moby/Dockerfile.windows

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# escape=`
# -----------------------------------------------------------------------------------------
# This file describes the standard way to build Docker in a container on Windows
# Server 2016 or Windows 10.
#
# Maintainer: @jhowardmsft
# -----------------------------------------------------------------------------------------
# Prerequisites:
# --------------
#
# 1. Windows Server 2016 or Windows 10 with all Windows updates applied. The major
# build number must be at least 14393. This can be confirmed, for example, by
# running the following from an elevated PowerShell prompt - this sample output
# is from a fully up to date machine as at mid-November 2016:
#
# >> PS C:\> $(gin).WindowsBuildLabEx
# >> 14393.447.amd64fre.rs1_release_inmarket.161102-0100
#
# 2. Git for Windows (or another git client) must be installed. https://git-scm.com/download/win.
#
# 3. The machine must be configured to run containers. For example, by following
# the quick start guidance at https://msdn.microsoft.com/en-us/virtualization/windowscontainers/quick_start/quick_start or
# https://github.com/docker/labs/blob/master/windows/windows-containers/Setup.md
#
# 4. If building in a Hyper-V VM: For Windows Server 2016 using Windows Server
# containers as the default option, it is recommended you have at least 1GB
# of memory assigned; For Windows 10 where Hyper-V Containers are employed, you
# should have at least 4GB of memory assigned. Note also, to run Hyper-V
# containers in a VM, it is necessary to configure the VM for nested virtualization.
# -----------------------------------------------------------------------------------------
# Usage:
# -----
#
# The following steps should be run from an (elevated*) Windows PowerShell prompt.
#
# (*In a default installation of containers on Windows following the quick-start guidance at
# https://msdn.microsoft.com/en-us/virtualization/windowscontainers/quick_start/quick_start,
# the docker.exe client must run elevated to be able to connect to the daemon).
#
# 1. Clone the sources from github.com:
#
# >> git clone https://github.com/docker/docker.git C:\gopath\src\github.com\docker\docker
# >> Cloning into 'C:\gopath\src\github.com\docker\docker'...
# >> remote: Counting objects: 186216, done.
# >> remote: Compressing objects: 100% (21/21), done.
# >> remote: Total 186216 (delta 5), reused 0 (delta 0), pack-reused 186195
# >> Receiving objects: 100% (186216/186216), 104.32 MiB | 8.18 MiB/s, done.
# >> Resolving deltas: 100% (123139/123139), done.
# >> Checking connectivity... done.
# >> Checking out files: 100% (3912/3912), done.
# >> PS C:\>
#
#
# 2. Change directory to the cloned docker sources:
#
# >> cd C:\gopath\src\github.com\docker\docker
#
#
# 3. Build a docker image with the components required to build the docker binaries from source
# by running one of the following:
#
# >> docker build -t nativebuildimage -f Dockerfile.windows .
# >> docker build -t nativebuildimage -f Dockerfile.windows -m 2GB . (if using Hyper-V containers)
#
#
# 4. Build the docker executable binaries by running one of the following:
#
# >> $DOCKER_GITCOMMIT=(git rev-parse --short HEAD)
# >> docker run --name binaries -e DOCKER_GITCOMMIT=$DOCKER_GITCOMMIT nativebuildimage hack\make.ps1 -Binary
# >> docker run --name binaries -e DOCKER_GITCOMMIT=$DOCKER_GITCOMMIT -m 2GB nativebuildimage hack\make.ps1 -Binary (if using Hyper-V containers)
