Services
Redwood aims to put all your business logic in one place—Services. These can be used by your GraphQL API or any other place in your backend code. Redwood does all the annoying stuff for you, just write your business logic!
Overview
What do we mean by "business logic?" One definition states: "Business logic is the custom rules or algorithms that handle the exchange of information between a database and user interface." In Redwood, those custom rules and algorithms go in Services. You can't put that logic in the client because it's open to the world and could be manipulated. Imagine having the code to determine a valid withdrawal or deposit to someone's bank balance living in the client, and the server just receives API calls of where to move the money, doing no additional verification of those numbers! Your bank would quickly go insolvent. As you'll hear many times throughout our docs, and your development career—never trust the client.
But how does the client get access to the output of these Services? By default, that's through GraphQL. GraphQL is an API, accessible to clients, that relies on getting data from "somewhere" before returning it. That somewhere is a function backed by what's known as a resolver in GraphQL. And in Redwood, those resolvers are your Services!
┌───────────┐ ┌───────────┐ ┌───────────┐
│ Browser │ ───> │ GraphQL │ ───> │ Service │
└───────────┘ └───────────┘ └───────────┘
Remember: Service are just functions. That means they can be used not only as GraphQL resolvers, but from other Services, or serverless functions, or anywhere else you invoke a function on the api side.
Can I use Service functions on the web side?
The short answer is no because our build process doesn't support it yet.
Generally, in a full-stack application, Services will concern themselves with getting data in and out of a database. The libraries we use for this, like Prisma, do not run in the browser. However, even if it did, it would happily pass on whatever SQL-equivalent commands you give it, like
db.user.deleteMany()
, which would remove all user records! That kind of power in the hands of the client would wreck havoc the likes of which you have never seen.
Service functions can also call each other. For example, that theoretical Service function that handles transferring money between two accounts: it certainly comes in handy when a user initiates a transfer through a GraphQL call, but our business logic for what constitutes a transfer lives in that function. That function should be the only one responsible for moving money between two accounts, so we should make use of it anywhere we need to do a transfer—imagine an async task that moves $100 between a checking and savings account every 1st of the month.
┌───────────┐ ┌───────────┐
│ Service │ ───> │ Service │
└───────────┘ └───────────┘
Finally, Services can also be called from serverless functions. Confusingly, these are also called "functions", but are meant to be run in a serverless environment where the code only exists long enough to complete a task and is then shut down. Redwood loves serverless functions. In fact, your GraphQL endpoint is, itself, a serverless function! In Redwood, these go in api/src/functions
. Serverless functions can make use of Services, rather than duplicating business logic inside of themselves. In our bank transfer example, a third party service could initiate a webhook call to one of our serverless functions saying that Alice just got paid. Our (serverless) function can then call our (Service) function to make the transfer from the third party to Alice.
┌───────────────────────┐ ┌───────────┐
│ Serverless Function │ ───> │ Service │
└───────────────────────┘ └───────────┘
Service Validations
Starting with v0.38
, Redwood includes a feature we call Service Validations. These simplify an extremely common task: making sure that incoming data is formatted properly before continuing. These validations are meant to be included at the start of your Service function and will throw an error if conditions are not met:
import { validate, validateWith, validateUniqueness } from '@redwoodjs/api'
export const createUser = async ({ input }) => {
validate(input.firstName, 'First name', {
presence: true,
excludes: { in: ['Admin', 'Owner'], message: 'That name is reserved, sorry!' },
length: { min: 2, max: 255 }
})
validateWith(() => {
if (input.role === 'Manager' && !context.currentUser.roles.includes('admin')) {
throw 'Only Admins can create new Managers'
}
})
return validateUniqueness('user', { username: input.username }, (db) => {
return db.user.create({ data: input })
})
}
What's the difference between Service Validations and Validator Directives?
Validator Directives were added to Redwood in v0.37 and provide a way to validate whether data going through GraphQL is allowed based on the user that's currently requesting it (the user that is logged in). These directives control access to data, while Service Validators operate on a different level, outside of GraphQL, and make sure data is formatted properly before, most commonly, putting it into a database.
You could use these in combination to, for example, prevent a client from accessing the email addresses of any users that aren't themselves (Validator Directives) while also verifying that when creating a user, an email address is present, formatted correctly, and unique (Service Validations).
