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greptimedb/tests/cases/standalone/common/flow/flow_basic.sql
Ruihang Xia 2b0f27da51 feat: don't allow creating flow with the same sink and source table (#6435) 
Signed-off-by: Ruihang Xia <waynestxia@gmail.com>
2025-07-01 11:33:09 +00:00

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CREATE TABLE numbers_input_basic (
number INT,
ts TIMESTAMP DEFAULT CURRENT_TIMESTAMP,
PRIMARY KEY(number),
TIME INDEX(ts)
);
CREATE FLOW test_numbers_basic SINK TO out_num_cnt_basic AS
SELECT
sum(number),
date_bin(INTERVAL '1 second', ts, '2021-07-01 00:00:00') as time_window
FROM
numbers_input_basic
GROUP BY
time_window;
SHOW CREATE TABLE out_num_cnt_basic;
-- TODO(discord9): confirm if it's necessary to flush flow here?
-- because flush_flow result is at most 1
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('test_numbers_basic');
SHOW CREATE TABLE out_num_cnt_basic;
-- SQLNESS ARG restart=true
SELECT 1;
-- SQLNESS SLEEP 3s
INSERT INTO
numbers_input_basic
VALUES
(20, "2021-07-01 00:00:00.200"),
(22, "2021-07-01 00:00:00.600");
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('test_numbers_basic');
SELECT
"sum(numbers_input_basic.number)",
time_window
FROM
out_num_cnt_basic;
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('test_numbers_basic');
INSERT INTO
numbers_input_basic
VALUES
(23, "2021-07-01 00:00:01.000"),
(24, "2021-07-01 00:00:01.500");
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('test_numbers_basic');
-- note that this quote-unquote column is a column-name, **not** a aggregation expr, generated by datafusion
SELECT
"sum(numbers_input_basic.number)",
time_window
FROM
out_num_cnt_basic;
DROP FLOW test_numbers_basic;
DROP TABLE numbers_input_basic;
DROP TABLE out_num_cnt_basic;
-- test count(*) rewrite
CREATE TABLE input_basic (
number INT,
ts TIMESTAMP DEFAULT CURRENT_TIMESTAMP,
PRIMARY KEY(number),
TIME INDEX(ts)
);
CREATE FLOW test_wildcard_basic SiNk TO out_basic AS
SELECT
COUNT(*) as wildcard
FROM
input_basic;
SHOW CREATE TABLE out_basic;
DROP FLOW test_wildcard_basic;
CREATE FLOW test_wildcard_basic sink TO out_basic AS
SELECT
COUNT(*) as wildcard
FROM
input_basic;
SHOW CREATE TABLE out_basic;
-- SQLNESS ARG restart=true
SELECT 1;
-- SQLNESS SLEEP 3s
INSERT INTO
input_basic
VALUES
(23, "2021-07-01 00:00:01.000"),
(24, "2021-07-01 00:00:01.500");
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('test_wildcard_basic');
SHOW CREATE TABLE out_basic;
SELECT wildcard FROM out_basic;
DROP FLOW test_wildcard_basic;
DROP TABLE out_basic;
DROP TABLE input_basic;
-- test distinct
CREATE TABLE distinct_basic (
number INT,
ts TIMESTAMP DEFAULT CURRENT_TIMESTAMP,
PRIMARY KEY(number),
TIME INDEX(ts)
);
CREATE FLOW test_distinct_basic SINK TO out_distinct_basic AS
SELECT
DISTINCT number as dis
FROM
distinct_basic;
SHOW CREATE TABLE out_distinct_basic;
-- TODO(discord9): confirm if it's necessary to flush flow here?
