pg-promise

Complete access layer to node-postgres via Promises/A+.

• Supporting Promise, Bluebird, When, Q, etc.
• Transactions, functions, flexible query formatting;
• Automatic database connections;
• Strict query result filters.

• About
• Installing
  • Documentation
• Testing
• Getting Started
  • Initializing
  • Connecting
  • Learn by Example
• Usage
  • Queries and Parameters
    • Query Result Mask
  • Named Parameters
  • Conversion Helpers
  • Custom Type Formatting
    • Raw Custom Types
  • Connections
    • Detached Connections
    • Shared Connections
    • Tasks
  • Transactions
    • Detached Transactions
    • Shared-connection Transactions
    • Nested Transactions
    • Synchronous Transactions
• Advanced
  • Initialization Options
    • pgFormatting
    • promiseLib
    • connect
    • query
    • error
    • task
    • transact
    • extend
    • noLocking
  • Library de-initialization
• History
• License

About

Built on top of node-postgres and its connection pool, this library translates their callback interface into one based on Promises/A+, while extending the protocol to a higher level, with automated connections and transactions management.

In addition, the library provides:

• its own, more flexible query formatting;
• event reporting for connectivity, errors, queries and transactions;
• declarative approach to controlling query results;
• support for all popular promise libraries.

Installing

$ npm install pg-promise

Documentation

In addition to the online documentation, there is in-line API documentation, based on jsDoc.

In order to generate it, you need to do the following:

• $ cd node_modules/pg-promise
• $ npm install - to install DEV dependencies of the library;
• $ npm run doc - will generate the documentation;
• open out/index.html in a web browser.

Alternatively, you can use its converted version of the API, which doesn't look as good though, and is a work in progress.

Testing

• Install the library's dependencies:

$ npm install

• Make sure all tests can connect to your local test database, using the connection details in test/db/header.js. Either set up your test database accordingly or change the connection details in that file.

• Initialize the database with some test data:

$ node test/db/init.js

• To run all tests:

$ npm test

• To run all tests with coverage:

$ npm run coverage

Getting Started

Initializing

// Loading and initializing the library:
var pgp = require('pg-promise')(/*options*/);

You can pass options parameter when initializing the library (see chapter Initialization Options).

Connecting

Use one of the two ways to specify database connection details:

• Configuration Object:

var cn = {
    host: 'localhost', // server name or IP address;
    port: 5432,
    database: 'my_db_name',
    user: 'user_name',
    password: 'user_password'
};

• Connection String:

var cn = "postgres://username:password@host:port/database";

This library doesn't use any of the connection's details, it simply passes them on to PG when opening a connection. For more details see pg connection parameters in WiKi and implementation.

Create a new database instance from the connection details:

var db = pgp(cn);

There can be multiple database objects in the application for different connections.

To get started quickly, see our Learn by Example tutorial.

Usage

Queries and Parameters

Every connection context of the library shares the same query protocol, starting with generic method query, defined as shown below:

function query(query, values, qrm);

• query (required) - a string with support for three types of formatting, depending on the values passed:
  • format $1 (single variable), if values is of type string, boolean, number, Date, function or null;
  • format $1, $2, etc.., if values is an array;
  • format $*propName*, if values is an object (not null and not Date), where * is any of the supported open-close pairs: {}, (), <>, [], //;
• values (optional) - value/array/object to replace the variables in the query;
• qrm - (optional) Query Result Mask, as explained below. When not passed, it defaults to pgp.queryResult.any.

When a value/property inside array/object is an array, it is treated as a PostgreSQL Array Type, converted into the array constructor format of array[], the same as calling method as.array().

Examples:

console.log(pgp.as.array([[1, 2, 3], [4, 5, null]]));
// will print: array[[1,2,3],[4,5,null]]

console.log(pgp.as.array([['one', 'two'], [undefined, 'four']]));
// will print: array[['one','two'],[null,'four']]

console.log(pgp.as.array([[1, 2], ['three', 'four']]));
// will print: array[[1,2],['three','four']],
// but executing it within a query will throw an error
// due to heterogeneous data type in the array.

When a value/property inside array/object is of type object (except for null and Date), it is automatically serialized into JSON, the same as calling method as.json(), except the latter would convert anything to JSON.

