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package daemon // import "github.com/docker/docker/daemon"
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import (
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"context"
Windows: Experimental: Allow containerd for runtime
Signed-off-by: John Howard <jhoward@microsoft.com>
This is the first step in refactoring moby (dockerd) to use containerd on Windows.
Similar to the current model in Linux, this adds the option to enable it for runtime.
It does not switch the graphdriver to containerd snapshotters.
- Refactors libcontainerd to a series of subpackages so that either a
"local" containerd (1) or a "remote" (2) containerd can be loaded as opposed
to conditional compile as "local" for Windows and "remote" for Linux.
- Updates libcontainerd such that Windows has an option to allow the use of a
"remote" containerd. Here, it communicates over a named pipe using GRPC.
This is currently guarded behind the experimental flag, an environment variable,
and the providing of a pipename to connect to containerd.
- Infrastructure pieces such as under pkg/system to have helper functions for
determining whether containerd is being used.
(1) "local" containerd is what the daemon on Windows has used since inception.
It's not really containerd at all - it's simply local invocation of HCS APIs
directly in-process from the daemon through the Microsoft/hcsshim library.
(2) "remote" containerd is what docker on Linux uses for it's runtime. It means
that there is a separate containerd service running, and docker communicates over
GRPC to it.
To try this out, you will need to start with something like the following:
Window 1:
containerd --log-level debug
Window 2:
$env:DOCKER_WINDOWS_CONTAINERD=1
dockerd --experimental -D --containerd \\.\pipe\containerd-containerd
You will need the following binary from github.com/containerd/containerd in your path:
- containerd.exe
You will need the following binaries from github.com/Microsoft/hcsshim in your path:
- runhcs.exe
- containerd-shim-runhcs-v1.exe
For LCOW, it will require and initrd.img and kernel in `C:\Program Files\Linux Containers`.
This is no different to the current requirements. However, you may need updated binaries,
particularly initrd.img built from Microsoft/opengcs as (at the time of writing), Linuxkit
binaries are somewhat out of date.
Note that containerd and hcsshim for HCS v2 APIs do not yet support all the required
functionality needed for docker. This will come in time - this is a baby (although large)
step to migrating Docker on Windows to containerd.
Note that the HCS v2 APIs are only called on RS5+ builds. RS1..RS4 will still use
HCS v1 APIs as the v2 APIs were not fully developed enough on these builds to be usable.
This abstraction is done in HCSShim. (Referring specifically to runtime)
Note the LCOW graphdriver still uses HCS v1 APIs regardless.
Note also that this does not migrate docker to use containerd snapshotters
rather than graphdrivers. This needs to be done in conjunction with Linux also
doing the same switch.
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"encoding/json"
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"fmt"
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"os"
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"path/filepath"
"strings"
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containertypes "github.com/docker/docker/api/types/container"
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imagetypes "github.com/docker/docker/api/types/image"
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"github.com/docker/docker/container"
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"github.com/docker/docker/errdefs"
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"github.com/docker/docker/oci"
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"github.com/docker/docker/pkg/sysinfo"
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"github.com/docker/docker/pkg/system"
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specs "github.com/opencontainers/runtime-spec/specs-go"
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"github.com/pkg/errors"
Windows: Experimental: Allow containerd for runtime
Signed-off-by: John Howard <jhoward@microsoft.com>
This is the first step in refactoring moby (dockerd) to use containerd on Windows.
Similar to the current model in Linux, this adds the option to enable it for runtime.
It does not switch the graphdriver to containerd snapshotters.
- Refactors libcontainerd to a series of subpackages so that either a
"local" containerd (1) or a "remote" (2) containerd can be loaded as opposed
to conditional compile as "local" for Windows and "remote" for Linux.
- Updates libcontainerd such that Windows has an option to allow the use of a
"remote" containerd. Here, it communicates over a named pipe using GRPC.
This is currently guarded behind the experimental flag, an environment variable,
and the providing of a pipename to connect to containerd.
- Infrastructure pieces such as under pkg/system to have helper functions for
determining whether containerd is being used.
(1) "local" containerd is what the daemon on Windows has used since inception.
It's not really containerd at all - it's simply local invocation of HCS APIs
directly in-process from the daemon through the Microsoft/hcsshim library.
(2) "remote" containerd is what docker on Linux uses for it's runtime. It means
that there is a separate containerd service running, and docker communicates over
GRPC to it.
To try this out, you will need to start with something like the following:
Window 1:
containerd --log-level debug
Window 2:
$env:DOCKER_WINDOWS_CONTAINERD=1
dockerd --experimental -D --containerd \\.\pipe\containerd-containerd
You will need the following binary from github.com/containerd/containerd in your path:
- containerd.exe
You will need the following binaries from github.com/Microsoft/hcsshim in your path:
- runhcs.exe
- containerd-shim-runhcs-v1.exe
For LCOW, it will require and initrd.img and kernel in `C:\Program Files\Linux Containers`.
This is no different to the current requirements. However, you may need updated binaries,
particularly initrd.img built from Microsoft/opengcs as (at the time of writing), Linuxkit
binaries are somewhat out of date.
Note that containerd and hcsshim for HCS v2 APIs do not yet support all the required
functionality needed for docker. This will come in time - this is a baby (although large)
step to migrating Docker on Windows to containerd.
Note that the HCS v2 APIs are only called on RS5+ builds. RS1..RS4 will still use
HCS v1 APIs as the v2 APIs were not fully developed enough on these builds to be usable.
This abstraction is done in HCSShim. (Referring specifically to runtime)
Note the LCOW graphdriver still uses HCS v1 APIs regardless.
Note also that this does not migrate docker to use containerd snapshotters
rather than graphdrivers. This needs to be done in conjunction with Linux also
doing the same switch.