-- because flush_flow result is at most 1
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('test_distinct_basic');
-- SQLNESS ARG restart=true
SELECT 1;
-- SQLNESS SLEEP 3s
INSERT INTO
distinct_basic
VALUES
(20, "2021-07-01 00:00:00.200"),
(20, "2021-07-01 00:00:00.200"),
(22, "2021-07-01 00:00:00.600");
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('test_distinct_basic');
SHOW CREATE TABLE out_distinct_basic;
SELECT
dis
FROM
out_distinct_basic;
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('test_distinct_basic');
INSERT INTO
distinct_basic
VALUES
(23, "2021-07-01 00:00:01.000"),
(24, "2021-07-01 00:00:01.500");
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('test_distinct_basic');
-- note that this quote-unquote column is a column-name, **not** a aggregation expr, generated by datafusion
SELECT
dis
FROM
out_distinct_basic;
DROP FLOW test_distinct_basic;
DROP TABLE distinct_basic;
DROP TABLE out_distinct_basic;
CREATE TABLE bytes_log (
byte INT,
ts TIMESTAMP DEFAULT CURRENT_TIMESTAMP,
-- event time
TIME INDEX(ts)
);
-- TODO(discord9): remove this after auto infer table's time index is impl
CREATE TABLE approx_rate (
rate DOUBLE,
time_window TIMESTAMP,
update_at TIMESTAMP,
TIME INDEX(time_window)
);
CREATE FLOW find_approx_rate SINK TO approx_rate AS
SELECT
(max(byte) - min(byte)) / 30.0 as rate,
date_bin(INTERVAL '30 second', ts) as time_window
from
bytes_log
GROUP BY
time_window;
SHOW CREATE TABLE approx_rate;
INSERT INTO
bytes_log
VALUES
(NULL, '2023-01-01 00:00:01'),
(300, '2023-01-01 00:00:29');
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('find_approx_rate');
SELECT
rate,
time_window
FROM
approx_rate
ORDER BY time_window ASC;
INSERT INTO
bytes_log
VALUES
(NULL, '2022-01-01 00:00:01'),
(NULL, '2022-01-01 00:00:29');
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('find_approx_rate');
SELECT
rate,
time_window
FROM
approx_rate
ORDER BY time_window ASC;
INSERT INTO
bytes_log
VALUES
(101, '2025-01-01 00:00:01'),
(300, '2025-01-01 00:00:29');
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('find_approx_rate');
SELECT
rate,
time_window
FROM
approx_rate
ORDER BY time_window ASC;
INSERT INTO
bytes_log
VALUES
(450, '2025-01-01 00:00:32'),
(500, '2025-01-01 00:00:37');
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('find_approx_rate');
SELECT
rate,
time_window
FROM
approx_rate
ORDER BY time_window ASC;
DROP TABLE bytes_log;
DROP FLOW find_approx_rate;
DROP TABLE approx_rate;
-- input table
CREATE TABLE ngx_access_log (
client STRING,
country STRING,
access_time TIMESTAMP TIME INDEX
);
-- create flow task to calculate the distinct country
CREATE FLOW calc_ngx_country SINK TO ngx_country AS
SELECT
DISTINCT country,
FROM
ngx_access_log;
SHOW CREATE TABLE ngx_country;
INSERT INTO
ngx_access_log
VALUES
("cli1", "b", 0);
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('calc_ngx_country');
SHOW CREATE TABLE ngx_country;
SELECT
country
FROM
ngx_country;
-- making sure distinct is working
INSERT INTO
ngx_access_log
VALUES
("cli1", "b", 1);
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('calc_ngx_country');
