Merge pull request #361 from moxiegirl/docs-part-two

docs: updating with new RC work
This commit is contained in:
Stephen Day 2015-04-16 10:55:47 -07:00
commit c5f416119f
6 changed files with 1309 additions and 315 deletions

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@ -15,7 +15,7 @@ This repository contains the following components:
| **libraries** | A rich set of libraries for interacting with,distribution components. Please see [godoc](http://godoc.org/github.com/docker/distribution) for details. **Note**: These libraries are **unstable**. |
| **dist** | An _experimental_ tool to provide distribution, oriented functionality without the `docker` daemon. |
| **specifications** | _Distribution_ related specifications are available in [docs/spec](docs/spec) |
| **documentation** | Documentation is available in [doc](http://docs.docker.com/distribution). |
| **documentation** | Docker's full documentation set is available at [docs.docker.com](http://docs.docker.com). This repository [contains the subset](docs/overview.md) related just to the registry. |
### How does this integrate with Docker engine?

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@ -1,23 +1,147 @@
# Docker Compose V1 + V2 registry
This compose configuration will setup a v1 and v2 registry behind an nginx
proxy. By default the combined registry may be accessed at localhost:5000.
This registry does not support pushing images to v2 and pull from v1. Clients
from before 1.6 will be configured to use the v1 registry, and newer clients
will use the v2 registry.
This compose configuration configures a `v1` and `v2` registry behind an `nginx`
proxy. By default, you can access the combined registry at `localhost:5000`.
## Prerequisites
Install [docker-compose](https://github.com/docker/compose)
The configuration does not support pushing images to `v2` and pulling from `v1`.
If a `docker` client has a version less than 1.6, Nginx will route its requests
to the 1.0 registry. Requests from newer clients will route to the 2.0 registry.
## How to run
```
$ docker-compose up
```
### Install Docker Compose
1. Open a new terminal on the host with your `distribution` source.
2. Get the `docker-compose` binary.
$ sudo wget https://github.com/docker/compose/releases/download/1.1.0/docker-compose-`uname -s`-`uname -m` -O /usr/local/bin/docker-compose
This command installs the binary in the `/usr/local/bin` directory.
3. Add executable permissions to the binary.
$ sudo chmod +x /usr/local/bin/docker-compose
## Build and run with Compose
1. In your terminal, navigate to the `distribution/contrib/compose` directory
This directory includes a single `docker-compose.yml` configuration.
nginx:
build: "nginx"
ports:
- "5000:5000"
links:
- registryv1:registryv1
- registryv2:registryv2
registryv1:
image: registry
ports:
- "5000"
registryv2:
build: "../../"
ports:
- "5000"
This configuration builds a new `nginx` image as specified by the
`nginx/Dockerfile` file. The 1.0 registry comes from Docker's official
public image. Finally, the registry 2.0 image is built from the
`distribution/Dockerfile` you've used previously.
2. Get a registry 1.0 image.
$ docker pull registry:0.9.1
The Compose configuration looks for this image locally. If you don't do this
step, later steps can fail.
3. Build `nginx`, the registry 2.0 image, and
$ docker-compose build
registryv1 uses an image, skipping
Building registryv2...
Step 0 : FROM golang:1.4
...
Removing intermediate container 9f5f5068c3f3
Step 4 : COPY docker-registry-v2.conf /etc/nginx/docker-registry-v2.conf
---> 74acc70fa106
Removing intermediate container edb84c2b40cb
Successfully built 74acc70fa106
The commmand outputs its progress until it completes.
4. Start your configuration with compose.
$ docker-compose up
Recreating compose_registryv1_1...
Recreating compose_registryv2_1...
Recreating compose_nginx_1...
Attaching to compose_registryv1_1, compose_registryv2_1, compose_nginx_1
...
