (NOT NULL)
IF usage_at_start IS NULL THEN
RAISE EXCEPTION 'resource_allocation.on_delete_claim_update_resource_usages: usage_at_start should not be NULL.';
END IF;
IF usage_at_end IS NULL THEN
RAISE EXCEPTION 'resource_allocation.on_delete_claim_update_resource_usages: usage_at_end should not be NULL.';
END IF;
IF usage_at_start.usage = old_claim.claim_size THEN
IF usage_at_end.usage = 0 THEN
-- find resource_usage before claim starttime
SELECT * FROM resource_allocation.resource_usage ru
WHERE ru.resource_id = old_claim.resource_id
AND ru.status_id = old_claim.status_id
AND ru.as_of_timestamp < old_claim.starttime
ORDER BY ru.as_of_timestamp DESC
LIMIT 1
INTO usage_before_start;
IF usage_before_start IS NULL OR (usage_before_start IS NOT NULL AND usage_before_start.usage = 0) THEN
--usage_at_start was 'caused' by this deleted claim only, so delete it
DELETE FROM resource_allocation.resource_usage ru WHERE ru.id = usage_at_start.id;
ELSE
UPDATE resource_allocation.resource_usage ru SET usage = 0 WHERE ru.id = usage_at_start.id;
END IF;
ELSE
--usage_at_start was 'caused' by this deleted claim only, so delete it
DELETE FROM resource_allocation.resource_usage ru WHERE ru.id = usage_at_start.id;
END IF;
ELSE
--update the usage_at_start.usage by subtracting the deleted claim size
UPDATE resource_allocation.resource_usage ru SET usage = usage_at_start.usage - old_claim.claim_size
WHERE ru.id = usage_at_start.id;
END IF;
IF usage_at_end.usage = 0 THEN
--usage_at_end was 'caused' by this deleted claim only, so delete it
DELETE FROM resource_allocation.resource_usage ru WHERE ru.id = usage_at_end.id;
END IF;
--now modify any existing usages between old_claim claim starttime and endtime
FOR intermediate_usage IN SELECT * FROM resource_allocation.resource_usage ru WHERE ru.resource_id = old_claim.resource_id
AND ru.status_id = old_claim.status_id
AND ru.as_of_timestamp > old_claim.starttime
AND ru.as_of_timestamp < old_claim.endtime
LOOP
UPDATE resource_allocation.resource_usage ru SET usage = intermediate_usage.usage - old_claim.claim_size
WHERE ru.id = intermediate_usage.id;
END LOOP;
END;
$$ LANGUAGE plpgsql;
ALTER FUNCTION resource_allocation.process_old_claim_outof_resource_usages(old_claim resource_allocation.resource_claim) OWNER TO resourceassignment;
COMMENT ON FUNCTION resource_allocation.process_old_claim_outof_resource_usages(old_claim resource_allocation.resource_claim)
IS 'helper function which is called by resource_claim table update and delete triggers, which updates/clears the resource_allocation.resource_usage table with timeseries of accumulated resource_claim.sizes';
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.get_resource_usage_at(_resource_id int, _claim_status_id int, _timestamp timestamp)
RETURNS resource_allocation.resource_usage AS
$$
DECLARE
result record;
BEGIN
SELECT * FROM resource_allocation.resource_usage ru
WHERE ru.resource_id = _resource_id
AND ru.status_id = _claim_status_id
AND ru.as_of_timestamp < _timestamp
ORDER BY ru.as_of_timestamp DESC
LIMIT 1 INTO result;
RETURN result;
END;
$$ LANGUAGE plpgsql;
ALTER FUNCTION resource_allocation.get_resource_usage_at(_resource_id int, _claim_status_id int, _timestamp timestamp) OWNER TO resourceassignment;
COMMENT ON FUNCTION resource_allocation.get_resource_usage_at(_resource_id int, _claim_status_id int, _timestamp timestamp)
IS 'get the resource usage for the given _resource_id for claims with given _claim_status_id at the given _timestamp';
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.get_max_resource_usage_between(_resource_id int, _claim_status_id int, _lower timestamp, _upper timestamp)
RETURNS resource_allocation.resource_usage AS
$$
DECLARE
result record;