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"github.com/sirupsen/logrus"
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"golang.org/x/sys/windows/registry"
)
const (
credentialSpecRegistryLocation = ` SOFTWARE\Microsoft\Windows NT\CurrentVersion\Virtualization\Containers\CredentialSpecs `
credentialSpecFileLocation = "CredentialSpecs"
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)
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func ( daemon * Daemon ) createSpec ( ctx context . Context , c * container . Container ) ( * specs . Spec , error ) {
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img , err := daemon . imageService . GetImage ( ctx , string ( c . ImageID ) , imagetypes . GetImageOpts { } )
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if err != nil {
return nil , err
}
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if ! system . IsOSSupported ( img . OperatingSystem ( ) ) {
return nil , system . ErrNotSupportedOperatingSystem
}
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s := oci . DefaultSpec ( )
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linkedEnv , err := daemon . setupLinkedContainers ( c )
if err != nil {
return nil , err
}
Windows: Unify workdir handling
Signed-off-by: John Howard <jhoward@microsoft.com>
Working directory processing was handled differently for Hyper-V and Windows-Server containers, as annotated in the builder documentation (updated in this PR). For Hyper-V containers, the working directory set by WORKDIR was not created. This PR makes Hyper-V containers work the same as Windows Server containers (and the same as Linux).
Example (only applies to Hyper-V containers, so not reproducible under CI environment)
Dockerfile:
FROM microsoft/nanoserver
WORKDIR c:\installer
ENV GOROOT=c:\installer
ADD go.exe .
RUN go --help
Running on Windows Server 2016, using docker master without this change, but with daemon set to --exec-opt isolation=hyperv as it would be for Client operating systems.
PS E:\go\src\github.com\docker\docker> dockerd -g c:\control --exec-opt isolation=hyperv
time="2017-02-01T15:48:09.657286100-08:00" level=info msg="Windows default isolation mode: hyperv"
time="2017-02-01T15:48:09.662720900-08:00" level=info msg="[graphdriver] using prior storage driver: windowsfilter"
time="2017-02-01T15:48:10.011588000-08:00" level=info msg="Graph migration to content-addressability took 0.00 seconds"
time="2017-02-01T15:48:10.016655800-08:00" level=info msg="Loading containers: start."
time="2017-02-01T15:48:10.460820000-08:00" level=info msg="Loading containers: done."
time="2017-02-01T15:48:10.509859600-08:00" level=info msg="Daemon has completed initialization"
time="2017-02-01T15:48:10.509859600-08:00" level=info msg="Docker daemon" commit=3c64061 graphdriver=windowsfilter version=1.14.0-dev
First with no explicit isolation:
PS E:\docker\build\unifyworkdir> docker build --no-cache .
Sending build context to Docker daemon 10.1 MB
Step 1/5 : FROM microsoft/nanoserver
---> 89b8556cb9ca
Step 2/5 : WORKDIR c:\installer
---> 7e0f41d08204
Removing intermediate container 236c7802042a
Step 3/5 : ENV GOROOT c:\installer
---> Running in 8ea5237183c1
---> 394b70435261
Removing intermediate container 8ea5237183c1
Step 4/5 : ADD go.exe .
---> e47401a1745c
Removing intermediate container 88dcc28e74b1
Step 5/5 : RUN go --help
---> Running in efe90e1b6b8b
container efe90e1b6b8b76586abc5c1dc0e2797b75adc26517c48733d90651e767c8463b encountered an error during CreateProcess: failure in a Windows system call: The directory name is invalid. (0x10b) extra info: {"ApplicationName":"","CommandLine":"cmd /S /C go --help","User":"","WorkingDirectory":"C:\\installer","Environment":{"GOROOT":"c:\\installer"},"EmulateConsole":false,"CreateStdInPipe":true,"CreateStdOutPipe":true,"CreateStdErrPipe":true,"ConsoleSize":[0,0]}
PS E:\docker\build\unifyworkdir>
Then forcing process isolation:
PS E:\docker\build\unifyworkdir> docker build --isolation=process --no-cache .
Sending build context to Docker daemon 10.1 MB
Step 1/5 : FROM microsoft/nanoserver
---> 89b8556cb9ca
Step 2/5 : WORKDIR c:\installer
---> 350c955980c8
Removing intermediate container 8339c1e9250c
Step 3/5 : ENV GOROOT c:\installer
---> Running in bde511c5e3e0
---> b8820063b5b6
Removing intermediate container bde511c5e3e0
Step 4/5 : ADD go.exe .
---> e4ac32f8902b
Removing intermediate container d586e8492eda
Step 5/5 : RUN go --help
---> Running in 9e1aa235af5f
Cannot mkdir: C:\installer is not a directory
PS E:\docker\build\unifyworkdir>
Now compare the same results after this PR. Again, first with no explicit isolation (defaulting to Hyper-V containers as that's what the daemon it set to) - note it now succeeds 😄
PS E:\docker\build\unifyworkdir> docker build --no-cache .
Sending build context to Docker daemon 10.1 MB
Step 1/5 : FROM microsoft/nanoserver
---> 89b8556cb9ca
Step 2/5 : WORKDIR c:\installer
---> 4f319f301c69
Removing intermediate container 61b9c0b1ff6f
Step 3/5 : ENV GOROOT c:\installer
---> Running in c464a1d612d8
---> 96a26ab9a7b5
Removing intermediate container c464a1d612d8
Step 4/5 : ADD go.exe .
---> 0290d61faf57
Removing intermediate container dc5a085fffe3
Step 5/5 : RUN go --help
---> Running in 60bd56042ff8
Go is a tool for managing Go source code.
Usage:
go command [arguments]
The commands are:
build compile packages and dependencies
clean remove object files
doc show documentation for package or symbol
env print Go environment information
fix run go tool fix on packages
fmt run gofmt on package sources
generate generate Go files by processing source
get download and install packages and dependencies
install compile and install packages and dependencies
list list packages
run compile and run Go program
test test packages
tool run specified go tool
version print Go version
vet run go tool vet on packages
Use "go help [command]" for more information about a command.
Additional help topics:
c calling between Go and C
buildmode description of build modes
filetype file types
gopath GOPATH environment variable
environment environment variables
importpath import path syntax
packages description of package lists
testflag description of testing flags
testfunc description of testing functions
Use "go help [topic]" for more information about that topic.
The command 'cmd /S /C go --help' returned a non-zero code: 2
And the same with forcing process isolation. Also works 😄
PS E:\docker\build\unifyworkdir> docker build --isolation=process --no-cache .
Sending build context to Docker daemon 10.1 MB
Step 1/5 : FROM microsoft/nanoserver
---> 89b8556cb9ca
Step 2/5 : WORKDIR c:\installer
---> f423b9cc3e78
Removing intermediate container 41330c88893d
Step 3/5 : ENV GOROOT c:\installer
---> Running in 0b99a2d7bf19
---> e051144bf8ec
Removing intermediate container 0b99a2d7bf19
Step 4/5 : ADD go.exe .
