migration/migration-stats.h - third_party/qemu - Git at Google

 /*
  * Migration stats
  *
  * Copyright (c) 2012-2023 Red Hat Inc
  *
  * Authors:
  *  Juan Quintela <quintela@redhat.com>
  *
  * This work is licensed under the terms of the GNU GPL, version 2 or later.
  * See the COPYING file in the top-level directory.
  */

 #ifndef QEMU_MIGRATION_STATS_H
 #define QEMU_MIGRATION_STATS_H

 #include "qemu/stats64.h"

 /*
  * Amount of time to allocate to each "chunk" of bandwidth-throttled
  * data.
  */
 #define BUFFER_DELAY     100

 /*
  * If rate_limit_max is 0, there is special code to remove the rate
  * limit.
  */
 #define RATE_LIMIT_DISABLED 0

 /*
  * These are the ram migration statistic counters.  It is loosely
  * based on MigrationStats.  We change to Stat64 any counter that
  * needs to be updated using atomic ops (can be accessed by more than
  * one thread).
  */
 typedef struct {
     /*
      * Number of bytes that were dirty last time that we synced with
      * the guest memory.  We use that to calculate the downtime.  As
      * the remaining dirty amounts to what we know that is still dirty
      * since last iteration, not counting what the guest has dirtied
      * since we synchronized bitmaps.
      */
     Stat64 dirty_bytes_last_sync;
     /*
      * Number of pages dirtied per second.
      */
     Stat64 dirty_pages_rate;
     /*
      * Number of times we have synchronized guest bitmaps.
      */
     Stat64 dirty_sync_count;
     /*
      * Number of times zero copy failed to send any page using zero
      * copy.
      */
     Stat64 dirty_sync_missed_zero_copy;
     /*
      * Number of bytes sent at migration completion stage while the
      * guest is stopped.
      */
     Stat64 downtime_bytes;
     /*
      * Number of bytes sent through multifd channels.
      */
     Stat64 multifd_bytes;
     /*
      * Number of pages transferred that were not full of zeros.
      */
     Stat64 normal_pages;
     /*
      * Number of bytes sent during postcopy.
      */
     Stat64 postcopy_bytes;
     /*
      * Number of postcopy page faults that we have handled during
      * postcopy stage.
      */
     Stat64 postcopy_requests;
     /*
      * Number of bytes sent during precopy stage.
      */
     Stat64 precopy_bytes;
     /*
      * Number of bytes transferred with QEMUFile.
      */
     Stat64 qemu_file_transferred;
     /*
      * Amount of transferred data at the start of current cycle.
      */
     Stat64 rate_limit_start;
     /*
      * Maximum amount of data we can send in a cycle.
      */
     Stat64 rate_limit_max;
     /*
      * Number of bytes sent through RDMA.
      */
     Stat64 rdma_bytes;
     /*
      * Number of pages transferred that were full of zeros.
      */
     Stat64 zero_pages;
 } MigrationAtomicStats;

 extern MigrationAtomicStats mig_stats;

 /**
  * migration_rate_get: Get the maximum amount that can be transferred.
  *
  * Returns the maximum number of bytes that can be transferred in a cycle.
  */
 uint64_t migration_rate_get(void);

 /**
  * migration_rate_reset: Reset the rate limit counter.
  *
  * This is called when we know we start a new transfer cycle.
  */
 void migration_rate_reset(void);

 /**
  * migration_rate_set: Set the maximum amount that can be transferred.
  *
  * Sets the maximum amount of bytes that can be transferred in one cycle.
  *
  * @new_rate: new maximum amount
  */
 void migration_rate_set(uint64_t new_rate);

