Authboss is a modular authentication system for the web.
It has several modules that represent authentication and authorization features that are common to websites in general so that you can enable as many as you need, and leave the others out. It makes it easy to plug in authentication to an application and get a lot of functionality for (hopefully) a smaller amount of integration effort.
v1 -> v2 was a very big change. If you're looking to upgrade there is a general guide in tov2.md in this project.
v2 -> v3 was not a big change, it simply changed the project to use Go modules. Authboss no longer supports GOPATH as of version 3
Every time you'd like to start a new web project, you really want to get to the heart of what you're trying to accomplish very quickly and it would be a sure bet to say one of the systems you're excited about implementing and innovating on is not authentication. In fact it's very much the opposite: it's one of those things that you have to do and one of those things you loathe to do. Authboss is supposed to remove a lot of the tedium that comes with this, as well as a lot of the chances to make mistakes. This allows you to care about what you're intending to do, rather than care about ancillary support systems required to make what you're intending to do happen.
Here are a few bullet point reasons you might like to try it out:
- Saves you time (Authboss integration time should be less than re-implementation time)
- Saves you mistakes (at least using Authboss, people can bug fix as a collective and all benefit)
- Should integrate with or without any web framework
- Authboss
- New to v2?
- New to v3?
- Why use Authboss?
- Readme Table of Contents
- Getting Started
- Available Modules
- Middlewares
- Use Cases
To get started with Authboss in the simplest way, is to simply create a Config, populate it with the things that are required, and start implementing use cases. The use cases describe what's required to be able to use a particular piece of functionality, or the best practice when implementing a piece of functionality. Please note the app requirements for your application as well integration requirements that follow.
Of course the standard practice of fetching the library is just the beginning:
# Get the latest, you must be using Go modules as of v3 of Authboss.
go get -u github.com/volatiletech/authboss/v3
Here's a bit of starter code that was stolen from the sample.
ab := authboss.New()
ab.Config.Storage.Server = myDatabaseImplementation
ab.Config.Storage.SessionState = mySessionImplementation
ab.Config.Storage.CookieState = myCookieImplementation
ab.Config.Paths.Mount = "/authboss"
ab.Config.Paths.RootURL = "https://www.example.com/"
// This is using the renderer from: github.com/volatiletech/authboss
ab.Config.Core.ViewRenderer = abrenderer.NewHTML("/auth", "ab_views")
// Probably want a MailRenderer here too.
// This instantiates and uses every default implementation
// in the Config.Core area that exist in the defaults package.
// Just a convenient helper if you don't want to do anything fancy.
defaults.SetCore(&ab.Config, false, false)
if err := ab.Init(); err != nil {
panic(err)
}
// Mount the router to a path (this should be the same as the Mount path above)
// mux in this example is a chi router, but it could be anything that can route to
// the Core.Router.
mux.Mount("/authboss", http.StripPrefix("/authboss", ab.Config.Core.Router))
For a more in-depth look you definitely should look at the authboss sample to see what a full implementation looks like. This will probably help you more than any of this documentation.
https://github.com/volatiletech/authboss-sample
Authboss does a lot of things, but it doesn't do some of the important things that are required by a typical authentication system, because it can't guarantee that you're doing many of those things in a different way already, so it punts the responsibility.
What this means is you should apply a middleware that can protect the application from csrf attacks or you may be vulnerable. Authboss previously handled this but it took on a dependency that was unnecessary and it complicated the code. Because Authboss does not render views nor consumes data directly from the user, it no longer does this.
Currently Authboss is vulnerable to brute force attacks because there are no protections on it's endpoints. This again is left up to the creator of the website to protect the whole website at once (as well as Authboss) from these sorts of attacks.
In terms of integrating Authboss into your app, the following things must be considered.
There are middlewares that are required to be installed in your middleware stack if it's all to function properly, please see Middlewares for more information.
There are some required configuration variables that have no sane defaults and are particular to your app:
- Config.Paths.Mount
- Config.Paths.RootURL
Everything under Config.Storage and Config.Core are required and you must provide them,
however you can optionally use default implementations from the
defaults package.
This also provides an easy way to share implementations of certain stack pieces (like HTML Form Parsing).
As you saw in the example above these can be easily initialized with the SetCore
method in that
package.
