13 KiB
Deno Documentation
Disclaimer
A word of caution: Deno is very much under development. We encourage brave early adopters, but expect bugs large and small. The API is subject to change without notice.
Bug reports do help!
Install
Deno works on OSX, Linux, and Windows. Deno is a single binary executable. It has no external dependencies.
deno_install provides convenience scripts to download and install the binary.
Using Shell:
curl -fL https://deno.land/x/install/install.sh | sh
Or using PowerShell:
iex (iwr https://deno.land/x/install/install.ps1)
Note: Depending on your security settings, you may have to run
Set-ExecutionPolicy RemoteSigned -Scope CurrentUser
first to allow downloaded
scripts to be executed.
With Scoop:
scoop install deno
Deno can also be installed manually, by downloading a tarball or zip file at github.com/denoland/deno/releases. These packages contain just a single executable file. You will have to set the executable bit on Mac and Linux.
Try it:
> deno https://deno.land/thumb.ts
API Reference
To get an exact reference of deno's runtime API, run the following in the command line:
> deno --types
Or see the doc website.
If you are embedding deno in a Rust program, see the rust docs.
Build Instructions
Prerequisites:
To ensure reproducible builds, deno has most of its dependencies in a git submodule. However, you need to install separately:
Extra steps for Mac users:
- XCode
- Openssl 1.1:
brew install openssl@1.1
(TODO: shouldn't be necessary)
Extra steps for Windows users:
- Add
python.exe
toPATH
(e.g.set PATH=%PATH%;C:\Python27\python.exe
) - Get VS Community 2017 with
Desktop development with C++
toolkit and make sure to select the following required tools listed below along with all C++ tools.- Windows 10 SDK >= 10.0.17134
- Visual C++ ATL for x86 and x64
- Visual C++ MFC for x86 and x64
- C++ profiling tools
- Enable
Debugging Tools for Windows
. Go toControl Panel
→Programs
→Programs and Features
→ SelectWindows Software Development Kit - Windows 10
→Change
→Change
→ CheckDebugging Tools For Windows
→Change
->Finish
.
Build:
# Fetch deps.
git clone --recurse-submodules https://github.com/denoland/deno.git
cd deno
./tools/setup.py
# You may need to ensure that sccache is running.
# (TODO it's unclear if this is necessary or not.)
# prebuilt/mac/sccache --start-server
# Build.
./tools/build.py
# Run.
./target/debug/deno tests/002_hello.ts
# Test.
./tools/test.py
# Format code.
deno ./tools/format.ts
Other useful commands:
# Call ninja manually.
./third_party/depot_tools/ninja -C target/debug
# Build a release binary.
DENO_BUILD_MODE=release ./tools/build.py :deno
# List executable targets.
./third_party/depot_tools/gn ls target/debug //:* --as=output --type=executable
# List build configuration.
./third_party/depot_tools/gn args target/debug/ --list
# Edit build configuration.
./third_party/depot_tools/gn args target/debug/
# Describe a target.
./third_party/depot_tools/gn desc target/debug/ :deno
./third_party/depot_tools/gn help
# Update third_party modules
git submodule update
Environment variables: DENO_BUILD_MODE
, DENO_BUILD_PATH
, DENO_BUILD_ARGS
,
DENO_DIR
.
Tutorial
An implementation of the unix "cat" program
In this program each command-line argument is assumed to be a filename, the file is opened, and printed to stdout.
import * as deno from "deno";
(async () => {
for (let i = 1; i < deno.args.length; i++) {
let filename = deno.args[i];
let file = await deno.open(filename);
await deno.copy(deno.stdout, file);
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
from the file, is written to stdout. This illustrates a general design goal for
I/O streams in Deno.
Try the program:
> deno https://deno.land/x/examples/cat.ts /etc/passwd
TCP echo server
This is an example of a simple server which accepts connections on port 8080, and returns to the client anything it sends.
import { listen, copy } from "deno";
(async () => {
const addr = "0.0.0.0:8080";
const listener = listen("tcp", addr);
console.log("listening on", addr);
while (true) {
const conn = await listener.accept();
copy(conn, conn);
}
})();
When this program is started, the user is prompted for permission to listen on the network:
> deno https://deno.land/x/examples/echo_server.ts
⚠️ Deno requests network access to "listen". Grant? [yN] y
listening on 0.0.0.0:8080
For security reasons, deno does not allow programs to access the network without explicit permission. To avoid the console prompt, use a command-line flag:
> deno https://deno.land/x/examples/echo_server.ts --allow-net
To test it, try sending a HTTP request to it by using curl. The request gets written directly back to the client.
> curl http://localhost:8080/
GET / HTTP/1.1
Host: localhost:8080
User-Agent: curl/7.54.0
Accept: */*
It's worth noting that 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.
Linking to third party code
In the above examples, we saw that Deno could execute scripts from URLs. Like browser JavaScript, Deno can import libraries directly from URLs. This example uses a URL to import a test runner library:
import { test, assertEqual } from "https://deno.land/x/testing/mod.ts";
test(function t1() {
assertEqual("hello", "hello");
});
test(function t2() {
assertEqual("world", "world");
});
Try running this:
> deno https://deno.land/x/examples/example_test.ts
Compiling /Users/rld/src/deno_examples/example_test.ts
Downloading https://deno.land/x/testing/mod.ts
Compiling https://deno.land/x/testing/mod.ts
running 2 tests
test t1
... ok
test t2
... ok
test result: ok. 2 passed; 0 failed; 0 ignored; 0 measured; 0 filtered out
Note that we did not have to provide the --allow-net
flag for this program,
and yet it accessed the network. The runtime has special access to download
imports and cache them to disk.
