Pagoda: Rapid, easy full-stack web development starter kit in Go


Pagoda: Rapid, easy full-stack web development starter kit in Go

Go Report Card Test License: MIT GoT


Table of Contents



Pagoda is not a framework but rather a base starter-kit for rapid, easy full-stack web development in Go, aiming to provide much of the functionality you would expect from a complete web framework as well as establishing patterns, procedures and structure for your web application.

Built on a solid foundation of well-established frameworks and modules, Pagoda aims to be a starting point for any web application with the benefit over a mega-framework in that you have full control over all of the code, the ability to easily swap any frameworks or modules in or out, no strict patterns or interfaces to follow, and no fear of lock-in.

While separate JavaScript frontends have surged in popularity, many prefer the reliability, simplicity and speed of a full-stack approach with server-side rendered HTML. Even the popular JS frameworks all have SSR options. This project aims to highlight that Go templates can be powerful and easy to work with, and interesting frontend libraries can provide the same modern functionality and behavior without having to write any JS at all.


While many great projects were used to build this, all of which are listed in the credits section, the following provide the foundation of the back and frontend. It's important to note that you are not required to use any of these. Swapping any of them out will be relatively easy.


  • Echo: High performance, extensible, minimalist Go web framework.
  • Ent: Simple, yet powerful ORM for modeling and querying data.


Go server-side rendered HTML combined with the projects below enable you to create slick, modern UIs without writing any JavaScript or CSS.

  • HTMX: Access AJAX, CSS Transitions, WebSockets and Server Sent Events directly in HTML, using attributes, so you can build modern user interfaces with the simplicity and power of hypertext.
  • Alpine.js: Rugged, minimal tool for composing behavior directly in your markup. Think of it like jQuery for the modern web. Plop in a script tag and get going.
  • Bulma: Provides ready-to-use frontend components that you can easily combine to build responsive web interfaces. No JavaScript dependencies.


  • PostgreSQL: The world's most advanced open source relational database.
  • Redis: In-memory data structure store, used as a database, cache, and message broker.


Inline form validation

Inline validation

Switch layout templates, user registration


Alpine.js modal, HTMX AJAX request

Alpine and HTMX

Getting started


Ensure the following are installed on your system:

Start the application

After checking out the repository, from within the root, start the Docker containers for the database and cache by executing make up.

Once that completes, you can start the application by executing make run. By default, you should be able to access the application in your browser at localhost:8000.

If you ever want to quickly drop the Docker containers and restart them in order to wipe all data, execute make reset.

Running tests

To run all tests in the application, execute make test. This ensures that the tests from each package are not run in parallel. This is required since many packages contain tests that connect to the test database which is dropped and recreated automatically for each package.


The following make commands are available to make it easy to connect to the database and cache.

  • make db: Connects to the primary database
  • make db-test: Connects to the test database
  • make cache: Connects to the cache

Service container

The container is located at services/container.go and is meant to house all of your application's services and/or dependencies. It is easily extensible and can be created and initialized in a single call. The services currently included in the container are:

  • Configuration
  • Cache
  • Database
  • ORM
  • Web
  • Validator
  • Authentication
  • Mail
  • Template renderer

A new container can be created and initialized via services.NewContainer(). It can be later shutdown via Shutdown().

Dependency injection

The container exists to faciliate easy dependency-injection both for services within the container as well as areas of your application that require any of these dependencies. For example, the container is passed to and stored within the Controller so that the controller and the route using it have full, easy access to all services.

Test dependencies

It is common that your tests will require access to dependencies, like the database, or any of the other services available within the container. Keeping all services in a container makes it especially easy to initialize everything within your tests. You can see an example pattern for doing this here.


The config package provides a flexible, extensible way to store all configuration for the application. Configuration is added to the Container as a Service, making it accessible across most of the application.

Be sure to review and adjust all of the default configuration values provided.

Environment overrides

Leveraging the functionality of envdecode, all configuration values can be overridden by environment variables. Here is an example of what a configuration value looks like, each of which is a field on a struct:

Port  uint16  `env:"HTTP_PORT,default=8000"`

The value for this field will be set to 8000, the default, unless the HTTP_PORT environment variable is set, in which case the value of the variable will be used. This allows you to easily override configuration values per-environment.


