docker基础镜像调整为kkfileview-base
This commit is contained in:
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FROM keking/kkfileview-jdk:latest
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MAINTAINER chenjh "842761733@qq.com"
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FROM keking/kkfileview-base:4.4.0
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ADD server/target/kkFileView-*.tar.gz /opt/
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ENV KKFILEVIEW_BIN_FOLDER /opt/kkFileView-4.4.0-beta/bin
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ENV KKFILEVIEW_BIN_FOLDER=/opt/kkFileView-4.4.0-beta/bin
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ENTRYPOINT ["java","-Dfile.encoding=UTF-8","-Dspring.config.location=/opt/kkFileView-4.4.0-beta/config/application.properties","-jar","/opt/kkFileView-4.4.0-beta/bin/kkFileView-4.4.0-beta.jar"]
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@ -11,15 +11,15 @@ RUN sed -i 's@//.*archive.ubuntu.com@//mirrors.aliyun.com@g' /etc/apt/sources.li
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localedef -i zh_CN -c -f UTF-8 -A /usr/share/locale/locale.alias zh_CN.UTF-8 &&\
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locale-gen zh_CN.UTF-8 &&\
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# 安装微软字体
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# apt-get install -y --no-install-recommends ttf-mscorefonts-installer &&\
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apt-get install -y --no-install-recommends ttf-mscorefonts-installer &&\
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# 安装文泉驿字体
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# apt-get install -y --no-install-recommends ttf-wqy-microhei ttf-wqy-zenhei xfonts-wqy &&\
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apt-get install -y --no-install-recommends ttf-wqy-microhei ttf-wqy-zenhei xfonts-wqy &&\
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# 清理临时文件
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apt-get autoremove -y &&\
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apt-get clean &&\
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rm -rf /var/lib/apt/lists/*
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# 内置一些常用的中文字体,避免普遍性乱码. 建议安装思源字体 https://zh-cn.libreoffice.org/download/fonts/
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# 内置一些常用的中文字体,避免普遍性乱码
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ADD fonts/* /usr/share/fonts/chinese/
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RUN cd /usr/share/fonts/chinese &&\
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@ -1,50 +1,50 @@
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# 构建说明
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由于 kkfileview 的基础运行环境很少变动且制作耗时较久,而 kkfileview 本身代码开发会频繁改动,因此把制作其 Docker 镜像的步骤拆分为两次:
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首先制作 kkfileview 的基础镜像(kkfileview-jdk)。
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然后使用 kkfileview-jdk 作为基础镜像进行构建,加快 kkfileview docker 镜像构建与发布。
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执行如下命令即可构建基础镜像:
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> 这里镜像 tag 以 4.4.0 为例,本项目所维护的 Dockerfile 文件考虑了跨平台兼容性。 如果你需要用到 arm64 架构镜像, 则在arm64 架构机器上同样执行下面的构建命令即可
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```shell
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docker build --tag keking/kkfileview-jdk:4.4.0 .
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```
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## 跨平台构建
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`docker buildx` 支持在一台机器上构建出多种平台架构的镜像。推荐使用该能力进行跨平台的镜像构建。
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例如,执行 `docker buildx build` 命令时加上 `--platform=linux/arm64` 参数即可构建出 arm64 架构镜像。这极大方便了那些没有arm64 架构机器却想构建 arm64 架构镜像的用户。
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> 当前本项目仅支持构建 linux/amd64 和 linux/arm64 两种平台架构的镜像
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> buildx 的 builder driver 可以使用默认的 `docker` 类型, 若使用 `docker-container` 类型可以支持并行构建多种架构, 本文不再赘述, 有兴趣可以自行了解。参考 [Docker Buildx | Docker Documentation](https://docs.docker.com/buildx/working-with-buildx/#build-multi-platform-images)
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**前提要求**
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以当前机器为 amd64 (x86_64)架构为例。需要开启 docker 的 buildx 特性,以及开启 Linux 的 QEMU 用户模式:
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> 使用 WSL2 的 Windows 用户如果安装了最新的 DockerDesktop, 则这些前提要求已满足, 无需额外下述设置。
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1. 安装 docker buildx 客户端插件:
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> docker 版本要求 >=19.03
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若已安装, 则跳过。详情参考 https://github.com/docker/buildx
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2. 开启 QEMU 的用户模式功能, 并安装其它平台的模拟器:
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> Linux 内核要求 >=4.8
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使用 `tonistiigi/binfmt` 镜像可快速开启并安装模拟器,执行下面命令:
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```shell
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docker run --privileged --rm tonistiigi/binfmt --install all
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```
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现在就可以愉快地开始构建了,构建命令示例:
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```shell
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docker buildx build --platform=linux/amd64,linux/arm64 -t keking/kkfileview-jdk:4.4.0 --push .