5. In another terminal, display the running configuration.
$ docker ps
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
a81ad2557702 compose_nginx:latest "nginx -g 'daemon of 8 minutes ago Up 8 minutes 80/tcp, 443/tcp, 0.0.0.0:5000->5000/tcp compose_nginx_1
0618437450dd compose_registryv2:latest "registry cmd/regist 8 minutes ago Up 8 minutes 0.0.0.0:32777->5000/tcp compose_registryv2_1
aa82b1ed8e61 registry:latest "docker-registry" 8 minutes ago Up 8 minutes 0.0.0.0:32776->5000/tcp compose_registryv1_1
### Explore a bit
1. Check for TLS on your `nginx` server.
$ curl -v https://localhost:5000
* Rebuilt URL to: https://localhost:5000/
* Hostname was NOT found in DNS cache
* Trying 127.0.0.1...
* Connected to localhost (127.0.0.1) port 5000 (#0)
* successfully set certificate verify locations:
* CAfile: none
CApath: /etc/ssl/certs
* SSLv3, TLS handshake, Client hello (1):
* SSLv3, TLS handshake, Server hello (2):
* SSLv3, TLS handshake, CERT (11):
* SSLv3, TLS alert, Server hello (2):
* SSL certificate problem: self signed certificate
* Closing connection 0
curl: (60) SSL certificate problem: self signed certificate
More details here: http://curl.haxx.se/docs/sslcerts.html
2. Tag the `v1` registry image.
$ docker tag registry:latest localhost:5000/registry_one:latest
2. Push it to the localhost.
$ docker push localhost:5000/registry_one:latest
If you are using the 1.6 Docker client, this pushes the image the `v2 `registry.
4. Use `curl` to list the image in the registry.
$ curl -v -X GET http://localhost:32777/v2/registry1/tags/list
* Hostname was NOT found in DNS cache
* Trying 127.0.0.1...
* Connected to localhost (127.0.0.1) port 32777 (#0)
> GET /v2/registry1/tags/list HTTP/1.1
> User-Agent: curl/7.36.0
> Host: localhost:32777
> Accept: */*
>
< HTTP/1.1 200 OK
< Content-Type: application/json; charset=utf-8
< Docker-Distribution-Api-Version: registry/2.0
< Date: Tue, 14 Apr 2015 22:34:13 GMT
< Content-Length: 39
<
{"name":"registry1","tags":["latest"]}
* Connection #0 to host localhost left intact
This example refers to the specific port assigned to the 2.0 registry. You saw
this port earlier, when you used `docker ps` to show your running containers.
## How to push images
From a local project directory with Dockerfile
```
$ docker build -t localhost:5000/myimage .
$ docker push localhost:5000/myimage
```

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@ -16,13 +16,17 @@ deployment process. This registry image is sufficient for running local tests
but is insufficient for production. For production you should configure and
build your own custom registry image from the `docker/distribution` code.
>**Note**: The examples on this page were written and tested using Ubuntu 14.04.
>If you are running Docker in a different OS, you may need to "translate"
>the commands to meet the requirements of your own environment.
## Simple example with the official image
In this section, you create a local registry using Docker's official image. You
push an image to, and then pull the same image from, the registry. This a good
exercise for understanding the basic interactions a client has with a
local registry.
In this section, you create a container running Docker's official registry
image. You push an image to, and then pull the same image from, this registry.
This a good exercise for understanding the basic interactions a client has with
a local registry.
1. Install Docker.
@ -30,7 +34,8 @@ local registry.
$ docker run hello-world
The `run` command automatically pulls the image from Docker's official images.
The `run` command automatically pulls a `hello-world` image from Docker's
official images.
3. Start a registry service on your localhost.
@ -68,11 +73,40 @@ local registry.
You should see your new image in your listing.
5. Push this new image to your local registry.
6. Push this new image to your local registry.
$ docker push localhost:5000/hello-mine:latest
The push refers to a repository [localhost:5000/hello-mine] (len: 1)
e45a5af57b00: Image already exists
31cbccb51277: Image successfully pushed
511136ea3c5a: Image already exists
Digest: sha256:a1b13bc01783882434593119198938b9b9ef2bd32a0a246f16ac99b01383ef7a
6. Remove all the unused images from your local environment:
7. Use the `curl` command and the Docker Registry Service API v2 to list your
image in the registry:
$ curl -v -X GET http://localhost:5000/v2/hello-mine/tags/list
* Hostname was NOT found in DNS cache
* Trying 127.0.0.1...