The configuration value for the current environment (Config.App.Environment) is an important one as it can influence some behavior significantly (will be explained in later sections).

A helper function (config.SwitchEnvironment) is available to make switching the environment easy, but this must be executed prior to loading the configuration. The common use-case for this is to switch the environment to Test before tests are executed:

func TestMain(m *testing.M) {
	// Set the environment to test

	// Start a new container
	c = services.NewContainer()
	defer func() {
		if err := c.Shutdown(); err != nil {

	// Run tests
	exitVal := m.Run()


The database currently used is PostgreSQL but you are free to use whatever you prefer. If you plan to continue using Ent, the incredible ORM, you can check their supported databases here. The database-driver and client is provided by pgx and included in the Container.

Database configuration can be found and managed within the config package.


Ent provides automatic migrations which are executed on the database whenever the Container is created, which means they will run when the application starts.

Separate test database

Since many tests can require a database, this application supports a separate database specifically for tests. Within the config, the test database name can be specified at Config.Database.TestDatabase.

When a Container is created, if the environment is set to config.EnvTest, the database client will connect to the test database instead, drop the database, recreate it, and run migrations so your tests start with a clean, ready-to-go database. Another benefit is that after the tests execute in a given package, you can connect to the test database to audit the data which can be useful for debugging.


As previously mentioned, Ent is the supplied ORM. It can swapped out, but I highly recommend it. I don't think there is anything comparable for Go, at the current time. If you're not familiar with Ent, take a look through their top-notch documentation.

An Ent client is included in the Container to provide easy access to the ORM throughout the application.

Ent relies on code-generation for the entities you create to provide robust, type-safe data operations. Everything within the ent package in this repository is generated code for the two entity types listed below with the exception of the schema declaration.

Entity types

The two included entity types are:

  • User
  • PasswordToken

New entity type

While you should refer to their documentation for detailed usage, it's helpful to understand how to create an entity type and generate code. To make this easier, the Makefile contains some helpers.

  1. Ensure all Ent code is downloaded by executing make ent-install.
  2. Create the new entity type by executing make ent-new name=User where User is the name of the entity type. This will generate a file like you can see in ent/schema/user.go though the Fields() and Edges() will be left empty.
  3. Populate the Fields() and optionally the Edges() (which are the relationships to other entity types).
  4. When done, generate all code by executing make ent-gen.

The generated code is extremely flexible and impressive. An example to highlight this is one used within this application:

entity, err := c.ORM.PasswordToken.

This executes a database query to return all password token entities that belong to a user with a given ID and have a created at timestamp field that is greater than or equal to a given time.


Sessions are provided and handled via Gorilla sessions and configured as middleware in the router located at routes/router.go. Session data is currently stored in cookies but there are many options available if you wish to use something else.

Here's a simple example of loading data from a session and saving new values:

func SomeFunction(ctx echo.Context) error {
    sess, err := session.Get("some-session-key", ctx)
    if err != nil {
        return err
    sess.Values["hello"] = "world"
    sess.Values["isSomething"] = true
    return sess.Save(ctx.Request(), ctx.Response())


Session data is encrypted for security purposes. The encryption key is stored in configuration at Config.App.EncryptionKey. While the default is fine for local development, it is imperative that you change this value for any live environment otherwise session data can be compromised.


Included are standard authentication features you expect in any web application. Authentication functionality is bundled as a Service within services/AuthClient and added to the Container. If you wish to handle authentication in a different manner, you could swap this client out or modify it as needed.

Authentication currently requires sessions and the session middleware.

Login / Logout

The AuthClient has methods Login() and Logout() to log a user in or out. To track a user's authentication state, data is stored in the session including the user ID and authentication status.

Prior to logging a user in, the method CheckPassword() can be used to determine if a user's password matches the hash stored in the database and on the User entity.

Routes are provided for the user to login and logout at user/login and user/logout.