Deno caches remote imports in a special directory specified by the $DENO_DIR
environmental variable. It default to $HOME/.deno
if $DENO_DIR
is not
specified. The next time you run the program, no downloads will be made. If the
program hasn't changed, it won't be recompiled either.
But what if https://deno.land/
goes down? Relying on external servers is
convenient for development but brittle in production. Production software should
always bundle its dependencies. In Deno this is done by checking the $DENO_DIR
into your source control system, and specifying that path as the $DENO_DIR
environmental variable at runtime.
How do you import to a specific version? Simply specify the version in the
URL. For example, this URL fully specifies the code being run:
https://unpkg.com/liltest@0.0.5/dist/liltest.js
. Combined with the
aforementioned technique of setting $DENO_DIR
in production to stored code,
one can fully specify the exact code being run, and execute the code without
network access.
It seems unwieldy to import URLs everywhere. What if one of the URLs links to
a subtly different version of a library? Isn't it error prone to maintain URLs
everywhere in a large project? The solution is to import and re-export your
external libraries in a central package.ts
file (which serves the same purpose
as Node's package.json
file). For example, let's say you were using the above
testing library across a large project. Rather than importing
"https://deno.land/x/testing/mod.ts"
everywhere, you could create a
package.ts
file the exports the third-party code:
export { test, assertEqual } from "https://deno.land/x/testing/mod.ts";
And throughout project one can import from the package.ts
and avoid having
many references to the same URL:
import { test, assertEqual } from "./package.ts";
This design circumvents a plethora of complexity spawned by package management software, centralized code repositories, and superfluous file formats.
Browser compatibility
The subset of Deno programs which are written completely in JavaScript and do
not import the special "deno"
module, ought to also be able to be run in a
modern web browser without change.
Useful command line flags
V8 has many many command-line flags, that you can see with --v8-options
. Here
are a few particularly useful ones:
--async-stack-traces
How to Profile deno
To start profiling,
# Make sure we're only building release.
export DENO_BUILD_MODE=release
# Build deno and V8's d8.
./tools/build.py d8 deno
# Start the program we want to benchmark with --prof
./target/release/deno tests/http_bench.ts --allow-net --prof &
# Exercise it.
third_party/wrk/linux/wrk http://localhost:4500/
kill `pgrep deno`
V8 will write a file in the current directory that looks like this:
isolate-0x7fad98242400-v8.log
. To examine this file:
D8_PATH=target/release/ ./third_party/v8/tools/linux-tick-processor
isolate-0x7fad98242400-v8.log > prof.log
# on macOS, use ./third_party/v8/tools/mac-tick-processor instead
prof.log
will contain information about tick distribution of different calls.
To view the log with Web UI, generate JSON file of the log:
D8_PATH=target/release/ ./third_party/v8/tools/linux-tick-processor
isolate-0x7fad98242400-v8.log --preprocess > prof.json
Open third_party/v8/tools/profview/index.html
in your brower, and select
prof.json
to view the distribution graphically.
To learn more about d8
and profiling, check out the following links:
How to Debug deno
We can use LLDB to debug deno.
lldb -- target/debug/deno tests/worker.js
> run
> bt
> up
> up
> l
To debug Rust code, we can use rust-lldb
. It should come with rustc
and is a
wrapper around LLDB.
rust-lldb -- ./target/debug/deno tests/http_bench.ts --allow-net
# On macOS, you might get warnings like
# `ImportError: cannot import name _remove_dead_weakref`
# In that case, use system python by setting PATH, e.g.
# PATH=/System/Library/Frameworks/Python.framework/Versions/2.7/bin:$PATH
(lldb) command script import "/Users/kevinqian/.rustup/toolchains/1.30.0-x86_64-apple-darwin/lib/rustlib/etc/lldb_rust_formatters.py"
(lldb) type summary add --no-value --python-function lldb_rust_formatters.print_val -x ".*" --category Rust
(lldb) type category enable Rust
(lldb) target create "../deno/target/debug/deno"
Current executable set to '../deno/target/debug/deno' (x86_64).
(lldb) settings set -- target.run-args "tests/http_bench.ts" "--allow-net"
(lldb) b op_start
(lldb) r
Internals
Internal: libdeno API.
deno's privileged side will primarily be programmed in Rust. However there will be a small C API that wraps V8 to 1) define the low-level message passing semantics, 2) provide a low-level test target, 3) provide an ANSI C API binding interface for Rust. V8 plus this C API is called "libdeno" and the important bits of the API is specified here: https://github.com/denoland/deno/blob/master/libdeno/deno.h https://github.com/denoland/deno/blob/master/js/libdeno.ts
Internal: Flatbuffers provide shared data between Rust and V8
We use Flatbuffers to define common structs and enums between TypeScript and Rust. These common data structures are defined in https://github.com/denoland/deno/blob/master/src/msg.fbs
Internal: Updating prebuilt binaries
./third_party/depot_tools/upload_to_google_storage.py -b denoland \
-e ~/.config/gcloud/legacy_credentials/ry@tinyclouds.org/.boto `which sccache`
mv `which sccache`.sha1 prebuilt/linux64/
gsutil acl ch -u AllUsers:R gs://denoland/608be47bf01004aa11d4ed06955414e93934516e
Contributing
See CONTRIBUTING.md.