This articles describes some intricacies of handling shared memory mappings, i.e. mappings that are shared between a few processes.
Checkpoint
Every process has one or more mmaped files. Some mappings (for example, ones of shared libraries) are shared between a few processes. During the checkpointing, CRIU need to figure out all the mappings that are shared in order to dump them as such.
It does so by performing fstatat()
for each entry in /proc/$PID/map_files/
,
noting the device and inode fields of the structure returned by fstatat(). This information
is collected and sorted. Now, if any few processes have a mapping with same device and inode,
this mapping is a shared one and should be dumped as such.
It's important to note that this works for both -- anonymous and file shared mappings, as for the former ones kernel creates an invisible through the VFS tree tmpfs-based file, and it's possible to works with it just like with any other file (except that it cannot be opened via any path but /proc/pid/map_files/address).
Restore
Upon restore, CRIU already knows which mappings are shared, and the trick is to restore them as such. For that, two different approaches are used, depending on the availability.
The common part is, between the processes sharing a mapping, the one with the lowest PID
among the group performs the actual mmap()
, while all the others wait
for the mapping to appear and, once it's available, use it.
memfd
Linux kernel v3.17 adds a memfd_create() syscall. CRIU restore checks if it is available from the running kernel; it yes, it is used.
FIXME how
HOW: The memfd in question is created in the task with lowest PID among those having this shmem segment mapped, then criu waits for the others to get this file by opening the creator's /proc/pid/fd/ link. Afterwards all the files just mmap() this descriptor into their address space.
/proc/$PID/map_files/
This method is used if memfd is not available. The limitation is, /proc/$PID/map_files/ is not available for users inside user namespaces (due to security concerns), so it's not possible to use it if there are any user namespaces in the dump.
FIXME how
HOW: The same technique as with memfd is used, with two exceptions. First is that creator calls mmap() not memfd_create() and creates the shared memory at once. Then it waits for the others to open its /proc/pid/map_files/ link. After opening "the others" mmap() one to their address space just as if they would have done it with memfd descriptor.
Changes tracking
For iterative migration it's very useful to track changes in memory. Until 2.5 changes were tracked for anonymous memory only, but now criu does this for shared memory as well. To do it criu scans all the shmem segment owners' pagemap (as it does for anon memory) and then AND-s the collected soft-dirty bits.
The changes tracking made developers implement Memory images deduplication for shmem segments as well.