Slonik
A PostgreSQL client with strict types, detail logging and assertions.
Features
Documentation
Usage
Slonik exports two factory functions:
createPool
createConnection
The API of the query method is equivalent to that of pg
.
Refer to query methods for documentation of Slonik-specific query methods.
Configuration
Both functions accept the same parameters:
connectionConfiguration
clientConfiguration
type DatabaseConnectionUriType = string;
type DatabaseConfigurationType =
DatabaseConnectionUriType |
{|
+database?: string,
+host?: string,
+idleTimeoutMillis?: number,
+max?: number,
+password?: string,
+port?: number,
+user?: string
|};
type ClientConfigurationType = {|
+interceptors?: $ReadOnlyArray<InterceptorType>,
+onConnect?: (connection: DatabaseConnectionType) => MaybePromiseType<void>
|};
Example:
import {
createPool
} from 'slonik';
const pool = createPool('postgres://localhost');
await pool.query(sql`SELECT 1`);
Checking out a client from the connection pool
Slonik only allows to check out a connection for a duration of promise routine supplied to the connect()
method.
import {
createPool
} from 'slonik';
const pool = createPool('postgres://localhost');
const result = await pool.connect(async (connection) => {
await connection.query(sql`SELECT 1`);
await connection.query(sql`SELECT 2`);
return 'foo';
});
result;
Connection is released back to the pool after the promise produced by the function supplied to connect()
method is either resolved or rejected.
The primary reason for implementing only this connection pooling method is because the alternative is inherently unsafe, e.g.
const main = async () => {
const connection = await pool.connect();
await connection.query(sql`SELECT produce_error()`);
await connection.release();
};
In this example, the error causes early rejection of the promise and a hanging connection. A fix to the above is to ensure that connection#release()
is always called, i.e.
const main = async () => {
const connection = await pool.connect();
let lastExecutionResult;
try {
lastExecutionResult = await connection.query(sql`SELECT produce_error()`);
} finally {
await connection.release();
}
return lastExecutionResult;
};
Slonik abstracts the latter pattern into pool#connect()
method.
Interceptors
Functionality can be added to Slonik client by adding interceptors.
Each interceptor can implement several functions which can be used to change the behaviour of the database client.
type InterceptorType = {|
+beforeQuery?: (query: QueryType) => Promise<QueryResultType<QueryResultRowType>> | QueryResultType<QueryResultRowType> | MaybePromiseType<void>,
+afterQuery?: (query: QueryType, result: QueryResultType<QueryResultRowType>) => MaybePromiseType<QueryResultType<QueryResultRowType>>
|};
Interceptors are configured using client configuration, e.g.
import {
createPool
} from 'slonik';
const interceptors = [];
const connection = createPool('postgres://', {
interceptors
});
There are 2 functions that an interceptor can implement:
Interceptors are executed in the order they are added.
beforeQuery
beforeQuery
is the first interceptor function executed.
This function can optionally return a direct result of the query which will cause the actual query never to be executed.
afterQuery
afterQuery
is the last interceptor function executed.
This function must return the result of the query, which will be passed down to the client.
Use afterQuery
to modify the query result.
Built-in interceptors
Field name formatter
createFormatFieldNameInterceptor
creates an interceptor that formats query result field names.
This interceptor removes the necessity to alias field names, e.g.
connection.any(sql`
SELECT
id,
full_name "fullName"
FROM person
`);
Field name formatter uses afterQuery
interceptor to format field names.
API
type ConfigurationType = {|
+format: 'CAMEL_CASE',
+test: (field: FieldType) => boolean
|};
(configuration: ConfigurationType) => InterceptorType;
Example usage
import {
createFormatFieldNameInterceptor,
createPool
} from 'slonik';
const interceptors = [
createFormatFieldNameInterceptor({
format: 'CAMEL_CASE'
})
];
const connection = createPool('postgres://', {
interceptors
});
connection.any(sql`
SELECT
id,
full_name
FROM person
`);
Recipes
Logging auto_explain
executionTime
log property describes how long it took for the client to execute the query, i.e. it includes the overhead of waiting for a connection and the network latency, among other things. However, it is possible to get the real query execution time by using auto_explain
module.