The following is a list of storage interfaces, they must be provided by the implementer. Server is a very involved implementation, please see the additional documentation below for more details.
- Config.Storage.Server
- Config.Storage.SessionState
- Config.Storage.CookieState (only for "remember me" functionality)
The following is a list of the core pieces, these typically are abstracting the HTTP stack. Out of all of these you'll probably be mostly okay with the default implementations in the defaults package but there are two big exceptions to this rule and that's the ViewRenderer and the MailRenderer. For more information please see the use case Rendering Views
- Config.Core.Router
- Config.Core.ErrorHandler
- Config.Core.Responder
- Config.Core.Redirector
- Config.Core.BodyReader
- Config.Core.ViewRenderer
- Config.Core.MailRenderer
- Config.Core.Mailer
- Config.Core.Logger
The ServerStorer is
meant to be upgraded to add capabilities depending on what modules you'd like to use.
It starts out by only knowing how to save and load users, but the remember
module as an example
needs to be able to find users by remember me tokens, so it upgrades to a
RememberingServerStorer
which adds these abilities.
Your ServerStorer
implementation does not need to implement all these additional interfaces
unless you're using a module that requires it. See the Use Cases documentation to know what the requirements are.
Users in Authboss are represented by the User interface. The user interface is a flexible notion, because it can be upgraded to suit the needs of the various modules.
Initially the User must only be able to Get/Set a PID
or primary identifier. This allows the authboss
modules to know how to refer to him in the database. The ServerStorer
also makes use of this
to save/load users.
As mentioned, it can be upgraded, for example suppose now we want to use the confirm
module,
in that case the e-mail address now becomes a requirement. So the confirm
module will attempt
to upgrade the user (and panic if it fails) to a
ConfirmableUser
which supports retrieving and setting of confirm tokens, e-mail addresses, and a confirmed state.
Your User
implementation does not need to implement all these additional user interfaces unless you're
using a module that requires it. See the Use Cases documentation to know what the
requirements are.
The BodyReader interface in the Config returns Validator implementations which can be validated. But much like the storer and user it can be upgraded to add different capabilities.
A typical BodyReader
(like the one in the defaults package) implementation checks the page being
requested and switches on that to parse the body in whatever way
(msgpack, json, url-encoded, doesn't matter), and produce a struct that has the ability to
Validate()
it's data as well as functions to retrieve the data necessary for the particular
valuer required by the module.
An example of an upgraded Valuer
is the
UserValuer
which stores and validates the PID and Password that a user has provided for the modules to use.
Your body reader implementation does not need to implement all valuer types unless you're using a module that requires it. See the Use Cases documentation to know what the requirements are.
The config struct is an important part of Authboss. It's the key to making Authboss do what you want with the implementations you want. Please look at it's code definition as you read the documentation below, it will make much more sense.
Paths are the paths that should be redirected to or used in whatever circumstance they describe.
Two special paths that are required are Mount
and RootURL
without which certain authboss
modules will not function correctly. Most paths get defaulted to /
such as after login success
or when a user is locked out of their account.
Modules are module specific configuration options. They mostly control the behavior of modules.
For example RegisterPreserveFields
decides a whitelist of fields to allow back into the data
to be re-rendered so the user doesn't have to type them in again.
Mail sending related options.
These are the implementations of how storage on the server and the client are done in your app. There are no default implementations for these at this time. See the Godoc for more information about what these are.
These are the implementations of the HTTP stack for your app. How do responses render? How are they redirected? How are errors handled?
For most of these there are default implementations from the defaults package available, but not for all. See the package documentation for more information about what's available.
Each module can be turned on simply by importing it and the side-effects take care of the rest. Not all the capabilities of authboss are represented by a module, see Use Cases to view the supported use cases as well as how to use them in your app.
Note: The two factor packages do not enable via side-effect import, see their documentation for more information.