Forgot password

Users can reset their password in a secure manner by issuing a new password token via the method GeneratePasswordResetToken(). This creates a new PasswordToken entity in the database belonging to the user. The actual token itself, however, is not stored in the database for security purposes. It is only returned via the method so it can be used to build the reset URL for the email. Rather, a hash of the token is stored, using bcrypt the same package used to hash user passwords. The reason for doing this is the same as passwords. You do not want to store a plain-text value in the database that can be used to access an account.

Tokens have a configurable expiration. By default, they expire within 1 hour. This can be controlled in the config package. The expiration of the token is not stored in the database, but rather is used only when tokens are loaded for potential usage. This allows you to change the expiration duration and affect existing tokens.

Since the actual tokens are not stored in the database, the reset URL must contain the user's ID. Using that, GetValidPasswordToken() will load all non-expired password token entities belonging to the user, and use bcrypt to determine if the token in the URL matches any of the stored hashes.

Once a user claims a valid password token, all tokens for that user should be deleted using DeletePasswordTokens().

Routes are provided to request a password reset email at user/password and to reset your password at user/password/reset/token/:uid/:password_token.


The actual registration of a user is not handled within the AuthClient but rather just by creating a User entity. When creating a user, use HashPassword() to create a hash of the user's password, which is what will be stored in the database.

A route is provided for the user to register at user/register.

Authenticated user

The AuthClient has two methods available to get either the User entity or the ID of the user currently logged in for a given request. Those methods are GetAuthenticatedUser() and GetAuthenticatedUserID().


Registered for all routes is middleware that will load the currently logged in user entity and store it within the request context. The middleware is located at middleware.LoadAuthenticatedUser() and, if authenticated, the User entity is stored within the context using the key context.AuthenticatedUserKey.

If you wish to require either authentication or non-authentication for a given route, you can use either middleware.RequireAuthentication() or middleware.RequireNoAuthentication().

Email verification

Most web applications require the user to verify their email address (or other form of contact information). The User entity has a field Verified to indicate if they have verified themself. When a user successfully registers, an email is sent to them containing a link with a token that will verify their account when visited. This route is currently accessible at /email/verify/:token and handled by routes/VerifyEmail.

There is currently no enforcement that a User must be verified in order to access the application. If that is something you desire, it will have to be added in yourself. It was not included because you may want partial access of certain features until the user verifies; or no access at all.

Verification tokens are JSON Web Tokens generated and processed by the jwt module. The tokens are signed using the encryption key stored in configuration (Config.App.EncryptionKey). It is imperative that you override this value from the default in any live environments otherwise the data can be comprimised. JWT was chosen because they are secure tokens that do not have to be stored in the database, since the tokens contain all of the data required, including built-in expirations. These were not chosen for password reset tokens because JWT cannot be withdrawn once they are issued which poses a security risk. Since these tokens do not grant access to an account, the ability to withdraw the tokens is not needed.

By default, verification tokens expire 12 hours after they are issued. This can be changed in configuration at Config.App.EmailVerificationTokenExpiration. There is currently not a route or form provided to request a new link.

Be sure to review the email section since actual email sending is not fully implemented.

To generate a new verification token, the AuthClient has a method GenerateEmailVerificationToken() which creates a token for a given email address. To verify the token, pass it in to ValidateEmailVerificationToken() which will return the email address associated with the token and an error if the token is invalid.


The router functionality is provided by Echo and constructed within via the BuildRouter() function inside routes/router.go. Since the Echo instance is a Service on the Container which is passed in to BuildRouter(), middleware and routes can be added directly to it.

Custom middleware

By default, a middleware stack is included in the router that makes sense for most web applications. Be sure to review what has been included and what else is available within Echo and the other projects mentioned.

A middleware package is included which you can easily add to along with the custom middleware provided.

Controller / Dependencies

The Controller, which is described in a section below, serves two purposes for routes:

  1. It provides base functionality which can be embedded in each route, most importantly Page rendering (described in the Controller section below)
  2. It stores a pointer to the Container, making all Services available within your route

While using the Controller is not required for your routes, it will certainly make development easier.

See the following section for the proposed pattern.


These patterns are not required, but were designed to make development as easy as possible.