Raw-text values can be injected by appending the variable name with symbol ^: $1^, $2^, etc..., $*varName^*, where * is any of the supported open-close pairs: {}, (), <>, [], //

Raw text is injected without any pre-processing, which means:

• No replacing each single-quote symbol ' with two;
• No wrapping text into single quotes.

This is to allow for special-case variable formatting, like in the following examples:

// injecting "John" name without quotes:
query("...WHERE name LIKE '%$1^%'", "John");

// injecting value of property 'name' without quotes:
query("...WHERE name LIKE '%${name^}%'", {name: "John"});

// injecting a CSV-formatted text without quotes:
query("...WHERE id IN($1^)", pgp.as.csv([1,2,3,4])); 

Query Result Mask

In order to eliminate the chances of unexpected query results and thus make the code more robust, method query uses parameter qrm (Query Result Mask):

///////////////////////////////////////////////////////
// Query Result Mask flags;
//
// Any combination is supported, except for one + many.
var queryResult = {
    one: 1,     // single-row result is expected;
    many: 2,    // multi-row result is expected;
    none: 4,    // no rows expected;
    any: 6      // (default) = many|none = any result.
};

In the following generic-query example we indicate that the call can return anything:

db.query("select * from users");

which is equivalent to making one of the following calls:

var qrm = pgp.queryResult;
db.query("select * from users", undefined, qrm.many | qrm.none);
db.query("select * from users", undefined, qrm.any);
db.manyOrNone("select * from users");
db.any("select * from users");

This usage pattern is facilitated through result-specific methods that can be used instead of the generic query:

db.many(query, values); // expects one or more rows
db.one(query, values); // expects a single row
db.none(query, values); // expects no rows
db.any(query, values); // expects anything, same as `manyOrNone`
db.oneOrNone(query, values); // expects 1 or 0 rows
db.manyOrNone(query, values); // expects anything, same as `any`

There is however one specific method result(query, values) to bypass any result verification, and instead resolve with the original Result object passed from the PG library.

You can also add your own methods and properties to this protocol via the extend event.

Each query function resolves its data object according to the qrm that was used:

• none - data is undefined. If the query returns any kind of data, it is rejected.
• one - data is a single object. If the query returns no data or more than one row of data, it is rejected.
• many - data is an array of objects. If the query returns no rows, it is rejected.
• one|none - data is null, if no data was returned; or a single object, if there was one row of data returned. If the query returns more than one row of data, the query is rejected.
• many|none - data is an array of objects. When no rows are returned, data is an empty array.

If you try to specify one|many in the same query, such query will be rejected without executing it, telling you that such mask is invalid.

If qrm is not specified when calling generic query method, it is assumed to be many|none = any, i.e. any kind of data expected.

This is all about writing robust code, when the client specifies what kind of data it is ready to handle on the declarative level, leaving the burden of all extra checks to the library.

Named Parameters

The library supports named parameters in query formatting, with the syntax of $*propName*, where * is any of the following open-close pairs: {}, (), <>, [], //

db.query("select * from users where name=${name} and active=$/active/", {
    name: 'John',
    active: true
});

The same goes for all types of query methods as well as method as.format(query, values), where values now can also be an object whose properties can be referred to by name from within the query.

A valid property name consists of any combination of letters, digits, underscores or $, and they are case-sensitive. Leading and trailing spaces around property names are ignored.

It is important to know that while property values null and undefined are both formatted as null, an error is thrown when the property doesn't exist at all.

Functions and Procedures

In PostgreSQL stored procedures are just functions that usually do not return anything.

Suppose we want to call function findAudit to find audit records by user id and maximum timestamp. We can make such call as shown below:

db.func('findAudit', [123, new Date()])
    .then(function (data) {
        console.log(data); // printing the data returned
    })
    .catch(function (error) {
        console.log(error); // printing the error
    });

We passed it user id = 123, plus current Date/Time as the timestamp. We assume that the function signature matches the parameters that we passed. All values passed are serialized automatically to comply with PostgreSQL type formats.

Method func accepts optional third parameter - qrm (Query Result Mask), the same as method query.

And when you are not expecting any return results, call db.proc instead. Both methods return a Promise object, but db.proc doesn't take a qrm parameter, always assuming it is one|none.