Name | Import Path | Description |
---|---|---|
Auth | github.com/volatiletech/authboss/v3/auth | Database password authentication for users. |
Confirm | github.com/volatiletech/authboss/v3/confirm | Prevents login before e-mail verification. |
Expire | github.com/volatiletech/authboss/v3/expire | Expires a user's login |
Lock | github.com/volatiletech/authboss/v3/lock | Locks user accounts after authentication failures. |
Logout | github.com/volatiletech/authboss/v3/logout | Destroys user sessions for auth/oauth2. |
OAuth1 | github.com/stephenafamo/authboss-oauth1 | Provides oauth1 authentication for users. |
OAuth2 | github.com/volatiletech/authboss/v3/oauth2 | Provides oauth2 authentication for users. |
Recover | github.com/volatiletech/authboss/v3/recover | Allows for password resets via e-mail. |
Register | github.com/volatiletech/authboss/v3/register | User-initiated account creation. |
Remember | github.com/volatiletech/authboss/v3/remember | Persisting login sessions past session cookie expiry. |
OTP | github.com/volatiletech/authboss/v3/otp | One time passwords for use instead of passwords. |
Twofactor | github.com/volatiletech/authboss/v3/otp/twofactor | Regenerate recovery codes for 2fa. |
Totp2fa | github.com/volatiletech/authboss/v3/otp/twofactor/totp2fa | Use Google authenticator-like things for a second auth factor. |
Sms2fa | github.com/volatiletech/authboss/v3/otp/twofactor/sms2fa | Use a phone for a second auth factor. |
The only middleware that's truly required is the LoadClientStateMiddleware
, and that's because it
enables session and cookie handling for Authboss. Without that, it's not a very useful piece of
software.
The remaining middlewares are either the implementation of an entire module (like expire), or a key part of a module. For example you probably wouldn't want to use the lock module without the middleware that would stop a locked user from using an authenticated resource, because then locking wouldn't be useful unless of course you had your own way of dealing with locking, which is why it's only recommended, and not required. Typically you will use the middlewares if you use the module.
Name | Requirement | Description |
---|---|---|
Middleware | Recommended | Prevents unauthenticated users from accessing routes. |
LoadClientStateMiddleware | Required | Enables cookie and session handling |
ModuleListMiddleware | Optional | Inserts a loaded module list into the view data |
confirm.Middleware | Recommended with confirm | Ensures users are confirmed or rejects request |
expire.Middleware | Required with expire | Expires user sessions after an inactive period |
lock.Middleware | Recommended with lock | Rejects requests from locked users |
remember.Middleware | Recommended with remember | Logs a user in from a remember cookie |
CurrentUser can be retrieved by calling Authboss.CurrentUser but a pre-requisite is that Authboss.LoadClientState has been called first to load the client state into the request context. This is typically achieved by using the Authboss.LoadClientStateMiddleware, but can be done manually as well.
Updating a user's password is non-trivial for several reasons:
- The bcrypt algorithm must have the correct cost, and also be being used.
- The user's remember me tokens should all be deleted so that previously authenticated sessions are invalid
- Optionally the user should be logged out (not taken care of by UpdatePassword)
In order to do this, we can use the Authboss.UpdatePassword method. This ensures the above facets are taken care of which the exception of the logging out part.
If it's also desirable to have the user logged out, please use the following methods to erase all known sessions and cookies from the user.
Note: DelKnownSession has been deprecated for security reasons
Info and Requirements | |
---|---|
Module | auth |
Pages | login |
Routes | /login |
Emails | None |
Middlewares | LoadClientStateMiddleware |
ClientStorage | Session and Cookie |
ServerStorer | ServerStorer |
User | AuthableUser |
Values | UserValuer |
Mailer | None |
To enable this side-effect import the auth module, and ensure that the requirements above are met. It's very likely that you'd also want to enable the logout module in addition to this.
Direct a user to GET /login
to have them enter their credentials and log in.
Info and Requirements | |
---|---|
Module | oauth1 |
Pages | None |
Routes | /oauth1/{provider}, /oauth1/callback/{provider} |
Emails | None |
Middlewares | LoadClientStateMiddleware |
ClientStorage | Session |
ServerStorer | OAuth1ServerStorer |
User | OAuth1User |
Values | None |
Mailer | None |
This is a tougher implementation than most modules because there's a lot going on. In addition to the
requirements stated above, you must also configure the oauth1.Providers
. It's a public variable in the module.
import oauth1 "github.com/stephenafamo/authboss-oauth1"
oauth1.Providers = map[string]oauth1.Provider{}
The providers require an oauth1 configuration that's typical for the Go oauth1 package, but in addition
to that they need a FindUserDetails
method which has to take the token that's retrieved from the oauth1
provider, and call an endpoint that retrieves details about the user (at LEAST user's uid).