To declare a new route that will have methods to handle a GET and POST request, for example, start with a new struct type, that embeds the Controller:

type Home struct {

func (c *Home) Get(ctx echo.Context) error {}

func (c *Home) Post(ctx echo.Context) error {}

Then create the route and add to the router:

home := Home{Controller: controller.NewController(c)}
g.GET("/", home.Get).Name = "home"
g.POST("/", home.Post).Name = ""

Your route will now have all methods available on the Controller as well as access to the Container. It's not required to name the route methods to match the HTTP method.

It is highly recommended that you provide a Name for your routes. Most methods on the back and frontend leverage the route name and parameters in order to generate URLs.


Routes can return errors to indicate that something wrong happened. Ideally, the error is of type *echo.HTTPError to indicate the intended HTTP response code. You can use return echo.NewHTTPError(http.StatusInternalServerError), for example. If an error of a different type is returned, an Internal Server Error is assumed.

The error handler is set to a provided route routes/error.go in the BuildRouter() function. That means that if any middleware or route return an error, the request gets routed there. This route conveniently constructs and renders a Page which uses the template templates/pages/error.go. The status code is passed to the template so you can easily alter the markup depending on the error type.


Since most of your web application logic will live in your routes, being able to easily test them is important. The following aims to help facilitate that.

The test setup and helpers reside in routes/router_test.go.

Only a brief example of route tests were provided in order to highlight what is available. Adding full tests did not seem logical since these routes will most likely be changed or removed in your project.

HTTP server

When the route tests initialize, a new Container is created which provides full access to all of the Services that will be available during normal application execution. Also provided is a test HTTP server with the router added. This means your tests can make requests and expect responses exactly as the application would behave outside of tests. You do not need to mock the requests and responses.

Request / Response helpers

With the test HTTP server setup, test helpers for making HTTP requests and evaluating responses are made available to reduce the amount of code you need to write. See httpRequest and httpResponse within routes/router_test.go.

Here is an example how to easily make a request and evaluate the response:

func TestAbout_Get(t *testing.T) {
    doc := request(t).


A helpful, included package to test HTML markup from HTTP responses is goquery. This allows you to use jQuery-style selectors to parse and extract HTML values, attributes, and so on.

In the example above, toDoc() will return a *goquery.Document created from the HTML response of the test HTTP server.

Here is a simple example of how to use it, along with testify for making assertions:

h1 := doc.Find("h1.title")
assert.Len(t, h1.Nodes, 1)
assert.Equal(t, "About", h1.Text())


As previously mentioned, the Controller acts as a base for your routes, though it is optional. It stores the Container which houses all Services (dependencies) but also a wide array of functionality aimed at allowing you to build complex responses with ease and consistency.


The Page is the major building block of your Controller responses. It is a struct type located at controller/page.go. The concept of the Page is that it provides a consistent structure for building responses and transmitting data and functionality to the templates.

All example routes provided construct and render a Page. It's recommended that you review both the Page and the example routes as they try to illustrate all included functionality.

As you develop your application, the Page can be easily extended to include whatever data or functions you want to provide to your templates.

Initializing a new page is simple:

func (c *Home) Get(ctx echo.Context) error {
    page := controller.NewPage(ctx)

Using the echo.Context, the Page will be initialized with the following fields populated:

  • Context: The passed in context
  • ToURL: A function the templates can use to generate a URL with a given route name and parameters
  • Path: The requested URL path
  • URL: The requested URL
  • StatusCode: Defaults to 200
  • Pager: Initialized Pager (see below)
  • RequestID: The request ID, if the middleware is being used
  • IsHome: If the request was for the homepage
  • IsAuth: If the user is authenticated
  • AuthUser: The logged in user entity, if one
  • CSRF: The CSRF token, if the middleware is being used
  • HTMX.Request: Data from the HTMX headers, if HTMX made the request (see below)

Flash messaging

While flash messaging functionality is provided outside of the Controller and Page, within the msg package, it's really only used within this context.

Flash messaging requires that sessions and the session middleware are in place since that is where the messages are stored.