SELECT
country
FROM
ngx_country;
INSERT INTO
ngx_access_log
VALUES
("cli1", "c", 2);
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('calc_ngx_country');
SELECT
country
FROM
ngx_country;
DROP FLOW calc_ngx_country;
DROP TABLE ngx_access_log;
DROP TABLE ngx_country;
CREATE TABLE ngx_access_log (
client STRING,
country STRING,
access_time TIMESTAMP TIME INDEX
);
CREATE FLOW calc_ngx_country SINK TO ngx_country AS
SELECT
DISTINCT country,
-- this distinct is not necessary, but it's a good test to see if it works
date_bin(INTERVAL '1 hour', access_time) as time_window,
FROM
ngx_access_log
GROUP BY
country,
time_window;
SHOW CREATE TABLE ngx_country;
INSERT INTO
ngx_access_log
VALUES
("cli1", "b", 0);
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('calc_ngx_country');
SHOW CREATE TABLE ngx_country;
SELECT
country,
time_window
FROM
ngx_country;
-- making sure distinct is working
INSERT INTO
ngx_access_log
VALUES
("cli1", "b", 1);
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('calc_ngx_country');
SELECT
country,
time_window
FROM
ngx_country;
INSERT INTO
ngx_access_log
VALUES
("cli1", "c", 2);
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('calc_ngx_country');
SELECT
country,
time_window
FROM
ngx_country;
DROP FLOW calc_ngx_country;
DROP TABLE ngx_access_log;
DROP TABLE ngx_country;
CREATE TABLE temp_sensor_data (
sensor_id INT,
loc STRING,
temperature DOUBLE,
ts TIMESTAMP TIME INDEX
)WITH(
append_mode = 'true'
);
CREATE TABLE temp_alerts (
sensor_id INT,
loc STRING,
max_temp DOUBLE,
event_ts TIMESTAMP TIME INDEX,
update_at TIMESTAMP
);
CREATE FLOW temp_monitoring SINK TO temp_alerts AS
SELECT
sensor_id,
loc,
max(temperature) as max_temp,
max(ts) as event_ts
FROM
temp_sensor_data
GROUP BY
sensor_id,
loc
HAVING
max_temp > 100;
SHOW CREATE TABLE temp_alerts;
INSERT INTO
temp_sensor_data
VALUES
(1, "room1", 50, 0);
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('temp_monitoring');
-- This table should not exist yet
SHOW TABLES LIKE 'temp_alerts';
INSERT INTO
temp_sensor_data
VALUES
(1, "room1", 150, 1);
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('temp_monitoring');
SHOW TABLES LIKE 'temp_alerts';
SELECT
sensor_id,
loc,
max_temp,
event_ts
FROM
temp_alerts;
INSERT INTO
temp_sensor_data
VALUES
(2, "room1", 0, 2);
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('temp_monitoring');
SELECT
sensor_id,
loc,
max_temp,
event_ts
FROM
temp_alerts;
DROP FLOW temp_monitoring;
DROP TABLE temp_sensor_data;
DROP TABLE temp_alerts;
CREATE TABLE ngx_access_log (
client STRING,
stat INT,
size INT,
access_time TIMESTAMP TIME INDEX
)WITH(
append_mode = 'true'
);
CREATE TABLE ngx_distribution (
stat INT,
bucket_size INT,
total_logs BIGINT,
time_window TIMESTAMP TIME INDEX,
-- auto generated column by flow engine
update_at TIMESTAMP,
PRIMARY KEY(stat, bucket_size)
);
CREATE FLOW calc_ngx_distribution SINK TO ngx_distribution AS
SELECT
stat,
trunc(size, -1) :: INT as bucket_size,
count(client) AS total_logs,
date_bin(INTERVAL '1 minutes', access_time) as time_window,
FROM
ngx_access_log
GROUP BY
stat,
time_window,
