8b2395970a
Migration bandwidth is a very important value to live migration. It's because it's one of the major factors that we'll make decision on when to switchover to destination in a precopy process. This value is currently estimated by QEMU during the whole live migration process by monitoring how fast we were sending the data. This can be the most accurate bandwidth if in the ideal world, where we're always feeding unlimited data to the migration channel, and then it'll be limited to the bandwidth that is available. However in reality it may be very different, e.g., over a 10Gbps network we can see query-migrate showing migration bandwidth of only a few tens of MB/s just because there are plenty of other things the migration thread might be doing. For example, the migration thread can be busy scanning zero pages, or it can be fetching dirty bitmap from other external dirty sources (like vhost or KVM). It means we may not be pushing data as much as possible to migration channel, so the bandwidth estimated from "how many data we sent in the channel" can be dramatically inaccurate sometimes. With that, the decision to switchover will be affected, by assuming that we may not be able to switchover at all with such a low bandwidth, but in reality we can. The migration may not even converge at all with the downtime specified, with that wrong estimation of bandwidth, keeping iterations forever with a low estimation of bandwidth. The issue is QEMU itself may not be able to avoid those uncertainties on measuing the real "available migration bandwidth". At least not something I can think of so far. One way to fix this is when the user is fully aware of the available bandwidth, then we can allow the user to help providing an accurate value. For example, if the user has a dedicated channel of 10Gbps for migration for this specific VM, the user can specify this bandwidth so QEMU can always do the calculation based on this fact, trusting the user as long as specified. It may not be the exact bandwidth when switching over (in which case qemu will push migration data as fast as possible), but much better than QEMU trying to wildly guess, especially when very wrong. A new parameter "avail-switchover-bandwidth" is introduced just for this. So when the user specified this parameter, instead of trusting the estimated value from QEMU itself (based on the QEMUFile send speed), it trusts the user more by using this value to decide when to switchover, assuming that we'll have such bandwidth available then. Note that specifying this value will not throttle the bandwidth for switchover yet, so QEMU will always use the full bandwidth possible for sending switchover data, assuming that should always be the most important way to use the network at that time. This can resolve issues like "unconvergence migration" which is caused by hilarious low "migration bandwidth" detected for whatever reason. Reported-by: Zhiyi Guo <zhguo@redhat.com> Reviewed-by: Joao Martins <joao.m.martins@oracle.com> Reviewed-by: Juan Quintela <quintela@redhat.com> Signed-off-by: Peter Xu <peterx@redhat.com> Signed-off-by: Juan Quintela <quintela@redhat.com> Message-ID: <20231010221922.40638-1-peterx@redhat.com>
546 lines
19 KiB
C
546 lines
19 KiB
C
/*
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* QEMU live migration
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*
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* Copyright IBM, Corp. 2008
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*
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* Authors:
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* Anthony Liguori <aliguori@us.ibm.com>
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*
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* This work is licensed under the terms of the GNU GPL, version 2. See
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* the COPYING file in the top-level directory.
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*
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*/
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#ifndef QEMU_MIGRATION_H
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#define QEMU_MIGRATION_H
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#include "exec/cpu-common.h"
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#include "hw/qdev-core.h"
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#include "qapi/qapi-types-migration.h"
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#include "qapi/qmp/json-writer.h"
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#include "qemu/thread.h"
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#include "qemu/coroutine_int.h"
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#include "io/channel.h"
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#include "io/channel-buffer.h"
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#include "net/announce.h"
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#include "qom/object.h"
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#include "postcopy-ram.h"
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#include "sysemu/runstate.h"
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struct PostcopyBlocktimeContext;
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#define MIGRATION_RESUME_ACK_VALUE (1)
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/*
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* 1<<6=64 pages -> 256K chunk when page size is 4K. This gives us
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* the benefit that all the chunks are 64 pages aligned then the
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* bitmaps are always aligned to LONG.
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*/
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#define CLEAR_BITMAP_SHIFT_MIN 6
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/*
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* 1<<18=256K pages -> 1G chunk when page size is 4K. This is the
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* default value to use if no one specified.
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*/
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#define CLEAR_BITMAP_SHIFT_DEFAULT 18
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/*
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* 1<<31=2G pages -> 8T chunk when page size is 4K. This should be
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* big enough and make sure we won't overflow easily.