* Connected to localhost (127.0.0.1) port 5000 (#0)
> GET /v2/hello-mine/tags/list HTTP/1.1
> User-Agent: curl/7.35.0
> Host: localhost:5000
> Accept: */*
>
< HTTP/1.1 200 OK
< Content-Type: application/json; charset=utf-8
< Docker-Distribution-Api-Version: registry/2.0
< Date: Sun, 12 Apr 2015 01:29:47 GMT
< Content-Length: 40
<
{"name":"hello-mine","tags":["latest"]}
* Connection #0 to host localhost left intact
You can also get this information by entering the
`http://52.10.125.146:5000/v2/hello-mine/tags/list` address in your browser.
8. Remove all the unused images from your local environment:
$ docker rmi -f $(docker images -q -a )
@ -86,7 +120,7 @@ local registry.
registry 2.0 bbf0b6ffe923 3 days ago 545.1 MB
golang 1.4 121a93c90463 5 days ago 514.9 MB
7. Try running `hello-mine`.
9. Try running `hello-mine`.
$ docker run hello-mine
Unable to find image 'hello-mine:latest' locally
@ -96,7 +130,7 @@ local registry.
The `run` command fails because your new image doesn't exist in the Docker public
registry.
8. Now, try running the image but specifying the image's registry:
10. Now, try running the image but specifying the image's registry:
$ docker run localhost:5000/hello-mine
@ -128,7 +162,7 @@ factors:
access and/or authentication
</th>
<td>
Do users should have full or controlled access? This can depend on whether
Should users have full or controlled access? This can depend on whether
you are serving images to the public or internally to your company only.
</td>
</tr>
@ -156,7 +190,7 @@ You can configure your registry features to adjust for these factors. You do
this by specifying options on the command line or, more typically, by writing a
registry configuration file. The configuration file is in YAML format.
Docker's official repository image it is preconfigured using the following
Docker's official repository image is preconfigured using the following
configuration file:
```yaml
@ -203,7 +237,6 @@ notifications:
disabled: true
```
This configuration is very basic and you can see it would present some problems
in a production. For example, the `http` section details the configuration for
the HTTP server that hosts the registry. The server is not using even the most
@ -213,10 +246,10 @@ minimal transport layer security (TLS). Let's configure that in the next section
In this section, you configure TLS on the server to enable communication through
the `https` protocol. Enabling TLS on the server is the minimum layer of
security recommended for running a registry behind a corporate firewall. The
easiest way to do this is to build your own registry image.
security recommended for running a registry behind a corporate firewall. One way
to do this is to build your own registry image.
### Download the registry source and generated certificates
### Download the source and generate certificates
1. [Download the registry
source](https://github.com/docker/distribution/releases/tag/v2.0.0).
@ -241,55 +274,21 @@ source](https://github.com/docker/distribution/releases/tag/v2.0.0).
-newkey rsa:2048 -nodes -keyout certs/domain.key \
-x509 -days 365 -out certs/domain.crt
This command prompts you for basic information it needs to create the certificates.
### Add the certificates to the image
6. List the contents of the `certs` directory.
In this section, you copy the certifications from your `certs` directory into
your base image.
$ ls certs
domain.crt domain.key
1. Edit the `Dockerfile` and add a `CERTS_PATH` environment variable.
When you build this container, the `certs` directory and its contents
automatically get copied also.
ENV CERTS_PATH /etc/docker/registry/certs
### Add TLS to the configuration
2. Add a line to make the `CERTS_PATH` in the filesystem.
RUN mkdir -v $CERTS_PATH
3. Add `RUN` instructions to hard link your new certifications into this path:
RUN cp -lv ./certs/domain.crt $CERTS_PATH
RUN cp -lv ./certs/domain.key $CERTS_PATH
This copies your certifications into your container.