---> 7072e32b7c37
Removing intermediate container a7a97aa37fd1
Step 5/5 : RUN go --help
---> Running in 7097438a54e5
Go is a tool for managing Go source code.
Usage:
go command [arguments]
The commands are:
build compile packages and dependencies
clean remove object files
doc show documentation for package or symbol
env print Go environment information
fix run go tool fix on packages
fmt run gofmt on package sources
generate generate Go files by processing source
get download and install packages and dependencies
install compile and install packages and dependencies
list list packages
run compile and run Go program
test test packages
tool run specified go tool
version print Go version
vet run go tool vet on packages
Use "go help [command]" for more information about a command.
Additional help topics:
c calling between Go and C
buildmode description of build modes
filetype file types
gopath GOPATH environment variable
environment environment variables
importpath import path syntax
packages description of package lists
testflag description of testing flags
testfunc description of testing functions
Use "go help [topic]" for more information about that topic.
The command 'cmd /S /C go --help' returned a non-zero code: 2
PS E:\docker\build\unifyworkdir>
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// Note, unlike Unix, we do NOT call into SetupWorkingDirectory as
// this is done in VMCompute. Further, we couldn't do it for Hyper-V
// containers anyway.
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if err := daemon . setupSecretDir ( c ) ; err != nil {
return nil , err
}
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if err := daemon . setupConfigDir ( c ) ; err != nil {
return nil , err
}
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// In s.Mounts
mounts , err := daemon . setupMounts ( c )
if err != nil {
return nil , err
}
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var isHyperV bool
if c . HostConfig . Isolation . IsDefault ( ) {
// Container using default isolation, so take the default from the daemon configuration
isHyperV = daemon . defaultIsolation . IsHyperV ( )
} else {
// Container may be requesting an explicit isolation mode.
isHyperV = c . HostConfig . Isolation . IsHyperV ( )
}
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if isHyperV {
s . Windows . HyperV = & specs . WindowsHyperV { }
}
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// If the container has not been started, and has configs or secrets
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// secrets, create symlinks to each config and secret. If it has been
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// started before, the symlinks should have already been created. Also, it
// is important to not mount a Hyper-V container that has been started
// before, to protect the host from the container; for example, from
// malicious mutation of NTFS data structures.
if ! c . HasBeenStartedBefore && ( len ( c . SecretReferences ) > 0 || len ( c . ConfigReferences ) > 0 ) {
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// The container file system is mounted before this function is called,
// except for Hyper-V containers, so mount it here in that case.
if isHyperV {
if err := daemon . Mount ( c ) ; err != nil {
return nil , err
}
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defer daemon . Unmount ( c )
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}
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if err := c . CreateSecretSymlinks ( ) ; err != nil {
return nil , err
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}
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if err := c . CreateConfigSymlinks ( ) ; err != nil {
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return nil , err
}
}
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secretMounts , err := c . SecretMounts ( )
if err != nil {
return nil , err
}
if secretMounts != nil {
mounts = append ( mounts , secretMounts ... )
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}
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configMounts := c . ConfigMounts ( )
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if configMounts != nil {
mounts = append ( mounts , configMounts ... )
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}
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for _ , mount := range mounts {
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m := specs . Mount {
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Source : mount . Source ,
Destination : mount . Destination ,
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}
if ! mount . Writable {
m . Options = append ( m . Options , "ro" )
}
s . Mounts = append ( s . Mounts , m )
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}
// In s.Process
s . Process . Cwd = c . Config . WorkingDir
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s . Process . Env = c . CreateDaemonEnvironment ( c . Config . Tty , linkedEnv )
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s . Process . Terminal = c . Config . Tty
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if c . Config . Tty {
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s . Process . ConsoleSize = & specs . Box {
Height : c . HostConfig . ConsoleSize [ 0 ] ,
Width : c . HostConfig . ConsoleSize [ 1 ] ,
}
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}
s . Process . User . Username = c . Config . User
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s . Windows . LayerFolders , err = daemon . imageService . GetLayerFolders ( img , c . RWLayer )
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if err != nil {
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return nil , errors . Wrapf ( err , "container %s" , c . ID )
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}
dnsSearch := daemon . getDNSSearchSettings ( c )
// Get endpoints for the libnetwork allocated networks to the container
var epList [ ] string
AllowUnqualifiedDNSQuery := false
gwHNSID := ""
if c . NetworkSettings != nil {
for n := range c . NetworkSettings . Networks {
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sn , err := daemon . FindNetwork ( n )
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if err != nil {
continue
}
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ep , err := getEndpointInNetwork ( c . Name , sn )
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if err != nil {
continue
}
data , err := ep . DriverInfo ( )
if err != nil {
continue
}
if data [ "GW_INFO" ] != nil {
gwInfo := data [ "GW_INFO" ] . ( map [ string ] interface { } )
if gwInfo [ "hnsid" ] != nil {
gwHNSID = gwInfo [ "hnsid" ] . ( string )
}
}
if data [ "hnsid" ] != nil {
epList = append ( epList , data [ "hnsid" ] . ( string ) )
}
if data [ "AllowUnqualifiedDNSQuery" ] != nil {
AllowUnqualifiedDNSQuery = true
}
}
}
var networkSharedContainerID string
if c . HostConfig . NetworkMode . IsContainer ( ) {
networkSharedContainerID = c . NetworkSharedContainerID
for _ , ep := range c . SharedEndpointList {
epList = append ( epList , ep )
}
}
if gwHNSID != "" {
epList = append ( epList , gwHNSID )
}
s . Windows . Network = & specs . WindowsNetwork {
AllowUnqualifiedDNSQuery : AllowUnqualifiedDNSQuery ,
DNSSearchList : dnsSearch ,
EndpointList : epList ,
NetworkSharedContainerName : networkSharedContainerID ,
}
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if err := daemon . createSpecWindowsFields ( c , & s , isHyperV ) ; err != nil {
return nil , err
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}
Windows: Experimental: Allow containerd for runtime
Signed-off-by: John Howard <jhoward@microsoft.com>
This is the first step in refactoring moby (dockerd) to use containerd on Windows.
Similar to the current model in Linux, this adds the option to enable it for runtime.