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*/
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#define CLEAR_BITMAP_SHIFT_MAX 31
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/* This is an abstraction of a "temp huge page" for postcopy's purpose */
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typedef struct {
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/*
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* This points to a temporary huge page as a buffer for UFFDIO_COPY. It's
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* mmap()ed and needs to be freed when cleanup.
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*/
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void *tmp_huge_page;
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/*
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* This points to the host page we're going to install for this temp page.
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* It tells us after we've received the whole page, where we should put it.
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*/
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void *host_addr;
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/* Number of small pages copied (in size of TARGET_PAGE_SIZE) */
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unsigned int target_pages;
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/* Whether this page contains all zeros */
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bool all_zero;
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} PostcopyTmpPage;
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typedef enum {
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PREEMPT_THREAD_NONE = 0,
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PREEMPT_THREAD_CREATED,
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PREEMPT_THREAD_QUIT,
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} PreemptThreadStatus;
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/* State for the incoming migration */
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struct MigrationIncomingState {
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QEMUFile *from_src_file;
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/* Previously received RAM's RAMBlock pointer */
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RAMBlock *last_recv_block[RAM_CHANNEL_MAX];
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/* A hook to allow cleanup at the end of incoming migration */
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void *transport_data;
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void (*transport_cleanup)(void *data);
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/*
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* Used to sync thread creations. Note that we can't create threads in
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* parallel with this sem.
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*/
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QemuSemaphore thread_sync_sem;
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/*
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* Free at the start of the main state load, set as the main thread finishes
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* loading state.
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*/
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QemuEvent main_thread_load_event;
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/* For network announces */
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AnnounceTimer announce_timer;
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size_t largest_page_size;
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bool have_fault_thread;
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QemuThread fault_thread;
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/* Set this when we want the fault thread to quit */
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bool fault_thread_quit;
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bool have_listen_thread;
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QemuThread listen_thread;
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/* For the kernel to send us notifications */
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int userfault_fd;
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/* To notify the fault_thread to wake, e.g., when need to quit */
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int userfault_event_fd;
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QEMUFile *to_src_file;
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QemuMutex rp_mutex; /* We send replies from multiple threads */
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/* RAMBlock of last request sent to source */
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RAMBlock *last_rb;
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/*
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* Number of postcopy channels including the default precopy channel, so
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* vanilla postcopy will only contain one channel which contain both
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* precopy and postcopy streams.
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*
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* This is calculated when the src requests to enable postcopy but before
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* it starts. Its value can depend on e.g. whether postcopy preemption is
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* enabled.
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*/
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unsigned int postcopy_channels;
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/* QEMUFile for postcopy only; it'll be handled by a separate thread */
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QEMUFile *postcopy_qemufile_dst;
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/*
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* When postcopy_qemufile_dst is properly setup, this sem is posted.
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* One can wait on this semaphore to wait until the preempt channel is
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* properly setup.
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*/
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QemuSemaphore postcopy_qemufile_dst_done;
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/* Postcopy priority thread is used to receive postcopy requested pages */
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QemuThread postcopy_prio_thread;
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/*
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* Always set by the main vm load thread only, but can be read by the
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* postcopy preempt thread. "volatile" makes sure all reads will be
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* up-to-date across cores.
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*/
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volatile PreemptThreadStatus preempt_thread_status;
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/*
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* Used to sync between the ram load main thread and the fast ram load
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* thread. It protects postcopy_qemufile_dst, which is the postcopy
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* fast channel.
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*
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* The ram fast load thread will take it mostly for the whole lifecycle
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* because it needs to continuously read data from the channel, and
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* it'll only release this mutex if postcopy is interrupted, so that
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* the ram load main thread will take this mutex over and properly
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* release the broken channel.
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*/
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QemuMutex postcopy_prio_thread_mutex;
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/*
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* An array of temp host huge pages to be used, one for each postcopy
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* channel.
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*/
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PostcopyTmpPage *postcopy_tmp_pages;
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/* This is shared for all postcopy channels */
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void *postcopy_tmp_zero_page;
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/* PostCopyFD's for external userfaultfds & handlers of shared memory */
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GArray *postcopy_remote_fds;
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QEMUBH *bh;
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int state;
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/*
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* The incoming migration coroutine, non-NULL during qemu_loadvm_state().
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* Used to wake the migration incoming coroutine from rdma code. How much is
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* it safe - it's a question.
