scs

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Published: Aug 6, 2017 License: MIT Imports: 0 Imported by: 0

README

SCS

godoc go report card

Session management for Go 1.7+

Features

  • Automatic loading and saving of session data via middleware.
  • Fast and very memory-efficient performance. See the benchmarks.
  • Choice of PostgreSQL, MySQL, Redis, encrypted cookie and in-memory storage engines. Custom storage engines are also supported.
  • Type-safe and sensible API. Designed to be safe for concurrent use.
  • Supports OWASP good-practices, including absolute and idle session timeouts and easy regeneration of session tokens.

Installation

SCS is broken up into small single-purpose packages for ease of use. You should install the session package and your choice of storage engine from the following table:

Package
session Provides session management middleware and helpers for manipulating session data
engine/memstore In-memory storage engine
engine/cookiestore Encrypted-cookie based storage engine
engine/pgstore PostgreSQL based storage eninge
engine/mysqlstore MySQL based storage engine
engine/redisstore Redis based storage engine
engine/boltstore BoltDB based storage engine
engine/buntstore BuntDB based storage engine

For example:

$ go get github.com/alexedwards/scs/session
$ go get github.com/alexedwards/scs/engine/memstore

Or (recommended) use use gvt to vendor the packages you need. For example:

$ gvt fetch github.com/alexedwards/scs/session
$ gvt fetch github.com/alexedwards/scs/engine/memstore

Examples

Basic use

Working with SCS is straightforward: use the session.Manage function to initialise a new session management middleware, then wrap your handlers or router with it.

package main

import (
    "io"
    "net/http"

    "github.com/alexedwards/scs/engine/memstore"
    "github.com/alexedwards/scs/session"
)

func main() {
    // Initialise a new storage engine. Here we use the memstore package, but the approach  
    // is the same no matter which back-end store you choose.
    engine := memstore.New(0)

    // Initialise the session manager middleware, passing in the storage engine as
    // the first parameter. This middleware will automatically handle loading and 
    // saving of session data for you.
    sessionManager := session.Manage(engine)

    // Set up your HTTP handlers in the normal way.
    mux := http.NewServeMux()
    mux.HandleFunc("/put", putHandler)
    mux.HandleFunc("/get", getHandler)

    // Wrap your handlers with the session manager middleware.
    http.ListenAndServe(":4000", sessionManager(mux))
}

func putHandler(w http.ResponseWriter, r *http.Request) {
    // Use the PutString helper to store a new key and associated string value in
    // the session data. Helpers are also available for many other data types.
    err := session.PutString(r, "message", "Hello from a session!")
    if err != nil {
        http.Error(w, err.Error(), 500)
    }
}

func getHandler(w http.ResponseWriter, r *http.Request) {
    // Use the GetString helper to retreive the string value associated with a key. 
    // The zero value is returned if the key does not exist.
    msg, err := session.GetString(r, "message")
    if err != nil {
        http.Error(w, err.Error(), 500)
        return
    }
    io.WriteString(w, msg)
}
Setting options

The session.Manage function accepts a range of functional options. You can specify any mixture of options, or none at all if you're happy with the defaults.

You can control how and when a session expires:

sessionManager := session.Manage(engine,
    // IdleTimeout sets the maximum length of time a session can be inactive
    // before it expires. By default IdleTimeout is not set (i.e. there is
    // no inactivity timeout).
    session.IdleTimeout(30*time.Minute),

    // Lifetime sets the maximum length of time that a session is valid for
    // before it expires. This is an 'absolute expiry' and is set when the
    // session is first created. The default value is 24 hours.
    session.Lifetime(3*time.Hour),

    // Persist sets whether the session cookie should be persistent or not
    // (i.e. whether it should be retained after a user closes their browser).
    // The default value is false.
    session.Persist(true),
)

You can control how the session cookie behaves:

sessionManager := session.Manage(engine,
    session.Domain("example.org"),  // Domain is not set by default.
    session.HttpOnly(false),        // HttpOnly attribute is true by default.
    session.Path("/account"),       // Path is set to "/" by default.
    session.Secure(true),           // Secure attribute is false by default.
)

And also set a custom error handler:

sessionManager := session.Manage(engine,
    // ErrorFunc allows you to control behavior when an error is encountered
    // loading or saving a session. The default behavior is for a HTTP 500
    // status code to be written to the ResponseWriter along with the plain-text
    // error string.
    session.ErrorFunc(ServerError),
)
…

func ServerError(w http.ResponseWriter, r *http.Request, err error) {
    log.Println(err.Error())
    http.Error(w, "Sorry, the application encountered an error", 500)
}
Storing data

SCS comes with built-in functions for storing and retreiving various types of data:

  • PutBool, GetBool, PopBool – for use with bool types

  • PutBytes, GetBytes, PopBytes – for use with byte slice []byte types

  • PutFloat, GetFloat, PopFloat – for use with float64 types

  • PutInt, GetInt, PopInt – for use with int types

  • PutInt64, GetInt64, PopInt64 – for use with int64 types

  • PutString, GetString, PopString – for use with string types

  • PutTime, GetTime, PopTime – for use with time.Time types

  • Keys – returns a alphabetically-sorted slice of all key names.

