X-Git-Url: https://gerrit.opnfv.org/gerrit/gitweb?p=kvmfornfv.git;a=blobdiff_plain;f=qemu%2Fdocs%2Fmigration.txt;h=90209ab294fa93438918531fa8dfe604426de1cc;hp=f6df4beb2aaf7012415355568b4931ca0372507d;hb=437fd90c0250dee670290f9b714253671a990160;hpb=5bbd6fe9b8bab2a93e548c5a53b032d1939eec05

diff --git a/qemu/docs/migration.txt b/qemu/docs/migration.txt
index f6df4beb2..90209ab29 100644
--- a/qemu/docs/migration.txt
+++ b/qemu/docs/migration.txt
@@ -291,3 +291,194 @@ save/send this state when we are in the middle of a pio operation
 (that is what ide_drive_pio_state_needed() checks).  If DRQ_STAT is
 not enabled, the values on that fields are garbage and don't need to
 be sent.
+
+= Return path =
+
+In most migration scenarios there is only a single data path that runs
+from the source VM to the destination, typically along a single fd (although
+possibly with another fd or similar for some fast way of throwing pages across).
+
+However, some uses need two way communication; in particular the Postcopy
+destination needs to be able to request pages on demand from the source.
+
+For these scenarios there is a 'return path' from the destination to the source;
+qemu_file_get_return_path(QEMUFile* fwdpath) gives the QEMUFile* for the return
+path.
+
+  Source side
+     Forward path - written by migration thread
+     Return path  - opened by main thread, read by return-path thread
+
+  Destination side
+     Forward path - read by main thread
+     Return path  - opened by main thread, written by main thread AND postcopy
+                    thread (protected by rp_mutex)
+
+= Postcopy =
+'Postcopy' migration is a way to deal with migrations that refuse to converge
+(or take too long to converge) its plus side is that there is an upper bound on
+the amount of migration traffic and time it takes, the down side is that during
+the postcopy phase, a failure of *either* side or the network connection causes
+the guest to be lost.
+
+In postcopy the destination CPUs are started before all the memory has been
+transferred, and accesses to pages that are yet to be transferred cause
+a fault that's translated by QEMU into a request to the source QEMU.
+
+Postcopy can be combined with precopy (i.e. normal migration) so that if precopy
+doesn't finish in a given time the switch is made to postcopy.
+
+=== Enabling postcopy ===
+
+To enable postcopy, issue this command on the monitor prior to the
+start of migration:
+
+migrate_set_capability postcopy-ram on
+
+The normal commands are then used to start a migration, which is still
+started in precopy mode.  Issuing:
+
+migrate_start_postcopy
+
+will now cause the transition from precopy to postcopy.
+It can be issued immediately after migration is started or any
+time later on.  Issuing it after the end of a migration is harmless.
+
+Note: During the postcopy phase, the bandwidth limits set using
+migrate_set_speed is ignored (to avoid delaying requested pages that
+the destination is waiting for).
+
+=== Postcopy device transfer ===
+
+Loading of device data may cause the device emulation to access guest RAM
+that may trigger faults that have to be resolved by the source, as such
+the migration stream has to be able to respond with page data *during* the
+device load, and hence the device data has to be read from the stream completely
+before the device load begins to free the stream up.  This is achieved by
+'packaging' the device data into a blob that's read in one go.
+
+Source behaviour
+
+Until postcopy is entered the migration stream is identical to normal
+precopy, except for the addition of a 'postcopy advise' command at
+the beginning, to tell the destination that postcopy might happen.
+When postcopy starts the source sends the page discard data and then
+forms the 'package' containing:
+
+   Command: 'postcopy listen'
+   The device state
+      A series of sections, identical to the precopy streams device state stream
+      containing everything except postcopiable devices (i.e. RAM)
+   Command: 'postcopy run'
+
+The 'package' is sent as the data part of a Command: 'CMD_PACKAGED', and the
+contents are formatted in the same way as the main migration stream.
+
+During postcopy the source scans the list of dirty pages and sends them
+to the destination without being requested (in much the same way as precopy),
+however when a page request is received from the destination, the dirty page
+scanning restarts from the requested location.  This causes requested pages
+to be sent quickly, and also causes pages directly after the requested page
+to be sent quickly in the hope that those pages are likely to be used
+by the destination soon.