Creating messages

There are four types of messages, and each can be created as follows:

  • Success: msg.Success(ctx echo.Context, message string)
  • Info: msg.Info(ctx echo.Context, message string)
  • Warning: msg.Warning(ctx echo.Context, message string)
  • Danger: msg.Danger(ctx echo.Context, message string)

The message string can contain HTML.

Rendering messages

When a flash message is retrieved from storage in order to be rendered, it is deleted from storage so that it cannot be rendered again.

The Page has a method that can be used to fetch messages for a given type from within the template: Page.GetMessages(typ msg.Type). This is used rather than the funcmap because the Page contains the request context which is required in order to access the session data. Since the Page is the data destined for the templates, you can use: {{.GetMessages "success"}} for example.

To make things easier, a template component is already provided, located at templates/components/messages.gohtml. This will render all messages of all types simply by using {{template "messages" .}} either within your page or layout template.


A very basic mechanism is provided to handle and facilitate paging located in controller/pager.go. When a Page is initialized, so is a Pager at Page.Pager. If the requested URL contains a page query parameter with a numeric value, that will be set as the page number in the pager.

During initialization, the items per page amount will be set to the default, controlled via constant, which has a value of 20. It can be overridden by changing Pager.ItemsPerPage but should be done before other values are set in order to not provide incorrect calculations.

Methods include:

  • SetItems(items int): Set the total amount of items in the entire result-set
  • IsBeginning(): Determine if the pager is at the beginning of the pages
  • IsEnd(): Determine if the pager is at the end of the pages
  • GetOffset(): Get the offset which can be useful is constructing a paged database query

There is currently no template (yet) to easily render a pager.


By default, all non GET requests will require a CSRF token be provided as a form value. This is provided by middleware and can be adjusted or removed in the router.

The Page will contain the CSRF token for the given request. There is a CSRF helper component template which can be used to easily render a hidden form element in your form which will contain the CSRF token and the proper element name. Simply include {{template "csrf" .}} within your form.

Automatic template parsing

Dealing with templates can be quite tedious and annoying so the Page aims to make it as simple as possible with the help of the template renderer. To start, templates for pages are grouped in the following directories within the templates directory:

  • layouts: Base templates that provide the entire HTML wrapper/layout. This template should include a call to {{template "content" .}} to render the content of the Page.
  • pages: Templates that are specific for a given route/page. These must contain {{define "content"}}{{end}} which will be injected in to the layout template.
  • components: A shared library of common components that the layout and base template can leverage.

Specifying which templates to render for a given Page is as easy as:

page.Name = "home"
page.Layout = "main"

That alone will result in the following templates being parsed and executed when the Page is rendered:

  1. layouts/main.gohtml as the base template
  2. pages/home.gohtml to provide the content template for the layout
  3. All template files located within the components directory
  4. The entire funcmap

The template renderer also provides caching and local hot-reloading.

Cached responses

A Page can have cached enabled just by setting Page.Cache.Enabled to true. The Controller will automatically handle caching the HTML output, headers and status code. Cached pages are stored using a key that matches the full request URL and middleware is used to serve it on matching requests.

By default, the cache expiration time will be set according to the configuration value located at Config.Cache.Expiration.Page but it can be set per-page at Page.Cache.Expiration.

Cache tags

You can optionally specify cache tags for the Page by setting a slice of strings on Page.Cache.Tags. This provides the ability to build in cache invalidation logic in your application driven by events such as entity operations, for example.

The cache client on the Container is currently handled by gocache which makes it easy to perform operations such as tag-invalidation, for example:

c.Cache.Invalidate(ctx, store.InvalidateOptions{
    Tags: []string{"my-tag"},

Cache middleware

Cached pages are served via the middleware ServeCachedPage() in the middleware package.

The cache is bypassed if the requests meet any of the following criteria:

  1. Is not a GET request
  2. Is made by an authenticated user

Cached pages are looked up for a key that matches the exact, full URL of the given request.


The Data field on the Page is of type interface{} and is what allows your route to pass whatever it requires to the templates, alongside the Page itself.


The Form field on the Page is similar to the Data field in that it's an interface{} type but it's meant to store a struct that represents a form being rendered on the page.