Summary for supporting procedures and functions:

var qrm = pgp.queryResult;
db.func(query, values, qrm); // expects the result according to `qrm`
db.proc(query, values); // calls db.func(query, values, qrm.one | qrm.none)

Conversion Helpers

The library provides several helper functions to convert javascript types into their proper PostgreSQL presentation that can be passed directly into queries or functions as parameters. All of such helper functions are located within namespace pgp.as, and each function returns a formatted string when successful or throws an error when it fails.

pgp.as.bool(value); // converts value into PostgreSQL boolean presentation;

pgp.as.number(value);
                    // converts value into PostgreSQL number presentation,
                    // with support for NaN, +Infinity and -Infinity;

pgp.as.text(value, raw);
                    // converts value into PostgreSQL text presentation,
                    // fixing single-quote symbols and wrapping the result
                    // in quotes (unless flag 'raw' is set);

pgp.as.date(value, raw);
                    // converts value into PostgreSQL date/time presentation,
                    // wrapped in quotes (unless flag 'raw' is set);

pgp.as.json(value, raw);
                    // converts any value into JSON (using JSON.stringify),
                    // then fixes single-quote symbols and wraps it up in
                    // single quotes (unless flag 'raw' is set);

pgp.as.array(value); // converts value-array into PostgreSQL Array Type constructor
                     // string: array[]

pgp.as.csv(value);  // returns a CSV string with values formatted according
                    // to their type, using the above methods;

pgp.as.func(func, raw, obj);
                    // calls the function to get the actual value, and then
                    // formats it according to the returned type + 'raw' flag;
                    // obj - optional, 'this' context for the function. 

pgp.as.format(query, values);
            // replaces variables in the query with their 'values' as specified;
            // 'values' can be a single value, an array or an object.

Methods bool, number, text, date, json, array and csv accept the value-parameter as a function to be called for resolving the actual value.

For methods which take optional flag raw it is to indicate that the return text is to be without any pre-processing:

• No replacing each single-quote symbol ' with two;
• No wrapping text into single quotes;
• Throwing an error when the variable value is null or undefined.

This adheres to the query formatting, as well as method as.format when variable names are appended with symbol ^: $1^, $2^, etc... or $*varName^*, where * is any of the supported open-close pairs: {}, (), <>, [], //

As none of these helpers are associated with the database, they are synchronous, and can be used from anywhere.

There are some cases where you might want to use a combination of these methods instead of the implicit parameter formatting through query methods. For example, if you want to generate a filter string to be used where applicable, you might use a code like this:

function createFilter(filter){
    var cnd = []; // conditions;
    if(filter.start){
        // add start date condition;
        cnd.push(pgp.as.format("start >= $1::date", filter.start));
    }
    if(filter.end){
        // add end date condition;
        cnd.push(pgp.as.format("end <= $1::date", filter.end));
    }
    if(filter.active !== undefined){
        // add active flag;
        cnd.push(pgp.as.format("active = $1", filter.active));
    }
    if(filter.name){
        // add name-like condition with a raw-text variable
        // by appending '^' to its name;
        cnd.push(pgp.format("name like '%$1^%'", filter.name));
    }
    return cnd.join(" and "); // returning the complete filter string;
}

Custom Type Formatting

When we pass values as a single parameter or inside an array, it is verified to be an object that supports function formatDBType, as either its own or inherited. And if the function exists, its return result overrides both the actual value and the formatting syntax for parameter query.

This allows use of your own custom types as formatting parameters for the queries, as well as overriding formatting for standard object types, such as Date and Array.

Example: your own type formatting

function Money(m) {
    this.amount = m;
    this.formatDBType = function () {
        // return a string with 2 decimal points;
        return this.amount.toFixed(2);
    }
}

Example: overriding standard types

Date.prototype.formatDBType = function () {
    // format Date as a local timestamp;
    return this.getTime();
};

Function formatDBType is allowed to return absolutely anything, including:

• instance of another object that supports its own custom formatting;
• instance of another object that doesn't have its own custom formatting;
• another function, with recursion of any depth;

Please note that the return result from formatDBType may even affect the formatting syntax expected within parameter query, as explained below.