It does not switch the graphdriver to containerd snapshotters.
- Refactors libcontainerd to a series of subpackages so that either a
"local" containerd (1) or a "remote" (2) containerd can be loaded as opposed
to conditional compile as "local" for Windows and "remote" for Linux.
- Updates libcontainerd such that Windows has an option to allow the use of a
"remote" containerd. Here, it communicates over a named pipe using GRPC.
This is currently guarded behind the experimental flag, an environment variable,
and the providing of a pipename to connect to containerd.
- Infrastructure pieces such as under pkg/system to have helper functions for
determining whether containerd is being used.
(1) "local" containerd is what the daemon on Windows has used since inception.
It's not really containerd at all - it's simply local invocation of HCS APIs
directly in-process from the daemon through the Microsoft/hcsshim library.
(2) "remote" containerd is what docker on Linux uses for it's runtime. It means
that there is a separate containerd service running, and docker communicates over
GRPC to it.
To try this out, you will need to start with something like the following:
Window 1:
containerd --log-level debug
Window 2:
$env:DOCKER_WINDOWS_CONTAINERD=1
dockerd --experimental -D --containerd \\.\pipe\containerd-containerd
You will need the following binary from github.com/containerd/containerd in your path:
- containerd.exe
You will need the following binaries from github.com/Microsoft/hcsshim in your path:
- runhcs.exe
- containerd-shim-runhcs-v1.exe
For LCOW, it will require and initrd.img and kernel in `C:\Program Files\Linux Containers`.
This is no different to the current requirements. However, you may need updated binaries,
particularly initrd.img built from Microsoft/opengcs as (at the time of writing), Linuxkit
binaries are somewhat out of date.
Note that containerd and hcsshim for HCS v2 APIs do not yet support all the required
functionality needed for docker. This will come in time - this is a baby (although large)
step to migrating Docker on Windows to containerd.
Note that the HCS v2 APIs are only called on RS5+ builds. RS1..RS4 will still use
HCS v1 APIs as the v2 APIs were not fully developed enough on these builds to be usable.
This abstraction is done in HCSShim. (Referring specifically to runtime)
Note the LCOW graphdriver still uses HCS v1 APIs regardless.
Note also that this does not migrate docker to use containerd snapshotters
rather than graphdrivers. This needs to be done in conjunction with Linux also
doing the same switch.
2019-01-08 17:30:52 -05:00
if logrus . IsLevelEnabled ( logrus . DebugLevel ) {
if b , err := json . Marshal ( & s ) ; err == nil {
logrus . Debugf ( "Generated spec: %s" , string ( b ) )
}
}
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return & s , nil
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}
// Sets the Windows-specific fields of the OCI spec
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func ( daemon * Daemon ) createSpecWindowsFields ( c * container . Container , s * specs . Spec , isHyperV bool ) error {
Windows: Experimental: Allow containerd for runtime
Signed-off-by: John Howard <jhoward@microsoft.com>
This is the first step in refactoring moby (dockerd) to use containerd on Windows.
Similar to the current model in Linux, this adds the option to enable it for runtime.
It does not switch the graphdriver to containerd snapshotters.
- Refactors libcontainerd to a series of subpackages so that either a
"local" containerd (1) or a "remote" (2) containerd can be loaded as opposed
to conditional compile as "local" for Windows and "remote" for Linux.
- Updates libcontainerd such that Windows has an option to allow the use of a
"remote" containerd. Here, it communicates over a named pipe using GRPC.
This is currently guarded behind the experimental flag, an environment variable,
and the providing of a pipename to connect to containerd.
- Infrastructure pieces such as under pkg/system to have helper functions for
determining whether containerd is being used.
(1) "local" containerd is what the daemon on Windows has used since inception.
It's not really containerd at all - it's simply local invocation of HCS APIs
directly in-process from the daemon through the Microsoft/hcsshim library.
(2) "remote" containerd is what docker on Linux uses for it's runtime. It means
that there is a separate containerd service running, and docker communicates over
GRPC to it.
To try this out, you will need to start with something like the following:
Window 1:
containerd --log-level debug
Window 2:
$env:DOCKER_WINDOWS_CONTAINERD=1
dockerd --experimental -D --containerd \\.\pipe\containerd-containerd
You will need the following binary from github.com/containerd/containerd in your path:
- containerd.exe
You will need the following binaries from github.com/Microsoft/hcsshim in your path:
- runhcs.exe
- containerd-shim-runhcs-v1.exe
For LCOW, it will require and initrd.img and kernel in `C:\Program Files\Linux Containers`.
This is no different to the current requirements. However, you may need updated binaries,
particularly initrd.img built from Microsoft/opengcs as (at the time of writing), Linuxkit
binaries are somewhat out of date.
Note that containerd and hcsshim for HCS v2 APIs do not yet support all the required
functionality needed for docker. This will come in time - this is a baby (although large)
step to migrating Docker on Windows to containerd.
Note that the HCS v2 APIs are only called on RS5+ builds. RS1..RS4 will still use
HCS v1 APIs as the v2 APIs were not fully developed enough on these builds to be usable.
This abstraction is done in HCSShim. (Referring specifically to runtime)
Note the LCOW graphdriver still uses HCS v1 APIs regardless.
Note also that this does not migrate docker to use containerd snapshotters
rather than graphdrivers. This needs to be done in conjunction with Linux also
doing the same switch.
2019-01-08 17:30:52 -05:00
2019-02-07 16:43:31 -05:00
s . Hostname = c . FullHostname ( )
2016-04-18 13:11:37 -04:00
if len ( s . Process . Cwd ) == 0 {
// We default to C:\ to workaround the oddity of the case that the
// default directory for cmd running as LocalSystem (or
// ContainerAdministrator) is c:\windows\system32. Hence docker run
// <image> cmd will by default end in c:\windows\system32, rather
// than 'root' (/) on Linux. The oddity is that if you have a dockerfile
// which has no WORKDIR and has a COPY file ., . will be interpreted
// as c:\. Hence, setting it to default of c:\ makes for consistency.
s . Process . Cwd = ` C:\ `
}
2016-03-18 14:53:27 -04:00
Windows: (WCOW) Generate OCI spec that remote runtime can escape
Signed-off-by: John Howard <jhoward@microsoft.com>
Also fixes https://github.com/moby/moby/issues/22874
This commit is a pre-requisite to moving moby/moby on Windows to using
Containerd for its runtime.