4. Save your work.
At this point your Dockerfile should look like the following:
FROM golang:1.4
ENV CONFIG_PATH /etc/docker/registry/config.yml
ENV CERTS_PATH /etc/docker/registry/certs
ENV DISTRIBUTION_DIR /go/src/github.com/docker/distribution
ENV GOPATH $DISTRIBUTION_DIR/Godeps/_workspace:$GOPATH
WORKDIR $DISTRIBUTION_DIR
COPY . $DISTRIBUTION_DIR
RUN make PREFIX=/go clean binaries
RUN mkdir -pv "$(dirname $CONFIG_PATH)"
RUN mkdir -v $CERTS_PATH
RUN cp -lv ./certs/domain.crt $CERTS_PATH
RUN cp -lv ./certs/domain.key $CERTS_PATH
RUN cp -lv ./cmd/registry/config.yml $CONFIG_PATH
5. Before you close the Dockerfile look for an instruction to copy the `config.yml` file.
RUN cp -lv ./cmd/registry/config.yml $CONFIG_PATH
This is the default registry configuration file. You'll need to edit the file
to add TLS.
### Add TLS to the registry configuration
The `distribution` repo includes sample registry configurations in the `cmd`
subdirectory. In this section, you edit one of these configurations to add TLS
support.
1. Edit the `./cmd/registry/config.yml` file.
@ -311,8 +310,8 @@ your base image.
debug:
addr: localhost:5001
tls:
certificate: /etc/docker/registry/certs/domain.crt
key: /etc/docker/registry/certs/domain.key
certificate: /go/src/github.com/docker/distribution/certs/domain.crt
key: /go/src/github.com/docker/distribution/certs/domain.key
You provide the paths to the certificates in the container. If you want
two-way authentication across the layer, you can add an optional `clientcas`
@ -321,7 +320,7 @@ your base image.
4. Save and close the file.
### Run your new image
### Build and run your registry image
1. Build your registry image.
@ -329,138 +328,238 @@ your base image.
2. Run your new image.
$ docker run -p 5000:5000 secure_registry
$ docker run -p 5000:5000 registry_local:latest
time="2015-04-12T03:06:18.616502588Z" level=info msg="endpoint local-8082 disabled, skipping" environment=development instance.id=bf33c9dc-2564-406b-97c3-6ee69dc20ec6 service=registry
time="2015-04-12T03:06:18.617012948Z" level=info msg="endpoint local-8083 disabled, skipping" environment=development instance.id=bf33c9dc-2564-406b-97c3-6ee69dc20ec6 service=registry
time="2015-04-12T03:06:18.617190113Z" level=info msg="using inmemory layerinfo cache" environment=development instance.id=bf33c9dc-2564-406b-97c3-6ee69dc20ec6 service=registry
time="2015-04-12T03:06:18.617349067Z" level=info msg="listening on :5000, tls" environment=development instance.id=bf33c9dc-2564-406b-97c3-6ee69dc20ec6 service=registry
time="2015-04-12T03:06:18.628589577Z" level=info msg="debug server listening localhost:5001"
2015/04/12 03:06:28 http: TLS handshake error from 172.17.42.1:44261: remote error: unknown certificate authority
Watch the messages at startup. You should see that `tls` is running:
ubuntu@ip-172-31-34-181:~/repos/distribution$ docker run -p 5000:5000 secure_registry
time="2015-04-05T23:56:47Z" level=info msg="endpoint local-8082 disabled, skipping" app.id=3dd802ad-3bd4-4413-b56d-90c4acff41c7 environment=development service=registry
time="2015-04-05T23:56:47Z" level=info msg="endpoint local-8083 disabled, skipping" app.id=3dd802ad-3bd4-4413-b56d-90c4acff41c7 environment=development service=registry
time="2015-04-05T23:56:47Z" level=info msg="using inmemory layerinfo cache" app.id=3dd802ad-3bd4-4413-b56d-90c4acff41c7 environment=development service=registry
time="2015-04-05T23:56:47Z" level=info msg="listening on :5000, tls" app.id=3dd802ad-3bd4-4413-b56d-90c4acff41c7 environment=development service=registry
time="2015-04-05T23:56:47Z" level=info msg="debug server listening localhost:5001"
2015/04/05 23:57:23 http: TLS handshake error from 172.17.42.1:52057: remote error: unknown certificate authority
Watch the messages at startup. You should see that `tls` is running.