#
#
# 5. Copy the binaries out of the container, replacing HostPath with an appropriate destination
# folder on the host system where you want the binaries to be located.
#
# >> docker cp binaries:C:\gopath\src\github.com\docker\docker\bundles\docker.exe C:\HostPath\docker.exe
# >> docker cp binaries:C:\gopath\src\github.com\docker\docker\bundles\dockerd.exe C:\HostPath\dockerd.exe
#
#
# 6. (Optional) Remove the interim container holding the built executable binaries:
#
# >> docker rm binaries
#
#
# 7. (Optional) Remove the image used for the container in which the executable
# binaries are build. Tip - it may be useful to keep this image around if you need to
# build multiple times. Then you can take advantage of the builder cache to have an
# image which has all the components required to build the binaries already installed.
#
# >> docker rmi nativebuildimage
#
# -----------------------------------------------------------------------------------------
# The validation tests can only run directly on the host. This is because they calculate
# information from the git repo, but the .git directory is not passed into the image as
# it is excluded via .dockerignore. Run the following from a Windows PowerShell prompt
# (elevation is not required): (Note Go must be installed to run these tests)
#
# >> hack\make.ps1 -DCO -PkgImports -GoFormat
# -----------------------------------------------------------------------------------------
# To run unit tests, ensure you have created the nativebuildimage above. Then run one of
# the following from an (elevated) Windows PowerShell prompt:
#
# >> docker run --rm nativebuildimage hack\make.ps1 -TestUnit
# >> docker run --rm -m 2GB nativebuildimage hack\make.ps1 -TestUnit (if using Hyper-V containers)
# -----------------------------------------------------------------------------------------
# To run unit tests and binary build, ensure you have created the nativebuildimage above. Then
# run one of the following from an (elevated) Windows PowerShell prompt:
#
# >> docker run nativebuildimage hack\make.ps1 -All
# >> docker run -m 2GB nativebuildimage hack\make.ps1 -All (if using Hyper-V containers)
# -----------------------------------------------------------------------------------------
# Important notes:
# ---------------
#
# Don't attempt to use a bind mount to pass a local directory as the bundles target
# directory. It does not work (golang attempts for follow a mapped folder incorrectly).
# Instead, use docker cp as per the example.
#
# go.zip is not removed from the image as it is used by the Windows CI servers
# to ensure the host and image are running consistent versions of go.
#
# Nanoserver support is a work in progress. Although the image will build if the
# FROM statement is updated, it will not work when running autogen through hack\make.ps1.
# It is suspected that the required GCC utilities (eg gcc, windres, windmc) silently
# quit due to the use of console hooks which are not available.
#
# The docker integration tests do not currently run in a container on Windows, predominantly
# due to Windows not supporting privileged mode, so anything using a volume would fail.
# They (along with the rest of the docker CI suite) can be run using
# https://github.com/kevpar/docker-w2wCIScripts/blob/master/runCI/Invoke-DockerCI.ps1.
#
# -----------------------------------------------------------------------------------------
# The number of build steps below are explicitly minimised to improve performance.
# Extremely important - do not change the following line to reference a "specific" image,
# such as `mcr.microsoft.com/windows/servercore:ltsc2019`. If using this Dockerfile in process
# isolated containers, the kernel of the host must match the container image, and hence
# would fail between Windows Server 2016 (aka RS1) and Windows Server 2019 (aka RS5).
# It is expected that the image `microsoft/windowsservercore:latest` is present, and matches
# the hosts kernel version before doing a build.
FROM microsoft/windowsservercore