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*/
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Coroutine *loadvm_co;
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/* The coroutine we should enter (back) after failover */
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Coroutine *colo_incoming_co;
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QemuSemaphore colo_incoming_sem;
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/*
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* PostcopyBlocktimeContext to keep information for postcopy
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* live migration, to calculate vCPU block time
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* */
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struct PostcopyBlocktimeContext *blocktime_ctx;
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/* notify PAUSED postcopy incoming migrations to try to continue */
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QemuSemaphore postcopy_pause_sem_dst;
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QemuSemaphore postcopy_pause_sem_fault;
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/*
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* This semaphore is used to allow the ram fast load thread (only when
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* postcopy preempt is enabled) fall into sleep when there's network
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* interruption detected. When the recovery is done, the main load
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* thread will kick the fast ram load thread using this semaphore.
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*/
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QemuSemaphore postcopy_pause_sem_fast_load;
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/* List of listening socket addresses */
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SocketAddressList *socket_address_list;
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/* A tree of pages that we requested to the source VM */
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GTree *page_requested;
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/*
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* For postcopy only, count the number of requested page faults that
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* still haven't been resolved.
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*/
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int page_requested_count;
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/*
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* The mutex helps to maintain the requested pages that we sent to the
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* source, IOW, to guarantee coherent between the page_requests tree and
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* the per-ramblock receivedmap. Note! This does not guarantee consistency
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* of the real page copy procedures (using UFFDIO_[ZERO]COPY). E.g., even
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* if one bit in receivedmap is cleared, UFFDIO_COPY could have happened
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* for that page already. This is intended so that the mutex won't
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* serialize and blocked by slow operations like UFFDIO_* ioctls. However
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* this should be enough to make sure the page_requested tree always
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* contains valid information.
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*/
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QemuMutex page_request_mutex;
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/*
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* If postcopy preempt is enabled, there is a chance that the main
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* thread finished loading its data before the preempt channel has
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* finished loading the urgent pages. If that happens, the two threads
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* will use this condvar to synchronize, so the main thread will always
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* wait until all pages received.
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*/
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QemuCond page_request_cond;
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/*
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* Number of devices that have yet to approve switchover. When this reaches
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* zero an ACK that it's OK to do switchover is sent to the source. No lock
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* is needed as this field is updated serially.
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*/
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unsigned int switchover_ack_pending_num;
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};
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MigrationIncomingState *migration_incoming_get_current(void);
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void migration_incoming_state_destroy(void);
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void migration_incoming_transport_cleanup(MigrationIncomingState *mis);
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/*
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* Functions to work with blocktime context
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*/
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void fill_destination_postcopy_migration_info(MigrationInfo *info);
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#define TYPE_MIGRATION "migration"
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typedef struct MigrationClass MigrationClass;
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DECLARE_OBJ_CHECKERS(MigrationState, MigrationClass,
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MIGRATION_OBJ, TYPE_MIGRATION)
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struct MigrationClass {
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/*< private >*/
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DeviceClass parent_class;
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};
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struct MigrationState {
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/*< private >*/
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DeviceState parent_obj;
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/*< public >*/
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QemuThread thread;
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QEMUBH *vm_start_bh;
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QEMUBH *cleanup_bh;
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/* Protected by qemu_file_lock */
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QEMUFile *to_dst_file;
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/* Postcopy specific transfer channel */
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QEMUFile *postcopy_qemufile_src;
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/*
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* It is posted when the preempt channel is established. Note: this is
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* used for both the start or recover of a postcopy migration. We'll
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* post to this sem every time a new preempt channel is created in the
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* main thread, and we keep post() and wait() in pair.
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*/
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QemuSemaphore postcopy_qemufile_src_sem;
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QIOChannelBuffer *bioc;
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/*
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* Protects to_dst_file/from_dst_file pointers. We need to make sure we
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* won't yield or hang during the critical section, since this lock will be
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* used in OOB command handler.
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*/
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QemuMutex qemu_file_lock;
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/*
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* Used to allow urgent requests to override rate limiting.
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*/
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QemuSemaphore rate_limit_sem;
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/* pages already send at the beginning of current iteration */
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uint64_t iteration_initial_pages;
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/* pages transferred per second */
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double pages_per_second;
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/* bytes already send at the beginning of current iteration */
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uint64_t iteration_initial_bytes;
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/* time at the start of current iteration */
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int64_t iteration_start_time;
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/*
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* The final stage happens when the remaining data is smaller than
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* this threshold; it's calculated from the requested downtime and
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* measured bandwidth, or avail-switchover-bandwidth if specified.