3. Use `curl` to verify that you can connect over `https`.
$ curl https://localhost:5000
$ curl -v https://localhost:5000
* Rebuilt URL to: https://localhost:5000/
* Hostname was NOT found in DNS cache
* Trying 127.0.0.1...
* Connected to localhost (127.0.0.1) port 5000 (#0)
* successfully set certificate verify locations:
* CAfile: none
CApath: /etc/ssl/certs
* SSLv3, TLS handshake, Client hello (1):
* SSLv3, TLS handshake, Server hello (2):
* SSLv3, TLS handshake, CERT (11):
* SSLv3, TLS alert, Server hello (2):
* SSL certificate problem: self signed certificate
* Closing connection 0
curl: (60) SSL certificate problem: self signed certificate
More details here: http://curl.haxx.se/docs/sslcerts.html
## Configure Nginx with a v1 and v2 registry
This sections describes how to user `docker-compose` to run a combined version
1 and version 2.0 registry behind an `nginx` proxy. The combined registry is
accessed at `localhost:5000`. If a `docker` client has a version less than 1.6,
Nginx will route its requests to the 1.0 registry. Requests from newer clients
will route to the 2.0 registry.
This procedure uses the same `distribution` directory you created in the last
procedure. The directory includes an example `compose` configuration.
### Install Docker Compose
1. Open a new terminal on the host with your `distribution` directory.
2. Get the `docker-compose` binary.
$ sudo wget https://github.com/docker/compose/releases/download/1.1.0/docker-compose-`uname -s`-`uname -m` -O /usr/local/bin/docker-compose
This command installs the binary in the `/usr/local/bin` directory.
3. Add executable permissions to the binary.
$ sudo chmod +x /usr/local/bin/docker-compose
## Adding a middleware configuration
### Do some housekeeping
This section describes how to configure storage middleware in a registry.
Middleware allows the registry to server layers via a content delivery network
(CDN). This is useful for reducing requests to the storage layer.
1. Remove any previous images.
Currently, the registry supports [Amazon
Cloudfront](http://aws.amazon.com/cloudfront/). You can only use Cloudfront in
conjunction with the S3 storage driver.
$ docker rmi -f $(docker images -q -a )
<table>
<tr>
<th>Parameter</th>
<th>Description</th>
</tr>
<tr>
<td><code>name</code></td>
<td>The storage middleware name. Currently <code>cloudfront</code> is an accepted value.</td>
</tr>
<tr>
<td><code>disabled<code></td>
<td>Set to <code>false</code> to easily disable the middleware.</td>
</tr>
<tr>
<td><code>options:</code></td>
<td>
A set of key/value options to configure the middleware.
<ul>
<li><code>baseurl:</code> The Cloudfront base URL.</li>
<li><code>privatekey:</code> The location of your AWS private key on the filesystem. </li>
<li><code>keypairid:</code> The ID of your Cloudfront keypair. </li>
<li><code>duration:</code> The duration in minutes for which the URL is valid. Default is 20. </li>
</ul>
</td>
</tr>
</table>
This step is a house keeping step. It prevents you from mistakenly picking up
an old image as you work through this example.
The following example illustrates these values:
2. Edit the `distribution/cmd/registry/config.yml` file and remove the `tls` block.
```
middleware:
storage:
- name: cloudfront
disabled: false
options:
baseurl: http://d111111abcdef8.cloudfront.net
privatekey: /path/to/asecret.pem
keypairid: asecret
duration: 60
```
If you worked through the previous example, you'll have a `tls` block.
4. Save any changes and close the file.
>**Note**: Cloudfront keys exist separately to other AWS keys. See
>[the documentation on AWS credentials](http://docs.aws.amazon.com/AWSSecurityCredentials/1.0/
>AboutAWSCredentials.html#KeyPairs) for more information.
### Configure SSL
1. Change to the `distribution/contrib/compose/nginx` directory.
**TODO(stevvooe): Need a "best practice" configuration overview. Perhaps, we can point to a documentation section.
This directory contains configuration files for Nginx and both registries.
