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denoland-deno/docs/getting_started/first_steps.md

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## First steps
This page contains some simple examples that can teach you about the
fundamentals of Deno.
This document assumes that you have some prior knowledge of JavaScript,
especially about `async`/`await`. If you have no prior knowledge of JavaScript,
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you might want to follow a guide
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[on the basics of JavaScript](https://developer.mozilla.org/en-US/docs/Learn/JavaScript)
before attempting to start with Deno.
### Hello World
Deno is a runtime for JavaScript and TypeScript and tries to be web compatible
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and use modern features wherever possible.
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Because of this browser compatibility a simple `Hello World` program is actually
no different to one you can run in the browser:
```ts
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console.log("Welcome to Deno 🦕");
```
Try the program:
```shell
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deno run https://deno.land/std/examples/welcome.ts
```
### Making an HTTP request
Something a lot of programs do is fetching data from a webserver via an HTTP
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request. Let's write a small program that fetches a file and prints the content
to the terminal.
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Just like in the browser you can use the web standard
[`fetch`](https://developer.mozilla.org/en-US/docs/Web/API/Fetch_API) API to
make HTTP calls:
```ts
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const url = Deno.args[0];
const res = await fetch(url);
const body = new Uint8Array(await res.arrayBuffer());
await Deno.stdout.write(body);
```
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Let's walk through what this application does:
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1. We get the first argument passed to the application and store it in the
variable `url`.
2. We make a request to the url specified, await the response, and store it in a
variable named `res`.
3. We parse the response body as an
[`ArrayBuffer`](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/ArrayBuffer),
await the response, convert it into a
[`Uint8Array`](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Uint8Array)
and store it in the variable `body`.
4. We write the contents of the `body` variable to `stdout`.
Try it out:
```shell
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deno run https://deno.land/std/examples/curl.ts https://example.com
```
You will see that this program returns an error regarding network access, so
what did we do wrong? You might remember from the introduction that Deno is a
runtime that is secure by default. This means that you need to explicitly give
programs the permission to do certain 'privileged' actions like network access.
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Try it out again with the correct permission flag:
```shell
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deno run --allow-net=example.com https://deno.land/std/examples/curl.ts https://example.com
```
### Reading a file
Deno also provides APIs which do not come from the web. These are all contained
in the `Deno` global. You can find documentation for these APIs on
[doc.deno.land](https://doc.deno.land/https/github.com/denoland/deno/releases/latest/download/lib.deno.d.ts).
Filesystem APIs for example do not have a web standard form, so Deno provides
its own API.
In this program each command-line argument is assumed to be a filename, the file
is opened, and printed to stdout.
```ts
for (let i = 0; i < Deno.args.length; i++) {
let filename = Deno.args[i];
let file = await Deno.open(filename);
await Deno.copy(file, Deno.stdout);
file.close();
}
```
The `copy()` function here actually makes no more than the necessary
kernel→userspace→kernel copies. That is, the same memory from which data is read
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from the file, is written to stdout. This illustrates a general design goal for
I/O streams in Deno.
Try the program:
```shell
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deno run --allow-read https://deno.land/std/examples/cat.ts /etc/passwd
```
### A simple TCP server
This is an example of a simple server which accepts connections on port 8080,
and returns to the client anything it sends.
```ts
const listener = Deno.listen({ port: 8080 });
console.log("listening on 0.0.0.0:8080");
for await (const conn of listener) {
Deno.copy(conn, conn);
}
```
For security reasons, Deno does not allow programs to access the network without
explicit permission. To allow accessing the network, use a command-line flag:
```shell
deno run --allow-net https://deno.land/std/examples/echo_server.ts
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```
To test it, try sending data to it with netcat:
```shell
$ nc localhost 8080
hello world
hello world
```
Like the `cat.ts` example, the `copy()` function here also does not make
unnecessary memory copies. It receives a packet from the kernel and sends back,
without further complexity.
### More examples
You can find more examples, like an HTTP file server, in the `Examples` chapter.