BEGIN
SELECT * FROM resource_allocation.resource_usage ru
WHERE ru.resource_id = _resource_id
AND ru.status_id = _claim_status_id
AND ru.as_of_timestamp >= _lower
AND ru.as_of_timestamp <= _upper
ORDER BY ru.usage DESC
LIMIT 1 INTO result;
RETURN result;
END;
$$ LANGUAGE plpgsql;
ALTER FUNCTION resource_allocation.get_max_resource_usage_between(_resource_id int, _claim_status_id int, _lower timestamp, _upper timestamp) OWNER TO resourceassignment;
COMMENT ON FUNCTION resource_allocation.get_max_resource_usage_between(_resource_id int, _claim_status_id int, _lower timestamp, _upper timestamp)
IS 'get the maximum resource usage for the given _resource_id for claims with given _claim_status_id in the period between the given _lower and _upper timestamps';
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.get_resource_claimable_capacity_between(_resource_id int, _lower timestamp, _upper timestamp)
RETURNS bigint AS
$$
DECLARE
claimed_status_id int := 1; --beware: hard coded instead of lookup for performance
max_resource_usage resource_allocation.resource_usage;
max_resource_usage_value bigint;
available_capacity bigint;
BEGIN SELECT * FROM resource_allocation.get_max_resource_usage_between(_resource_id, claimed_status_id, _lower, _upper) INTO max_resource_usage;
IF max_resource_usage IS NULL THEN
max_resource_usage_value := 0;
ELSE
max_resource_usage_value := max_resource_usage.usage;
END IF;
SELECT available FROM resource_monitoring.resource_capacity WHERE resource_id = _resource_id LIMIT 1 INTO available_capacity;
RETURN available_capacity - max_resource_usage_value;
END;
$$ LANGUAGE plpgsql;
ALTER FUNCTION resource_allocation.get_resource_claimable_capacity_between(_resource_id int, _lower timestamp, _upper timestamp) OWNER TO resourceassignment;
COMMENT ON FUNCTION resource_allocation.get_resource_claimable_capacity_between(_resource_id int, _lower timestamp, _upper timestamp)
IS 'get the maximum resource usage for the given _resource_id for claims with given _claim_status_id in the period between the given _lower and _upper timestamps';
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.has_conflict_with_overlapping_claims(claim resource_allocation.resource_claim)
RETURNS boolean AS
$$
DECLARE
claim_claimed_status_id int := 1; --beware: hard coded instead of lookup for performance
free_claimable_capacity bigint;
overlapping_claims_min_starttime timestamp;
overlapping_claims_max_endtime timestamp;
BEGIN
-- this function is quite similar to resource_allocation.get_conflicting_overlapping_claims
-- for performance reasons we repeat the common code here instead of wrapping the common code in a function
--get all overlapping_claims, check whether they cause a conflict or not.
SET LOCAL client_min_messages=warning; --prevent "table overlapping_claims does not exist, skipping" message
DROP TABLE IF EXISTS overlapping_claims; -- TODO: use CREATE TEMPORARY TABLE IF NOT EXISTS when we will use postgres 9.5+
SET LOCAL client_min_messages=info; --back to normal log level
CREATE TEMPORARY TABLE overlapping_claims
ON COMMIT DROP
AS SELECT * FROM resource_allocation.resource_claim rc
WHERE rc.resource_id = claim.resource_id
AND rc.status_id = claim_claimed_status_id
AND rc.id <> claim.id
AND rc.endtime >= claim.starttime
AND rc.starttime < claim.endtime;
--get the full time window of the overlapping claims
SELECT min(starttime) FROM overlapping_claims INTO overlapping_claims_min_starttime;
SELECT max(endtime) FROM overlapping_claims INTO overlapping_claims_max_endtime;
-- get the free free_claimable_capacity for this resource for the full overlapping claim time window
-- this does not include the current claim which is (or at least should be) tentative.