Displaying to the User
If you're using Redwood's scaffolds then you'll see requisite error messages when trying to save a form that runs into these validation errors automatically:
Otherwise you'll need to use the error
property that you can destructure from useMutation()
and display an element containing the error message (Redwood's form helpers will do some of the heavy lifting for you for displaying the error):
import { Form, FormError, Label, TextField, Submit } from '@redwoodjs/forms'
import { useMutation } from '@redwoodjs/web'
const CREATE_CONTACT = gql`
mutation CreateContactMutation($input: ContactInput!) {
createContact(input: $input) {
id
}
}
`
const ContactPage = () => {
const [create, { loading, error }] = useMutation(CREATE_CONTACT)
const onSubmit = (data) => {
create({ variables: { input: data }})
}
return (
<Form onSubmit={onSubmit}>
<FormError error={error}>
<Label name="email">Email Address</Label>
<TextField name="email" />
<Submit disabled={loading}>Save</Submit>
</Form>
)
}
Importing
You'll import the three functions below from @redwoodjs/api
:
import { validate, validateWith, validateUniqueness } from '@redwoodjs/api'
validate()
This is the main function to call when you have a piece of data to validate. There are two forms of this function call, one with 2 arguments and one with 3. The first argument is always the variable to validate and the last argument is an object with all the validations you want to run against the first argument. The (optional) second argument is the name of the field to be used in a default error message if you do not provide a custom one:
// Two argument form: validate(value, validations)
validate(input.email, { email: { message: 'Please provide a valid email address' } })
// Three argument form: validate(value, name, validations)
validate(input.email, 'Email Address', { email: true }
All validations provide a generic error message if you do not specify one yourself (great for quickly getting your app working). In the three argument version, you provide the "name" of the field (in this case 'Email Address'
) and that will be used in the error message:
Email Address must be formatted like an email address
Using the two argument version will use your custom error message in the validations object properties:
Please provide a valid email address
Multiple Validations
You can provide multiple validations in the last argument object, some with custom messages and some without. If you include only some custom messages, make sure to use the 3-argument version as the ones without custom messages will need a variable name to include their messages:
validate(input.name, 'Name', {
presence: true,
exclusion: {
in: ['Admin', 'Owner'],
message: 'Sorry that name is reserved'
},
length: {
min: 2,
max: 255,
message: 'Please provide a name at least two characters long, but no more than 255'
},
format: {
pattern: /^[A-Za-z]+$/,
message: 'Name can only contain letters'
}
)
Note that the validations object properties often take two forms: a simple form without a custom message, and a nested object when you do need a custom message:
{ email: true }
{ email: { message: 'Must provide an email' } }
{ exclusion: ['Admin', 'Owner'] }
{ exclusion: { in: ['Admin', 'Owner' ], message: 'That name is reserved' } }
This keeps the syntax as simple as possible when a custom message is not required. Details on the options for each validation are detailed below.
Absence
Requires that a field NOT be present, meaning it must be null
or undefined
.
Opposite of the presence validator.
validate(input.value, 'Value', {
absence: true
})
Options
allowEmptyString
will count an empty string as being absent (that is,null
,undefined
and""
will pass this validation)
validate(input.honeypot, 'Honeypot', {
absence: { allowEmptyString: true }
})
message
: a message to be shown if the validation fails
validate(input.value, {
absence: { message: 'Value must be absent' }
})
Acceptance
Requires that the passed value be true
, or within an array of allowed values that will be considered "true".
validate(input.terms, 'Terms of Service', {
acceptance: true
})
Options
in
: an array of values that, if any match, will pass the validation
validate(input.terms, 'Terms of Service', {
acceptance: { in: [true, 'true', 1, '1'] }
})
message
: a custom message if validation fails
validate(input.terms, {
acceptance: { message: 'Please accept the Terms of Service' }
})
Email
Requires that the value be formatted like an email address by comparing against a regular expression. The regex is extremely lax: /^[^@\s]+@[^.\s]+\.[^\s]+$/
This says that the value:
- Must start with one or more characters that aren't a whitespace or literal
@
- Followed by a
@
- Followed by one or more characters that aren't a whitespace or literal
.
- Followed by a
.
- Ending with one or more characters that aren't whitespace
Since the official email regex is around 6,300 characters long, we though this one was good enough. If you have a different, preferred email validation regular expression, use the format validation.
validate(input.email, 'Email', {
email: true
})
Options
message
: a custom message if validation fails
validate(input.email, {
email: { message: 'Please provide a valid email address'
})
Exclusion
Requires that the given value not equal to any in a list of given values. Opposite of the inclusion validation.
validate(input.name, 'Name', {
exclusion: ['Admin', 'Owner']
})
Options
in
: the list of values that cannot be used
validate(input.name, 'Name', {
exclusion: { in: ['Admin', 'Owner'] }
})
message
: a custom error message if validation fails
validate(input.name, {
exclusion: {
in: ['Admin', 'Owner'],
message: 'That name is reserved, try another'
}
})
Format
Requires that the value match a given regular expression.