These parameters are returned in map[string]string
form and passed into the oauth1.ServerStorer
.
Please see the following documentation for more details:
Info and Requirements | |
---|---|
Module | oauth2 |
Pages | None |
Routes | /oauth2/{provider}, /oauth2/callback/{provider} |
Emails | None |
Middlewares | LoadClientStateMiddleware |
ClientStorage | Session |
ServerStorer | OAuth2ServerStorer |
User | OAuth2User |
Values | None |
Mailer | None |
This is a tougher implementation than most modules because there's a lot going on. In addition to the
requirements stated above, you must also configure the OAuth2Providers
in the config struct.
The providers require an oauth2 configuration that's typical for the Go oauth2 package, but in addition
to that they need a FindUserDetails
method which has to take the token that's retrieved from the oauth2
provider, and call an endpoint that retrieves details about the user (at LEAST user's uid).
These parameters are returned in map[string]string
form and passed into the OAuth2ServerStorer
.
Please see the following documentation for more details:
Info and Requirements | |
---|---|
Module | register |
Pages | register |
Routes | /register |
Emails | None |
Middlewares | LoadClientStateMiddleware |
ClientStorage | Session |
ServerStorer | CreatingServerStorer |
User | AuthableUser, optionally ArbitraryUser |
Values | UserValuer, optionally also ArbitraryValuer |
Mailer | None |
Users can self-register for a service using this module. You may optionally want them to confirm themselves, which can be done using the confirm module.
The complicated part in implementing registrations are around the RegisterPreserveFields
. This is to
help in the case where a user fills out many fields, and then say enters a password
which doesn't meet minimum requirements and it fails during validation. These preserve fields should
stop the user from having to type in all that data again (it's a whitelist). This must be used
in conjuction with ArbitraryValuer
and although it's not a hard requirement ArbitraryUser
should be used otherwise the arbitrary values cannot be stored in the database.
When the register module sees arbitrary data from an ArbitraryValuer
, it sets the data key
authboss.DataPreserve
with a map[string]string
in the data for when registration fails.
This means the (whitelisted) values entered by the user previously will be accessible in the
templates by using .preserve.field_name
. Preserve may be empty or nil so use
{{with ...}}
to make sure you don't have template errors.
There is additional Godoc documentation on the RegisterPreserveFields
config option as well as
the ArbitraryUser
and ArbitraryValuer
interfaces themselves.
Info and Requirements | |
---|---|
Module | confirm |
Pages | confirm |
Routes | /confirm |
Emails | confirm_html, confirm_txt |
Middlewares | LoadClientStateMiddleware, confirm.Middleware |
ClientStorage | Session |
ServerStorer | ConfirmingServerStorer |
User | ConfirmableUser |
Values | ConfirmValuer |
Mailer | Required |
Confirming registrations via e-mail can be done with this module (whether or not done via the register module).
A hook on register kicks off the start of a confirmation which sends an e-mail with a token for the user.
When the user re-visits the page, the BodyReader
must read the token and return a type that returns
the token.
Confirmations carry two values in the database to prevent a timing attack. The selector and the verifier, always make sure in the ConfirmingServerStorer you're searching by the selector and not the verifier.
Info and Requirements | |
---|---|
Module | recover |
Pages | recover_start, recover_middle (not used for renders, only values), recover_end |
Routes | /recover, /recover/end |
Emails | recover_html, recover_txt |
Middlewares | LoadClientStateMiddleware |
ClientStorage | Session |
ServerStorer | RecoveringServerStorer |
User | RecoverableUser |
Values | RecoverStartValuer, RecoverMiddleValuer, RecoverEndValuer |
Mailer | Required |
The flow for password recovery is that the user is initially shown a page that wants their PID
to
be entered. The RecoverStartValuer
retrieves that on POST
to /recover
.
An e-mail is sent out, and the user clicks the link inside it and is taken back to /recover/end
as a GET
, at this point the RecoverMiddleValuer
grabs the token and will insert it into the data
to be rendered.
They enter their password into the form, and POST
to /recover/end
which sends the token and
the new password which is retrieved by RecoverEndValuer
which sets their password and saves them.
Password recovery has two values in the database to prevent a timing attack. The selector and the verifier, always make sure in the RecoveringServerStorer you're searching by the selector and not the verifier.