SELECT * FROM resource_allocation.get_resource_claimable_capacity_between(claim.resource_id, overlapping_claims_min_starttime, overlapping_claims_max_endtime) INTO free_claimable_capacity;
return claim.claim_size > free_claimable_capacity;
END;
$$ LANGUAGE plpgsql;
ALTER FUNCTION resource_allocation.has_conflict_with_overlapping_claims(claim resource_allocation.resource_claim) OWNER TO resourceassignment;
COMMENT ON FUNCTION resource_allocation.has_conflict_with_overlapping_claims(claim resource_allocation.resource_claim)
IS 'checks if the claim fits in the free capacity of its resource.';
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.get_conflicting_overlapping_claims(claim_id int)
RETURNS SETOF resource_allocation.resource_claim AS
$$
DECLARE
claim resource_allocation.resource_claim;
BEGIN
SELECT * FROM resource_allocation.resource_claim
WHERE id = claim_id
LIMIT 1
INTO claim;
RETURN QUERY SELECT * FROM resource_allocation.get_conflicting_overlapping_claims(claim);
END;
$$ LANGUAGE plpgsql;
ALTER FUNCTION resource_allocation.get_conflicting_overlapping_claims(claim_id int) OWNER TO resourceassignment;
COMMENT ON FUNCTION resource_allocation.get_conflicting_overlapping_claims(claim_id int)
IS 'get set of (claimed) claims which cause the given claim to have conflict status.';
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.get_conflicting_overlapping_claims(claim resource_allocation.resource_claim)
RETURNS SETOF resource_allocation.resource_claim AS
$$
DECLARE
claim_claimed_status_id int := 1; --beware: hard coded instead of lookup for performance
BEGIN
-- this function is quite similar to resource_allocation.has_conflict_with_overlapping_claims
-- for performance reasons we repeat the common code here instead of wrapping the common code in a function
--get all overlapping_claims, check whether they cause a conflict or not.
SET LOCAL client_min_messages=warning; --prevent "table overlapping_claims does not exist, skipping" message
DROP TABLE IF EXISTS overlapping_claims; -- TODO: use CREATE TEMPORARY TABLE IF NOT EXISTS when we will use postgres 9.5+
CREATE TEMPORARY TABLE overlapping_claims
ON COMMIT DROP
AS SELECT * FROM resource_allocation.resource_claim rc
WHERE rc.resource_id = claim.resource_id
AND rc.status_id = claim_claimed_status_id
AND rc.id <> claim.id
AND rc.endtime >= claim.starttime
AND rc.starttime < claim.endtime;
RETURN QUERY SELECT *
FROM overlapping_claims oc
WHERE (SELECT * FROM resource_allocation.get_resource_claimable_capacity_between(claim.resource_id, oc.starttime, oc.endtime)) < claim.claim_size;
END;
$$ LANGUAGE plpgsql;
ALTER FUNCTION resource_allocation.get_conflicting_overlapping_claims(claim resource_allocation.resource_claim) OWNER TO resourceassignment;
COMMENT ON FUNCTION resource_allocation.get_conflicting_overlapping_claims(claim resource_allocation.resource_claim)
IS 'get set of (claimed) claims which cause the given claim to have conflict status.';
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.before_claim_insertupdatedelete()
RETURNS trigger AS
$BODY$
DECLARE
claim_tentative_status_id int := 0; --beware: hard coded instead of lookup for performance
claim_claimed_status_id int := 1; --beware: hard coded instead of lookup for performance
claim_conflict_status_id int := 2; --beware: hard coded instead of lookup for performance
task_approved_status_id int := 300; --beware: hard coded instead of lookup for performance
task_conflict_status_id int := 335; --beware: hard coded instead of lookup for performance
task_prescheduled_status_id int := 350; --beware: hard coded instead of lookup for performance
task_scheduled_status_id int := 400; --beware: hard coded instead of lookup for performance
task_queued_status_id int := 500; --beware: hard coded instead of lookup for performance
claim_has_conflicts boolean;
BEGIN
--order of following steps is important, do not reorder the steps
-- bounce any inserted claim which is not tentative
IF TG_OP = 'INSERT' THEN
IF NEW.status_id <> claim_tentative_status_id THEN
RAISE EXCEPTION 'newly inserted claims should not have status other than tentative; claim: %', NEW;
END IF;
END IF;
IF TG_OP = 'UPDATE' THEN
-- bounce any updated claim which has conflict state, but is tried to be updated to claimed
-- only this function can 'reset' the conflict state back to tentative!