There are several pre-requisites:
LOAD 'auto_explain';
LOAD '$libdir/plugins/auto_explain';
SET auto_explain.log_analyze=true;
SET auto_explain.log_format=json;
SET auto_explain.log_min_duration=0;
SET auto_explain.log_timing=true;
SET client_min_messages=log;
This can be configured using onConnect
connection handler.
const pool = await createPool('postgres://localhost', {
onConnect: async (connection) => {
await connection.query(sql`LOAD 'auto_explain'`);
await connection.query(sql`SET auto_explain.log_analyze=true`);
await connection.query(sql`SET auto_explain.log_format=json`);
await connection.query(sql`SET auto_explain.log_min_duration=0`);
await connection.query(sql`SET auto_explain.log_timing=true`);
await connection.query(sql`SET client_min_messages=log`);
}
});
Slonik recognises and parses the auto_explain
JSON message; Roarr logger will produce a pretty-print of the explain output, e.g.
[2018-12-31T21:15:21.010Z] INFO (30) (@slonik): notice message
notice:
level: notice
message:
Query Text: SELECT count(*) FROM actor
Plan:
Node Type: Aggregate
Strategy: Plain
Partial Mode: Simple
Parallel Aware: false
Startup Cost: 4051.33
Total Cost: 4051.34
Plan Rows: 1
Plan Width: 8
Actual Startup Time: 26.791
Actual Total Time: 26.791
Actual Rows: 1
Actual Loops: 1
Plans:
-
Node Type: Seq Scan
Parent Relationship: Outer
Parallel Aware: false
Relation Name: actor
Alias: actor
Startup Cost: 0
Total Cost: 3561.86
Plan Rows: 195786
Plan Width: 0
Actual Startup Time: 0.132
Actual Total Time: 15.29
Actual Rows: 195786
Actual Loops: 1
Incompatibilities with node-postgres
timestamp
and timestamp with time zone
returns UNIX timestamp in milliseconds.- Connection pool
connect()
method requires that connection is restricted to a single promise routine (see Checking out a client from the connection pool).
Conventions
No multiline values
Slonik will strip all comments and line-breaks from a query before processing it.
This makes logging of the queries easier.
The implication is that your query cannot contain values that include a newline character, e.g.
// Do not do this
connection.query(sql`INSERT INTO foo (bar) VALUES ('\n')`);
If you want to communicate a value that includes a multiline character, use value placeholder interpolation, e.g.
connection.query(sql`INSERT INTO foo (bar) VALUES (${'\n'})`);
Value placeholders
Anonymous placeholders
Slonik enables use of question mark (?
) value placeholders, e.g.
await connection.query(sql`SELECT ?`, [
1
]);
Question mark value placeholders are converted to positional value placeholders before they are passed to the pg
driver, i.e. the above query becomes:
SELECT $1
Note: Mixing anonymous and position placeholders in a single query will result in an error.
A value set
A question mark is interpolated into a value set when the associated value is an array, e.g.
await connection.query(sql`SELECT ?`, [
[
1,
2,
3
]
]);
Produces:
SELECT ($1, $2, $3)
Multiple value sets
A question mark is interpolated into a list of value sets when the associated value is an array of arrays, e.g.
await connection.query(sql`SELECT ?`, [
[
[
1,
2,
3
],
[
1,
2,
3
]
]
]);
Produces:
SELECT ($1, $2, $3), ($4, $5, $6)
Named placeholders
A :[a-zA-Z]
regex is used to match named placeholders.
await connection.query(sql`SELECT :foo`, {
foo: 'FOO'
});
Produces:
SELECT $1
Tagged template literals
Slonik query methods can only be executed using sql
tagged template literal, e.g.
import {
sql
} from 'slonik'
connection.query(sql`
INSERT INTO reservation_ticket (reservation_id, ticket_id)
VALUES ${values}
`);
Arguments of a tagged template literal invocation are replaced with an anonymous value placeholder, i.e. the latter query is equivalent to:
connection.query(sql`
INSERT INTO reservation_ticket (reservation_id, ticket_id)
VALUES ?
