runc/libcontainer/criu_opts_linux.go

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package libcontainer
// cgroup restoring strategy provided by criu
type cgMode uint32
const (
CRIU_CG_MODE_SOFT cgMode = 3 + iota // restore cgroup properties if only dir created by criu
CRIU_CG_MODE_FULL // always restore all cgroups and their properties
CRIU_CG_MODE_STRICT // restore all, requiring them to not present in the system
CRIU_CG_MODE_DEFAULT // the same as CRIU_CG_MODE_SOFT
)
type CriuPageServerInfo struct {
Address string // IP address of CRIU page server
Port int32 // port number of CRIU page server
}
type VethPairName struct {
ContainerInterfaceName string
HostInterfaceName string
}
type CriuOpts struct {
ImagesDirectory string // directory for storing image files
WorkDirectory string // directory to cd and write logs/pidfiles/stats to
ParentImage string // direcotry for storing parent image files in pre-dump and dump
LeaveRunning bool // leave container in running state after checkpoint
TcpEstablished bool // checkpoint/restore established TCP connections
ExternalUnixConnections bool // allow external unix connections
ShellJob bool // allow to dump and restore shell jobs
FileLocks bool // handle file locks, for safety
PreDump bool // call criu predump to perform iterative checkpoint
PageServer CriuPageServerInfo // allow to dump to criu page server
VethPairs []VethPairName // pass the veth to criu when restore
ManageCgroupsMode cgMode // dump or restore cgroup mode
EmptyNs uint32 // don't c/r properties for namespace from this mask
AutoDedup bool // auto deduplication for incremental dumps
checkpoint: support lazy migration With the help of userfaultfd CRIU supports lazy migration. Lazy migration means that memory pages are only transferred from the migration source to the migration destination on page fault. This enables to reduce the downtime during process or container migration to a minimum as the memory does not need to be transferred during migration. Lazy migration currently depends on userfaultfd being available on the current Linux kernel and if the used CRIU version supports lazy migration. Both dependencies can be checked by querying CRIU via RPC if the lazy migration feature is available. Using feature checking instead of version comparison enables runC to use CRIU features from the criu-dev branch. This way the user can decide if lazy migration should be available by choosing the right kernel and CRIU branch. To use lazy migration the CRIU process during dump needs to dump everything besides the memory pages and then it opens a network port waiting for remote page fault requests: # runc checkpoint httpd --lazy-pages --page-server 0.0.0.0:27 \ --status-fd /tmp/postcopy-pipe In this example CRIU will hang/wait once it has opened the network port and wait for network connection. As runC waits for CRIU to finish it will also hang until the lazy migration has finished. To know when the restore on the destination side can start the '--status-fd' parameter is used: #️ runc checkpoint --help | grep status --status-fd value criu writes \0 to this FD once lazy-pages is ready The parameter '--status-fd' is directly from CRIU and this way the process outside of runC which controls the migration knows exactly when to transfer the checkpoint (without memory pages) to the destination and that the restore can be started. On the destination side it is necessary to start CRIU in 'lazy-pages' mode like this: # criu lazy-pages --page-server --address 192.168.122.3 --port 27 \ -D checkpoint and tell runC to do a lazy restore: # runc restore -d --image-path checkpoint --work-path checkpoint \ --lazy-pages httpd If both processes on the restore side have the same working directory 'criu lazy-pages' creates a unix domain socket where it waits for requests from the actual restore. runC starts CRIU restore in lazy restore mode and talks to 'criu lazy-pages' that it wants to restore memory pages on demand. CRIU continues to restore the process and once the process is running and accesses the first non-existing memory page the 'criu lazy-pages' server will request the page from the source system. Thus all pages from the source system will be transferred to the destination system. Once all pages have been transferred runC on the source system will end and the container will have finished migration. This can also be combined with CRIU's pre-copy support. The combination of pre-copy and post-copy (lazy migration) provides the possibility to migrate containers with minimal downtimes. Some additional background about post-copy migration can be found in these articles: https://lisas.de/~adrian/?p=1253 https://lisas.de/~adrian/?p=1183 Signed-off-by: Adrian Reber <areber@redhat.com>
2017-07-24 23:43:14 +08:00
LazyPages bool // restore memory pages lazily using userfaultfd
StatusFd string // fd for feedback when lazy server is ready
}