If you pass in values as an object that has function formatDBType, and that function returns an array, then your query is expected to use $1, $2 as the formatting syntax.

And if formatDBType in that case returns a custom-type object that doesn't support custom formatting, then query will be expected to use $*propName* as the formatting syntax.

Raw Custom Types

This features allows overriding raw flag for the values returned from custom types.

Any custom type or standard type that implements function formatDBType can now also set property _rawDBType = true to force raw variable formatting on the returned value.

This makes the custom type formatting ultimately flexible, as now there is no limitation as to how a custom type can format its value.

For example, some special types, like UUID, do not have natural presentation in JavaScript, so they have to be converted into text strings when passed into the query formatting. For an array of UUID-s, for instance, you would have to explicitly cast the formatted value with ::uuid[] appended at the end of the variable.

Now you can implement your own presentation for UUID that does not require extra casting:

function UUID(value) {
    this.uuid = value;
    this._rawDBType = true; // force raw format on output;
    this.formatDBType = function () {
        // alternatively, you can set flag
        // _rawDBType during this call:
        // this._rawDBType = true;
        return this.uuid;
    };
}

When you chain one custom-formatting type to return another one, please note that setting _rawDBType on any level will set the flag for the entire chain.

Connections

The library supports promise-chained queries on shared and detached connections. Choosing which one to use depends on the situation and personal preferences.

Detached Connections

Queries in a detached promise chain maintain connection independently, they each acquire a connection from the pool, execute the query and then release the connection back to the pool.

db.one("select * from users where id=$1", 123) // find the user from id;
    .then(function (data) {
        // find 'login' records for the user found:
        return db.query("select * from audit where event=$1 and userId=$2",
            ["login", data.id]);
    })
    .then(function (data) {
        console.log(data); // display found audit records;
    })
    .catch(function (error) {
        console.log(error); // display the error;
    });

In a situation where a single request is to be made against the database, a detached chain is the only one that makes sense. And even if you intend to execute multiple queries in a chain, keep in mind that even though each will use its own connection, such will be used from a connection pool, so effectively you end up with the same connection, without any performance penalty.

Shared Connections

A promise chain with a shared connection starts with connect(), which acquires a connection from the pool to be shared with all the queries down the promise chain. The connection must be released back to the pool when no longer needed.

var sco; // shared connection object;
db.connect()
    .then(function (obj) {
        sco = obj; // save the connection object;
        // find active users created before today:
        return sco.query("select * from users where active=$1 and created < $2",
            [true, new Date()]);
    })
    .then(function (data) {
        console.log(data); // display all the user details;
    })
    .catch(function (error) {
        console.log(error); // display the error;
    })
    .finally(function () {
        if (sco) {
            sco.done(); // release the connection, if it was successful;
        }
    });

Shared-connection chaining is when you want absolute control over the connection, either because you want to execute lots of queries in one go, or because you like squeezing every bit of performance out of your code. Other than that, the author hasn't seen any performance difference from the detached-connection chaining. And besides, any long sequence of queries normally resides inside a transaction, which always uses shared-connection chaining automatically.

NOTE: With later support for Tasks (below), shared connections became much easier to use.

Tasks

A task represents a shared connection to be used within a callback function.

A transaction, for example, is just a special type of task, wrapped in CONNECT->COMMIT/ROLLBACK.

db.task(function (t) {
    // t = this;
    // execute a chain of queries;
})
    .then(function (data) {
        // success;
    })
    .catch(function (error) {
        // failed;    
    });

The purpose of tasks is simply to provide a shared connection context within the callback function to execute and return a promise chain, and then automatically release the connection.

In other words, it is to simplify the use of shared connections, so instead of calling connect in the beginning and done in the end (if it was connected successfully), one can call db.task instead, execute all queries within the callback and return the result.

Transactions

Transactions can be executed within both shared and detached promise chains in the same way, performing the following actions:

1. Acquires a new connection (detached chains only);
2. Executes BEGIN command;
3. Invokes your callback function with the connection object;
4. Executes COMMIT, if the callback resolves, or ROLLBACK, if the callback rejects;
5. Releases the connection (detached chains only);
6. Resolves with the callback result, if success; rejects with the reason, if failed.

