Embedding DockerVersion in plugin config when the plugin is created,
enables users to do a docker plugin inspect and know which version
the plugin was built on. This is helpful in cases where users are
running a new plugin on older docker releases and confused at
unexpected behavior.
By embedding DockerVersion in the config, we claim that there's no
guarantee that if the plugin config's DockerVersion is greater that
the version of the docker engine the plugin is executed against, the
plugin will work as expected.
For example, lets say:
- in 17.03, a plugin was released as johndoe/foo:v1
- in 17.05, the plugin uses the new ipchost config setting and author
publishes johndoe/foo:v2
In this case, johndoe/foo:v2 was built on 17.05 using ipchost, but is
running on docker-engine version 17.03. Since 17.05 > 17.03, there's
no guarantee that the plugin will work as expected. Ofcourse, if the
plugin did not use newly added config settings (ipchost in this case)
in 17.05, it would work fine in 17.03.
Signed-off-by: Anusha Ragunathan <anusha.ragunathan@docker.com>
Tested using global-net-plugin-ipc which sets PidHost in config.json.
Plugins might need access to host pid namespace. Add support for that.
Tested using aragunathan/global-net-plugin-ipc which sets "pidhost" in
config.json. Observed using `readlink /proc/self/ns/pid` that plugin and
host have the same ns.
Signed-off-by: Anusha Ragunathan <anusha.ragunathan@docker.com>
Plugins might need access to host ipc namespace. A good usecase is
a volume plugin running iscsi multipath commands that need access to
host kernel locks.
Tested with a custom plugin (aragunathan/global-net-plugin-full) that's
built with `"ipchost" : true` in config.json. Observed using
`readlink /proc/self/ns/ipc` that plugin and host have the same ns.
Signed-off-by: Anusha Ragunathan <anusha.ragunathan@docker.com>
This allows a plugin to be upgraded without requiring to
uninstall/reinstall a plugin.
Since plugin resources (e.g. volumes) are tied to a plugin ID, this is
important to ensure resources aren't lost.
The plugin must be disabled while upgrading (errors out if enabled).
This does not add any convenience flags for automatically
disabling/re-enabling the plugin during before/after upgrade.
Since an upgrade may change requested permissions, the user is required
to accept permissions just like `docker plugin install`.
Signed-off-by: Brian Goff <cpuguy83@gmail.com>
Move plugins to shared distribution stack with images.
Create immutable plugin config that matches schema2 requirements.
Ensure data being pushed is same as pulled/created.
Store distribution artifacts in a blobstore.
Run init layer setup for every plugin start.
Fix breakouts from unsafe file accesses.
Add support for `docker plugin install --alias`
Uses normalized references for default names to avoid collisions when using default hosts/tags.
Some refactoring of the plugin manager to support the change, like removing the singleton manager and adding manager config struct.
Signed-off-by: Tonis Tiigi <tonistiigi@gmail.com>
Signed-off-by: Derek McGowan <derek@mcgstyle.net>
Legacy plugins expect host-relative paths (such as for Volume.Mount).
However, a containerized plugin cannot respond with a host-relative
path. Therefore, this commit modifies new volume plugins' paths in Mount
and List to prepend the container's rootfs path.
This introduces a new PropagatedMount field in the Plugin Config.
When it is set for volume plugins, RootfsPropagation is set to rshared
and the path specified by PropagatedMount is bind-mounted with rshared
prior to launching the container. This is so that the daemon code can
access the paths returned by the plugin from the host mount namespace.
Signed-off-by: Tibor Vass <tibor@docker.com>
In the plugin manifest, Capabilities has been moved to
Linux.Capabilities to avoid confusion with Interface.Types[i].Capability
A DeviceCreation boolean has also been added to the manifest. This could
be changed in the future to be specific to a major number.
Signed-off-by: Tibor Vass <tibor@docker.com>
As part of making graphdrivers support pluginv2, a PluginGetter
interface was necessary for cleaner separation and avoiding import
cycles.
This commit creates a PluginGetter interface and makes pluginStore
implement it. Then the pluginStore object is created in the daemon
(rather than by the plugin manager) and passed to plugin init as
well as to the different subsystems (eg. graphdrivers, volumedrivers).
A side effect of this change was that some code was moved out of
experimental. This is good, since plugin support will be stable soon.
Signed-off-by: Anusha Ragunathan <anusha@docker.com>