Info and Requirements | |
---|---|
Module | remember |
Pages | None |
Routes | None |
Emails | None |
Middlewares | LoadClientStateMiddleware, |
Middlewares | LoadClientStateMiddleware, remember.Middleware |
ClientStorage | Session, Cookies |
ServerStorer | RememberingServerStorer |
User | User |
Values | RememberValuer (not a Validator) |
Mailer | None |
Remember uses cookie storage to log in users without a session via the remember.Middleware
.
Because of this this middleware should be used high up in the stack, but it also needs to be after
the LoadClientStateMiddleware
so that client state is available via the authboss mechanisms.
There is an intricacy to the RememberingServerStorer
, it doesn't use the User
struct at all,
instead it simply instructs the storer to save tokens to a pid and recall them just the same. Typically
in most databases this will require a separate table, though you could implement using pg arrays
or something as well.
A user who is logged in via Remember tokens is also considered "half-authed" which is a session
key (authboss.SessionHalfAuthKey
) that you can query to check to see if a user should have
full rights to more sensitive data, if they are half-authed and they want to change their user
details for example you may want to force them to go to the login screen and put in their
password to get a full auth first. The authboss.Middleware
has a boolean flag to forceFullAuth
which prevents half-authed users from using that route.
Info and Requirements | |
---|---|
Module | lock |
Pages | None |
Routes | None |
Emails | None |
Middlewares | LoadClientStateMiddleware, lock.Middleware |
ClientStorage | Session |
ServerStorer | ServerStorer |
User | LockableUser |
Values | None |
Mailer | None |
Lock ensures that a user's account becomes locked if authentication (both auth, oauth2, otp) are failed enough times.
The middleware protects resources from locked users, without it, there is no point to this module. You should put in front of any resource that requires a login to function.
Info and Requirements | |
---|---|
Module | expire |
Pages | None |
Routes | None |
Emails | None |
Middlewares | LoadClientStateMiddleware, expire.Middleware |
ClientStorage | Session |
ServerStorer | None |
User | User |
Values | None |
Mailer | None |
Note: Unlike most modules in Authboss you must call expire.Setup()
to enable this module. See the sample to see how to do this. This may be changed in the future.
Expire simply uses sessions to track when the last action of a user is, if that action is longer than configured then the session is deleted and the user removed from the request context.
This middleware should be inserted at a high level (closer to the request) in the middleware chain to ensure that "activity" is logged properly, as well as any middlewares down the chain do not attempt to do anything with the user before it's removed from the request context.
Info and Requirements | |
---|---|
Module | otp |
Pages | otp, otpadd, otpclear |
Routes | /otp/login, /otp/add, /otp/clear |
Emails | None |
Middlewares | LoadClientStateMiddleware |
ClientStorage | Session and Cookie |
ServerStorer | ServerStorer |
User | otp.User |
Values | UserValuer |
Mailer | None |
One time passwords can be useful if users require a backup password in case they lose theirs, or they're logging in on an untrusted computer. This module allows users to add one time passwords, clear them, or log in with them.
Logging in with a one time password instead of a password is identical to having logged in normally with their typical password with the exception that the one time passwords are consumed immediately upon use and cannot be used again.
otp
should not be confused with two factor authentication. Although 2fa also uses one-time passwords
the otp
module has nothing to do with it and is strictly a mechanism for logging in with an alternative
to a user's regular password.
2FA in Authboss is implemented in a few separate modules: twofactor, totp2fa and sms2fa.
You should use two factor authentication in your application if you want additional security beyond that of just simple passwords. Each 2fa module supports a different mechanism for verifying a second factor of authentication from a user.
Info and Requirements | |
---|---|
Module | twofactor |
Pages | recovery2fa |
Routes | /2fa/recovery/regen |
Emails | None |
Middlewares | LoadClientStateMiddleware |
ClientStorage | Session |
ServerStorer | ServerStorer |
User | twofactor.User |
Values | None |
Mailer | None |
Note: Unlike most modules in Authboss you must construct a twofactor.Recovery
and call .Setup()
on it to enable this module. See the sample to see how to do this. This may be changed in the future.
Package twofactor is all about the common functionality of providing backup codes for two factor mechanisms. Instead of each module implementing backup codes on it's own, common functionality has been put here including a route to regenerate backup codes.