The reason for this is that the interface between moby and containerd
for the runtime is an OCI spec which must be unambigious.
It is the responsibility of the runtime (runhcs in the case of
containerd on Windows) to ensure that arguments are escaped prior
to calling into HCS and onwards to the Win32 CreateProcess call.
Previously, the builder was always escaping arguments which has
led to several bugs in moby. Because the local runtime in
libcontainerd had context of whether or not arguments were escaped,
it was possible to hack around in daemon/oci_windows.go with
knowledge of the context of the call (from builder or not).
With a remote runtime, this is not possible as there's rightly
no context of the caller passed across in the OCI spec. Put another
way, as I put above, the OCI spec must be unambigious.
The other previous limitation (which leads to various subtle bugs)
is that moby is coded entirely from a Linux-centric point of view.
Unfortunately, Windows != Linux. Windows CreateProcess uses a
command line, not an array of arguments. And it has very specific
rules about how to escape a command line. Some interesting reading
links about this are:
https://blogs.msdn.microsoft.com/twistylittlepassagesallalike/2011/04/23/everyone-quotes-command-line-arguments-the-wrong-way/
https://stackoverflow.com/questions/31838469/how-do-i-convert-argv-to-lpcommandline-parameter-of-createprocess
https://docs.microsoft.com/en-us/cpp/cpp/parsing-cpp-command-line-arguments?view=vs-2017
For this reason, the OCI spec has recently been updated to cater
for more natural syntax by including a CommandLine option in
Process.
What does this commit do?
Primary objective is to ensure that the built OCI spec is unambigious.
It changes the builder so that `ArgsEscaped` as commited in a
layer is only controlled by the use of CMD or ENTRYPOINT.
Subsequently, when calling in to create a container from the builder,
if follows a different path to both `docker run` and `docker create`
using the added `ContainerCreateIgnoreImagesArgsEscaped`. This allows
a RUN from the builder to control how to escape in the OCI spec.
It changes the builder so that when shell form is used for RUN,
CMD or ENTRYPOINT, it builds (for WCOW) a more natural command line
using the original as put by the user in the dockerfile, not
the parsed version as a set of args which loses fidelity.
This command line is put into args[0] and `ArgsEscaped` is set
to true for CMD or ENTRYPOINT. A RUN statement does not commit
`ArgsEscaped` to the commited layer regardless or whether shell
or exec form were used.
2019-01-17 19:03:29 -05:00
if c . Config . ArgsEscaped {
s . Process . CommandLine = c . Path
if len ( c . Args ) > 0 {
s . Process . CommandLine += " " + system . EscapeArgs ( c . Args )
}
} else {
s . Process . Args = append ( [ ] string { c . Path } , c . Args ... )
}
2017-05-26 19:14:18 -04:00
s . Root . Readonly = false // Windows does not support a read-only root filesystem
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if ! isHyperV {
2022-09-23 12:25:19 -04:00
if c . BaseFS == "" {
return errors . New ( "createSpecWindowsFields: BaseFS of container " + c . ID + " is unexpectedly empty" )
2018-03-15 18:36:36 -04:00
}
2022-09-23 14:09:51 -04:00
s . Root . Path = c . BaseFS // This is not set for Hyper-V containers
2017-08-01 13:00:38 -04:00
if ! strings . HasSuffix ( s . Root . Path , ` \ ` ) {
s . Root . Path = s . Root . Path + ` \ ` // Ensure a correctly formatted volume GUID path \\?\Volume{GUID}\
}
2016-09-27 17:52:49 -04:00
}
2016-03-18 14:53:27 -04:00
2017-08-01 13:00:38 -04:00
// First boot optimization
s . Windows . IgnoreFlushesDuringBoot = ! c . HasBeenStartedBefore
2018-06-16 03:01:35 -04:00
setResourcesInSpec ( c , s , isHyperV )
2017-08-01 13:00:38 -04:00
// Read and add credentials from the security options if a credential spec has been provided.
2019-03-06 20:44:36 -05:00
if err := daemon . setWindowsCredentialSpec ( c , s ) ; err != nil {
return err
2017-08-01 13:00:38 -04:00
}
2022-03-12 09:32:18 -05:00
devices , err := setupWindowsDevices ( c . HostConfig . Devices )
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if err != nil {
return err
2018-07-16 18:19:11 -04:00
}
2022-03-12 05:05:55 -05:00
s . Windows . Devices = append ( s . Windows . Devices , devices ... )
2017-08-01 13:00:38 -04:00
return nil
2017-05-26 19:14:18 -04:00
}
2019-03-06 20:44:36 -05:00
var errInvalidCredentialSpecSecOpt = errdefs . InvalidParameter ( fmt . Errorf ( "invalid credential spec security option - value must be prefixed by 'file://', 'registry://', or 'raw://' followed by a non-empty value" ) )
// setWindowsCredentialSpec sets the spec's `Windows.CredentialSpec`
// field if relevant
func ( daemon * Daemon ) setWindowsCredentialSpec ( c * container . Container , s * specs . Spec ) error {
if c . HostConfig == nil || c . HostConfig . SecurityOpt == nil {
return nil
}
// TODO (jrouge/wk8): if provided with several security options, we silently ignore
// all but the last one (provided they're all valid, otherwise we do return an error);
// this doesn't seem like a great idea?
credentialSpec := ""
for _ , secOpt := range c . HostConfig . SecurityOpt {
optSplits := strings . SplitN ( secOpt , "=" , 2 )
if len ( optSplits ) != 2 {
return errdefs . InvalidParameter ( fmt . Errorf ( "invalid security option: no equals sign in supplied value %s" , secOpt ) )
}
if ! strings . EqualFold ( optSplits [ 0 ] , "credentialspec" ) {
return errdefs . InvalidParameter ( fmt . Errorf ( "security option not supported: %s" , optSplits [ 0 ] ) )
}
credSpecSplits := strings . SplitN ( optSplits [ 1 ] , "://" , 2 )
if len ( credSpecSplits ) != 2 || credSpecSplits [ 1 ] == "" {
return errInvalidCredentialSpecSecOpt
}
value := credSpecSplits [ 1 ]
var err error
switch strings . ToLower ( credSpecSplits [ 0 ] ) {
case "file" :
if credentialSpec , err = readCredentialSpecFile ( c . ID , daemon . root , filepath . Clean ( value ) ) ; err != nil {
return errdefs . InvalidParameter ( err )
}
case "registry" :
if credentialSpec , err = readCredentialSpecRegistry ( c . ID , value ) ; err != nil {
return errdefs . InvalidParameter ( err )
}
case "config" :
// if the container does not have a DependencyStore, then it
// isn't swarmkit managed. In order to avoid creating any
// impression that `config://` is a valid API, return the same
// error as if you'd passed any other random word.