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```
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# 构建说明
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由于 kkfileview 的基础运行环境很少变动且制作耗时较久,而 kkfileview 本身代码开发会频繁改动,因此把制作其 Docker 镜像的步骤拆分为两次:
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首先制作 kkfileview 的基础镜像(kkfileview-base)。
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然后使用 kkfileview-base 作为基础镜像进行构建,加快 kkfileview docker 镜像构建与发布。
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执行如下命令即可构建基础镜像:
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> 这里镜像 tag 以 4.4.0 为例,本项目所维护的 Dockerfile 文件考虑了跨平台兼容性。 如果你需要用到 arm64 架构镜像, 则在arm64 架构机器上同样执行下面的构建命令即可
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```shell
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docker build --tag keking/kkfileview-base:4.4.0 .
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```
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## 跨平台构建
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`docker buildx` 支持在一台机器上构建出多种平台架构的镜像。推荐使用该能力进行跨平台的镜像构建。
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例如,执行 `docker buildx build` 命令时加上 `--platform=linux/arm64` 参数即可构建出 arm64 架构镜像。这极大方便了那些没有arm64 架构机器却想构建 arm64 架构镜像的用户。
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> 当前本项目仅支持构建 linux/amd64 和 linux/arm64 两种平台架构的镜像
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> buildx 的 builder driver 可以使用默认的 `docker` 类型, 若使用 `docker-container` 类型可以支持并行构建多种架构, 本文不再赘述, 有兴趣可以自行了解。参考 [Docker Buildx | Docker Documentation](https://docs.docker.com/buildx/working-with-buildx/#build-multi-platform-images)
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**前提要求**
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以当前机器为 amd64 (x86_64)架构为例。需要开启 docker 的 buildx 特性,以及开启 Linux 的 QEMU 用户模式:
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> 使用 WSL2 的 Windows 用户如果安装了最新的 DockerDesktop, 则这些前提要求已满足, 无需额外下述设置。
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1. 安装 docker buildx 客户端插件:
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> docker 版本要求 >=19.03
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若已安装, 则跳过。详情参考 https://github.com/docker/buildx
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2. 开启 QEMU 的用户模式功能, 并安装其它平台的模拟器:
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> Linux 内核要求 >=4.8
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使用 `tonistiigi/binfmt` 镜像可快速开启并安装模拟器,执行下面命令:
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```shell
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docker run --privileged --rm tonistiigi/binfmt --install all
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```
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现在就可以愉快地开始构建了,构建命令示例:
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```shell
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docker buildx build --platform=linux/amd64,linux/arm64 -t keking/kkfileview-base:4.4.0 --push .
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```
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@ -1,53 +1,53 @@
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# Build Instructions
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Since the base runtime environment for kkfileview rarely changes and takes a long time to build, while the kkfileview code itself is frequently updated, the process of building its Docker image is split into two steps:
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First, create the base image for kkfileview (kkfileview-jdk).
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Then, use kkfileview-jdk as the base image to build and speed up the kkfileview Docker image build and release process.
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To build the base image, run the following command:
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> In this example, the image tag is 4.4.0. The Dockerfile maintained in this project considers cross-platform compatibility. If you need an arm64 architecture image, run the same build command on an arm64 architecture machine.
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```shell
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docker build --tag keking/kkfileview-jdk:4.4.0 .