Backup codes are useful in case people lose access to their second factor for authentication. This happens when users lose their phones for example. When this occurs, they can use one of their backup-codes.
Backup codes are one-time use, they are bcrypted for security, and they only allow bypassing the 2fa
authentication part, they cannot be used in lieu of a user's password, for that sort of recovery see
the otp
module.
Info and Requirements | |
---|---|
Module | twofactor |
Pages | twofactor_verify |
Routes | /2fa/recovery/regen |
Emails | twofactor_verify_email_html, twofactor_verify_email_txt |
Middlewares | LoadClientStateMiddleware |
ClientStorage | Session |
ServerStorer | ServerStorer |
User | twofactor.User |
Values | twofactor.EmailVerifyTokenValuer |
Mailer | Required |
To enable this feature simply turn on
authboss.Config.Modules.TwoFactorEmailAuthRequired
and new routes and
middlewares will be installed when you set up one of the 2fa modules.
When enabled, the routes for setting up 2fa on an account are protected by a
middleware that will redirect to /2fa/{totp,sms}/email/verify
where
Page twofactor_verify
is displayed. The user is prompted to authorize the
addition of 2fa to their account. The data for this page contains email
and
a url
for the POST. The url is required because this page is shared between
all 2fa types.
Once they POST to the url, a token is stored in their session and an e-mail is
sent with that token. When they click the link that goes to
/2fa/{totp,sms}/email/verify/end
with a token in the query string the session
token is verified and exchanged for a value that says they're verified and
lastly it redirects them to the setup URL for the type of 2fa they were
attempting to setup.
Info and Requirements | |
---|---|
Module | totp2fa |
Pages | totp2fa_{setup,confirm,remove,validate}, totp2fa_{confirm,remove}_success |
Routes | /2fa/totp/{setup,confirm,qr,remove,validate} |
Emails | None |
Middlewares | LoadClientStateMiddleware |
ClientStorage | Session (SECURE!) |
ServerStorer | ServerStorer |
User | totp2fa.User |
Values | TOTPCodeValuer |
Mailer | None |
Note: Unlike most modules in Authboss you must construct a totp2fa.TOTP
and call .Setup()
on it to enable this module. See the sample to see how to do this This may be changed in the future.
Note: To allow users to regenerate their backup codes, you must also use the twofactor
module.
Note: Routes are protected by authboss.Middleware
so only logged in users can access them.
You can configure whether unauthenticated users should be redirected to log in or are 404'd using
the authboss.Config.Modules.RoutesRedirectOnUnathed
configuration flag.
When a logged in user would like to add 2fa to their account direct them GET /2fa/totp/setup
, the GET
on this page does virtually nothing so you don't have to use it, just POST
immediately to have
a smoother flow for the user. This puts the 2fa secret in their session temporarily meaning you must
have proper secure sessions for this to be secure.
They will be redirected to GET /2fa/totp/confirm
where the data will show totp2fa.DataTOTPSecret
,
this is the key that user's should enter into their Google Authenticator or similar app. Once they've
added it they need to send a POST /2fa/totp/confirm
with a correct code which removes the 2fa secret
from their session and permanently adds it to their totp2fa.User
and 2fa is now enabled for them.
The data from the POST
will contain a key twofactor.DataRecoveryCodes
that contains an array
of recovery codes for the user.
If you wish to show the user a QR code, GET /2fa/totp/qr
at any time during or after totp2fa setup
will return a 200x200 png QR code that they can scan.
A user begins by going to GET /2fa/totp/remove
and enters a code which posts to POST /2fa/totp/remove
and if it's correct they're shown a success page and 2fa is removed from them, if not they get
validation errors.
When a user goes to log in, the totp
module checks the user after they log in for the presence of
a totp2fa secret, if there is one it does not give them a logged in session value immediately and
redirects them to GET /2fa/totp/validate
where they must enter a correct code to POST /2fa/totp/validate
if the code is correct they're logged in normally as well as they get the session value
authboss.Session2FA
set to "totp"
to prove that they've authenticated with two factors.
Both when logging in and removing totp2fa from an account, a recovery code may be used instead. They can
POST
to the same url, they simply send a different form field. The recovery code is consumed on use
and may not be used again.