Detached Transactions

db.tx(function (t) {
    // t = this;
    // creating a sequence of transaction queries:
    var q1 = this.none("update users set active=$1 where id=$2", [true, 123]);
    var q2 = this.one("insert into audit(entity, id) values($1, $2) returning id",
        ['users', 123]);

    // returning a promise that determines a successful transaction:
    return this.batch([q1, q2]); // all of the queries are to be resolved;
})
    .then(function (data) {
        console.log(data); // printing successful transaction output;
    })
    .catch(function (error) {
        console.log(error); // printing the error;
    });

A detached transaction acquires a connection and exposes object t=this to let all containing queries execute on the same connection.

Shared-connection Transactions

var sco; // shared connection object;
db.connect()
    .then(function (obj) {
        sco = obj;
        return sco.oneOrNone("select * from users where active=$1 and id=$1", [true, 123]);
    })
    .then(function (data) {
        return sco.tx(function (t) {
            // t = this;
            var q1 = this.none("update users set active=$1 where id=$2", [false, data.id]);
            var q2 = this.one("insert into audit(entity, id) values($1, $2) returning id",
                ['users', 123]);

            // returning a promise that determines a successful transaction:
            return t.batch([q1, q2]); // all of the queries are to be resolved;
        });
    })
    .catch(function (error) {
        console.log(error); // printing the error;
    })
    .finally(function () {
        if (sco) {
            sco.done(); // release the connection, if it was successful;
        }
    });

If you need to execute just one transaction, the detached transaction pattern is all you need. But even if you need to combine it with other queries in a detached chain, it will work the same. As stated earlier, choosing a shared chain over a detached one is mostly a matter of special requirements and/or personal preference.

P.S. Tasks is a better way of using shared connections.

Nested Transactions

Similar to the shared-connection transactions, nested transactions automatically share the connection between all levels. This library sets no limitation as to the depth (nesting levels) of transactions supported.

Example:

db.tx(function (t) {
    // t = this;
    var queries = [
        this.none("drop table users;"),
        this.none("create table users(id serial not null, name text not null)")
    ];
    for (var i = 1; i <= 100; i++) {
        queries.push(this.none("insert into users(name) values($1)", "name-" + i));
    }
    queries.push(
        this.tx(function (t1) {
            // t1 = this != t;
            return this.tx(function (t2) {
                // t2 = this != t1 != t;
                return this.one("select count(*) from users");
            });
        }));
    return this.batch(queries);
})
    .then(function (data) {
        console.log(data); // printing transaction result;
    })
    .catch(function (error) {
        console.log(error); // printing the error;
    });

Things to note from the example above:

• A nested transaction cannot be disconnected from its container, i.e. it must get into the container's promise chain, or it will result in an attempt to execute against an unknown connection;
• A failure on any level in a nested transaction will ROLLBACK and reject the entire chain.

Synchronous Transactions

A regular task/transaction with a set of independent queries relies on method batch to resolve all queries asynchronously.

However, when it comes to executing a significant number of queries during a bulk INSERT or UPDATE, such approach is no longer practical. For one thing, it implies that all requests have been created as promise objects, which isn't possible when dealing with a huge number of queries, due to memory limitations imposed by NodeJS. And for another, when one query fails, the rest will continue trying to execute, due to their promise nature, as being asynchronous. The latter may result in executing queries outside of their connection context.

This is why within each task/transaction we have method sequence, to be able to execute a strict sequence of queries one by one, and if one fails - the rest won't try to execute.

function source(index, data, delay) {
    // must create and return a promise object dynamically,
    // based on the index of the sequence;
    switch (index) {
        case 0:
            return this.query("select 0");
        case 1:
            return this.query("select 1");
        case 2:
            return this.query("select 2");
    }
    // returning nothing/undefined indicates the end of the sequence;
    // throwing an error will result in a reject;
}

db.tx(function (t) {
    // t = this;
    return this.sequence(source);
})
    .then(function (data) {
        console.log(data); // print result;
    })
    .catch(function (error) {
        console.log(error); // print the error;
    });

Advanced

Initialization Options

When initializing the library, you can pass object options with a set of global properties:

var options = {
    // pgFormatting - redirects query formatting to PG;
    // promiseLib - overrides default promise library;
    // connect - database 'connect' notification;
    // disconnect - database 'disconnect' notification;
    // query - query execution notification;
    // task - task notification;
    // transact - transaction notification;
    // error - error notification;
    // extend - protocol extension event;
    // noLocking - prevents protocol locking;
};
var pgp = require('pg-promise')(options);

If you want to get the most out the query-related events, you should use pg-monitor.

pgFormatting

By default, pg-promise provides its own implementation of the query formatting, as explained in Queries and Parameters.