# Use PowerShell as the default shell
SHELL ["powershell", "-Command", "$ErrorActionPreference = 'Stop'; $ProgressPreference = 'SilentlyContinue';"]
Update Golang 1.13.7 (CVE-2020-0601, CVE-2020-7919) full diff: https://github.com/golang/go/compare/go1.13.6...go1.13.7 go1.13.7 (released 2020/01/28) includes two security fixes. One mitigates the CVE-2020-0601 certificate verification bypass on Windows. The other affects only 32-bit architectures. https://github.com/golang/go/issues?q=milestone%3AGo1.13.7+label%3ACherryPickApproved - X.509 certificate validation bypass on Windows 10 A Windows vulnerability allows attackers to spoof valid certificate chains when the system root store is in use. These releases include a mitigation for Go applications, but it’s strongly recommended that affected users install the Windows security update to protect their system. This issue is CVE-2020-0601 and Go issue golang.org/issue/36834. - Panic in crypto/x509 certificate parsing and golang.org/x/crypto/cryptobyte On 32-bit architectures, a malformed input to crypto/x509 or the ASN.1 parsing functions of golang.org/x/crypto/cryptobyte can lead to a panic. The malformed certificate can be delivered via a crypto/tls connection to a client, or to a server that accepts client certificates. net/http clients can be made to crash by an HTTPS server, while net/http servers that accept client certificates will recover the panic and are unaffected. Thanks to Project Wycheproof for providing the test cases that led to the discovery of this issue. The issue is CVE-2020-7919 and Go issue golang.org/issue/36837. This is also fixed in version v0.0.0-20200124225646-8b5121be2f68 of golang.org/x/crypto/cryptobyte. Signed-off-by: Sebastiaan van Stijn <github@gone.nl>
2020-01-29 17:13:13 +00:00
ARG GO_VERSION=1.13.7
ARG GOTESTSUM_COMMIT=v0.3.5
# Environment variable notes:
# - GO_VERSION must be consistent with 'Dockerfile' used by Linux.
# - FROM_DOCKERFILE is used for detection of building within a container.
ENV GO_VERSION=${GO_VERSION} `
GIT_VERSION=2.11.1 `
GOPATH=C:\gopath `
GO111MODULE=off `
FROM_DOCKERFILE=1 `
GOTESTSUM_COMMIT=${GOTESTSUM_COMMIT}
RUN `
Function Test-Nano() { `
$EditionId = (Get-ItemProperty -Path 'HKLM:\SOFTWARE\Microsoft\Windows NT\CurrentVersion' -Name 'EditionID').EditionId; `
return (($EditionId -eq 'ServerStandardNano') -or ($EditionId -eq 'ServerDataCenterNano') -or ($EditionId -eq 'NanoServer')); `
}`
`
Function Download-File([string] $source, [string] $target) { `
if (Test-Nano) { `
$handler = New-Object System.Net.Http.HttpClientHandler; `
$client = New-Object System.Net.Http.HttpClient($handler); `
$client.Timeout = New-Object System.TimeSpan(0, 30, 0); `
$cancelTokenSource = [System.Threading.CancellationTokenSource]::new(); `
$responseMsg = $client.GetAsync([System.Uri]::new($source), $cancelTokenSource.Token); `
$responseMsg.Wait(); `
if (!$responseMsg.IsCanceled) { `
$response = $responseMsg.Result; `
if ($response.IsSuccessStatusCode) { `
$downloadedFileStream = [System.IO.FileStream]::new($target, [System.IO.FileMode]::Create, [System.IO.FileAccess]::Write); `
$copyStreamOp = $response.Content.CopyToAsync($downloadedFileStream); `
$copyStreamOp.Wait(); `