Package sms2fa uses sms shared secrets as a means to authenticate a user with a second factor: their phone number.
Info and Requirements | |
---|---|
Module | sms2fa |
Pages | sms2fa_{setup,confirm,remove,validate}, sms2fa_{confirm,remove}_success |
Routes | /2fa/{setup,confirm,remove,validate} |
Emails | None |
Middlewares | LoadClientStateMiddleware |
ClientStorage | Session (SECURE!) |
ServerStorer | ServerStorer |
User | sms2fa.User, sms2fa.SMSNumberProvider |
Values | SMSValuer, SMSPhoneNumberValuer |
Mailer | None |
Note: Unlike most modules in Authboss you must construct a sms2fa.SMS
and call .Setup()
on it to enable this module. See the sample to see how to do this. This may be changed in the future.
Note: To allow users to regenerate their backup codes, you must also use the twofactor
module.
Note: Routes are protected by authboss.Middleware
so only logged in users can access them.
You can configure whether unauthenticated users should be redirected to log in or are 404'd using
the authboss.Config.Modules.RoutesRedirectOnUnathed
configuration flag.
Note: sms2fa always stores the code it's expecting in the user's session therefore you must have secure sessions or the code itself is not secure!
Note: sms2fa pages all send codes via sms on POST
when no data code is given. This is also how
users can resend the code in case they did not get it (for example a second
POST /2fa/sms/{confirm,remove}
with no form-fields filled in will end up resending the code).
Note: Sending sms codes is rate-limited to 1 sms/10 sec for that user, this is controlled by placing a timestamp in their session to prevent abuse.
When a logged in user would like to add 2fa to their account direct them GET /2fa/sms/setup
where
they must enter a phone number. If the logged in user also implements sms2fa.SMSNumberProvider
then
this interface will be used to retrieve a phone number (if it exists) from the user and put it in
sms2fa.DataSMSPhoneNumber
so that the user interface can populate it for the user, making it convenient
to re-use an already saved phone number inside the user.
Once they POST /2fa/sms/setup
with a phone number, the sms2fa.Sender
interface will be
invoked to send the SMS code to the user and they will be redirected to GET /2fa/sms/confirm
where
they enter the code they received which does a POST /2fa/sms/confirm
to store the phone number
they were confirming permanently on their user using sms2fa.User
which enables sms2fa for them.
The data from the POST
will contain a key twofactor.DataRecoveryCodes
that contains an array
of recovery codes for the user.
A user begins by going to GET /2fa/sms/remove
. This page does nothing on it's own. In order to
begin the process POST /2fa/sms/remove
with no data (or a recovery code to skip needing the sms code)
to send the sms code to the user. Then they can POST /2fa/sms/remove
again with the correct code
to have it permanently removed.
When a user goes to log in, the sms
module checks the user after they log in for the presence of
a sms2fa phone number, if there is one it does not give them a logged in session value but instead
sends an SMS code to their configured number and and redirects them to GET /2fa/sms/validate
where they must enter a correct code to POST /2fa/totp/validate
. If the code is correct they're
logged in normally as well as they get the session value authboss.Session2FA
set to "sms"
to prove
that they've authenticated with two factors.
Same as totp2fa above.
The authboss rendering system is simple. It's defined by one interface: Renderer
The renderer knows how to load templates, and how to render them with some data and that's it. So let's examine the most common view types that you might want to use.
When your app is a traditional web application and is generating it's HTML
serverside using templates this becomes a small wrapper on top of your rendering
setup. For example if you're using html/template
then you could just use
template.New()
inside the Load()
method and store that somewhere and call
template.Execute()
in the Render()
method.
There is also a very basic renderer: Authboss Renderer which has some very ugly built in views and the ability to override them with your own if you don't want to integrate your own rendering system into that interface.
If you're building an API that's mostly backed by a javascript front-end, then you'll probably want to use a renderer that converts the data to JSON. There is a simple json renderer available in the defaults package package if you wish to use that.
The most important part about this interface is the data that you have to render. There are several keys that are used throughout authboss that you'll want to render in your views.
They're in the file html_data.go
and are constants prefixed with Data
. See the documentation in that file for more information on
which keys exist and what they contain.
The default responder also happens to collect data from the Request context, and hence this is a great place to inject data you'd like to render (for example data for your html layout, or csrf tokens).