Custom types

Custom types can be stored and retreived using the PutObject and GetObject helpers.

Behind the scenes SCS uses gob encoding to store custom data types. For this to work properly:

  • Your custom type must first be registered with the encoding/gob package.
  • The fields of your custom types must be exported.

The GetObject function is computationally expensive, compared with the other built-in getters. Use it sparingly if performance is a major concern.

package main

import (
    "encoding/gob"
    "fmt"
    "net/http"

    "github.com/alexedwards/scs/engine/memstore"
    "github.com/alexedwards/scs/session"
)

// Note that the fields on the custom type are all exported.
type User struct {
    Name  string
    Email string
}

func main() {
    // Register the type with the encoding/gob package.
    gob.Register(User{})

    engine := memstore.New(0)
    sessionManager := session.Manage(engine)

    mux := http.NewServeMux()
    mux.HandleFunc("/put", putHandler)
    mux.HandleFunc("/get", getHandler)
    http.ListenAndServe(":4000", sessionManager(mux))
}

func putHandler(w http.ResponseWriter, r *http.Request) {
    // Initialise a pointer to a new custom object.
    user := &User{"Alice", "alice@example.com"}

    // Store the custom object in the session data. Important: you should pass in 
    // a pointer to your object, not the value.
    err := session.PutObject(r, "user", user)
    if err != nil {
        http.Error(w, err.Error(), 500)
    }
}

func getHandler(w http.ResponseWriter, r *http.Request) {
    // Initialise a pointer to a new, empty, custom object.
    user := &User{}

    // Read the custom object data from the session into the pointer.
    err := session.GetObject(r, "user", user)
    if err != nil {
        http.Error(w, err.Error(), 500)
        return
    }
    fmt.Fprintf(w, "Name: %s, Email: %s", user.Name, user.Email)
}
Flash data

The PopString function (and similar helpers for other data types) provide one-time 'read and remove' operations on session data. This is useful for implementing flash-message style functions, such as displaying a one-time notification message after processing a form.

func putHandler(w http.ResponseWriter, r *http.Request) {
    // Use the PutString helper to add the flash data as normal.
    err := session.PutString(r, "flashMessage", "This will be a one-time message!")
    if err != nil {
        http.Error(w, err.Error(), 500)
    }
}

func popHandler(w http.ResponseWriter, r *http.Request) {
    // Use the PopString helper to retrieve the string and delete it from the
    // session.
    msg, err := session.PopString(r, "flashMessage")
    if err != nil {
        http.Error(w, err.Error(), 500)
        return
    }
    io.WriteString(w, msg)
}
Preventing session fixation

To help prevent session fixation attacks you should renew the session token after any privilege level change.

SCS provides a RegenerateToken helper, which should be called before making any changes to the session data that affect user privileges (such as login or logout operations).

RegenerateToken creates a new session token (while retaining the session data), deletes the old session token from the storage engine, and sends the new session token to the client.

func loginHandler(w http.ResponseWriter, r *http.Request) {
    userID := 123

    // First regenerate the session token…
    err := session.RegenerateToken(r)
    if err != nil {
        http.Error(w, err.Error(), 500)
        return
    }

    // Then make the privilege-level change.
    err = session.PutInt(r, "userID", userID)
    if err != nil {
        http.Error(w, err.Error(), 500)
        return
    }
}
Destroying data and sessions

There are four different functions for deleting session data:

  • Remove - Deletes a single key and corresponding value from the session data.
  • Clear - Deletes all keys and values in the session data.
  • Destroy - Deletes all keys and values in the session data and removes the session from the storage engine. The client is instructed to delete the session cookie.
  • Renew - Establishes a new, empty session. The old session is deleted from the storage engine. This is essentially a a concurrency-safe amalgamation of the RegenerateToken and Clear functions.

Custom storage engines

session.Engine defines the interface for custom storage engines. Any object that implements this interface can be used as a storage engine when setting up the session manager middleware.

type Engine interface {
    // Delete should remove the session token and corresponding data from the
    // session engine. If the token does not exist then Delete should be a no-op
    // and return nil (not an error).
    Delete(token string) (err error)

    // Find should return the data for a session token from the storage engine.
    // If the session token is not found or is expired, the found return value
    // should be false (and the err return value should be nil). Similarly, tampered
    // or malformed tokens should result in a found return value of false and a
    // nil err value. The err return value should be used for system errors only.
    Find(token string) (b []byte, found bool, err error)

    // Save should add the session token and data to the storage engine, with
    // the given expiry time. If the session token already exists, then the data
    // and expiry time should be overwritten.
    Save(token string, b []byte, expiry time.Time) (err error)
}

Benchmarks

Performance of SCS is heavily influenced by the choice of storage engine. The following benchmarks simulate a HTTP request during which an existing session is loaded, an integer value is retreived, modified and the session is saved.