if c . DependencyStore == nil {
return errInvalidCredentialSpecSecOpt
}
csConfig , err := c . DependencyStore . Configs ( ) . Get ( value )
if err != nil {
return errdefs . System ( errors . Wrap ( err , "error getting value from config store" ) )
}
// stuff the resulting secret data into a string to use as the
// CredentialSpec
credentialSpec = string ( csConfig . Spec . Data )
case "raw" :
credentialSpec = value
default :
return errInvalidCredentialSpecSecOpt
}
}
if credentialSpec != "" {
if s . Windows == nil {
s . Windows = & specs . Windows { }
}
s . Windows . CredentialSpec = credentialSpec
}
return nil
}
2018-06-16 03:01:35 -04:00
func setResourcesInSpec ( c * container . Container , s * specs . Spec , isHyperV bool ) {
// In s.Windows.Resources
cpuShares := uint16 ( c . HostConfig . CPUShares )
cpuMaximum := uint16 ( c . HostConfig . CPUPercent ) * 100
cpuCount := uint64 ( c . HostConfig . CPUCount )
if c . HostConfig . NanoCPUs > 0 {
if isHyperV {
cpuCount = uint64 ( c . HostConfig . NanoCPUs / 1e9 )
leftoverNanoCPUs := c . HostConfig . NanoCPUs % 1e9
if leftoverNanoCPUs != 0 {
cpuCount ++
cpuMaximum = uint16 ( c . HostConfig . NanoCPUs / int64 ( cpuCount ) / ( 1e9 / 10000 ) )
if cpuMaximum < 1 {
// The requested NanoCPUs is so small that we rounded to 0, use 1 instead
cpuMaximum = 1
}
}
} else {
cpuMaximum = uint16 ( c . HostConfig . NanoCPUs / int64 ( sysinfo . NumCPU ( ) ) / ( 1e9 / 10000 ) )
if cpuMaximum < 1 {
// The requested NanoCPUs is so small that we rounded to 0, use 1 instead
cpuMaximum = 1
}
}
}
Windows: Experimental: Allow containerd for runtime
Signed-off-by: John Howard <jhoward@microsoft.com>
This is the first step in refactoring moby (dockerd) to use containerd on Windows.
Similar to the current model in Linux, this adds the option to enable it for runtime.
It does not switch the graphdriver to containerd snapshotters.
- Refactors libcontainerd to a series of subpackages so that either a
"local" containerd (1) or a "remote" (2) containerd can be loaded as opposed
to conditional compile as "local" for Windows and "remote" for Linux.
- Updates libcontainerd such that Windows has an option to allow the use of a
"remote" containerd. Here, it communicates over a named pipe using GRPC.
This is currently guarded behind the experimental flag, an environment variable,
and the providing of a pipename to connect to containerd.
- Infrastructure pieces such as under pkg/system to have helper functions for
determining whether containerd is being used.
(1) "local" containerd is what the daemon on Windows has used since inception.
It's not really containerd at all - it's simply local invocation of HCS APIs
directly in-process from the daemon through the Microsoft/hcsshim library.
(2) "remote" containerd is what docker on Linux uses for it's runtime. It means
that there is a separate containerd service running, and docker communicates over
GRPC to it.
To try this out, you will need to start with something like the following:
Window 1:
containerd --log-level debug
Window 2:
$env:DOCKER_WINDOWS_CONTAINERD=1
dockerd --experimental -D --containerd \\.\pipe\containerd-containerd
You will need the following binary from github.com/containerd/containerd in your path:
- containerd.exe
You will need the following binaries from github.com/Microsoft/hcsshim in your path:
- runhcs.exe
- containerd-shim-runhcs-v1.exe
For LCOW, it will require and initrd.img and kernel in `C:\Program Files\Linux Containers`.
This is no different to the current requirements. However, you may need updated binaries,
particularly initrd.img built from Microsoft/opengcs as (at the time of writing), Linuxkit
binaries are somewhat out of date.
Note that containerd and hcsshim for HCS v2 APIs do not yet support all the required
functionality needed for docker. This will come in time - this is a baby (although large)
step to migrating Docker on Windows to containerd.
Note that the HCS v2 APIs are only called on RS5+ builds. RS1..RS4 will still use
HCS v1 APIs as the v2 APIs were not fully developed enough on these builds to be usable.
This abstraction is done in HCSShim. (Referring specifically to runtime)
Note the LCOW graphdriver still uses HCS v1 APIs regardless.
Note also that this does not migrate docker to use containerd snapshotters
rather than graphdrivers. This needs to be done in conjunction with Linux also
doing the same switch.
2019-01-08 17:30:52 -05:00
if cpuMaximum != 0 || cpuShares != 0 || cpuCount != 0 {
if s . Windows . Resources == nil {
s . Windows . Resources = & specs . WindowsResources { }
}
s . Windows . Resources . CPU = & specs . WindowsCPUResources {
2018-06-16 03:01:35 -04:00
Maximum : & cpuMaximum ,
Shares : & cpuShares ,
Count : & cpuCount ,
Windows: Experimental: Allow containerd for runtime
Signed-off-by: John Howard <jhoward@microsoft.com>
This is the first step in refactoring moby (dockerd) to use containerd on Windows.
Similar to the current model in Linux, this adds the option to enable it for runtime.
It does not switch the graphdriver to containerd snapshotters.
- Refactors libcontainerd to a series of subpackages so that either a
"local" containerd (1) or a "remote" (2) containerd can be loaded as opposed
to conditional compile as "local" for Windows and "remote" for Linux.
- Updates libcontainerd such that Windows has an option to allow the use of a
"remote" containerd. Here, it communicates over a named pipe using GRPC.
