ClickHouse/programs/copier/ZooKeeperStaff.h

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#pragma once
/** Allows to compare two incremental counters of type UInt32 in presence of possible overflow.
* We assume that we compare values that are not too far away.
* For example, when we increment 0xFFFFFFFF, we get 0. So, 0xFFFFFFFF is less than 0.
*/
class WrappingUInt32
{
public:
UInt32 value;
explicit WrappingUInt32(UInt32 _value)
: value(_value)
{}
bool operator<(const WrappingUInt32 & other) const
{
return value != other.value && *this <= other;
}
bool operator<=(const WrappingUInt32 & other) const
{
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const UInt32 HALF = static_cast<UInt32>(1) << 31;
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return (value <= other.value && other.value - value < HALF)
|| (value > other.value && value - other.value > HALF);
}
bool operator==(const WrappingUInt32 & other) const
{
return value == other.value;
}
};
/** Conforming Zxid definition.
* cf. https://github.com/apache/zookeeper/blob/631d1b284f0edb1c4f6b0fb221bf2428aec71aaa/zookeeper-docs/src/main/resources/markdown/zookeeperInternals.md#guarantees-properties-and-definitions
*
* But it is better to read this: https://zookeeper.apache.org/doc/r3.1.2/zookeeperProgrammers.html
*
* Actually here is the definition of Zxid.
* Every change to the ZooKeeper state receives a stamp in the form of a zxid (ZooKeeper Transaction Id).
* This exposes the total ordering of all changes to ZooKeeper. Each change will have a unique zxid
* and if zxid1 is smaller than zxid2 then zxid1 happened before zxid2.
*/
class Zxid
{
public:
WrappingUInt32 epoch;
WrappingUInt32 counter;
explicit Zxid(UInt64 _zxid)
: epoch(_zxid >> 32)
, counter(_zxid)
{}
bool operator<=(const Zxid & other) const
{
return (epoch < other.epoch)
|| (epoch == other.epoch && counter <= other.counter);
}
bool operator==(const Zxid & other) const
{
return epoch == other.epoch && counter == other.counter;
}
};
/* When multiple ClusterCopiers discover that the target partition is not empty,
* they will attempt to clean up this partition before proceeding to copying.
*
* Instead of purging is_dirty, the history of cleaning work is preserved and partition hygiene is established
* based on a happens-before relation between the events.
* This relation is encoded by LogicalClock based on the mzxid of the is_dirty ZNode and is_dirty/cleaned.
* The fact of the partition hygiene is encoded by CleanStateClock.
*
* For you to know what mzxid means:
*
* ZooKeeper Stat Structure:
* The Stat structure for each znode in ZooKeeper is made up of the following fields:
*
* -- czxid
* The zxid of the change that caused this znode to be created.
*
* -- mzxid
* The zxid of the change that last modified this znode.
*
* -- ctime
* The time in milliseconds from epoch when this znode was created.
*
* -- mtime
* The time in milliseconds from epoch when this znode was last modified.
*
* -- version
* The number of changes to the data of this znode.
*
* -- cversion
* The number of changes to the children of this znode.
*
* -- aversion
* The number of changes to the ACL of this znode.
*
* -- ephemeralOwner
* The session id of the owner of this znode if the znode is an ephemeral node.
* If it is not an ephemeral node, it will be zero.
*
* -- dataLength
* The length of the data field of this znode.
*
* -- numChildren
* The number of children of this znode.
* */
class LogicalClock
{
public:
std::optional<Zxid> zxid;
LogicalClock() = default;
explicit LogicalClock(UInt64 _zxid)
: zxid(_zxid)
{}
bool hasHappened() const
{
return bool(zxid);
}
/// happens-before relation with a reasonable time bound
bool happensBefore(const LogicalClock & other) const
{
return !zxid
|| (other.zxid && *zxid <= *other.zxid);
}
bool operator<=(const LogicalClock & other) const
{
return happensBefore(other);
}
/// strict equality check
bool operator==(const LogicalClock & other) const
{
return zxid == other.zxid;
}
};
class CleanStateClock
{
public:
LogicalClock discovery_zxid;
std::optional<UInt32> discovery_version;
LogicalClock clean_state_zxid;
std::optional<UInt32> clean_state_version;
std::shared_ptr<std::atomic_bool> stale;
bool is_clean() const
{
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return !is_stale()
&& (!discovery_zxid.hasHappened() || (clean_state_zxid.hasHappened() && discovery_zxid <= clean_state_zxid));
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}
bool is_stale() const
{
return stale->load();
}
CleanStateClock(
const zkutil::ZooKeeperPtr & zookeeper,
const String & discovery_path,
const String & clean_state_path)
: stale(std::make_shared<std::atomic_bool>(false))
{
Coordination::Stat stat{};
String _some_data;
auto watch_callback =
[stale = stale] (const Coordination::WatchResponse & rsp)
{
auto logger = &Poco::Logger::get("ClusterCopier");
if (rsp.error == Coordination::Error::ZOK)
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{
switch (rsp.type)
{
case Coordination::CREATED:
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LOG_DEBUG(logger, "CleanStateClock change: CREATED, at {}", rsp.path);
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stale->store(true);
break;
case Coordination::CHANGED:
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LOG_DEBUG(logger, "CleanStateClock change: CHANGED, at {}", rsp.path);
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stale->store(true);
}
}
};
if (zookeeper->tryGetWatch(discovery_path, _some_data, &stat, watch_callback))
{
discovery_zxid = LogicalClock(stat.mzxid);
discovery_version = stat.version;
}
if (zookeeper->tryGetWatch(clean_state_path, _some_data, &stat, watch_callback))
{
clean_state_zxid = LogicalClock(stat.mzxid);
clean_state_version = stat.version;
}
}
bool operator==(const CleanStateClock & other) const
{
return !is_stale()
&& !other.is_stale()
&& discovery_zxid == other.discovery_zxid
&& discovery_version == other.discovery_version
&& clean_state_zxid == other.clean_state_zxid
&& clean_state_version == other.clean_state_version;
}
bool operator!=(const CleanStateClock & other) const
{
return !(*this == other);
}
};