`, [
values
]);
Creating dynamic delimited identifiers
Delimited identifiers are created by enclosing an arbitrary sequence of characters in double-quotes ("). To create create a delimited identifier, create an sql
tag function placeholder value using sql.identifier
, e.g.
sql`
SELECT ${'foo'}
FROM ${sql.identifier(['bar', 'baz'])}
`;
Inlining dynamic/ raw SQL
Raw SQL can be inlined using sql.raw
, e.g.
sql`
SELECT ${'foo'}
FROM ${sql.raw('"bar"')}
`;
Query methods
any
Returns result rows.
Example:
const rows = await connection.any(sql`SELECT foo`);
#any
is similar to #query
except that it returns rows without fields information.
anyFirst
Returns value of the first column of every row in the result set.
- Throws
DataIntegrityError
if query returns multiple rows.
Example:
const fooValues = await connection.anyFirst(sql`SELECT foo`);
insert
Used when inserting 1 row.
Example:
const {
insertId
} = await connection.insert(sql`INSERT INTO foo SET bar='baz'`);
The reason for using this method over #query
is to leverage the strict types. #insert
method result type is InsertResultType
.
many
Returns result rows.
- Throws
NotFoundError
if query returns no rows.
Example:
const rows = await connection.many(sql`SELECT foo`);
manyFirst
Returns value of the first column of every row in the result set.
- Throws
NotFoundError
if query returns no rows. - Throws
DataIntegrityError
if query returns multiple rows.
Example:
const fooValues = await connection.many(sql`SELECT foo`);
maybeOne
Selects the first row from the result.
- Returns
null
if row is not found. - Throws
DataIntegrityError
if query returns multiple rows.
Example:
const row = await connection.maybeOne(sql`SELECT foo`);
maybeOneFirst
Returns value of the first column from the first row.
- Returns
null
if row is not found. - Throws
DataIntegrityError
if query returns multiple rows. - Throws
DataIntegrityError
if query returns multiple columns.
Example:
const foo = await connection.maybeOneFirst(sql`SELECT foo`);
one
Selects the first row from the result.
- Throws
NotFoundError
if query returns no rows. - Throws
DataIntegrityError
if query returns multiple rows.
Example:
const row = await connection.one(sql`SELECT foo`);
Note:
I've been asked "What makes this different from knex.js knex('foo').limit(1)
?".
knex('foo').limit(1)
simply generates "SELECT * FROM foo LIMIT 1" query.
knex
is a query builder; it does not assert the value of the result.
Slonik #one
adds assertions about the result of the query.
oneFirst
Returns value of the first column from the first row.
- Throws
NotFoundError
if query returns no rows. - Throws
DataIntegrityError
if query returns multiple rows. - Throws
DataIntegrityError
if query returns multiple columns.
Example:
const foo = await connection.oneFirst(sql`SELECT foo`);
query
API and the result shape are equivalent to pg#query
.
transaction
transaction
method is used wrap execution of queries in START TRANSACTION
and COMMIT
or ROLLBACK
. COMMIT
is called if the transaction handler returns a promise that resolves; ROLLBACK
is called otherwise.
transaction
method can be used together with createPool
method. When used to create a transaction from an instance of a pool, a new connection is allocated for the duration of the transaction.
const result = await connection.transaction(async (transactionConnection) => {
await transactionConnection.query(sql`INSERT INTO foo (bar) VALUES ('baz')`);
await transactionConnection.query(sql`INSERT INTO qux (quux) VALUES ('quuz')`);
return 'FOO';
});
result === 'FOO';
Error handling
All Slonik errors extend from SlonikError
, i.e. You can catch Slonik specific errors using the following logic.
import {
SlonikError
} from 'slonik';
try {
await query();
} catch (error) {
if (error instanceof SlonikError) {
}
}
Handling NotFoundError
To handle the case where query returns less than one row, catch NotFoundError
error.
import {
NotFoundError
} from 'slonik';
let row;
try {
row = await connection.one(sql`SELECT foo`);
} catch (error) {
if (!(error instanceof NotFoundError)) {
throw error;
}
}
if (row) {
}
Handling DataIntegrityError
To handle the case where the data result does not match the expectations, catch DataIntegrityError
error.
import {
NotFoundError
} from 'slonik';
let row;
try {
row = await connection.one(sql`SELECT foo`);
} catch (error) {
if (error instanceof DataIntegrityError) {
console.error('There is more than one row matching the select criteria.');
} else {
throw error;
}
}
Handling NotNullIntegrityConstraintViolationError
NotNullIntegrityConstraintViolationError
is thrown when Postgres responds with unique_violation
(23502
) error.