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*/
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int64_t threshold_size;
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/* params from 'migrate-set-parameters' */
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MigrationParameters parameters;
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int state;
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/* State related to return path */
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struct {
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/* Protected by qemu_file_lock */
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QEMUFile *from_dst_file;
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QemuThread rp_thread;
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bool error;
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/*
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* We can also check non-zero of rp_thread, but there's no "official"
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* way to do this, so this bool makes it slightly more elegant.
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* Checking from_dst_file for this is racy because from_dst_file will
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* be cleared in the rp_thread!
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*/
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bool rp_thread_created;
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/*
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* Used to synchronize between migration main thread and return
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* path thread. The migration thread can wait() on this sem, while
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* other threads (e.g., return path thread) can kick it using a
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* post().
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*/
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QemuSemaphore rp_sem;
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/*
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* We post to this when we got one PONG from dest. So far it's an
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* easy way to know the main channel has successfully established
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* on dest QEMU.
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*/
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QemuSemaphore rp_pong_acks;
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} rp_state;
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double mbps;
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/* Timestamp when recent migration starts (ms) */
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int64_t start_time;
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/* Total time used by latest migration (ms) */
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int64_t total_time;
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/* Timestamp when VM is down (ms) to migrate the last stuff */
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int64_t downtime_start;
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int64_t downtime;
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int64_t expected_downtime;
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bool capabilities[MIGRATION_CAPABILITY__MAX];
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int64_t setup_time;
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/*
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* State before stopping the vm by vm_stop_force_state().
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* If migration is interrupted by any reason, we need to continue
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* running the guest on source if it was running or restore its stopped
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* state.
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*/
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RunState vm_old_state;
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/* Flag set once the migration has been asked to enter postcopy */
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bool start_postcopy;
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/* Flag set after postcopy has sent the device state */
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bool postcopy_after_devices;
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/* Flag set once the migration thread is running (and needs joining) */
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bool migration_thread_running;
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/* Flag set once the migration thread called bdrv_inactivate_all */
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bool block_inactive;
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/* Migration is waiting for guest to unplug device */
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QemuSemaphore wait_unplug_sem;
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/* Migration is paused due to pause-before-switchover */
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QemuSemaphore pause_sem;
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/* The semaphore is used to notify COLO thread that failover is finished */
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QemuSemaphore colo_exit_sem;
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/* The event is used to notify COLO thread to do checkpoint */
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QemuEvent colo_checkpoint_event;
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int64_t colo_checkpoint_time;
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QEMUTimer *colo_delay_timer;
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/* The first error that has occurred.
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We used the mutex to be able to return the 1st error message */
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Error *error;
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/* mutex to protect errp */
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QemuMutex error_mutex;
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/* Do we have to clean up -b/-i from old migrate parameters */
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/* This feature is deprecated and will be removed */
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bool must_remove_block_options;
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/*
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* Global switch on whether we need to store the global state
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* during migration.
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*/
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bool store_global_state;
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/* Whether we send QEMU_VM_CONFIGURATION during migration */
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bool send_configuration;
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/* Whether we send section footer during migration */
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bool send_section_footer;
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/* Needed by postcopy-pause state */
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QemuSemaphore postcopy_pause_sem;
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/*
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* Whether we abort the migration if decompression errors are
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* detected at the destination. It is left at false for qemu
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* older than 3.0, since only newer qemu sends streams that
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* do not trigger spurious decompression errors.
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*/
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bool decompress_error_check;
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/*
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* This variable only affects behavior when postcopy preempt mode is
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* enabled.
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*
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* When set:
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*
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* - postcopy preempt src QEMU instance will generate an EOS message at
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* the end of migration to shut the preempt channel on dest side.
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*
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* - postcopy preempt channel will be created at the setup phase on src
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QEMU.
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*
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* When clear:
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*
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* - postcopy preempt src QEMU instance will _not_ generate an EOS
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* message at the end of migration, the dest qemu will shutdown the
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* channel itself.
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*
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* - postcopy preempt channel will be created at the switching phase
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* from precopy -> postcopy (to avoid race condition of misordered
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* creation of channels).
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*
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* NOTE: See message-id <ZBoShWArKDPpX/D7@work-vm> on qemu-devel
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* mailing list for more information on the possible race. Everyone
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* should probably just keep this value untouched after set by the
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* machine type (or the default).
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*/
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bool preempt_pre_7_2;
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/*
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* flush every channel after each section sent.
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*
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* This assures that we can't mix pages from one iteration through
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* ram pages with pages for the following iteration. We really
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* only need to do this flush after we have go through all the
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* dirty pages. For historical reasons, we do that after each
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* section. This is suboptimal (we flush too many times).