If, however, you want to use query formatting that's implemented by the PG library, set parameter pgFormatting to be true when initializing the library, and every query formatting will redirect to the PG's implementation.

Although this has a huge implication for the library's functionality, it is not within the scope of this project to detail. For any further reference you should use documentation of the PG library.

Note the following formatting features implemented by pg-promise that are not in node-postgres:

• Custom Type Formatting
• Single-value formatting: pg-promise doesn't require use of an array when passing a single value;
• Raw-Text support: injecting raw/pre-formatted text values into the query;
• Functions as formatting parameters, with the actual values returned from the callbacks;
• PostgreSQL Array Constructors are used when formatting arrays, not the old string syntax;
• Automatic conversion of numeric NaN, +Infinity and -Infinity into their string presentation;

NOTE: Formatting parameters for calling functions (methods func and proc) is not affected by this override. When needed, use the generic query instead to invoke functions with redirected query formatting.

promiseLib

By default, pg-promise uses ES6 Promise. If your version of NodeJS doesn't support ES6 Promise, or you want a different promise library to be used, set this property to the library's instance.

Example of switching over to Bluebird:

var promise = require('bluebird');
var options = {
    promiseLib: promise
};
var pgp = require('pg-promise')(options);

This library requires only the basic resolve and reject to be available within the promise library that's specified.

Promises/A+ libraries that passed our compatibility test and are currently supported:

• ES6 Promise - used by default, though it doesn't have done() or finally().
• Bluebird - best alternative all around;
• Promise - very solid library;
• When - quite old, not the best support;
• Q - most widely used;
• RSVP - doesn't have done(), use finally/catch instead
• Lie - doesn't have done(). Not recommended due to poor support.

Compatibility with other Promises/A+ libraries though possible, is an unknown.

connect

Global notification function of acquiring a new database connection from the connection pool, i.e. a virtual connection.

var options = {
    connect: function(client){
        var cp = client.connectionParameters;
        console.log("Connected to database '" + cp.database + "'");
    }
};

The function takes only one parameter - client object from the PG library that represents connection with the database.

The library will suppress any error thrown by the handler and write it into the console.

NOTE: The library will throw an error instead of making the call, if options.connect is set to a non-empty value other than a function.

disconnect

Global notification function of releasing a database connection back to the connection pool, i.e. releasing the virtual connection.

var options = {
    disconnect: function(client){
        var cp = client.connectionParameters;
        console.log("Disconnecting from database '" + cp.database + "'");
    }
};

The function takes only one parameter - client object from the PG library that represents the connection that's being released.

The library will suppress any error thrown by the handler and write it into the console.

NOTE: The library will throw an error instead of making the call, if options.disconnect is set to a non-empty value other than a function.

query

Global notification of a query that's being executed.

var options = {
    query: function (e) {
        console.log("Query:", e.query);
        if (e.ctx) {
            // this query is executing inside a task or transaction,
            if (e.ctx.isTX) {
                // this query is inside a transaction;
            } else {
                // this query is inside a task;
            }

        }
    }
};

Notification happens just before the query execution. And if the handler throws an error, the query execution will be rejected with that error.

Parameter e is the event's context object that shares its format between events query, error, task and transact. It supports the following properties, all of which are optional:

• cn - connection details, passed only with a connection-related error event.
• client - object from the PG library that represents the connection;
• query - input query string;
• params - input query parameters;
• ctx - task/transaction context object;

A task/transaction context object (ctx) supports the following properties:

• isTX - set when ctx is a transaction context, as opposed to just a task;
• start - start time of the task/transaction;
• finish - optional; finish time of the task/transaction, if it has finished;
• tag - optional; tag object/value passed into the task/transaction, if any;
• success - optional; indicates success for a finished task/transaction;
• result - optional; task/transaction result, if finished: data resolved by the task/transaction, if success is true, otherwise it is set to the reason that was passed when rejecting the task/transaction.