bucket_size;
SHOW CREATE TABLE ngx_distribution;
INSERT INTO
ngx_access_log
VALUES
("cli1", 200, 100, 0);
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('calc_ngx_distribution');
SELECT
stat,
bucket_size,
total_logs,
time_window
FROM
ngx_distribution;
INSERT INTO
ngx_access_log
VALUES
("cli1", 200, 200, 1),
("cli1", 200, 205, 1),
("cli1", 200, 209, 1),
("cli1", 200, 210, 1),
("cli2", 200, 300, 1);
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('calc_ngx_distribution');
SELECT
stat,
bucket_size,
total_logs,
time_window
FROM
ngx_distribution;
DROP FLOW calc_ngx_distribution;
DROP TABLE ngx_access_log;
DROP TABLE ngx_distribution;
CREATE TABLE requests (
service_name STRING,
service_ip STRING,
val INT,
ts TIMESTAMP TIME INDEX
)WITH(
append_mode = 'true'
);
CREATE TABLE requests_without_ip (
service_name STRING,
val INT,
ts TIMESTAMP TIME INDEX,
PRIMARY KEY(service_name)
);
CREATE FLOW requests_long_term SINK TO requests_without_ip AS
SELECT
service_name,
val,
ts
FROM
requests;
SHOW CREATE TABLE requests_without_ip;
INSERT INTO
requests
VALUES
(NULL, "10.0.0.1", 100, "2024-10-18 19:00:00"),
("svc1", "10.0.0.2", 100, "2024-10-18 19:00:00"),
(NULL, "10.0.0.1", 200, "2024-10-18 19:00:30"),
("svc1", "10.0.0.2", 200, "2024-10-18 19:00:30"),
(NULL, "10.0.0.1", 300, "2024-10-18 19:01:00"),
(NULL, "10.0.0.2", 100, "2024-10-18 19:01:01"),
("svc1", "10.0.0.1", 400, "2024-10-18 19:01:30"),
("svc1", "10.0.0.2", 200, "2024-10-18 19:01:31");
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('requests_long_term');
SELECT
*
FROM
requests_without_ip
ORDER BY ts ASC;
-- Test if FLOWS table works, but don't care about the result since it vary from runs
SELECT
count(CASE WHEN state_size > 0 THEN 1 ELSE 0 END) as active_flows,
FROM
INFORMATION_SCHEMA.FLOWS;
INSERT INTO
requests
VALUES
(null, "10.0.0.1", 100, "2024-10-19 19:00:00"),
(null, "10.0.0.2", 100, "2024-10-19 19:00:00"),
(null, "10.0.0.1", 200, "2024-10-19 19:00:30"),
(null, "10.0.0.2", 200, "2024-10-19 19:00:30"),
(null, "10.0.0.1", 300, "2024-10-19 19:01:00"),
(null, "10.0.0.2", 100, "2024-10-19 19:01:01"),
(null, "10.0.0.1", 400, "2024-10-19 19:01:30"),
(null, "10.0.0.2", 200, "2024-10-19 19:01:31");
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('requests_long_term');
SELECT
*
FROM
requests_without_ip
ORDER BY ts ASC;
INSERT INTO
requests
VALUES
("svc2", "10.0.0.1", 100, "2024-10-18 19:00:00"),
("svc2", "10.0.0.2", 100, "2024-10-18 19:00:00"),
("svc2", "10.0.0.1", 200, "2024-10-18 19:00:30"),
("svc2", "10.0.0.2", 200, "2024-10-18 19:00:30"),
("svc2", "10.0.0.1", 300, "2024-10-18 19:01:00"),
("svc2", "10.0.0.2", 100, "2024-10-18 19:01:01"),
("svc2", "10.0.0.1", 400, "2024-10-18 19:01:30"),
("svc2", "10.0.0.2", 200, "2024-10-18 19:01:31");
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('requests_long_term');
SELECT
*
FROM
requests_without_ip
ORDER BY ts ASC;;
DROP FLOW requests_long_term;
DROP TABLE requests_without_ip;
DROP TABLE requests;
CREATE TABLE android_log (
`log` STRING,
ts TIMESTAMP(9),
TIME INDEX(ts)
)WITH(
append_mode = 'true'
);
CREATE TABLE android_log_abnormal (
