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224 lines
9.0 KiB
224 lines
9.0 KiB
2015/08/06 - server connection sharing
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Improvements on the connection sharing strategies
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4 strategies are currently supported :
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- never
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- safe
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- aggressive
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- always
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The "aggressive" and "always" strategies take into account the fact that the
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connection has already been reused at least once or not. The principle is that
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second requests can be used to safely "validate" connection reuse on newly
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added connections, and that such validated connections may be used even by
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first requests from other sessions. A validated connection is a connection
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which has already been reused, hence proving that it definitely supports
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multiple requests. Such connections are easy to verify : after processing the
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response, if the txn already had the TX_NOT_FIRST flag, then it was not the
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first request over that connection, and it is validated as safe for reuse.
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Validated connections are put into a distinct list : server->safe_conns.
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Incoming requests with TX_NOT_FIRST first pick from the regular idle_conns
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list so that any new idle connection is validated as soon as possible.
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Incoming requests without TX_NOT_FIRST only pick from the safe_conns list for
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strategy "aggressive", guaranteeing that the server properly supports connection
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reuse, or first from the safe_conns list, then from the idle_conns list for
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strategy "always".
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Connections are always stacked into the list (LIFO) so that there are higher
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changes to convert recent connections and to use them. This will first optimize
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the likeliness that the connection works, and will avoid TCP metrics from being
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lost due to an idle state, and/or the congestion window to drop and the
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connection going to slow start mode.
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Handling connections in pools
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-----------------------------
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A per-server "pool-max" setting should be added to permit disposing unused idle
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connections not attached anymore to a session for use by future requests. The
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principle will be that attached connections are queued from the front of the
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list while the detached connections will be queued from the tail of the list.
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This way, most reused connections will be fairly recent and detached connections
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will most often be ignored. The number of detached idle connections in the lists
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should be accounted for (pool_used) and limited (pool_max).
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After some time, a part of these detached idle connections should be killed.
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For this, the list is walked from tail to head and connections without an owner
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may be evicted. It may be useful to have a per-server pool_min setting
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indicating how many idle connections should remain in the pool, ready for use
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by new requests. Conversely, a pool_low metric should be kept between eviction
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runs, to indicate the lowest amount of detached connections that were found in
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the pool.
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For eviction, the principle of a half-life is appealing. The principle is
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simple : over a period of time, half of the connections between pool_min and
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pool_low should be gone. Since pool_low indicates how many connections were
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remaining unused over a period, it makes sense to kill some of them.
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In order to avoid killing thousands of connections in one run, the purge
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interval should be split into smaller batches. Let's call N the ratio of the
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half-life interval and the effective interval.
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The algorithm consists in walking over them from the end every interval and
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killing ((pool_low - pool_min) + 2 * N - 1) / (2 * N). It ensures that half
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of the unused connections are killed over the half-life period, in N batches
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of population/2N entries at most.
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Unsafe connections should be evicted first. There should be quite few of them
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since most of them are probed and become safe. Since detached connections are
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quickly recycled and attached to a new session, there should not be too many
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detached connections in the pool, and those present there may be killed really
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quickly.
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Another interesting point of pools is that when a pool-max is not null, then it
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makes sense to automatically enable pretend-keep-alive on non-private connections
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going to the server in order to be able to feed them back into the pool. With
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the "aggressive" or "always" strategies, it can allow clients making a single
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request over their connection to share persistent connections to the servers.
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2013/10/17 - server connection management and reuse
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Current state
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-------------
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At the moment, a connection entity is needed to carry any address
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information. This means in the following situations, we need a server
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connection :
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- server is elected and the server's destination address is set
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- transparent mode is elected and the destination address is set from
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the incoming connection
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- proxy mode is enabled, and the destination's address is set during
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the parsing of the HTTP request
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- connection to the server fails and must be retried on the same
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server using the same parameters, especially the destination
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address (SN_ADDR_SET not removed)
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On the accepting side, we have further requirements :
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- allocate a clean connection without a stream interface
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- incrementally set the accepted connection's parameters without
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clearing it, and keep track of what is set (eg: getsockname).