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* Default value is false. (since 8.1)
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*/
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bool multifd_flush_after_each_section;
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/*
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* This decides the size of guest memory chunk that will be used
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* to track dirty bitmap clearing. The size of memory chunk will
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* be GUEST_PAGE_SIZE << N. Say, N=0 means we will clear dirty
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* bitmap for each page to send (1<<0=1); N=10 means we will clear
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* dirty bitmap only once for 1<<10=1K continuous guest pages
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* (which is in 4M chunk).
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*/
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uint8_t clear_bitmap_shift;
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/*
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* This save hostname when out-going migration starts
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*/
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char *hostname;
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/* QEMU_VM_VMDESCRIPTION content filled for all non-iterable devices. */
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JSONWriter *vmdesc;
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/*
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* Indicates whether an ACK from the destination that it's OK to do
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* switchover has been received.
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*/
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bool switchover_acked;
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};
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void migrate_set_state(int *state, int old_state, int new_state);
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void migration_fd_process_incoming(QEMUFile *f, Error **errp);
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void migration_ioc_process_incoming(QIOChannel *ioc, Error **errp);
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void migration_incoming_process(void);
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|
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bool migration_has_all_channels(void);
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|
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uint64_t migrate_max_downtime(void);
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void migrate_set_error(MigrationState *s, const Error *error);
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bool migrate_has_error(MigrationState *s);
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|
|
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void migrate_fd_connect(MigrationState *s, Error *error_in);
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|
|
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bool migration_is_setup_or_active(int state);
|
|
bool migration_is_running(int state);
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|
|
|
int migrate_init(MigrationState *s, Error **errp);
|
|
bool migration_is_blocked(Error **errp);
|
|
/* True if outgoing migration has entered postcopy phase */
|
|
bool migration_in_postcopy(void);
|
|
MigrationState *migrate_get_current(void);
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|
|
|
uint64_t ram_get_total_transferred_pages(void);
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|
|
|
/* Sending on the return path - generic and then for each message type */
|
|
void migrate_send_rp_shut(MigrationIncomingState *mis,
|
|
uint32_t value);
|
|
void migrate_send_rp_pong(MigrationIncomingState *mis,
|
|
uint32_t value);
|
|
int migrate_send_rp_req_pages(MigrationIncomingState *mis, RAMBlock *rb,
|
|
ram_addr_t start, uint64_t haddr);
|
|
int migrate_send_rp_message_req_pages(MigrationIncomingState *mis,
|
|
RAMBlock *rb, ram_addr_t start);
|
|
void migrate_send_rp_recv_bitmap(MigrationIncomingState *mis,
|
|
char *block_name);
|
|
void migrate_send_rp_resume_ack(MigrationIncomingState *mis, uint32_t value);
|
|
int migrate_send_rp_switchover_ack(MigrationIncomingState *mis);
|
|
|
|
void dirty_bitmap_mig_before_vm_start(void);
|
|
void dirty_bitmap_mig_cancel_outgoing(void);
|
|
void dirty_bitmap_mig_cancel_incoming(void);
|
|
bool check_dirty_bitmap_mig_alias_map(const BitmapMigrationNodeAliasList *bbm,
|
|
Error **errp);
|
|
|
|
void migrate_add_address(SocketAddress *address);
|
|
|
|
int foreach_not_ignored_block(RAMBlockIterFunc func, void *opaque);
|
|
|
|
#define qemu_ram_foreach_block \
|
|
#warning "Use foreach_not_ignored_block in migration code"
|
|
|
|
void migration_make_urgent_request(void);
|
|
void migration_consume_urgent_request(void);
|
|
bool migration_rate_limit(void);
|
|
void migration_cancel(const Error *error);
|
|
|
|
void migration_populate_vfio_info(MigrationInfo *info);
|
|
void migration_reset_vfio_bytes_transferred(void);
|
|
void postcopy_temp_page_reset(PostcopyTmpPage *tmp_page);
|
|
|
|
/* Migration thread waiting for return path thread. */
|
|
void migration_rp_wait(MigrationState *s);
|
|
/*
|
|
* Kick the migration thread waiting for return path messages. NOTE: the
|
|
* name can be slightly confusing (when read as "kick the rp thread"), just
|
|
* to remember the target is always the migration thread.
|
|
*/
|
|
void migration_rp_kick(MigrationState *s);
|
|
|
|
#endif
|