validate(input.usPhone, 'US Phone Number', {
format: /^[0-9-]{10,12}$/
})
Options
pattern
: the regular expression to use
validate(input.usPhone, 'US Phone Number', {
format: { pattern: /^[0-9-]{10,12}$/ }
})
message
: a custom error message if validation fails
validate(input.usPhone, {
format: {
pattern: /^[0-9-]{10,12}$/,
message: 'Can only contain numbers and dashes'
}
})
Inclusion
Requires that the given value is equal to one in a list of given values. Opposite of the exclusion validation.
validate(input.role, 'Role', {
inclusion: ['Guest', 'Member', 'Manager']
})
Options
in
: the list of values that can be used
validate(input.role, 'Role', {
inclusion: { in: ['Guest', 'Member', 'Manager'] }
})
message
: a custom error message if validation fails
validate(input.role, 'Role', {
inclusion: {
in: ['Guest', 'Member', 'Manager'] ,
message: 'Please select a proper role'
}
})
Length
Requires that the value meet one or more of a number of string length validations.
validate(input.answer, 'Answer', {
length: { min: 6, max: 200 }
})
Options
min
: must be at least this number of characters long
validate(input.name, 'Name', {
length: { min: 2 }
})
max
: must be no more than this number of characters long
validate(input.company, 'Company', {
length: { max: 255 }
})
equal
: must be exactly this number of characters long
validate(input.pin, 'PIN', {
length: { equal: 4 }
})
between
: convenience syntax for defining min and max as an array
validate(input.title, 'Title', {
length: { between: [2, 255] }
})
message
: a custom message if validation fails. Can use length options as string interpolations in the message itself, includingname
which is the name of the field provided in the second argument
validate(input.title, 'Title', {
length: { min: 2, max: 255, message: '${name} must be between ${min} and ${max} characters' }
})
Note that you cannot use backticks to define the string here—that would cause the value(s) to be interpolated immediately, and
min
andmax
are not actually available yet. This must be a plain string using single or double quotes, but using the${}
interpolation syntax inside.
Numericality
The awesomely-named Numericality Validation requires that the value passed meet one or more criteria that are all number related.
validate(input.year, 'Year', {
numericality: { greaterThan: 1900, lessThanOrEqual: 2021 }
})
Options
integer
: the number must be an integer
validate(input.age, 'Age', {
numericality: { integer: true }
})
lessThan
: the number must be less than the given value
validate(input.temp, 'Temperature', {
numericality: { lessThan: 100 }
})
lessThanOrEqual
: the number must be less than or equal to the given value
validate(input.temp, 'Temperature', {
numericality: { lessThanOrEqual: 100 }
})
greaterThan
: the number must be greater than the given value
validate(input.temp, 'Temperature', {
numericality: { greaterThan: 32 }
})
greaterThanOrEqual
: the number must be greater than or equal to the given number
validate(input.temp, 'Temperature', {
numericality: { greaterThanOrEqual: 32 }
})
equal
: the number must be equal to the given number
validate(input.guess, 'Guess', {
numericality: { equal: 6 }
})
otherThan
: the number must not be equal to the given number
validate(input.floor, 'Floor', {
numericality: { otherThan: 13 }
})
even
: the number must be even
validate(input.skip, 'Skip', {
numericality: { even: true }
})
odd
: the number must be odd
validate(input.zenGarden, 'Zen Garden', {
numericality: { odd: true }
})
positive
: the number must be positive (greater than 0)
validate(input.balance, 'Balance', {
numericality: { positive: true }
})
negative
: the number must be negative (less than 0)
validate(input.debt, 'Debt', {
numericality: { negative: true }
})
message
: a custom message if validation fails. Some options can be used in string interpolation:lessThan
,lessThanOrEqual
,greaterThan
,greaterThanOrEqual
,equal
, andotherThan
validate(input.floor, {
numericality: { otherThan: 13, 'You cannot go to floor ${otherThan}' }
})
Note that you cannot use backticks to define the string here—that would cause the value(s) to be interpolated immediately. This must be a plain string using single or double quotes, but using the
${}
interpolation syntax inside.
Presence
Requires that a field be present, meaning it must not be null
or undefined
.
Opposite of the absence validator.
validate(input.value, 'Value', {
presence: true
})
Options
allowNull
: whether or not to allownull
to be considered present (default isfalse
)
validate(input.value, 'Value', {
presence: { allowNull: true }
})
// `null` passes
// `undefined` fails
// "" passes
allowUndefined
: whether or not to allowundefined
to be considered present (default isfalse
)
validate(input.value, 'Value', {
presence: { allowUndefined: true }
})
// `null` fails
// `undefined` passes
// "" passes
allowEmptyString
: whether or not to allow an empty string""
to be considered present (default istrue
)
validate(input.value, 'Value', {
presence: { allowEmptyString: false }
})
// `null` fails
// `undefined` fails
// "" fails
message
: a message to be shown if the validation fails
validate(input.lastName, {
presence: { allowEmptyString: false, message: "Can't leave last name empty" }
})
validateWith()
validateWith()
is simply given a function to execute. This function should throw with a message if there is a problem, otherwise do nothing.
validateWith(() => {
if (input.name === 'Name') {
throw "You'll have to be more creative than that"
}
})
validateWith(() => {
if (input.name === 'Name') {
throw new Error("You'll have to be more creative than that")
}
})
Either of these errors will be caught and re-thrown as a ServiceValidationError
with your text as the message
of the error (although technically you should always throw errors with new Error()
like in the second example).
