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2075ca8a93
This is the third round of cleanups in various docs
277 lines
9.3 KiB
Plaintext
277 lines
9.3 KiB
Plaintext
2012/07/05 - Connection layering and sequencing
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An FD has a state :
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- CLOSED
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- READY
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- ERROR (?)
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- LISTEN (?)
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A connection has a state :
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- CLOSED
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- ACCEPTED
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- CONNECTING
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- ESTABLISHED
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- ERROR
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A stream interface has a state :
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- INI, REQ, QUE, TAR, ASS, CON, CER, EST, DIS, CLO
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Note that CON and CER might be replaced by EST if the connection state is used
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instead. CON might even be more suited than EST to indicate that a connection
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is known.
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si_shutw() must do :
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data_shutw()
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if (shutr) {
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data_close()
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ctrl_shutw()
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ctrl_close()
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}
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si_shutr() must do :
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data_shutr()
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if (shutw) {
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data_close()
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ctrl_shutr()
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ctrl_close()
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}
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Each of these steps may fail, in which case the step must be retained and the
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operations postponed in an asynchronous task.
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The first asynchronous data_shut() might already fail so it is mandatory to
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save the other side's status with the connection in order to let the async task
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know whether the 3 next steps must be performed.
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The connection (or perhaps the FD) needs to know :
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- the desired close operations : DSHR, DSHW, CSHR, CSHW
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- the completed close operations : DSHR, DSHW, CSHR, CSHW
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On the accept() side, we probably need to know :
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- if a header is expected (eg: accept-proxy)
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- if this header is still being waited for
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=> maybe both info might be combined into one bit
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- if a data-layer accept() is expected
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- if a data-layer accept() has been started
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- if a data-layer accept() has been performed
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=> possibly 2 bits, to indicate the need to free()
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On the connect() side, we need to know :
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- the desire to send a header (eg: send-proxy)
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- if this header has been sent
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=> maybe both info might be combined
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- if a data-layer connect() is expected
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- if a data-layer connect() has been started
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- if a data-layer connect() has been completed
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=> possibly 2 bits, to indicate the need to free()
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On the response side, we also need to know :
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- the desire to send a header (eg: health check response for monitor-net)
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- if this header was sent
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=> might be the same as sending a header over a new connection
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Note: monitor-net has precedence over proxy proto and data layers. Same for
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health mode.
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For multi-step operations, use 2 bits :
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00 = operation not desired, not performed
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10 = operation desired, not started
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11 = operation desired, started but not completed
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01 = operation desired, started and completed
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=> X != 00 ==> operation desired
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X & 01 ==> operation at least started
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X & 10 ==> operation not completed
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Note: no way to store status information for error reporting.
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Note2: it would be nice if "tcp-request connection" rules could work at the
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connection level, just after headers ! This means support for tracking stick
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tables, possibly not too much complicated.
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Proposal for incoming connection sequence :
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- accept()
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- if monitor-net matches or if mode health => try to send response
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- if accept-proxy, wait for proxy request
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- if tcp-request connection, process tcp rules and possibly keep the
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pointer to stick-table
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- if SSL is enabled, switch to SSL handshake
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- then switch to DATA state and instantiate a session
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We just need a map of handshake handlers on the connection. They all manage the
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FD status themselves and set the callbacks themselves. If their work succeeds,
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they remove themselves from the list. If it fails, they remain subscribed and
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enable the required polling until they are woken up again or the timeout strikes.
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Identified handshake handlers for incoming connections :
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- HH_HEALTH (tries to send OK and dies)
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- HH_MONITOR_IN (matches src IP and adds/removes HH_SEND_OK/HH_SEND_HTTP_OK)
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- HH_SEND_OK (tries to send "OK" and dies)
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- HH_SEND_HTTP_OK (tries to send "HTTP/1.0 200 OK" and dies)
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- HH_ACCEPT_PROXY (waits for PROXY line and parses it)
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- HH_TCP_RULES (processes TCP rules)
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- HH_SSL_HS (starts SSL handshake)
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- HH_ACCEPT_SESSION (instantiates a session)
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Identified handshake handlers for outgoing connections :
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- HH_SEND_PROXY (tries to build and send the PROXY line)
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- HH_SSL_HS (starts SSL handshake)
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For the pollers, we could check that handshake handlers are not 0 and decide to
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call a generic connection handshake handler instead of usual callbacks. Problem
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is that pollers don't know connections, they know fds. So entities which manage
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handlers should update change the FD callbacks accordingly.
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With a bit of care, we could have :
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- HH_SEND_LAST_CHUNK (sends the chunk pointed to by a pointer and dies)
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=> merges HEALTH, SEND_OK and SEND_HTTP_OK
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It sounds like the ctrl vs data state for the connection are per-direction
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(eg: support an async ctrl shutw while still reading data).