 /**
  * migration_transferred_bytes: Return number of bytes transferred
  *
  * Returns how many bytes have we transferred since the beginning of
  * the migration.  It accounts for bytes sent through any migration
  * channel, multifd, qemu_file, rdma, ....
  */
 uint64_t migration_transferred_bytes(void);
 #endif
	/*
	* Migration stats
	*
	* Copyright (c) 2012-2023 Red Hat Inc
	*
	* Authors:
	* Juan Quintela <quintela@redhat.com>
	*
	* This work is licensed under the terms of the GNU GPL, version 2 or later.
	* See the COPYING file in the top-level directory.
	*/

	#ifndef QEMU_MIGRATION_STATS_H
	#define QEMU_MIGRATION_STATS_H

	#include "qemu/stats64.h"

	/*
	* Amount of time to allocate to each "chunk" of bandwidth-throttled
	* data.
	*/
	#define BUFFER_DELAY 100

	/*
	* If rate_limit_max is 0, there is special code to remove the rate
	* limit.
	*/
	#define RATE_LIMIT_DISABLED 0

	/*
	* These are the ram migration statistic counters. It is loosely
	* based on MigrationStats. We change to Stat64 any counter that
	* needs to be updated using atomic ops (can be accessed by more than
	* one thread).
	*/
	typedef struct {
	/*
	* Number of bytes that were dirty last time that we synced with
	* the guest memory. We use that to calculate the downtime. As
	* the remaining dirty amounts to what we know that is still dirty
	* since last iteration, not counting what the guest has dirtied
	* since we synchronized bitmaps.
	*/
	Stat64 dirty_bytes_last_sync;
	/*
	* Number of pages dirtied per second.
	*/
	Stat64 dirty_pages_rate;
	/*
	* Number of times we have synchronized guest bitmaps.
	*/
	Stat64 dirty_sync_count;
	/*
	* Number of times zero copy failed to send any page using zero
	* copy.
	*/
	Stat64 dirty_sync_missed_zero_copy;
	/*
	* Number of bytes sent at migration completion stage while the
	* guest is stopped.
	*/
	Stat64 downtime_bytes;
	/*
	* Number of bytes sent through multifd channels.
	*/
	Stat64 multifd_bytes;
	/*
	* Number of pages transferred that were not full of zeros.
	*/
	Stat64 normal_pages;
	/*
	* Number of bytes sent during postcopy.
	*/
	Stat64 postcopy_bytes;
	/*
	* Number of postcopy page faults that we have handled during
	* postcopy stage.
	*/
	Stat64 postcopy_requests;
	/*
	* Number of bytes sent during precopy stage.
	*/
	Stat64 precopy_bytes;
	/*
	* Number of bytes transferred with QEMUFile.
	*/
	Stat64 qemu_file_transferred;
	/*
	* Amount of transferred data at the start of current cycle.
	*/
	Stat64 rate_limit_start;
	/*
	* Maximum amount of data we can send in a cycle.
	*/
	Stat64 rate_limit_max;
	/*
	* Number of bytes sent through RDMA.
	*/
	Stat64 rdma_bytes;
	/*
	* Number of pages transferred that were full of zeros.
	*/
	Stat64 zero_pages;
	} MigrationAtomicStats;

	extern MigrationAtomicStats mig_stats;

	/**
	* migration_rate_get: Get the maximum amount that can be transferred.
	*
	* Returns the maximum number of bytes that can be transferred in a cycle.
	*/
	uint64_t migration_rate_get(void);

	/**
	* migration_rate_reset: Reset the rate limit counter.
	*
	* This is called when we know we start a new transfer cycle.
	*/
	void migration_rate_reset(void);

	/**
	* migration_rate_set: Set the maximum amount that can be transferred.
	*
	* Sets the maximum amount of bytes that can be transferred in one cycle.
	*
	* @new_rate: new maximum amount
	*/
	void migration_rate_set(uint64_t new_rate);

	/**
	* migration_transferred_bytes: Return number of bytes transferred
	*
	* Returns how many bytes have we transferred since the beginning of
	* the migration. It accounts for bytes sent through any migration
	* channel, multifd, qemu_file, rdma, ....
	*/
	uint64_t migration_transferred_bytes(void);
	#endif