This is currently guarded behind the experimental flag, an environment variable,
and the providing of a pipename to connect to containerd.
- Infrastructure pieces such as under pkg/system to have helper functions for
determining whether containerd is being used.
(1) "local" containerd is what the daemon on Windows has used since inception.
It's not really containerd at all - it's simply local invocation of HCS APIs
directly in-process from the daemon through the Microsoft/hcsshim library.
(2) "remote" containerd is what docker on Linux uses for it's runtime. It means
that there is a separate containerd service running, and docker communicates over
GRPC to it.
To try this out, you will need to start with something like the following:
Window 1:
containerd --log-level debug
Window 2:
$env:DOCKER_WINDOWS_CONTAINERD=1
dockerd --experimental -D --containerd \\.\pipe\containerd-containerd
You will need the following binary from github.com/containerd/containerd in your path:
- containerd.exe
You will need the following binaries from github.com/Microsoft/hcsshim in your path:
- runhcs.exe
- containerd-shim-runhcs-v1.exe
For LCOW, it will require and initrd.img and kernel in `C:\Program Files\Linux Containers`.
This is no different to the current requirements. However, you may need updated binaries,
particularly initrd.img built from Microsoft/opengcs as (at the time of writing), Linuxkit
binaries are somewhat out of date.
Note that containerd and hcsshim for HCS v2 APIs do not yet support all the required
functionality needed for docker. This will come in time - this is a baby (although large)
step to migrating Docker on Windows to containerd.
Note that the HCS v2 APIs are only called on RS5+ builds. RS1..RS4 will still use
HCS v1 APIs as the v2 APIs were not fully developed enough on these builds to be usable.
This abstraction is done in HCSShim. (Referring specifically to runtime)
Note the LCOW graphdriver still uses HCS v1 APIs regardless.
Note also that this does not migrate docker to use containerd snapshotters
rather than graphdrivers. This needs to be done in conjunction with Linux also
doing the same switch.
2019-01-08 17:30:52 -05:00
}
}
memoryLimit := uint64 ( c . HostConfig . Memory )
if memoryLimit != 0 {
if s . Windows . Resources == nil {
s . Windows . Resources = & specs . WindowsResources { }
}
s . Windows . Resources . Memory = & specs . WindowsMemoryResources {
2018-06-16 03:01:35 -04:00
Limit : & memoryLimit ,
Windows: Experimental: Allow containerd for runtime
Signed-off-by: John Howard <jhoward@microsoft.com>
This is the first step in refactoring moby (dockerd) to use containerd on Windows.
Similar to the current model in Linux, this adds the option to enable it for runtime.
It does not switch the graphdriver to containerd snapshotters.
- Refactors libcontainerd to a series of subpackages so that either a
"local" containerd (1) or a "remote" (2) containerd can be loaded as opposed
to conditional compile as "local" for Windows and "remote" for Linux.
- Updates libcontainerd such that Windows has an option to allow the use of a
"remote" containerd. Here, it communicates over a named pipe using GRPC.
This is currently guarded behind the experimental flag, an environment variable,
and the providing of a pipename to connect to containerd.
- Infrastructure pieces such as under pkg/system to have helper functions for
determining whether containerd is being used.
(1) "local" containerd is what the daemon on Windows has used since inception.
It's not really containerd at all - it's simply local invocation of HCS APIs
directly in-process from the daemon through the Microsoft/hcsshim library.
(2) "remote" containerd is what docker on Linux uses for it's runtime. It means
that there is a separate containerd service running, and docker communicates over
GRPC to it.
To try this out, you will need to start with something like the following:
Window 1:
containerd --log-level debug
Window 2:
$env:DOCKER_WINDOWS_CONTAINERD=1
dockerd --experimental -D --containerd \\.\pipe\containerd-containerd
You will need the following binary from github.com/containerd/containerd in your path:
- containerd.exe
You will need the following binaries from github.com/Microsoft/hcsshim in your path:
- runhcs.exe
- containerd-shim-runhcs-v1.exe
For LCOW, it will require and initrd.img and kernel in `C:\Program Files\Linux Containers`.
This is no different to the current requirements. However, you may need updated binaries,
particularly initrd.img built from Microsoft/opengcs as (at the time of writing), Linuxkit
binaries are somewhat out of date.
Note that containerd and hcsshim for HCS v2 APIs do not yet support all the required
functionality needed for docker. This will come in time - this is a baby (although large)
step to migrating Docker on Windows to containerd.
Note that the HCS v2 APIs are only called on RS5+ builds. RS1..RS4 will still use
HCS v1 APIs as the v2 APIs were not fully developed enough on these builds to be usable.
This abstraction is done in HCSShim. (Referring specifically to runtime)
Note the LCOW graphdriver still uses HCS v1 APIs regardless.
Note also that this does not migrate docker to use containerd snapshotters
rather than graphdrivers. This needs to be done in conjunction with Linux also
doing the same switch.
2019-01-08 17:30:52 -05:00
}
2018-06-16 03:01:35 -04:00
}
Windows: Experimental: Allow containerd for runtime
Signed-off-by: John Howard <jhoward@microsoft.com>
This is the first step in refactoring moby (dockerd) to use containerd on Windows.
Similar to the current model in Linux, this adds the option to enable it for runtime.
It does not switch the graphdriver to containerd snapshotters.
- Refactors libcontainerd to a series of subpackages so that either a
"local" containerd (1) or a "remote" (2) containerd can be loaded as opposed
to conditional compile as "local" for Windows and "remote" for Linux.
- Updates libcontainerd such that Windows has an option to allow the use of a
"remote" containerd. Here, it communicates over a named pipe using GRPC.
This is currently guarded behind the experimental flag, an environment variable,
and the providing of a pipename to connect to containerd.
- Infrastructure pieces such as under pkg/system to have helper functions for
determining whether containerd is being used.
(1) "local" containerd is what the daemon on Windows has used since inception.
It's not really containerd at all - it's simply local invocation of HCS APIs
directly in-process from the daemon through the Microsoft/hcsshim library.
(2) "remote" containerd is what docker on Linux uses for it's runtime. It means
that there is a separate containerd service running, and docker communicates over
GRPC to it.