2. Use SSL to generate some self-signed certificates.
# Configure nginx to deploy alongside v1 registry
$ openssl req \
-newkey rsa:2048 -nodes -keyout domain.key \
-x509 -days 365 -out domain.crt
This sections describes how to configure nginx to proxy to both a v1 and v2
registry. Nginx will handle routing of to the correct registry based on the
URL and Docker client version.
This command prompts you for basic information it needs to create certificates.
## Example configuration
With v1 registry running at `localhost:5001` and v2 registry running at
`localhost:5002`. Add this to `/etc/nginx/conf.d/registry.conf`.
```
server {
listen 5000;
server_name localhost;
3. Edit the `Dockerfile`and add the following lines.
COPY domain.crt /etc/nginx/domain.crt
COPY domain.key /etc/nginx/domain.key
When you are done, the file looks like the following.
FROM nginx:1.7
COPY nginx.conf /etc/nginx/nginx.conf
COPY registry.conf /etc/nginx/conf.d/registry.conf
COPY docker-registry.conf /etc/nginx/docker-registry.conf
COPY docker-registry-v2.conf /etc/nginx/docker-registry-v2.conf
COPY domain.crt /etc/nginx/domain.crt
COPY domain.key /etc/nginx/domain.key
4. Save and close the `Dockerfile` file.
5. Edit the `registry.conf` file and add the following configuration.
ssl on;
ssl_certificate /etc/docker/registry/certs/domain.crt;
ssl_certificate_key /etc/docker/registry/certs/domain.key;
ssl_certificate /etc/nginx/domain.crt;
ssl_certificate_key /etc/nginx/domain.key;
client_max_body_size 0; # disable any limits to avoid HTTP 413 for large image uploads
This is an `nginx` configuration file.
# required to avoid HTTP 411: see Issue #1486 (https://github.com/docker/docker/issues/1486)
chunked_transfer_encoding on;
6. Save and close the `registry.conf` file.
location /v2/ {
# Do not allow connections from docker 1.5 and earlier
# docker pre-1.6.0 did not properly set the user agent on ping, catch "Go *" user agents
if ($http_user_agent ~ "^(docker\/1\.(3|4|5(?!\.[0-9]-dev))|Go ).*$" ) {
return 404;
}
### Build and run
proxy_pass http://localhost:5002;
proxy_set_header Host $http_host; # required for docker client's sake
proxy_set_header X-Real-IP $remote_addr; # pass on real client's IP
proxy_read_timeout 900;
}
1. Go up to the `distribution/contrib/compose` directory
location / {
proxy_pass http://localhost:5001;
proxy_set_header Host $http_host; # required for docker client's sake
proxy_set_header X-Real-IP $remote_addr; # pass on real client's IP
proxy_set_header Authorization ""; # see https://github.com/docker/docker-registry/issues/170
proxy_read_timeout 900;
}
}
```
This directory includes a single `docker-compose.yml` configuration.
## Running nginx without a v1 registry
When running a v2 registry behind nginx without a v1 registry, the `/v1/` endpoint should
be explicitly configured to return a 404 if only the `/v2/` route is proxied. This
is needed due to the v1 registry fallback logic within Docker 1.5 and 1.6 which will attempt
to retrieve content from the v1 endpoint if no content was retrieved from v2.
nginx:
build: "nginx"
ports:
- "5000:5000"
links:
- registryv1:registryv1
- registryv2:registryv2
registryv1:
image: registry
ports:
- "5000"
registryv2:
build: "../../"
ports:
- "5000"
This configuration builds a new `nginx` image as specified by the
`nginx/Dockerfile` file. The 1.0 registry comes from Docker's official public
image. Finally, the registry 2.0 image is built from the
`distribution/Dockerfile` you've used previously.
2. Get a registry 1.0 image.
$ docker pull registry:0.9.1
The Compose configuration looks for this image locally. If you don't do this
step, later steps can fail.
3. Build `nginx`, the registry 2.0 image, and
$ docker-compose build
registryv1 uses an image, skipping
Building registryv2...
Step 0 : FROM golang:1.4
...
