Название: IT Cloud
Автор: Eugeny Shtoltc
Издательство: ЛитРес: Самиздат
Жанр: Зарубежная компьютерная литература
isbn:
isbn:
* -c 512 – CPU usage priority weight (1024 by default);
* —Cpuset = "0,1" – numbers of allowed processor cores.
Product transfer and distribution
To transfer a project, for example, to a customer, and distribute it between developers and servers, you can use installation scripts, archives, images, and containers. Each of these ways to distribute a project has its own characteristics, disadvantages and advantages. Let's talk about them and compare.
lines, but the main thing is that it has a special mode, enabled by the -p switch , which dynamically outputs the number of lines we need, when new ones arrive, it updates the output, for example, docker logs name_container | tail -p .
When there are too many applications to manually monitor their work separately, it is advisable to centralize application logs. For centralization, numerous programs can be used that collect logs from different services and send them to a central repository, for example, Fluentd. It is convenient to use ElasticSearch to store logs, simply by writing them to a search engine. It is highly desirable that the logs are in a structured format – JSON. This will allow you to sort them, select the ones you need, identify trends using built-in aggregate functions, perform analysis and forecasting, and not just search by text. For analysis, the Kubana web interface included in the Elastic stack.
Logging is important not only for long-running applications. So for test containers, it is convenient to get the output of the passed dough. This can be done by writing in the Dockerfile in the CMD section: NPM run, which will run the tests.
Image storage:
* public and private Docker Hub (http://hub.docker.com)
* for private and secret projects, you can create your own image repository. The image is called registry
Docker for building apps and one-off jobs
Unlike virtual machines, launching, which is associated with significant human and computational costs, Docker is often used to perform one-time actions when software needs to be launched one-time, and it is desirable not to spend effort on installing and removing it. To do this, a container is launched, which is mounted to the folder with our application, which performs the required actions on it and, after they are completed, is deleted. An example is a JavaScript project for which you need to build and run tests. At the same time, the project itself does not use NodeJS, but contains only collector configs, for example, WEBPack, and written tests. To do this, we start the build container in iterative mode, in which you can control the build process, if necessary, and after the build is completed, the container will stop and delete itself, for example, you can run something like this at the root of the application: docker run -it –rm -v $ (pwd): app node-build . Tests can be carried out in a similar way. As a result, the application is built and tested on a test server, but the software that is not required for its operation on the production server will not be adopted and will not consume resources, and can be transferred to the production server, for example, using a container. In order not to write documentation on starting the build and testing, you can put two corresponding configs Docker-compose-build.yml and Docker-compose-test.yml and call them Docker-compose up -f ./docker-compose-build.
Management and access
We manage containers using the Docker command . Now, let's say there is a need to manage remotely. Using VNC, SSH, or something else to manage your Docker team will probably be too time consuming if the task gets complicated. That's right, first you will need to figure out what Docker is, because the Docker command and the Docker program are not the same thing, or rather, the Docker command is a console client for managing the Docker Engine client-server application. The team interacts with the Docker Machine server through the Docker REST API, which is intended for remote interaction with the server. But, in this case, you need to take care of authorization and SSL-encryption of traffic. This is ensured by the creation of keys, but in general, if the task is centralized management, differentiation of rights and security, it is better to look towards products that initially provide this and use Docker as a container launch, and not as a system.
By default, for security reasons, the client communicates with the server over a Unix socket (special file /var/run/socket.sock), not over a network socket. To work through a Unix socket, you can tell the curl sending program to use curl –unix-socket /var/run/docker.sock http: /v1.24/containers/json , but this feature is supported since curl 1.40, which is not supported on CentOS. To solve this problem and to communicate between remote servers, we use a network socket. To activate it, stop the systemctl server stop docker and start it with the settings dockerd -H tcp: //0.0.0.0: 9002 & (listen to everyone on port 9002, which is not permissible for production). After running, the docker ps command will not work, but docker -H 5.23.52.111:9002 ps or docker -H tcp: //geocode1.essch.ru: 9202 ps . By default, Docker uses port 2375 for http, and 2376 for https. In order not to change the code everywhere and not to specify the socket every time, we will write it in the environment variables:
export DOCKER_HOST = 5.23.52.111: 9002
Docker ps
Docker info
unser DOCKER_HOST
It is important to write export to make the variable available to all programs: child processes. Also, there should be no spaces around = . Now we can access the Dockerd server from anywhere on the same network. To manage remote and local Docker Engine (Docker on hosts), the Docker Machine program has been developed. Interaction with it is carried out using the Docker-machine command. First, let's install:
base = https: //github.com/docker/machine/releases/download/v0.14.0 &&
curl -L $ base / docker-machine – $ (uname -s) – $ (uname -m)> / usr / local / bin / docker-machine &&
chmod + x / usr / local / bin / docker-machine
Group of related applications
We already have several different applications, let's say NGINX, MySQL and our application. We isolated them in different containers, now they do not conflict with each other and NGINX and MySQL, we did not waste time and effort on making our own configuration, but simply downloaded: Docker run mysql , docker run Nginx , and for the application docker build.; docker run myapp -p 80:80 bash . As you can see, it would seem that everything is very simple, but there are two points: control and interconnection.
To demonstrate control, we will take the container of our application, and we will implement two possibilities – start and creation (bulkhead). For manual start, when we know that the container has already been created, but just stopped, it is enough to execute docker start myapp , but for automatic mode this is not enough, and we need to write a script that would take into account whether the container already exists, whether there is an image for it :
if $ (docker ps | grep myapp)
then
docker start myapp
else
if! $ (docker images | grep myimage)
docker build.
fi
docker run -d –name myapp -p 80:80 myimage bash
fi
… And to create it, you need to delete the container, if it exists:
if $ (docker ps | grep myapp)
docker rm -f myapp
fi
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