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```
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## Cross-Platform Build
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`docker buildx` supports building images for multiple platform architectures on a single machine. It is recommended to use this capability for cross-platform image builds.
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For example, adding the `--platform=linux/arm64` parameter when executing the `docker buildx build` command will allow you to build an arm64 architecture image. This is particularly convenient for users who want to build arm64 images but don't have an arm64 machine.
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> Currently, this project only supports building images for the linux/amd64 and linux/arm64 architectures.
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> The buildx builder driver can use the default `docker` type, but if you use the `docker-container` type, you can build multiple architectures in parallel. This README will not cover that in detail, you can learn more on your own. Refer to [Docker Buildx | Docker Documentation](https://docs.docker.com/buildx/working-with-buildx/#build-multi-platform-images)
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**Prerequisites**
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Assuming the current machine is amd64 (x86_64) architecture, you'll need to enable the docker buildx feature and enable Linux QEMU user mode:
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> Windows users with WSL2 who have installed a recent version of Docker Desktop will already meet these prerequisites, so no additional setup is required.
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1. Install the docker buildx client plugin:
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> Docker version >=19.03 is required.
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If it's already installed, you can skip this step. For more details, refer to https://github.com/docker/buildx.
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2. Enable QEMU user mode and install emulators for other platforms:
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> Linux kernel version >=4.8 is required.
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You can quickly enable and install emulators using the tonistiigi/binfmt image by running the following command:
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```shell
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docker run --privileged --rm tonistiigi/binfmt --install all
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```
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Now you can enjoy the building. Here’s an example build command:
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```shell
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docker buildx build --platform=linux/amd64,linux/arm64 -t keking/kkfileview-jdk:4.4.0 --push .
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```
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# Build Instructions
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Since the base runtime environment for kkfileview rarely changes and takes a long time to build, while the kkfileview code itself is frequently updated, the process of building its Docker image is split into two steps:
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First, create the base image for kkfileview (kkfileview-base).
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Then, use kkfileview-base as the base image to build and speed up the kkfileview Docker image build and release process.
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To build the base image, run the following command:
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> In this example, the image tag is 4.4.0. The Dockerfile maintained in this project considers cross-platform compatibility. If you need an arm64 architecture image, run the same build command on an arm64 architecture machine.
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```shell
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docker build --tag keking/kkfileview-base:4.4.0 .
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```
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## Cross-Platform Build
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`docker buildx` supports building images for multiple platform architectures on a single machine. It is recommended to use this capability for cross-platform image builds.
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For example, adding the `--platform=linux/arm64` parameter when executing the `docker buildx build` command will allow you to build an arm64 architecture image. This is particularly convenient for users who want to build arm64 images but don't have an arm64 machine.
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> Currently, this project only supports building images for the linux/amd64 and linux/arm64 architectures.
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> The buildx builder driver can use the default `docker` type, but if you use the `docker-container` type, you can build multiple architectures in parallel. This README will not cover that in detail, you can learn more on your own. Refer to [Docker Buildx | Docker Documentation](https://docs.docker.com/buildx/working-with-buildx/#build-multi-platform-images)
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**Prerequisites**
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Assuming the current machine is amd64 (x86_64) architecture, you'll need to enable the docker buildx feature and enable Linux QEMU user mode:
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> Windows users with WSL2 who have installed a recent version of Docker Desktop will already meet these prerequisites, so no additional setup is required.
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1. Install the docker buildx client plugin:
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> Docker version >=19.03 is required.
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If it's already installed, you can skip this step. For more details, refer to https://github.com/docker/buildx.
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2. Enable QEMU user mode and install emulators for other platforms:
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> Linux kernel version >=4.8 is required.
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You can quickly enable and install emulators using the tonistiigi/binfmt image by running the following command:
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```shell
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docker run --privileged --rm tonistiigi/binfmt --install all
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```
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Now you can enjoy the building. Here’s an example build command:
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```shell
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docker buildx build --platform=linux/amd64,linux/arm64 -t keking/kkfileview-base:4.4.0 --push .
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```
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