IF NEW.status_id = claim_claimed_status_id AND OLD.status_id = claim_conflict_status_id THEN
RAISE EXCEPTION 'cannot update claim-in-conflict to status claimed; old:% new:%', OLD, NEW; END IF;
-- bounce any claim_size updates on claimed claims
IF NEW.status_id = claim_claimed_status_id AND OLD.claim_size <> NEW.claim_size THEN
RAISE EXCEPTION 'cannot update claim size on claimed claim; old:% new:%', OLD, NEW;
END IF;
-- bounce any task_id updates
IF OLD.task_id <> NEW.task_id THEN
RAISE EXCEPTION 'cannot change the task to which a claim belongs; old:% new:%', OLD, NEW;
END IF;
-- bounce any resource_id updates
IF OLD.resource_id <> NEW.resource_id THEN
RAISE EXCEPTION 'cannot change the resource to which a claim belongs; old:% new:%', OLD, NEW;
END IF;
END IF;
--only check claim if status and/or claim_size and/or start/end time changed
IF TG_OP = 'INSERT' OR (TG_OP = 'UPDATE' AND (OLD.status_id <> NEW.status_id OR
OLD.claim_size <> NEW.claim_size OR
OLD.starttime <> NEW.starttime OR
OLD.endtime <> NEW.endtime)) THEN
--check if claim fits or has conflicts
SELECT * FROM resource_allocation.has_conflict_with_overlapping_claims(NEW) INTO claim_has_conflicts;
IF claim_has_conflicts THEN
IF NEW.status_id <> claim_conflict_status_id THEN
-- only set claims to conflict if task status <= queued
-- when a claim goes to conflict, then so does it's task, and we don't want that for running/finished/aborted tasks
IF EXISTS (SELECT 1 FROM resource_allocation.task
WHERE id=NEW.task_id
AND status_id = ANY(ARRAY[300, 335, 350, 400, 500])) THEN -- hardcoded tasks statuses <= queued
-- conflict with others, so set claim status to conflict
NEW.status_id := claim_conflict_status_id;
END IF;
END IF;
ELSE
-- no conflict (anymore) with others, so set claim status to tentative if currently in conflict
IF NEW.status_id = claim_conflict_status_id THEN
NEW.status_id := claim_tentative_status_id;
END IF;
END IF;
END IF;
IF TG_OP = 'DELETE' THEN
RETURN OLD;
END IF;
RETURN NEW;
END;
$BODY$
LANGUAGE plpgsql VOLATILE
COST 100;
ALTER FUNCTION resource_allocation.before_claim_insertupdatedelete()
OWNER TO resourceassignment;
COMMENT ON FUNCTION resource_allocation.before_claim_insertupdatedelete()
IS 'trigger function which is called by resource_claim table insert/update/delete trigger, which fills/updates/clears the resource_allocation.resource_usage table with timeseries of accumulated resource_claim.sizes, and checks if claims fit in the free capacity of a resource';
DROP TRIGGER IF EXISTS T_before_claim_insertupdatedelete ON resource_allocation.resource_claim CASCADE;
CREATE TRIGGER T_before_claim_insertupdatedelete
BEFORE INSERT OR UPDATE OR DELETE
ON resource_allocation.resource_claim
FOR EACH ROW
EXECUTE PROCEDURE resource_allocation.before_claim_insertupdatedelete();
---------------------------------------------------------------------------------------------------------------------
CREATE OR REPLACE FUNCTION resource_allocation.after_claim_insertupdatedelete()
RETURNS trigger AS$BODY$
DECLARE
claim_tentative_status_id int := 0; --beware: hard coded instead of lookup for performance
claim_claimed_status_id int := 1; --beware: hard coded instead of lookup for performance
claim_conflict_status_id int := 2; --beware: hard coded instead of lookup for performance
task_approved_status_id int := 300; --beware: hard coded instead of lookup for performance
task_conflict_status_id int := 335; --beware: hard coded instead of lookup for performance
affected_claim resource_allocation.resource_claim;
claim_has_conflicts boolean;
BEGIN
IF TG_OP = 'UPDATE' OR TG_OP = 'DELETE' THEN
--update the resource usages affected by this claim
PERFORM resource_allocation.process_old_claim_outof_resource_usages(OLD);
END IF;
IF TG_OP = 'INSERT' OR TG_OP = 'UPDATE' THEN
--update the resource usages affected by this claim
PERFORM resource_allocation.process_new_claim_into_resource_usages(NEW);
END IF;
-- in the before trigger function, everything on the claim has been checked and adapted.
