Network Requests: GETs and POSTs

Learning Goals

  • Understand the difference between synchronous and asynchronous operations
  • Be familiar with the fetch API
  • Understand how network requests work
  • Know what GET and POST requests do and how to use them


  • Async / Asynchronous Executing code without blocking the execution of code after it
  • AJAX Updating a webpage based on data from the network without reloading the whole thing

What is a network request?

Let’s start by reviewing what a network request is and see it in action!


Open up your dev tools and navigate to the Network tab. Refresh the page and watch what happens. You should see something like this:

network dev tool example

  • In your notebook, write down what a network request is in your own words.
  • Based on the data that shows up in the Network tab, what are each of the columns referring to? (totally okay to take an educated guess)

What is happening here?

Each item listed is a request for a file from some server somewhere. The one on the top is the initial HTML file, and then the link tags in your HTML prompt network requests for the stylesheets and JavaScript files necessary. Cool!

Types of Requests

Network requests can be made to GET information from a server, but it’s not the only use.

The HTTP protocol defines a variety of types of requests we can make. These include:

  • GET - retrieve information from a server
  • POST - send information to a server, creating resources
  • PUT - send information to a server, updating entire resources
  • PATCH - send informatin to a server, updating partial resources
  • DELETE - remove information from a server
  • And many others

Today we’ll be focusing on how to do GET and POST requests on the frontend side.


Every request we make, successful or not, will receive a response. When looking at the Network tab in the dev tools, you might have noticed some requests had different response codes. The HTTP protocol lays a series of Response Codes to give more information on the status of a request.

Reviewing status code levels

What do each of the status codes mean on a high level?

  • 1XX
  • 2XX
  • 3XX
  • 4XX
  • 5XX

Here’s a few common status codes

  • 200 OK – successful request
  • 201 Created– successful POST request
  • 400 Bad Request – The request failed due to some error in its structure
  • 404 Not Found – The request was correctly structured, but specified a non-existent resource
  • 500 Internal Server Error – Something wrong happened on the server’s side of things

google 500 error

Making a Request

Each network request takes time - they’re expensive. Imagine if you had to wait for a webpage to load one thing at a time! It would not make for a great user experience.

Network requests are expensive no matter what we do. However, we can run them asynchronously, saving some time.

Asynchronous operations refer to things that can happen outside the normal order of execution. Network requests can be synchronous or asynchronous, but most modern applications do them asynchronously to improve performance / the user experience.

Multiple ways of making requests

Note that there are a few ways to make a request. One way you might see is through a process called AJAX, or Asynchronous JavaScript And XML. AJAX was a huge advancement for the web, as it allowed developers to update part of a webpage without reloading the entire thing.

Traditionally, AJAX requests have been made via the XMLHttpRequest object. However, the process is a little clunky, with developers transitioning over to a more streamlined way using the fetch API. This is much more commonly used by developers nowadays and will be the primary way we make network requests at Turing.

The great thing about using the fetch API is that we can use it “for free” with ES6 (as opposed to $.get which requires us to bring in jQuery or axios which is a separate npm package)!

ES6: fetch()

Speaking of using the fetch API, let’s take a look at the docs on what it is!

In Breakout Groups

Using the fetch API docs, answer the following questions.

  • What arguments does the fetch method take? Clarify which ones are mandatory and optional.
  • What does fetch always return? If the term is new to you, read further on what it is.

Not all browsers support fetch

It’s important to note that not every browser supports the fetch api; polyfills (code used to provide modern functionality to older browsers that do not natively support it) are available, but many legacy codebases use other apis that are supported by older browsers, such as Axios or Superagent. You can see what browsers support fetch here!

Key Takeaways

  • The fetch() method takes one mandatory argument, the path to the resource you want to fetch.
  • It can take an optional options object to get more specific about the method, body, and headers.
fetch(resourceUrl, {/*init object with `method`, `body`, and other optional properties*/});
// Returns a promise
  • fetch will always return a promise that either resolves or rejects.

GET with fetch

By default, fetch performs a GET request. This means that if we only add a resource url to the fetch call, we’ll try and GET information from that resource.

Try it out!

Try typing this in your console and see what you get back:

  • This is a basic GET request to the Trivia API to send us back a random trivia question. Does it return what you expect?

Promises - the quick version

A Promise is an object that represents the eventual completion of an action.

We don’t need to worry too much about them now. Just know that a Promise will either be resolved upon completion, or rejected upon failure. We can use special methods for promises to determine what needs to happen in either of those scenarios:

  • .then() runs upon the resolution of a promise. Returns another promise
  • .catch() runs upon the rejection of a failed promise. Used for error handling

What do I do with this “Promise {}"?