An example of this pattern is:

type ContactForm struct {
    Email      string `form:"email" validate:"required,email"`
    Message    string `form:"message" validate:"required"`
    Submission controller.FormSubmission

Then in your page:

page := controller.NewPage(ctx)
page.Form = ContactForm{}

How the form gets populated with values so that your template can render them is covered in the next section.

Submission processing

Form submission processing is made extremely simple by leveraging functionality provided by Echo binding, validator and the FormSubmission struct located in controller/form.go.

Using the example form above, these are the steps you would take within the POST callback for your route:

Start by storing a pointer to the form in the conetxt so that your GET callback can access the form values, which will be showed at the end:

var form ContactForm
ctx.Set(context.FormKey, &form)

Parse the input in the POST data to map to the struct so it becomes populated. This uses the form struct tags to map form values to the struct fields.

if err := ctx.Bind(&form); err != nil {
    // Something went wrong...

Process the submission which uses validator to check for validation errors:

if err := form.Submission.Process(ctx, form); err != nil {
    // Something went wrong...

Check if the form submission has any validation errors:

if !form.Submission.HasErrors() {
    // All good, now execute something!

In the event of a validation error, you most likely want to re-render the form with the values provided and any error messages. Since you stored a pointer to the form in the context in the first step, you can first have the POST handler call the GET:

if form.Submission.HasErrors() {
    return c.Get(ctx)

Then, in your GET handler, extract the form from the context so it can be passed to the templates:

page := controller.NewPage(ctx)
page.Form = ContactForm{}

if form := ctx.Get(context.FormKey); form != nil {
    page.Form = form.(*ContactForm)

And finally, your template:


Inline validation

The FormSubmission makes inline validation easier because it will store all validation errors in a map, keyed by the form struct field name. It also contains helper methods that your templates can use to provide classes and extract the error messages.

While validator is a great package that is used to validate based on struct tags, the downside is that the messaging, by default, is not very human-readable or easy to override. Within FormSubmission.setErrorMessages() the validation errors are converted to more readable messages based on the tag that failed validation. Only a few tags are provided as an example, so be sure to expand on that as needed.

To provide the inline validation in your template, there are two things that need to be done.

First, include a status class on the element so it will highlight green or red based on the validation:


Second, render the error messages, if there are any for a given field:

{{template "field-errors" (.Form.Submission.GetFieldErrors "Email")}}


HTTP headers can be set either via the Page or the context:

page := controller.NewPage(ctx)
page.Headers["HeaderName"] = "header-value"
ctx.Response().Header().Set("HeaderName", "header-value")

Status code

The HTTP response status code can be set either via the Page or the context:

page := controller.NewPage(ctx)
page.StatusCode = http.StatusTooManyRequests
ctx.Response().Status = http.StatusTooManyRequests


The Page provides the ability to set basic HTML metatags which can be especially useful if your web application is publicly accessible. Only fields for the description and keywords are provided but adding additional fields is very easy.

page := controller.NewPage(ctx)
page.Metatags.Description = "The page description."
page.Metatags.Keywords = []string{"Go", "Software"}

A component template is included to render metatags in core.gohtml which can be used by adding {{template "metatags" .}} to your layout.

URL and link generation

Generating URLs in the templates is made easy if you follow the routing patterns and provide names for your routes. Echo provides a Reverse function to generate a route URL with a given route name and optional parameters. This function is made accessible to the templates via the Page field ToURL.

As an example, if you have route such as:

profile := Profile{Controller: ctr}
e.GET("/user/profile/:user", profile.Get).Name = "user_profile"

And you want to generate a URL in the template, you can:

{{call .ToURL "user_profile" 1}

Which will generate: /user/profile/1

There is also a helper function provided in the funcmap to generate links which has the benefit of adding an active class if the link URL matches the current path. This is especially useful for navigation menus.

{{link (call .ToURL "user_profile" .AuthUser.ID) "Profile" .Path "extra-class"}}

Will generate:

<a href="/user/profile/1" class="is-active extra-class">Profilea>

Assuming the current path is /user/profile/1; otherwise the is-active class will be excluded.