-- now (in the after trigger, when all claims were inserted/updated in the database), let's check if the task should also be updated (to conflict status for example)
-- only if claim status was changed or inserted...
IF TG_OP = 'INSERT' OR (TG_OP = 'UPDATE' AND (OLD.status_id <> NEW.status_id)) THEN
IF NEW.status_id = claim_conflict_status_id THEN
--if claim status went to conflict, then set the task status to conflict as well
UPDATE resource_allocation.task SET status_id=task_conflict_status_id WHERE id=NEW.task_id AND status_id <> task_conflict_status_id;
ELSIF NEW.status_id = claim_tentative_status_id THEN
IF NOT EXISTS (SELECT id FROM resource_allocation.resource_claim WHERE task_id = NEW.task_id AND status_id = claim_conflict_status_id) THEN
UPDATE resource_allocation.task SET status_id=task_approved_status_id WHERE id=NEW.task_id AND status_id <> task_approved_status_id;
END IF;
END IF;
END IF;
-- if this claim was moved or went from claimed to other status
-- then check all other claims in conflict which might be affected by this change
-- maybe they can be updated from conflict status to tentative...
IF (TG_OP = 'UPDATE' AND (OLD.status_id = claim_claimed_status_id OR OLD.starttime <> NEW.starttime OR OLD.endtime <> NEW.endtime OR OLD.claim_size <> NEW.claim_size)) OR
TG_OP = 'DELETE' THEN
FOR affected_claim IN SELECT * FROM resource_allocation.resource_claim rc
WHERE rc.resource_id = OLD.resource_id
AND rc.status_id = claim_conflict_status_id
AND rc.id <> OLD.id
AND rc.endtime >= OLD.starttime
AND rc.starttime < OLD.endtime LOOP
--check if claim fits or has conflicts
SELECT * FROM resource_allocation.has_conflict_with_overlapping_claims(affected_claim) INTO claim_has_conflicts;
IF NOT claim_has_conflicts THEN
-- no conflict (anymore) with others, so set claim status to tentative
UPDATE resource_allocation.resource_claim SET status_id=claim_tentative_status_id WHERE id = affected_claim.id;
END IF;
END LOOP;
END IF;
-- if this claim went from to claimed status
-- then check all other claims in tentative state which might be affected by this change
-- maybe they should be updated from tentative status to conflict...
IF TG_OP = 'UPDATE' AND NEW.status_id = claim_claimed_status_id AND (OLD.status_id <> NEW.status_id OR OLD.claim_size <> NEW.claim_size)THEN
FOR affected_claim IN SELECT * FROM resource_allocation.resource_claim rc
WHERE rc.resource_id = NEW.resource_id
AND rc.status_id = claim_tentative_status_id
AND rc.id <> NEW.id
AND rc.endtime >= NEW.starttime
AND rc.starttime < NEW.endtime LOOP
--check if claim fits or has conflicts
SELECT * FROM resource_allocation.has_conflict_with_overlapping_claims(affected_claim) INTO claim_has_conflicts;
IF claim_has_conflicts THEN
-- new conflict for affected_claim because this NEW claim is now claimed
UPDATE resource_allocation.resource_claim SET status_id=claim_conflict_status_id WHERE id = affected_claim.id;
END IF;
END LOOP;
END IF;
IF TG_OP = 'DELETE' THEN
RETURN OLD;
END IF;
RETURN NEW;
END;
$BODY$
LANGUAGE plpgsql VOLATILE
COST 100;
ALTER FUNCTION resource_allocation.after_claim_insertupdatedelete()
OWNER TO resourceassignment;
COMMENT ON FUNCTION resource_allocation.after_claim_insertupdatedelete()
IS '';
DROP TRIGGER IF EXISTS T_after_claim_insertupdatedelete ON resource_allocation.resource_claim CASCADE;
CREATE TRIGGER T_after_claim_insertupdatedelete
AFTER INSERT OR UPDATE OR DELETE
ON resource_allocation.resource_claim
FOR EACH ROW
EXECUTE PROCEDURE resource_allocation.after_claim_insertupdatedelete();
---------------------------------------------------------------------------------------------------------------------
COMMIT;