crash BIGINT NULL,
fatal BIGINT NULL,
backtrace BIGINT NULL,
anr BIGINT NULL,
time_window TIMESTAMP(9) TIME INDEX,
update_at TIMESTAMP,
);
CREATE FLOW calc_android_log_abnormal
SINK TO android_log_abnormal
AS
SELECT
sum(case when `log` LIKE '%am_crash%' then 1 else 0 end) as crash,
sum(case when `log` LIKE '%FATAL EXCEPTION%' then 1 else 0 end) as fatal,
sum(case when `log` LIKE '%backtrace%' then 1 else 0 end) as backtrace,
sum(case when `log` LIKE '%am_anr%' then 1 else 0 end) as anr,
date_bin(INTERVAL '5 minutes', ts) as time_window,
FROM android_log
GROUP BY
time_window;
SHOW CREATE TABLE android_log_abnormal;
INSERT INTO android_log values
("am_crash", "2021-07-01 00:01:01.000"),
("asas.backtrace.ssss", "2021-07-01 00:01:01.000");
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('calc_android_log_abnormal');
SELECT crash, fatal, backtrace, anr FROM android_log_abnormal;
INSERT INTO android_log values
("FATAL EXCEPTION", "2021-07-01 00:01:01.000"),
("mamam_anraaaa", "2021-07-01 00:01:01.000");
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('calc_android_log_abnormal');
SELECT crash, fatal, backtrace, anr FROM android_log_abnormal;
DROP FLOW calc_android_log_abnormal;
DROP TABLE android_log_abnormal;
DROP TABLE android_log;
CREATE TABLE android_log (
`log` STRING,
ts TIMESTAMP(9),
TIME INDEX(ts)
)WITH(
append_mode = 'true'
);
CREATE TABLE android_log_abnormal (
crash BIGINT NULL,
fatal BIGINT NULL,
backtrace BIGINT NULL,
anr BIGINT NULL,
time_window TIMESTAMP(9) TIME INDEX,
update_at TIMESTAMP,
);
CREATE FLOW calc_android_log_abnormal
SINK TO android_log_abnormal
AS
SELECT
sum(case when regexp_like(`log`, '.*am_crash.*') then 1 else 0 end) as crash,
sum(case when regexp_like(`log`, '.*FATAL EXCEPTION.*') then 1 else 0 end) as fatal,
sum(case when regexp_like(`log`, '.*backtrace.*') then 1 else 0 end) as backtrace,
sum(case when regexp_like(`log`, '.*am_anr.*') then 1 else 0 end) as anr,
date_bin(INTERVAL '5 minutes', ts) as time_window,
FROM android_log
GROUP BY
time_window;
SHOW CREATE TABLE android_log_abnormal;
INSERT INTO android_log values
("am_crash", "2021-07-01 00:01:01.000"),
("asas.backtrace.ssss", "2021-07-01 00:01:01.000");
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('calc_android_log_abnormal');
SELECT crash, fatal, backtrace, anr FROM android_log_abnormal;
INSERT INTO android_log values
("FATAL EXCEPTION", "2021-07-01 00:01:01.000"),
("mamam_anraaaa", "2021-07-01 00:01:01.000");
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('calc_android_log_abnormal');
SELECT crash, fatal, backtrace, anr FROM android_log_abnormal;
DROP FLOW calc_android_log_abnormal;
DROP TABLE android_log_abnormal;
DROP TABLE android_log;
CREATE TABLE numbers_input_basic (
number INT,
ts TIMESTAMP DEFAULT CURRENT_TIMESTAMP,
PRIMARY KEY(number),
TIME INDEX(ts)
);
CREATE FLOW test_numbers_basic SINK TO out_num_cnt_basic AS
SELECT
sum(case when number > 10 then 1 else 0 end)/count(number) as avg_after_filter_num
FROM
numbers_input_basic;
SHOW CREATE TABLE out_num_cnt_basic;
-- TODO(discord9): confirm if it's necessary to flush flow here?