A task/transaction can be tagged when it is called using the following syntax:

// for tasks:
db.task(tag, cb);

// for transactions:
db.tx(tag, cb);
// or
db.transact(tag, cb);

i.e. in front of the callback function you can inject a value or object that tags the task/transaction, so it can be used as a reference when handling events.

All properties of ctx marked as optional are not set, unless they are relevant to the event.

NOTE: The library will throw an error instead of making the call, if options.query is set to a non-empty value other than a function.

error

Global notification of an error during connection, query, task or transaction.

var options = {
    error: function (err, e) {
        console.log("Error: " + err);
        if (e.cn) {
            // this is a connection-related error;
            // cn = connection details that were used.
        }
        if (e.query) {
            console.log("Query:", e.query);
            if (e.params) {
                console.log("Parameters:", e.params);
            }
        }
        if (e.ctx) {
            // print transaction details;
        }
    }
};

For parameter e see documentation of the query event earlier.

The library will suppress any error thrown by the handler and write it into the console.

NOTE: The library will throw an error instead of making the call, if options.error is set to a non-empty value other than a function.

task

Global notification of a task start / finish events.

var options = {
    task: function (e) {
        console.log("Start Time: " + e.ctx.start);
        if (e.ctx.finish) {
            // this is a task `finish` event;
            console.log("Finish Time: " + e.ctx.finish);
            if (e.ctx.success) {
                // e.ctx.result = the data resolved;
            } else {
                // e.ctx.result = the rejection reason;
            }
        } else {
            // this is a task `start` event;
        }
    }
};

For parameter e see documentation of the query event earlier.

The library will suppress any error thrown by the handler and write it into the console.

transact

Global notification of a transaction start / finish events.

var options = {
    transact: function (e) {
        console.log("Start Time: " + e.ctx.start);
        if (e.ctx.finish) {
            // this is a transaction `finish` event;
            console.log("Finish Time: " + e.ctx.finish);
            if (e.ctx.success) {
                // e.ctx.result = the data resolved;
            } else {
                // e.ctx.result = the rejection reason;
            }
        } else {
            // this is a transaction `start` event;
        }
    }
};

For parameter e see documentation of the query event earlier.

The library will suppress any error thrown by the handler and write it into the console.

NOTE: The library will throw an error instead of making the call, if options.transact is set to a non-empty value other than a function.

extend

Override this event to extend the existing access layer with your own functions and properties best suited for your application.

The extension thus becomes available across all access layers:

• Within the root/default database protocol;
• Inside transactions, including nested ones;
• Inside tasks, including nested ones.

In the example below we extend the protocol with function addImage that will insert one binary image and resolve with the new record id:

var options = {
    extend: function (obj) {
        // obj = this;
        obj.addImage = function (data) {
            return obj.one("insert into images(data) values($1) returning id",
                '\\x' + data);
        }
    }
};

NOTE: All pre-defined methods and properties are read-only, so you will get an error, if you try overriding them.

It is best to extend the protocol by adding whole entity repositories to it as shown in the following example.

// Users repository;
function repUsers(obj) {
    return {
        add: function (name, active) {
            return obj.none("insert into users values($1, $2)", [name, active]);
        },
        delete: function (id) {
            return obj.none("delete from users where id=$1", id);
        }
    }
}

// Overriding 'extend' event;
var options = {
    extend: function (obj) {
        // obj = this;
        this.users = repUsers(this);
    }
};

// Usage example:
db.users.add("John", true)
    .then(function () {
        // user added successfully;
    })
    .catch(function (error) {
        // failed to add the user;
    });

The library will suppress any error thrown by the handler and write it into the console.

NOTE: The library will throw an error instead of making the call, if options.extend is set to a non-empty value other than a function.

noLocking

By default, the library locks its protocol to read-only access, as a fool-proof mechanism. Specifically for the extend event this serves as a protection against overriding existing properties or trying to set them at the wrong time.

If this provision gets in the way of using a mock-up framework for your tests, you can force the library to deactivate most of the locks by setting noLocking=true within the options.