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- initialize a stream interface in established mode
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- attach the accepted connection to a stream interface
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This means several things :
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- the connection has to be allocated on the fly the first time it is
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needed to store the source or destination address ;
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- the connection has to be attached to the stream interface at this
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moment ;
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- it must be possible to incrementally set some settings on the
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connection's addresses regardless of the connection's current state
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- the connection must not be released across connection retries ;
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- it must be possible to clear a connection's parameters for a
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redispatch without having to detach/attach the connection ;
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- we need to allocate a connection without an existing stream interface
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So on the accept() side, it looks like this :
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fd = accept();
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conn = new_conn();
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get_some_addr_info(&conn->addr);
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...
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si = new_si();
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si_attach_conn(si, conn);
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si_set_state(si, SI_ST_EST);
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...
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get_more_addr_info(&conn->addr);
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On the connect() side, it looks like this :
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si = new_si();
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while (!properly_connected) {
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if (!(conn = si->end)) {
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conn = new_conn();
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conn_clear(conn);
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si_attach_conn(si, conn);
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}
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else {
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if (connected) {
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f = conn->flags & CO_FL_XPRT_TRACKED;
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conn->flags &= ~CO_FL_XPRT_TRACKED;
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conn_close(conn);
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conn->flags |= f;
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}
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if (!correct_dest)
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conn_clear(conn);
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}
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set_some_addr_info(&conn->addr);
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si_set_state(si, SI_ST_CON);
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...
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set_more_addr_info(&conn->addr);
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conn->connect();
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if (must_retry) {
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close_conn(conn);
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}
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}
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Note: we need to be able to set the control and transport protocols.
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On outgoing connections, this is set once we know the destination address.
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On incoming connections, this is set the earliest possible (once we know
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the source address).
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The problem analysed below was solved on 2013/10/22
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| ==> the real requirement is to know whether a connection is still valid or not
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| before deciding to close it. CO_FL_CONNECTED could be enough, though it
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| will not indicate connections that are still waiting for a connect to occur.
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| This combined with CO_FL_WAIT_L4_CONN and CO_FL_WAIT_L6_CONN should be OK.
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| Alternatively, conn->xprt could be used for this, but needs some careful checks
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| (it's used by conn_full_close at least).
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| Right now, conn_xprt_close() checks conn->xprt and sets it to NULL.
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| conn_full_close() also checks conn->xprt and sets it to NULL, except
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| that the check on ctrl is performed within xprt. So conn_xprt_close()
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| followed by conn_full_close() will not close the file descriptor.
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| Note that conn_xprt_close() is never called, maybe we should kill it ?
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| Note: at the moment, it's problematic to leave conn->xprt to NULL before doing
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| xprt_init() because we might end up with a pending file descriptor. Or at
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| least with some transport not de-initialized. We might thus need
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| conn_xprt_close() when conn_xprt_init() fails.
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| The fd should be conditioned by ->ctrl only, and the transport layer by ->xprt.
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| - conn_prepare_ctrl(conn, ctrl)
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| - conn_prepare_xprt(conn, xprt)
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| - conn_prepare_data(conn, data)
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| Note: conn_xprt_init() needs conn->xprt so it's not a problem to set it early.
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| One problem might be with conn_xprt_close() not being able to know if xprt_init()
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| was called or not. That's where it might make sense to only set ->xprt during init.
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| Except that it does not fly with outgoing connections (xprt_init is called after
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| connect()).
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| => currently conn_xprt_close() is only used by ssl_sock.c and decides whether
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| to do something based on ->xprt_ctx which is set by ->init() from xprt_init().
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| So there is nothing to worry about. We just need to restore conn_xprt_close()
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| and rely on ->ctrl to close the fd instead of ->xprt.
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| => we have the same issue with conn_ctrl_close() : when is the fd supposed to be
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| valid ? On outgoing connections, the control is set much before the fd...
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