Removing intermediate container 9f5f5068c3f3
Step 4 : COPY docker-registry-v2.conf /etc/nginx/docker-registry-v2.conf
---> 74acc70fa106
Removing intermediate container edb84c2b40cb
Successfully built 74acc70fa106
The commmand outputs its progress until it completes.
4. Start your configuration with compose.
$ docker-compose up
Recreating compose_registryv1_1...
Recreating compose_registryv2_1...
Recreating compose_nginx_1...
Attaching to compose_registryv1_1, compose_registryv2_1, compose_nginx_1
...
5. In another terminal, display the running configuration.
$ docker ps
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
a81ad2557702 compose_nginx:latest "nginx -g 'daemon of 8 minutes ago Up 8 minutes 80/tcp, 443/tcp, 0.0.0.0:5000->5000/tcp compose_nginx_1
0618437450dd compose_registryv2:latest "registry cmd/regist 8 minutes ago Up 8 minutes 0.0.0.0:32777->5000/tcp compose_registryv2_1
aa82b1ed8e61 registry:latest "docker-registry" 8 minutes ago Up 8 minutes 0.0.0.0:32776->5000/tcp compose_registryv1_1
### Explore a bit
1. Check for TLS on your `nginx` server.
$ curl -v https://localhost:5000
* Rebuilt URL to: https://localhost:5000/
* Hostname was NOT found in DNS cache
* Trying 127.0.0.1...
* Connected to localhost (127.0.0.1) port 5000 (#0)
* successfully set certificate verify locations:
* CAfile: none
CApath: /etc/ssl/certs
* SSLv3, TLS handshake, Client hello (1):
* SSLv3, TLS handshake, Server hello (2):
* SSLv3, TLS handshake, CERT (11):
* SSLv3, TLS alert, Server hello (2):
* SSL certificate problem: self signed certificate
* Closing connection 0
curl: (60) SSL certificate problem: self signed certificate
More details here: http://curl.haxx.se/docs/sslcerts.html
2. Tag the `v1` registry image.
$ docker tag registry:latest localhost:5000/registry_one:latest
2. Push it to the localhost.
$ docker push localhost:5000/registry_one:latest
If you are using the 1.6 Docker client, this pushes the image the `v2 `registry.
4. Use `curl` to list the image in the registry.
$ curl -v -X GET http://localhost:32777/v2/registry1/tags/list
* Hostname was NOT found in DNS cache
* Trying 127.0.0.1...
* Connected to localhost (127.0.0.1) port 32777 (#0)
> GET /v2/registry1/tags/list HTTP/1.1
> User-Agent: curl/7.36.0
> Host: localhost:32777
> Accept: */*
>
< HTTP/1.1 200 OK
< Content-Type: application/json; charset=utf-8
< Docker-Distribution-Api-Version: registry/2.0
< Date: Tue, 14 Apr 2015 22:34:13 GMT
< Content-Length: 39
<
{"name":"registry1","tags":["latest"]}
* Connection #0 to host localhost left intact
This example refers to the specific port assigned to the 2.0 registry. You saw
this port earlier, when you used `docker ps` to show your running containers.
Add this location block to explicitly block v1 requests.
```
localhost /v1/ {
return 404;
}
```

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@ -10,7 +10,7 @@ pushes and pulls and layer pushes and pulls. These actions are serialized into
events. The events are queued into a registry-internal broadcast system which
queues and dispatches events to [_Endpoints_](#endpoints).
![](/distribution/images/notifications.png)
![](../images/notifications.png)
## Endpoints

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@ -22,7 +22,7 @@ is collection of images. Users interact with the registry by pushing images to
or pulling images from the registry. The Docker Registry includes several
optional features that you can configure according to your needs.
![](/distribution/images/registry.png)
![](../images/registry.png)
The architecture supports a configurable storage backend. You can store images
on a file system or on a service such as Amazon S3 or Microsoft Azure. The
@ -64,4 +64,3 @@ For more information and resources, please visit the [Getting Help project page]
- [Storage driver model](storagedrivers.md)
- [Working with notifications](notifications.md)
- [Registry API v2](spec/api.md)