Diving into the returned promise reveals some information, such as its status and value, but nothing that’s too immediately useful. Instead we have to resolve it:

  .then(response => console.log(response))
  • What do you get when you log the response object? Take note of the properties there.
  • There’s one problem: we can’t seem to get the data we want from the Response.body. How is data sent through requests and responses? Think back to localStorage in mod 1 and what you had to do in order to access data.

Parsing our response

Similar to what you did with localStorage, we’ll need to parse our response! We’ll need to use the Body.json() method that comes with fetch to parse it and call another .then().

From the docs, the .json() method returns “A promise that resolves with the result of parsing the body text as JSON. This could be anything that can be represented by JSON — an object, an array, a string, a number.

Let’s try it out!

  .then(response => response.json())
  .then(data => console.log(data));

Lastly, we can add in a .catch() to account for any errors we may run into.

  .then(response => response.json())
  .then(data => console.log(data))
  .catch(err => /* do something else */);

Getting practice

Using the Trivia API, do the following in your console:

  • Fetch 10 science questions using fetch and console.log the entire response
  • Fetch 20 geography questions and for each trivia object console.log the answer only
  • Fetch 20 geography questions and console.log the response status code.

POST with fetch

What if we want to add information to a database?

If we want to use fetch to make any other kind of request, we’ll have to add an optional init object into the function call.

In Your Notebook

Reflecting on the How the Web Works, what makes up the request? What additional information might we need to send in our fetch request?

Implementing a POST Request

Given that the default behavior of fetch is to GET data, we need to utilize the options object and update the method to be a POST.

fetch(url, {

From here, the implementation may look different based on the API you’re communicating with. Some good init object properties to be aware of:

  • method - whatever kind of request we’ll be making; “GET”, “POST”, “DELETE”, etc…
  • body - the body of whatever we want to send to the server
  • headers - extra information needed about the request. Takes an object. An important header property to know:
    • Content-Type - specify what format the body will be in

Here’s a typical POST request structure:

fetch(url, {
  method: 'POST',
  body: JSON.stringify(someDataToSend), // remember how HTTP can only send and receive strings, just like localStorage?
  headers: {
  	'Content-Type': 'application/json'
  .then(response => response.json())
  .then(json => /*do something with json*/)
  .catch(err => /*do something with the error*/);

Remember, fetch still returns a promise. We’ve got to resolve it, regardless of what request type we’re making.

Often times, if a POST is successful, you’ll see a 201 created status message in the response


Head to this repo for some practice with GETting and POSTing.

Working with a partner, follow the setup instructions to get the server running. Then follow the steps in order within the client/index.js file and test it out by opening the client/index.html file.

Nice to Know: Query Strings / URL Structure

url anatomy diagram

What’s all that weird stuff in the URL we’re fetching?

Fetch and XMLHttpRequest Objects take the url as one of their arguments. The URL itself can be thought of containing sub-arguments that give these request objects and methods more information. The entire anatomy of a URL can be broken down into a series of informative peices, but the ones we’re focused on today are queries.

Anything coming after the ? in a url is part of a query. Queries can be broken down into categories and arguments (check the vocab here). Each category / argument pair is separated by an &.

In the example from above:


we’re querying information about the amount, category, and type of the trivia we want to receive.

Take a look at the trivia docs, and figure out what each of the queries in our fetch request mean.


“A Promise is an object representing the eventual completion or failure of an asynchronous operation”

In our case, we can think of Promises as a placeholder that will do something once it receives a response back from the trivia server.

The great thing about promises is that since they are just objects we can move them around like an object and can return them from functions.

function getTrivia(number, categoryId) {
  const root = '';
  const url = `${root}?amount=${number}&category=${categoryId}&type=multiple`;
  const promise = fetch(url)
                  .then(response => response.json());
  return promise;

getTrivia(10, 27)
  .then(data => console.log(data))
  .catch(err => /* do something else */);

What is this asynchronous thing all about?

Let’s say we’re at a restaurant for a night out on the town…Here’s how the experience would go in each scenario:

  • Synchronous: I order my food, everyone in the restaurant has to wait until I get my food before the next person can order.

  • Asynchronous: I order my food, the order is put into a queue, other food is made in the meantime, my food is ready, and the server brings it to me.

A Non-AJAX Example: setTimeout()


setTimeout(() => {
}, 2000);

console.log("Wait for it...");

setTimeout() is actually an asynchronous function, which executes its callback after waiting for the allotted time to expire.


  • Why are async operations necessary?
  • Have you run into a situation on past projects where you needed async operations to accomplish it?

Further Reading:

Lesson Search Results

Showing top 10 results