HTMX support

HTMX is an awesome JavaScript library allows you to access AJAX, CSS Transitions, WebSockets and Server Sent Events directly in HTML, using attributes, so you can build modern user interfaces with the simplicity and power of hypertext.

Many examples of its usage are available in the included examples:

  • All navigation links use boost which dynamically replaces the page content with an AJAX request, providing a SPA-like experience.
  • All forms use either boost or hx-post to submit via AJAX.
  • The mock search autocomplete modal uses hx-get to fetch search results from the server via AJAX and update the UI.
  • The mock posts on the homepage/dashboard use hx-get to fetch and page posts vi AJAX.

All of this can be easily accomplished without writing any JavaScript at all.

Another benefit of HTMX is that it's completely backend-agnostic and does not require any special tools or integrations on the backend. But to make things easier, included is a small package to read and write HTTP headers that HTMX uses to communicate additional information and commands.

The htmx package contains the headers for the request and response. When a Page is initialized, Page.HTMX.Request will also be initialized and populated with the headers that HTMX provides, if HTMX made the request. This allows you to determine if HTMX is making the given request and what exactly it is doing, which could be useful both in your route as well as your templates.

If you need to set any HTMX headers in your Page response, this can be done by altering Page.HTMX.Response.

Layout template override

To faciliate easy partial rendering for HTMX requests, the Page will automatically change your Layout template to use htmx.gohtml, which currently only renders {{template "content" .}}. This allows you to use an HTMX request to only update the content portion of the page, rather than the entire HTML.

This override only happens if the HTMX request being made is not a boost request because boost requests replace the entire body element so there is no need to do a partial render.

Conditional processing / rendering

Since HTMX communicates what it is doing with the server, you can use the request headers to conditionally process in your route or render in your template, if needed. If your routes aren't doing multiple things, you may not need this, but it's worth knowing how flexible you can be.

A simple example of this:

if page.HTMX.Request.Target == "search" {
    // You know this request HTMX is fetching content just for the #search element
{{if eq .HTMX.Request.Target "search"}}
    // Render content for the #search element

CSRF token

If CSRF protection is enabled, the token value will automatically be passed to HTMX to be included in all non-GET requests. This is done in the footer template by leveraging HTMX events.

Rendering the page

Once your Page is fully built, rendering it via the embedded Controller in your route can be done simply by calling RenderPage():

func (c *Home) Get(ctx echo.Context) error {
    page := controller.NewPage(ctx)
    page.Layout = "main"
    page.Name = "home"
    return c.RenderPage(ctx, page)

Template renderer

The template renderer is a Service on the Container that aims to make template parsing and rendering easy and flexible. It is the mechanism that allows the Page to do automatic template parsing. The standard html/template is still the engine used behind the scenes. The code can be found in services/template_renderer.go.

While there are several methods available, the following is the primary one used:

ParseAndExecute(cacheGroup, cacheID, baseName string, files []string, directories []string, data interface{})

Using the example from the page rendering, this is what the Controller will execute:

buf, err = c.TemplateRenderer.ParseAndExecute(
        fmt.Sprintf("layouts/%s", page.Layout),
        fmt.Sprintf("pages/%s", page.Name),

The parameters represent:

  • cacheGroup: The group to cache the parsed templates in
  • cacheID: The ID of the cache within the group
  • baseName: The name of the base template, excluding the extension
  • files: A list of individual template files to include, excluding the extension and template directory
  • directories: A list of directories to include all templates contained
  • data: The data object to send to the templates

All templates will be parsed with the funcap.


Parsed templates will be cached within a sync.Map so the operation will only happen once per cache group and ID. Be careful with your cache group and ID parameters to avoid collisions.

Hot-reload for development

If the current environment is set to config.EnvLocal, which is the default, the cache will be bypassed and templates will be parsed every time they are requested. This allows you to have hot-reloading without having to restart the application so you can see your HTML changes in the browser immediately.

File configuration

To make things easier and less repetitive, parameters given to the template renderer must not include the templates directory or the template file extensions. These are stored as constants within the config package. If your project has a need to change either of these, simply adjust the TemplateDir and TemplateExt constants.