Library de-initialization

When exiting your application, you can make the following call:

pgp.end();

This will release pg connection pool globally and make sure that the process terminates without any delay. If you do not call it, your process may be waiting for 30 seconds (default for poolIdleTimeout), waiting for the connection to expire in the pool.

If, however you normally exit your application by killing the NodeJS process, then you don't need to use it.

History

• Version 2.2.0 major rework on the nested transactions support. Released: October 23, 2015
• Version 2.0.8 added all the long-outstanding breaking changes. Released: October 12, 2015
• Version 1.11.0 added noLocking initialization option. Released: September 30, 2015.
• Version 1.10.3 added enforced locks on every level of the library. Released: September 11, 2015.
• Version 1.10.0 added support for batch execution within tasks and transactions. Released: September 10, 2015.
• Version 1.9.5 added support for Raw Custom Types. Released: August 30, 2015.
• Version 1.9.3 added support for Custom Type Formatting. Released: August 30, 2015.
• Version 1.9.0 added support for Tasks + initial jsDoc support. Released: August 21, 2015.
• Version 1.8.2 added support for Prepared Statements. Released: August 01, 2015.
• Version 1.8.0 added support for Query Streaming via node-pg-query-stream. Released: July 23, 2015.
• Version 1.7.2 significant code refactoring and optimizations; added support for super-massive transactions. Released: June 27, 2015.
• Version 1.6.0 major update for the test platform + adding coverage. Released: June 19, 2015.
• Version 1.5.0 major changes in architecture and query formatting. Released: June 14, 2015.
• Version 1.4.0 added this context to all callbacks where applicable. Released: May 31, 2015.
• Version 1.3.1 extended Named Parameters syntax to support {},(),[],<> and //. Released: May 24, 2015.
• Version 1.3.0 much improved error handling and reporting. Released: May 23, 2015.
• Version 1.2.0 extended Named Parameters syntax with $(varName). Released: May 16, 2015.
• Version 1.1.0 added support for functions as parameters. Released: April 3, 2015.
• Version 1.0.5 added strict query sequencing for transactions. Released: April 26, 2015.
• Version 1.0.3 added method queryRaw(query, values). Released: April 19, 2015.
• Version 1.0.1 improved error reporting for queries. Released: April 18, 2015.
• Version 1.0.0 official release milestone. Released: April 17, 2015.
• Version 0.9.8 added native json support, extended numeric support for NaN, +Infinity and -Infinity. Released: April 16, 2015.
• Version 0.9.7 received support for protocol extensibility. Released: April 15, 2015.
• Version 0.9.5 received support for raw-text variables. Released: April 12, 2015.
• Version 0.9.2 received support for PostgreSQL Array Types. Released: April 8, 2015.
• Version 0.9.0 changed the notification protocol. Released: April 7, 2015.
• Version 0.8.4 added support for error notifications. Released: April 6, 2015.
• Version 0.8.0 added support for named-parameter formatting. Released: April 3, 2015.
• Version 0.7.0 fixes the way as.format works (breaking change). Released: April 2, 2015.
• Version 0.6.2 has good database test coverage. Released: March 28, 2015.
• Version 0.5.6 introduces support for nested transaction. Released: March 22, 2015.
• Version 0.5.3 - minor changes; March 14, 2015.
• Version 0.5.1 included wider support for alternative promise libraries. Released: March 12, 2015.
• Version 0.5.0 introduces many new features and fixes, such as properties pgFormatting and promiseLib. Released on March 11, 2015.
• Version 0.4.9 represents a solid code base, backed up by comprehensive testing. Released on March 10, 2015.
• Version 0.4.0 is a complete rewrite of most of the library, made first available on March 8, 2015.
• Version 0.2.0 introduced on March 6th, 2015, supporting multiple databases.
• A refined version 0.1.4 released on March 5th, 2015.
• First solid Beta, 0.1.2 on March 4th, 2015.
• It reached first Beta version 0.1.0 on March 4th, 2015.
• The first draft v0.0.1 was published on March 3rd, 2015, and then rapidly incremented due to many initial changes that had to come in, mostly documentation.

License

Copyright (c) 2015 Vitaly Tomilov (vitaly.tomilov@gmail.com)

Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.