To try this out, you will need to start with something like the following:
Window 1:
containerd --log-level debug
Window 2:
$env:DOCKER_WINDOWS_CONTAINERD=1
dockerd --experimental -D --containerd \\.\pipe\containerd-containerd
You will need the following binary from github.com/containerd/containerd in your path:
- containerd.exe
You will need the following binaries from github.com/Microsoft/hcsshim in your path:
- runhcs.exe
- containerd-shim-runhcs-v1.exe
For LCOW, it will require and initrd.img and kernel in `C:\Program Files\Linux Containers`.
This is no different to the current requirements. However, you may need updated binaries,
particularly initrd.img built from Microsoft/opengcs as (at the time of writing), Linuxkit
binaries are somewhat out of date.
Note that containerd and hcsshim for HCS v2 APIs do not yet support all the required
functionality needed for docker. This will come in time - this is a baby (although large)
step to migrating Docker on Windows to containerd.
Note that the HCS v2 APIs are only called on RS5+ builds. RS1..RS4 will still use
HCS v1 APIs as the v2 APIs were not fully developed enough on these builds to be usable.
This abstraction is done in HCSShim. (Referring specifically to runtime)
Note the LCOW graphdriver still uses HCS v1 APIs regardless.
Note also that this does not migrate docker to use containerd snapshotters
rather than graphdrivers. This needs to be done in conjunction with Linux also
doing the same switch.
2019-01-08 17:30:52 -05:00
if c . HostConfig . IOMaximumBandwidth != 0 || c . HostConfig . IOMaximumIOps != 0 {
if s . Windows . Resources == nil {
s . Windows . Resources = & specs . WindowsResources { }
}
s . Windows . Resources . Storage = & specs . WindowsStorageResources {
Bps : & c . HostConfig . IOMaximumBandwidth ,
Iops : & c . HostConfig . IOMaximumIOps ,
}
2016-03-18 14:53:27 -04:00
}
}
2016-09-08 00:23:56 -04:00
// mergeUlimits merge the Ulimits from HostConfig with daemon defaults, and update HostConfig
// It will do nothing on non-Linux platform
func ( daemon * Daemon ) mergeUlimits ( c * containertypes . HostConfig ) {
return
}
2017-08-01 13:00:38 -04:00
2019-03-06 20:44:36 -05:00
// registryKey is an interface wrapper around `registry.Key`,
// listing only the methods we care about here.
// It's mainly useful to easily allow mocking the registry in tests.
type registryKey interface {
GetStringValue ( name string ) ( val string , valtype uint32 , err error )
Close ( ) error
}
var registryOpenKeyFunc = func ( baseKey registry . Key , path string , access uint32 ) ( registryKey , error ) {
return registry . OpenKey ( baseKey , path , access )
2017-08-01 13:00:38 -04:00
}
// readCredentialSpecRegistry is a helper function to read a credential spec from
// the registry. If not found, we return an empty string and warn in the log.
// This allows for staging on machines which do not have the necessary components.
func readCredentialSpecRegistry ( id , name string ) ( string , error ) {
2019-03-06 20:44:36 -05:00
key , err := registryOpenKeyFunc ( registry . LOCAL_MACHINE , credentialSpecRegistryLocation , registry . QUERY_VALUE )
if err != nil {
return "" , errors . Wrapf ( err , "failed handling spec %q for container %s - registry key %s could not be opened" , name , id , credentialSpecRegistryLocation )
}
defer key . Close ( )
value , _ , err := key . GetStringValue ( name )
if err != nil {
2017-08-01 13:00:38 -04:00
if err == registry . ErrNotExist {
2019-03-06 20:44:36 -05:00
return "" , fmt . Errorf ( "registry credential spec %q for container %s was not found" , name , id )
2017-08-01 13:00:38 -04:00
}
2019-03-06 20:44:36 -05:00
return "" , errors . Wrapf ( err , "error reading credential spec %q from registry for container %s" , name , id )
2017-08-01 13:00:38 -04:00
}
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return value , nil
2017-08-01 13:00:38 -04:00
}
// readCredentialSpecFile is a helper function to read a credential spec from
// a file. If not found, we return an empty string and warn in the log.
// This allows for staging on machines which do not have the necessary components.
func readCredentialSpecFile ( id , root , location string ) ( string , error ) {
if filepath . IsAbs ( location ) {
return "" , fmt . Errorf ( "invalid credential spec - file:// path cannot be absolute" )
}
base := filepath . Join ( root , credentialSpecFileLocation )
full := filepath . Join ( base , location )
if ! strings . HasPrefix ( full , base ) {
return "" , fmt . Errorf ( "invalid credential spec - file:// path must be under %s" , base )
}
2021-08-24 06:10:50 -04:00
bcontents , err := os . ReadFile ( full )
2017-08-01 13:00:38 -04:00
if err != nil {
2019-03-06 20:44:36 -05:00
return "" , errors . Wrapf ( err , "credential spec for container %s could not be read from file %q" , id , full )
2017-08-01 13:00:38 -04:00
}
return string ( bcontents [ : ] ) , nil
}
2022-03-12 05:05:55 -05:00
2022-03-12 09:32:18 -05:00
func setupWindowsDevices ( devices [ ] containertypes . DeviceMapping ) ( specDevices [ ] specs . WindowsDevice , err error ) {
2022-03-12 05:05:55 -05:00
if len ( devices ) == 0 {
return
}
for _ , deviceMapping := range devices {
2022-03-13 01:01:28 -05:00
devicePath := deviceMapping . PathOnHost
if strings . HasPrefix ( devicePath , "class/" ) {
devicePath = strings . Replace ( devicePath , "class/" , "class://" , 1 )
}
srcParts := strings . SplitN ( devicePath , "://" , 2 )
2022-03-12 05:05:55 -05:00
if len ( srcParts ) != 2 {
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return nil , errors . Errorf ( "invalid device assignment path: '%s', must be 'class/ID' or 'IDType://ID'" , deviceMapping . PathOnHost )
2022-03-12 05:05:55 -05:00
}
2022-03-13 01:01:28 -05:00
if srcParts [ 0 ] == "" {
return nil , errors . Errorf ( "invalid device assignment path: '%s', IDType cannot be empty" , deviceMapping . PathOnHost )
2022-03-12 05:05:55 -05:00
}
wd := specs . WindowsDevice {
ID : srcParts [ 1 ] ,
IDType : srcParts [ 0 ] ,
}
specDevices = append ( specDevices , wd )
}
return
}