The funcmap package provides a function map (template.FuncMap) which will be included for all templates rendered with the template renderer. Aside from a few custom functions, sprig is included which provides over 100 commonly used template functions. The full list is available here.

To include additional custom functions, add to the slice in GetFuncMap() and define the function in the package. It will then become automatically available in all templates.


As previously mentioned, Redis was chosen as the cache but it can be easily swapped out for something else. go-redis is used as the underlying client but the Container currently only exposes gocache which was chosen because it makes interfacing with the cache client much easier, and it provides a consistent interface if you were to use a cache backend other than Redis.

The built-in usage of the cache is currently only for optional page caching but it can be used for practically anything.

Static files

Static files are currently configured in the router (routes/router.go) to be served from the static directory. If you wish to change the directory, alter the constant config.StaticDir. The URL prefix for static files is /files which is controlled via the config.StaticPrefix constant.

Cache control headers

Static files are grouped separately so you can apply middleware only to them. Included is a custom middleware to set cache control headers (middleware.CacheControl) which has been added to the static files router group.

The cache max-life is controlled by the configuration at Config.Cache.Expiration.StaticFile and defaults to 6 months.


While it's ideal to use cache control headers on your static files so browsers cache the files, you need a way to bust the cache in case the files are changed. In order to do this, a function is provided in the funcmap to generate a static file URL for a given file that appends a cache-buster query. This query string is randomly generated and persisted until the application restarts.

For example, to render a file located in static/picture.png, you would use:

<img src="{{File "picture.png"}"/>

Which would result in:

<img src="/files/picture.png?v=9fhe73kaf3"/>

Where 9fhe73kaf3 is the randomly-generated cache-buster.


An email client was added as a Service to the Container but it is just a skeleton without any actual email-sending functionality. The reason is because there are a lot of ways to send email and most prefer using a SaaS solution for that. That makes it difficult to provide a generic solution that will work for most applications.

Two starter methods were added to the MailClient, one to send an email via plain-text and one to send via a template by leveraging the template renderer. The standard library can be used if you wish to send email via SMTP and most SaaS providers have a Go package that can be used if you choose to go that direction.


By default, the application will not use HTTPS but it can be enabled easily. Just alter the following configuration:

  • Config.HTTP.TLS.Enabled: true
  • Config.HTTP.TLS.Certificate: Full path to the certificate file
  • Config.HTTP.TLS.Key: Full path to the key file

To use Let's Encrypt follow this guide.


Logging is provided by Echo and is accessible within the Echo instance, which is located in the Web field of the Container, or within any of the context parameters, for example:

func (c *Home) Get(ctx echo.Context) error {
    ctx.Logger().Info("something happened")
    if err := someOperation(); err != nil {
        ctx.Logger().Errorf("the operation failed: %v", err)

The logger can be swapped out for another, as long as it implements Echo's logging interface. There are projects that provide this bridge for popular logging packages such as zerolog.

Request ID

By default, Echo's request ID middleware is enabled on the router but it only adds a request ID to the log entry for the HTTP request itself. Log entries that are created during the course of that request do not contain the request ID. LogRequestID() is custom middleware included which adds that request ID to all logs created throughout the request.


Future work includes but is not limited to:

  • Flexible pager templates
  • Expanded HTMX examples and integration
  • Admin section


Thank you to all of the following amazing projects for making this possible.

  • Add helpful dev tools

    Add helpful dev tools

    Proposed Changes

    These are tools that I find extremely helpful when developing locally, especially when external dependencies (databases, caches, etc.) are involved.

    • Add "Live reloading" of the Go application via
    • Add a Redis UI via
    • Add a Postgres UI via
    • Add an SMTP server via
    • Add to coordinate all new services
    • Add dev, dev-down, dev-logs Makefile targets
    • Update the README with brief instructions on how to use the new Makefile targets
    • Ignore the tmp directory (created by "Live Reloading" and the Redis UI) via .gitignore
    opened by TrevorEdris 2
  • Upload images for the README

    Upload images for the README


    opened by mikestefanello 1
Mike Stefanello
Mike Stefanello
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