$downloadedFileStream.Close(); `
if ($copyStreamOp.Exception -ne $null) { throw $copyStreamOp.Exception } `
} `
} else { `
Throw ("Failed to download " + $source) `
}`
} else { `
$webClient = New-Object System.Net.WebClient; `
$webClient.DownloadFile($source, $target); `
} `
} `
`
setx /M PATH $('C:\git\cmd;C:\git\usr\bin;'+$Env:PATH+';C:\gcc\bin;C:\go\bin'); `
`
Write-Host INFO: Downloading git...; `
$location='https://www.nuget.org/api/v2/package/GitForWindows/'+$Env:GIT_VERSION; `
Download-File $location C:\gitsetup.zip; `
`
Write-Host INFO: Downloading go...; `
$dlGoVersion=$Env:GO_VERSION -replace '\.0$',''; `
Download-File "https://golang.org/dl/go${dlGoVersion}.windows-amd64.zip" C:\go.zip; `
`
Write-Host INFO: Downloading compiler 1 of 3...; `
Download-File https://raw.githubusercontent.com/moby/docker-tdmgcc/master/gcc.zip C:\gcc.zip; `
`
Write-Host INFO: Downloading compiler 2 of 3...; `
Download-File https://raw.githubusercontent.com/moby/docker-tdmgcc/master/runtime.zip C:\runtime.zip; `
`
Write-Host INFO: Downloading compiler 3 of 3...; `
Download-File https://raw.githubusercontent.com/moby/docker-tdmgcc/master/binutils.zip C:\binutils.zip; `
`
Write-Host INFO: Extracting git...; `
Expand-Archive C:\gitsetup.zip C:\git-tmp; `
New-Item -Type Directory C:\git | Out-Null; `
Move-Item C:\git-tmp\tools\* C:\git\.; `
Remove-Item -Recurse -Force C:\git-tmp; `
`
Write-Host INFO: Expanding go...; `
Expand-Archive C:\go.zip -DestinationPath C:\; `
`
Write-Host INFO: Expanding compiler 1 of 3...; `
Expand-Archive C:\gcc.zip -DestinationPath C:\gcc -Force; `
Write-Host INFO: Expanding compiler 2 of 3...; `
Expand-Archive C:\runtime.zip -DestinationPath C:\gcc -Force; `
Write-Host INFO: Expanding compiler 3 of 3...; `
Expand-Archive C:\binutils.zip -DestinationPath C:\gcc -Force; `
`
Write-Host INFO: Removing downloaded files...; `
Remove-Item C:\gcc.zip; `
Remove-Item C:\runtime.zip; `
Remove-Item C:\binutils.zip; `
Remove-Item C:\gitsetup.zip; `
`
# Ensure all directories exist that we will require below....
$srcDir = """$Env:GOPATH`\src\github.com\docker\docker\bundles"""; `
Write-Host INFO: Ensuring existence of directory $srcDir...; `
New-Item -Force -ItemType Directory -Path $srcDir | Out-Null; `
`
Write-Host INFO: Configuring git core.autocrlf...; `
C:\git\cmd\git config --global core.autocrlf true;
RUN `
Function Build-GoTestSum() { `
Write-Host "INFO: Building gotestsum version $Env:GOTESTSUM_COMMIT in $Env:GOPATH"; `
$optsForGet = @('"get"', '"-d"', '"gotest.tools/gotestsum"'); `
&go $optsForGet; `
$savedExitCode = $LASTEXITCODE; `
if ($savedExitCode -ne 0) { `
Throw '"Failed getting gotestsum sources..."' `
}; `
Write-Host "INFO: Sources obtained for gotestsum..."; `
$GotestsumPath=Join-Path -Path $Env:GOPATH -ChildPath "src\gotest.tools\gotestsum"; `
Push-Location $GotestsumPath; `
$optsForCheckout = @('"checkout"', '"-q"', """$Env:GOTESTSUM_COMMIT"""); `
&git $optsForCheckout; `
$savedExitCode = $LASTEXITCODE; `
if ($savedExitCode -eq 0) { `
Write-Host "INFO: Checkout done for gotestsum..."; `
$optsForBuild = @('"build"', '"-buildmode=exe"'); `
&go $optsForBuild; `
$savedExitCode = $LASTEXITCODE; `
} else { `
Throw '"gotestsum checkout failed..."'; `
} `
Pop-Location; `
`
if ($savedExitCode -ne 0) { `
Throw '"gotestsum build failed..."'; `
} `
Write-Host "INFO: Build done for gotestsum..."; `
} `
`
Build-GoTestSum
# Make PowerShell the default entrypoint
ENTRYPOINT ["powershell.exe"]
# Set the working directory to the location of the sources
WORKDIR ${GOPATH}\src\github.com\docker\docker
# Copy the sources into the container
COPY . .