+
+Destination behaviour
+
+Initially the destination looks the same as precopy, with a single thread
+reading the migration stream; the 'postcopy advise' and 'discard' commands
+are processed to change the way RAM is managed, but don't affect the stream
+processing.
+
+------------------------------------------------------------------------------
+                        1      2   3     4 5                      6   7
+main -----DISCARD-CMD_PACKAGED ( LISTEN  DEVICE     DEVICE DEVICE RUN )
+thread                             |       |
+                                   |     (page request)
+                                   |        \___
+                                   v            \
+listen thread:                     --- page -- page -- page -- page -- page --
+
+                                   a   b        c
+------------------------------------------------------------------------------
+
+On receipt of CMD_PACKAGED (1)
+   All the data associated with the package - the ( ... ) section in the
+diagram - is read into memory (into a QEMUSizedBuffer), and the main thread
+recurses into qemu_loadvm_state_main to process the contents of the package (2)
+which contains commands (3,6) and devices (4...)
+
+On receipt of 'postcopy listen' - 3 -(i.e. the 1st command in the package)
+a new thread (a) is started that takes over servicing the migration stream,
+while the main thread carries on loading the package.   It loads normal
+background page data (b) but if during a device load a fault happens (5) the
+returned page (c) is loaded by the listen thread allowing the main threads
+device load to carry on.
+
+The last thing in the CMD_PACKAGED is a 'RUN' command (6) letting the destination
+CPUs start running.
+At the end of the CMD_PACKAGED (7) the main thread returns to normal running behaviour
+and is no longer used by migration, while the listen thread carries
+on servicing page data until the end of migration.
+
+=== Postcopy states ===
+
+Postcopy moves through a series of states (see postcopy_state) from
+ADVISE->DISCARD->LISTEN->RUNNING->END
+
+  Advise:  Set at the start of migration if postcopy is enabled, even
+           if it hasn't had the start command; here the destination
+           checks that its OS has the support needed for postcopy, and performs
+           setup to ensure the RAM mappings are suitable for later postcopy.
+           The destination will fail early in migration at this point if the
+           required OS support is not present.
+           (Triggered by reception of POSTCOPY_ADVISE command)
+
+  Discard: Entered on receipt of the first 'discard' command; prior to
+           the first Discard being performed, hugepages are switched off
+           (using madvise) to ensure that no new huge pages are created
+           during the postcopy phase, and to cause any huge pages that
+           have discards on them to be broken.
+
+  Listen:  The first command in the package, POSTCOPY_LISTEN, switches
+           the destination state to Listen, and starts a new thread
+           (the 'listen thread') which takes over the job of receiving
+           pages off the migration stream, while the main thread carries
+           on processing the blob.  With this thread able to process page
+           reception, the destination now 'sensitises' the RAM to detect
+           any access to missing pages (on Linux using the 'userfault'
+           system).
+
+  Running: POSTCOPY_RUN causes the destination to synchronise all
+           state and start the CPUs and IO devices running.  The main
+           thread now finishes processing the migration package and
+           now carries on as it would for normal precopy migration
+           (although it can't do the cleanup it would do as it
+           finishes a normal migration).
+
+  End:     The listen thread can now quit, and perform the cleanup of migration
+           state, the migration is now complete.
+
+=== Source side page maps ===
+
+The source side keeps two bitmaps during postcopy; 'the migration bitmap'
+and 'unsent map'.  The 'migration bitmap' is basically the same as in
+the precopy case, and holds a bit to indicate that page is 'dirty' -
+i.e. needs sending.  During the precopy phase this is updated as the CPU
+dirties pages, however during postcopy the CPUs are stopped and nothing
+should dirty anything any more.
+
+The 'unsent map' is used for the transition to postcopy. It is a bitmap that
+has a bit cleared whenever a page is sent to the destination, however during
+the transition to postcopy mode it is combined with the migration bitmap
+to form a set of pages that:
+   a) Have been sent but then redirtied (which must be discarded)
+   b) Have not yet been sent - which also must be discarded to cause any
+      transparent huge pages built during precopy to be broken.
+
+Note that the contents of the unsentmap are sacrificed during the calculation
+of the discard set and thus aren't valid once in postcopy.  The dirtymap
+is still valid and is used to ensure that no page is sent more than once.  Any
+request for a page that has already been sent is ignored.  Duplicate requests
+such as this can happen as a page is sent at about the same time the
+destination accesses it.
+