-- because flush_flow result is at most 1
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('test_numbers_basic');
-- SQLNESS ARG restart=true
SELECT 1;
-- SQLNESS SLEEP 3s
INSERT INTO
numbers_input_basic
VALUES
(20, "2021-07-01 00:00:00.200"),
(22, "2021-07-01 00:00:00.600");
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('test_numbers_basic');
SELECT avg_after_filter_num FROM out_num_cnt_basic;
INSERT INTO
numbers_input_basic
VALUES
(10, "2021-07-01 00:00:00.200"),
(23, "2021-07-01 00:00:00.600");
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('test_numbers_basic');
DROP FLOW test_numbers_basic;
DROP TABLE numbers_input_basic;
DROP TABLE out_num_cnt_basic;
CREATE TABLE `live_connection_log`
(
`device_model` STRING NULL,
`connect_protocol` INT NULL,
`connect_mode` INT NULL,
`connect_retry_times` DOUBLE NULL,
`connect_result` INT NULL,
`first_frame_time` DOUBLE NULL,
`record_time` TIMESTAMP TIME INDEX,
`iot_online` INT NULL,
PRIMARY KEY (`device_model`,`connect_protocol`),
);
CREATE TABLE `live_connection_statistics_detail`
(
`device_model` STRING NULL,
`connect_protocol` INT NULL,
`connect_mode` INT NULL,
`avg_connect_retry_times` DOUBLE NULL,
`total_connect_result_ok` INT64 NULL,
`total_connect_result_fail` INT64 NULL,
`total_connect` INT64 NULL,
`conection_rate` DOUBLE NULL,
`avg_first_frame_time` DOUBLE NULL,
`max_first_frame_time` DOUBLE NULL,
`ok_conection_rate` DOUBLE NULL,
`record_time_window` TIMESTAMP TIME INDEX,
`update_at` TIMESTAMP,
PRIMARY KEY (`device_model`,`connect_protocol`),
);
CREATE FLOW live_connection_aggregation_detail
SINK TO live_connection_statistics_detail
AS
SELECT
device_model,
connect_protocol,
connect_mode,
avg(connect_retry_times) as avg_connect_retry_times,
sum(case when connect_result = 1 then 1 else 0 end) as total_connect_result_ok,
sum(case when connect_result = 0 then 1 else 0 end) as total_connect_result_fail,
count(connect_result) as total_connect,
sum(case when connect_result = 1 then 1 else 0 end)::double / count(connect_result) as conection_rate,
avg(first_frame_time) as avg_first_frame_time,
max(first_frame_time) as max_first_frame_time,
sum(case when connect_result = 1 then 1 else 0 end)::double / count(connect_result) as ok_conection_rate,
date_bin(INTERVAL '1 minutes', record_time) as record_time_window,
FROM live_connection_log
WHERE iot_online = 1
GROUP BY
device_model,
connect_protocol,
connect_mode,
record_time_window;
INSERT INTO
live_connection_log
VALUES
("STM51", 1, 1, 0.5, 1, 0.1, 0, 1);
-- SQLNESS REPLACE (ADMIN\sFLUSH_FLOW\('\w+'\)\s+\|\n\+-+\+\n\|\s+)[0-9]+\s+\| $1 FLOW_FLUSHED |
ADMIN FLUSH_FLOW('live_connection_aggregation_detail');
SELECT device_model,
connect_protocol,
connect_mode,
avg_connect_retry_times,
total_connect_result_ok,
total_connect_result_fail,
total_connect,
conection_rate,
avg_first_frame_time,
max_first_frame_time,
ok_conection_rate,
record_time_window FROM live_connection_statistics_detail;
-- Create a flow with same source and sink table
CREATE FLOW same_source_and_sink_table SINK TO live_connection_log AS
SELECT
*
FROM
live_connection_log;
DROP FLOW live_connection_aggregation_detail;
DROP TABLE live_connection_log;
DROP TABLE live_connection_statistics_detail;
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