You could just write your own function and throw whatever you like, without using validateWith()
. But, when accessing your Service function through GraphQL, that error would be swallowed and the user would simply see "Something went wrong" for security reasons: error messages could reveal source code or other sensitive information so most are hidden. Errors thrown by Service Validations are considered "safe" and allowed to be shown to the client.
validateUniqueness()
This validation guarantees that the field(s) given in the first argument are unique in the database before executing the callback given in the last argument. If a record is found with the given fields then an error is thrown and the callback is not invoked.
Enable Prisma Preview Feature
Being able to use transactions with the syntax used internally by
validateUniqueness()
is experimental for Prisma as of v2.29.0. You'll need to enable it as a preview feature. In yourapi/db/schema.prisma
file:generator client {
provider = "prisma-client-js"
binaryTargets = "native"
previewFeatures = ["interactiveTransactions"]
}You'll need to regenerate the prisma client and restart your dev server for changes to take effect:
yarn rw prisma generate
yarn rw dev
The uniqueness guarantee is handled through Prisma's transaction API. Given this example validation:
return validateUniqueness('user', { username: input.username }, (db) => {
return db.user.create({ data: input })
})
It is functionally equivalent to:
return await db.$transaction(async (db) => {
if (await db.user.findFirst({ username: input.username })) {
throw new ServiceValidationError('Username is not unique')
} else {
return db.user.create({ data: input })
}
})
So validateUniqueness()
first tries to find a record with the given fields, and if found raise an error, if not then executes the callback.
Why use this when the database can verify uniqueness with a UNIQUE INDEX database constraint?
You may be in a situation where you can't have a unique index (supporting a legacy schema, perhaps), but still want to make sure the data is unique before proceeding. There is also the belief that you shouldn't have to count on the database to validate your data—that's a core concern of your business logic, and your business logic should live in your Services in a Redwood app.
Another issue is that the error raised by Prisma when a record validates a unique index is swallowed by GraphQL and so you can't report it to the user (there are still ways around this, but it involves catching and re-throwing a different error). The error raised by
validateUniqueness()
is already safe-listed and allowed to be sent to the browser.
Arguments
- The name of the db table accessor that will be checked (what you would call on
db
in a normal Prisma call). If you'd calldb.user
then this value is"user"
. - An object, containing the db fields/values to check for uniqueness, like
{ email: 'rob@redwoodjs.com' }
. Can also include additional options explained below that provide for a narrower scope for uniqueness requirements, and a way for the record to identify itself and not create a false positive for an existing record. - [Optional] An object with options.
- Callback to be invoked if record is found to be unique.
In its most basic usage, say you want to make sure that a user's email address is unique before creating the record. input
is an object containing all the user fields to save to the database, including email
which must be unique:
const createUser = (input) => {
return validateUniqueness('user', { email: input.email }, (db) => {
return db.user.create({ data: input })
})
}
You can provide a custom message if the validation failed with the optional third argument:
const createUser = (input) => {
return validateUniqueness('user',
{ email: input.email },
{ message: 'Your email is already in use' },
(db) => db.user.create({ data: input })
)
}
Be sure that both your callback and the surrounding validateUniqueness()
function are return
ed or else your service function will have nothing to return to its consumers, like GraphQL.
$self
What about updating an existing record? In its default usage, an update with this same validateUniqueness
check will fail because the existing record will be found in the database and so think the email address is already in use, even though its in use by itself! In this case, pass an extra $self
prop to the list of fields containing a check on how to identify the record as itself:
const updateUser = (id, input) => {
return validateUniqueness('user', {
email: input.email,
$self: { id }
}, (db) => db.user.create({ data: input })
}
Now the check for whether a record exists will exclude those records whose id
is the same as this record's id
.
$scope
Sometimes we may only want to check uniqueness against a subset of records, say only those owned by the same user. Two different users can create the same blog post with the same title, but a single user can't create two posts with the same title. If the Post
table contains a foreign key to the user that created it, called userId
, we can use that to scope the uniqueness check:
const createPost = (input) => {
return validateUniqueness('post', {
title: input.title,
$scope: { userId: context.currentUser.id }
}, (db) => {
return db.user.create({ data: input })
})
}
This makes sure that the user that's logged in and creating the post cannot reuse the same blog post title as one of their own posts.