Docker Python 2

2/12/2022by admin

The docker: key tells CircleCI to use a Docker executor, which means our build will be executed using Docker containers. Image: circleci/python:2.7.14 specifies the Docker image that the build must use. Steps: The steps: key is a collection that specifies all of the commands that will be executed in this build. This command is telling the docker service to use the base image as python:3.8-slim-buster. This is an official Python image. This is an official Python image. It has all of the required packages. $ docker build -t flask-docker. $ docker run -it -p 5000:5000 flask-docker I hope this post was helpful in understanding certain ways to write Dockerfiles for you Python app. I used flask in this example but it isn't particularly different for Django. Basically only the CMD directive would change.

Estimated reading time: 7 minutes

Failed to import the required Python library (Docker SDK for Python: docker (Python >= 2.7) or docker-py (Python 2.6)) software engineering. Dec 27, 2019 I’ve been playing around with Docker and Ansible this break.

Windows Subsystem for Linux (WSL) 2 introduces a significant architectural change as it is a full Linux kernel built by Microsoft, allowing Linux containers to run natively without emulation. With Docker Desktop running on WSL 2, users can leverage Linux workspaces and avoid having to maintain both Linux and Windows build scripts. In addition, WSL 2 provides improvements to file system sharing, boot time, and allows access to some cool new features for Docker Desktop users.

Docker Desktop uses the dynamic memory allocation feature in WSL 2 to greatly improve the resource consumption. This means, Docker Desktop only uses the required amount of CPU and memory resources it needs, while enabling CPU and memory-intensive tasks such as building a container to run much faster.

Additionally, with WSL 2, the time required to start a Docker daemon after a cold start is significantly faster. It takes less than 10 seconds to start the Docker daemon when compared to almost a minute in the previous version of Docker Desktop.

Prerequisites

Before you install the Docker Desktop WSL 2 backend, you must complete the following steps:

  1. Install Windows 10, version 1903 or higher.
  2. Enable WSL 2 feature on Windows. For detailed instructions, refer to the Microsoft documentation.
  3. Download and install the Linux kernel update package.

Best practices

Docker Python 2
  • To get the best out of the file system performance when bind-mounting files, we recommend storing source code and other data that is bind-mounted into Linux containers (i.e., with docker run -v <host-path>:<container-path>) in the Linux file system, rather than the Windows file system. You can also refer to the recommendation from Microsoft.

    • Linux containers only receive file change events (“inotify events”) if the original files are stored in the Linux filesystem. For example, some web development workflows rely on inotify events for automatic reloading when files have changed.
    • Performance is much higher when files are bind-mounted from the Linux filesystem, rather than remoted from the Windows host. Therefore avoid docker run -v /mnt/c/users:/users (where /mnt/c is mounted from Windows).
    • Instead, from a Linux shell use a command like docker run -v ~/my-project:/sources <my-image> where ~ is expanded by the Linux shell to $HOME.
  • If you have concerns about the size of the docker-desktop-data VHDX, or need to change it, take a look at the WSL tooling built into Windows.
  • If you have concerns about CPU or memory usage, you can configure limits on the memory, CPU, Swap size allocated to the WSL 2 utility VM.
  • To avoid any potential conflicts with using WSL 2 on Docker Desktop, you must uninstall any previous versions of Docker Engine and CLI installed directly through Linux distributions before installing Docker Desktop.

Download

Download Docker Desktop Stable 2.3.0.2 or a later release.

Install

Ensure you have completed the steps described in the Prerequisites section before installing the Docker Desktop Stable 2.3.0.2 release.

  1. Follow the usual installation instructions to install Docker Desktop. If you are running a supported system, Docker Desktop prompts you to enable WSL 2 during installation. Read the information displayed on the screen and enable WSL 2 to continue.
  2. Start Docker Desktop from the Windows Start menu.
  3. From the Docker menu, select Settings > General.

  4. Select the Use WSL 2 based engine check box.

    If you have installed Docker Desktop on a system that supports WSL 2, this option will be enabled by default.

  5. Click Apply & Restart.
  6. Ensure the distribution runs in WSL 2 mode. WSL can run distributions in both v1 or v2 mode.

    To check the WSL mode, run:

    wsl.exe -l -v

    To upgrade your existing Linux distro to v2, run:

    wsl.exe --set-version (distro name) 2

    To set v2 as the default version for future installations, run:

    wsl.exe --set-default-version 2

  7. When Docker Desktop restarts, go to Settings > Resources > WSL Integration.

    The Docker-WSL integration will be enabled on your default WSL distribution. To change your default WSL distro, run wsl --set-default <distro name>.

    For example, to set Ubuntu as your default WSL distro, run wsl --set-default ubuntu.

    Optionally, select any additional distributions you would like to enable the Docker-WSL integration on.

    Note

    The Docker-WSL integration components running in your distro depend on glibc. This can cause issues when running musl-based distros such as Alpine Linux. Alpine users can use the alpine-pkg-glibc package to deploy glibc alongside musl to run the integration.

  8. Click Apply & Restart.

Develop with Docker and WSL 2

The following section describes how to start developing your applications using Docker and WSL 2. We recommend that you have your code in your default Linux distribution for the best development experience using Docker and WSL 2. After you have enabled WSL 2 on Docker Desktop, you can start working with your code inside the Linux distro and ideally with your IDE still in Windows. This workflow can be pretty straightforward if you are using VSCode.

  1. Open VSCode and install the Remote - WSL extension. This extension allows you to work with a remote server in the Linux distro and your IDE client still on Windows.
  2. Now, you can start working in VSCode remotely. To do this, open your terminal and type:

    wsl

    code .

    This opens a new VSCode connected remotely to your default Linux distro which you can check in the bottom corner of the screen.

    Alternatively, you can type the name of your default Linux distro in your Start menu, open it, and then run code .

  3. When you are in VSCode, you can use the terminal in VSCode to pull your code and start working natively from your Windows machine.

GPU support

Starting with Docker Desktop 3.1.0, Docker Desktop supports WSL 2 GPU Paravirtualization (GPU-PV) on NVIDIA GPUs. To enable WSL 2 GPU Paravirtualization, you need:

  • A machine with an NVIDIA GPU
  • The latest Windows Insider version from the Dev Preview ring
  • Beta drivers from NVIDIA supporting WSL 2 GPU Paravirtualization
  • Update WSL 2 Linux kernel to the latest version using wsl --update from an elevated command prompt
  • Make sure the WSL 2 backend is enabled in Docker Desktop
Docker python 2

To validate that everything works as expected, run the following command to run a short benchmark on your GPU:

Feedback

Docker Python 2.7

Your feedback is very important to us. Please let us know your feedback by creating an issue in the Docker Desktop for Windows GitHub repository and adding the WSL 2 label.

Docker Python 2.7.5

WSL, WSL 2 Tech Preview, Windows Subsystem for Linux, WSL 2 backend Docker
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