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Also support shutr/shutw status at L4/L7.
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In practice, what we really need is :
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shutdown(conn) =
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conn.data.shut()
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conn.ctrl.shut()
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conn.fd.shut()
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close(conn) =
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conn.data.close()
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conn.ctrl.close()
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conn.fd.close()
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With SSL over Remote TCP (RTCP + RSSL) to reach the server, we would have :
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HTTP -> RTCP+RSSL connection <-> RTCP+RRAW connection -> TCP+SSL connection
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The connection has to be closed at 3 places after a successful response :
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- DATA (RSSL over RTCP)
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- CTRL (RTCP to close connection to server)
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- SOCK (FD to close connection to second process)
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Externally, the connection is seen with very few flags :
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- SHR
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- SHW
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- ERR
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We don't need a CLOSED flag as a connection must always be detached when it's closed.
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The internal status doesn't need to be exposed :
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- FD allocated (Y/N)
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- CTRL initialized (Y/N)
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- CTRL connected (Y/N)
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- CTRL handlers done (Y/N)
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- CTRL failed (Y/N)
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- CTRL shutr (Y/N)
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- CTRL shutw (Y/N)
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- DATA initialized (Y/N)
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- DATA connected (Y/N)
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- DATA handlers done (Y/N)
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- DATA failed (Y/N)
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- DATA shutr (Y/N)
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- DATA shutw (Y/N)
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(note that having flags for operations needing to be completed might be easier)
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--------------
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Maybe we need to be able to call conn->fdset() and conn->fdclr() but it sounds
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very unlikely since the only functions manipulating this are in the code of
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the data/ctrl handlers.
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FDSET/FDCLR cannot be directly controlled by the stream interface since it also
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depends on the DATA layer (WANT_READ/WANT_WRITE).
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But FDSET/FDCLR is probably controlled by who owns the connection (eg: DATA).
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Example: an SSL conn relies on an FD. The buffer is full, and wants the conn to
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stop reading. It must not stop the FD itself. It is the read function which
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should notice that it has nothing to do with a read wake-up, which needs to
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disable reading.
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Conversely, when calling conn->chk_rcv(), the reader might get a WANT_READ or
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even WANT_WRITE and adjust the FDs accordingly.
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------------------------
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OK, the problem is simple : we don't manipulate the FD at the right level.
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We should have :
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->connect(), ->chk_snd(), ->chk_rcv(), ->shutw(), ->shutr() which are
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called from the upper layer (buffer)
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->recv(), ->send(), called from the lower layer
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Note that the SHR is *reported* by lower layer but can be forced by upper
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layer. In this case it's like a delayed abort. The difficulty consists in
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knowing the output data were correctly read. Probably we'd need to drain
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incoming data past the active shutr().
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The only four purposes of the top-down shutr() call are :
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- acknowledge a shut read report : could probably be done better
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- read timeout => disable reading : it's a delayed abort. We want to
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report that the buffer is SHR, maybe even the connection, but the
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FD clearly isn't.
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- read abort due to error on the other side or desire to close (eg:
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http-server-close) : delayed abort
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- complete abort
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The active shutr() is problematic as we can't disable reading if we expect some
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exchanges for data acknowledgement. We probably need to drain data only until
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the shutw() has been performed and ACKed.
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A connection shut down for read would behave like this :
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1) bidir exchanges
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2) shutr() => read_abort_pending=1
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3) drain input, still send output
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4) shutw()
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5) drain input, wait for read0 or ack(shutw)
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6) close()
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--------------------- 2012/07/05 -------------------
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Communications must be performed this way :
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connection <-> channel <-> connection
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A channel is composed of flags and stats, and may store data in either a buffer
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or a pipe. We need low-layer operations between sockets and buffers or pipes.
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Right now we only support sockets, but later we might support remote sockets
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and maybe pipes or shared memory segments.
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So we need :
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- raw_sock_to_buf() => receive raw data from socket into buffer
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- raw_sock_to_pipe => receive raw data from socket into pipe (splice in)
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- raw_sock_from_buf() => send raw data from buffer to socket
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- raw_sock_from_pipe => send raw data from pipe to socket (splice out)
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- ssl_sock_to_buf() => receive ssl data from socket into buffer
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- ssl_sock_to_pipe => receive ssl data from socket into a pipe (NULL)
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- ssl_sock_from_buf() => send ssl data from buffer to socket
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- ssl_sock_from_pipe => send ssl data from pipe to socket (NULL)
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These functions should set such status flags :
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#define ERR_IN 0x01
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#define ERR_OUT 0x02
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#define SHUT_IN 0x04
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#define SHUT_OUT 0x08
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#define EMPTY_IN 0x10
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#define FULL_OUT 0x20
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