Handling ForeignKeyIntegrityConstraintViolationError
ForeignKeyIntegrityConstraintViolationError
is thrown when Postgres responds with unique_violation
(23503
) error.
Handling UniqueIntegrityConstraintViolationError
UniqueIntegrityConstraintViolationError
is thrown when Postgres responds with unique_violation
(23505
) error.
Handling CheckIntegrityConstraintViolationError
CheckIntegrityConstraintViolationError
is thrown when Postgres responds with unique_violation
(23514
) error.
Types
This package is using Flow types.
Refer to ./src/types.js
.
The public interface exports the following types:
DatabaseConnectionType
DatabasePoolConnectionType
DatabaseSingleConnectionType
Use these types to annotate connection
instance in your code base, e.g.
import type {
DatabaseConnectionType
} from 'slonik';
export default async (
connection: DatabaseConnectionType,
code: string
): Promise<number> => {
const countryId = await connection.oneFirst(sql`
SELECT id
FROM country
WHERE code = ${code}
`);
return countryId;
};
Debugging
Logging
Slonik uses roarr to log queries.
To enable logging, define ROARR_LOG=true
environment variable.
By default, Slonik logs the input query, query execution time and affected row count.
You can enable additional logging details by configuring the following environment variables.
export SLONIK_LOG_VALUES=true
export SLONIK_LOG_NORMALISED=true
Log stack trace
SLONIK_LOG_STACK_TRACE=1
will create a stack trace before invoking the query and include the stack trace in the logs, e.g.
{"context":{"package":"slonik","namespace":"slonik","logLevel":20,"executionTime":"357 ms","queryId":"01CV2V5S4H57KCYFFBS0BJ8K7E","rowCount":1,"sql":"SELECT schedule_cinema_data_task();","stackTrace":["/Users/gajus/Documents/dev/applaudience/data-management-program/node_modules/slonik/dist:162:28","/Users/gajus/Documents/dev/applaudience/data-management-program/node_modules/slonik/dist:314:12","/Users/gajus/Documents/dev/applaudience/data-management-program/node_modules/slonik/dist:361:20","/Users/gajus/Documents/dev/applaudience/data-management-program/node_modules/slonik/dist/utilities:17:13","/Users/gajus/Documents/dev/applaudience/data-management-program/src/bin/commands/do-cinema-data-tasks.js:59:21","/Users/gajus/Documents/dev/applaudience/data-management-program/src/bin/commands/do-cinema-data-tasks.js:590:45","internal/process/next_tick.js:68:7"],"values":[]},"message":"query","sequence":4,"time":1540915127833,"version":"1.0.0"}
{"context":{"package":"slonik","namespace":"slonik","logLevel":20,"executionTime":"66 ms","queryId":"01CV2V5SGS0WHJX4GJN09Z3MTB","rowCount":1,"sql":"SELECT cinema_id \"cinemaId\", target_data \"targetData\" FROM cinema_data_task WHERE id = ?","stackTrace":["/Users/gajus/Documents/dev/applaudience/data-management-program/node_modules/slonik/dist:162:28","/Users/gajus/Documents/dev/applaudience/data-management-program/node_modules/slonik/dist:285:12","/Users/gajus/Documents/dev/applaudience/data-management-program/node_modules/slonik/dist/utilities:17:13","/Users/gajus/Documents/dev/applaudience/data-management-program/src/bin/commands/do-cinema-data-tasks.js:603:26","internal/process/next_tick.js:68:7"],"values":[17953947]},"message":"query","sequence":5,"time":1540915127902,"version":"1.0.0"}
Use @roarr/cli
to pretty-print the output.
Syntax highlighting
Atom
Using Atom IDE you can leverage the language-babel
package in combination with the language-sql
to enable highlighting of the SQL strings in the codebase.
To enable highlighting, you need to:
- Install
language-babel
and language-sql
packages. - Configure
language-babel
"JavaScript Tagged Template Literal Grammar Extensions" setting to use language-sql
to highlight template literals with sql
tag (configuration value: sql:source.sql
). - Use
sql
helper to construct the queries.
For more information, refer to the JavaScript Tagged Template Literal Grammar Extensions documentation of language-babel
package.