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8 commits

Author SHA1 Message Date
Dmitri Tikhonov
4b332c36d1 Latest changes
- Remove comment: MSPC is obsolete (no code changes)
- Prog: use lsquic_str2ver() when processing -o version flag
- Remove unused CTIM and SRBF transport parameters
- Disable QUIC versions Q037 and Q038 by default
- Fix Windows compilation by including compat header file in lshpack.c
- Address warnings produced by newer versions of gcc
- Future-proof: turn off -Werror
2018-05-04 11:53:50 -04:00
Dmitri Tikhonov
e8bd737db4 [API Change, OPTIMIZATION] Only process conns that need to be processed
The API is simplified: do not expose the user code to several
queues.  A "connection queue" is now an internal concept.
The user processes connections using the single function
lsquic_engine_process_conns().  When this function is called,
only those connections are processed that need to be processed.
A connection needs to be processed when:

    1. New incoming packets have been fed to the connection.
    2. User wants to read from a stream that is readable.
    3. User wants to write to a stream that is writeable.
    4. There are buffered packets that can be sent out.  (This
       means that the user wrote to a stream outside of the
       lsquic library callback.)
    5. A control frame (such as BLOCKED) needs to be sent out.
    6. A stream needs to be serviced or delayed stream needs to
       be created.
    7. An alarm rings.
    8. Pacer timer expires.

To achieve this, the library places the connections into two
priority queues (min heaps):

    1. Tickable Queue; and
    2. Advisory Tick Time queue (ATTQ).

Each time lsquic_engine_process_conns() is called, the Tickable
Queue is emptied.  After the connections have been ticked, they are
queried again: if a connection is not being closed, it is placed
either in the Tickable Queue if it is ready to be ticked again or
it is placed in the Advisory Tick Time Queue.  It is assumed that
a connection always has at least one timer set (the idle alarm).

The connections in the Tickable Queue are arranged in the least
recently ticked order.  This lets connections that have been quiet
longer to get their packets scheduled first.

This change means that the library no longer needs to be ticked
periodically.  The user code can query the library when is the
next tick event and schedule it exactly.  When connections are
processed, only the tickable connections are processed, not *all*
the connections.  When there are no tick events, it means that no
timer event is necessary -- only the file descriptor READ event
is active.

The following are improvements and simplifications that have
been triggered:

    - Queue of connections with incoming packets is gone.
    - "Pending Read/Write Events" Queue is gone (along with its
      history and progress checks).  This queue has become the
      Tickable Queue.
    - The connection hash no longer needs to track the connection
      insertion order.
2018-04-09 09:39:38 -04:00
Dmitri Tikhonov
10c492f0b6 Update copyright year; add CONTRIBUTORS.txt 2018-04-02 15:17:56 -04:00
Amol Deshpande
461e84d874 compiles in debug/release. tests pass (in debug config at least) 2018-03-12 15:25:01 -07:00
Dmitri Tikhonov
c51ce3387f Latest changes
- [API Change] Sendfile-like functionality is gone.  The stream no
  longer opens files and deals with file descriptors.  (Among other
  things, this makes the code more portable.)  Three writing functions
  are provided:

    lsquic_stream_write
    lsquic_stream_writev
    lsquic_stream_writef    (NEW)

  lsquic_stream_writef() is given an abstract reader that has function
  pointers for size() and read() functions which the user can implement.
  This is the most flexible way.  lsquic_stream_write() and
  lsquic_stream_writev() are now both implemented as wrappers around
  lsquic_stream_writef().

- [OPTIMIZATION] When writing to stream, be it within or without the
  on_write() callback, place data directly into packet buffer,
  bypassing auxiliary data structures.  This reduces amount of memory
  required, for the amount of data that can be written is limited
  by the congestion window.

  To support writes outside the on_write() callback, we keep N
  outgoing packet buffers per connection which can be written to
  by any stream.  One half of these are reserved for the highest
  priority stream(s), the other half for all other streams.  This way,
  low-priority streams cannot write instead of high-priority streams
  and, on the other hand, low-priority streams get a chance to send
  their packets out.

  The algorithm is as follows:

  - When user writes to stream outside of the callback:
    - If this is the highest priority stream, place it onto the
      reserved N/2 queue or fail.
        (The actual size of this queue is dynamic -- MAX(N/2, CWND) --
         rather than N/2, allowing high-priority streams to write as
         much as can be sent.)
    - If the stream is not the highest priority, try to place the
      data onto the reserved N/2 queue or fail.
  - When tick occurs *and* more packets can be scheduled:
    - Transfer packets from the high N/2 queue to the scheduled
      queue.
    - If more scheduling is allowed:
      - Call on_write callbacks for highest-priority streams,
        placing resulting packets directly onto the scheduled queue.
    - If more scheduling is allowed:
      - Transfer packets from the low N/2 queue to the scheduled
        queue.
    - If more scheduling is allowed:
      - Call on_write callbacks for non-highest-priority streams,
        placing resulting packets directly onto the scheduled queue

  The number N is currently 20, but it could be varied based on
  resource usage.

- If stream is created due to incoming headers, make headers readable
  from on_new.

- Outgoing packets are no longer marked non-writeable to prevent placing
  more than one STREAM frame from the same stream into a single packet.
  This property is maintained via code flow and an explicit check.
  Packets for stream data are allocated using a special function.

- STREAM frame elision is cheaper, as we only perform it if a reset
  stream has outgoing packets referencing it.

- lsquic_packet_out_t is smaller, as stream_rec elements are now
  inside a union.
2017-10-31 09:35:58 -04:00
Dmitri Tikhonov
1b97e4af1f Latest changes
- Add support for Q041; drop support for Q040
2017-09-28 14:50:30 -04:00
Dmitri Tikhonov
e019799402 Latest changes
- Add support for Mac OS
- Add support for Raspberry Pi
- Fix BoringSSL compilation: include <openssl/hmac.h> explicitly
2017-09-26 14:21:37 -04:00
Dmitri Tikhonov
50aadb33c7 LSQUIC Client: Initial release 2017-09-22 17:00:03 -04:00