BenchmarkSCSMemstore-8                200000          8463 ns/op        3644 B/op         49 allocs/op
BenchmarkSCSCookies-8                 100000         20675 ns/op        7518 B/op         83 allocs/op
BenchmarkSCSRedis-8                    30000         43636 ns/op        3229 B/op         64 allocs/op
BenchmarkSCSPostgres-8                   500       3787304 ns/op        5584 B/op         96 allocs/op
BenchmarkSCSMySQL-8                      300       5511906 ns/op        4382 B/op         73 allocs/op
BenchmarkSCSBoltstore-8                  300       4086699 ns/op       12331 B/op        117 allocs/op

These benchmarks can be run from the benchmark_test.go file.

Comparisons

Trying to compare against other packages is difficult. Not only is real-world usage tough to simulate with simple benchmarks, things like community support and quality of tests are probably more important than raw performance in the long-term.

That said, SCS stacks up pretty well. For the benchmarked operations it used around a quarter of the memory that Gorilla Sessions did and operated between 1.5 and 3 times faster depending on the storage engine.

BenchmarkGorillaCookies-8          20000         63678 ns/op       16987 B/op        296 allocs/op
BenchmarkGorillaRedis-8            10000        109229 ns/op       17877 B/op        336 allocs/op
BenchmarkGorillaPostgres-8           300       5460733 ns/op       24498 B/op        485 allocs/op

A big part of this performance difference is due to SCS's 'on-demand' use of Gob decoding. Accordingly, for operations which do need to call GetObject the performance difference is significantly less pronounced.

BenchmarkSCSObjectCookies-8            30000         60773 ns/op       17700 B/op        300 allocs/op
BenchmarkSCSObjectRedis-8              10000        104259 ns/op       13883 B/op        293 allocs/op
BenchmarkSCSObjectPostgres-8             500       3926530 ns/op       15124 B/op        313 allocs/op

BenchmarkGorillaObjectCookies-8        20000         67899 ns/op       19302 B/op        320 allocs/op
BenchmarkGorillaObjectRedis-8          10000        123880 ns/op       18976 B/op        360 allocs/op
BenchmarkGorillaObjectPostgres-8         300       4073790 ns/op       26589 B/op        509 allocs/op

The code for all the above benchmarks is available in this gist.

Notes

Full godoc documentation: https://godoc.org/github.com/alexedwards/scs.

Documentation

Overview

Package scs is a session manager for Go 1.7+.

It features:

  • Automatic loading and saving of session data via middleware.
  • Fast and very memory-efficient performance.
  • Choice of PostgreSQL, MySQL, Redis, encrypted cookie and in-memory storage engines. Custom storage engines are also supported.
  • Type-safe and sensible API. Designed to be safe for concurrent use.
  • Supports OWASP good-practices, including absolute and idle session timeouts and easy regeneration of session tokens.

This top-level package is a wrapper for its sub-packages and doesn't actually contain any code. You probably want to start by looking at the documentation for the session sub-package.

Directories

Path Synopsis
engine
boltstore
Package boltstore is a boltdb based storage engine for the SCS session package.
Package boltstore is a boltdb based storage engine for the SCS session package.
buntstore
Package buntstore is a buntdb based storage engine for the SCS session package.
Package buntstore is a buntdb based storage engine for the SCS session package.
cookiestore
Package cookiestore is a cookie-based storage engine for the SCS session package.
Package cookiestore is a cookie-based storage engine for the SCS session package.
dynamostore
Package dynamostore is a DynamoDB-based storage engine for the SCS session package.
Package dynamostore is a DynamoDB-based storage engine for the SCS session package.
memstore
Package memstore is a in-memory storage engine for the SCS session package.
Package memstore is a in-memory storage engine for the SCS session package.
mysqlstore
Package mysqlstore is a MySQL-based storage engine for the SCS session package.
Package mysqlstore is a MySQL-based storage engine for the SCS session package.
pgstore
Package pgstore is a PostgreSQL-based storage engine for the SCS session package.
Package pgstore is a PostgreSQL-based storage engine for the SCS session package.
qlstore
Package qlstore is a ql-based storage engine for the SCS session package.
Package qlstore is a ql-based storage engine for the SCS session package.
redisstore
Package redisstore is a Redis-based storage engine for the SCS session package.
Package redisstore is a Redis-based storage engine for the SCS session package.
Package session provides session management middleware and helpers for manipulating session data.
Package session provides session management middleware and helpers for manipulating session data.

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