This is issue is due to the fact that when we call the function
responsible of building CRYPTO frames to fill a buffer, the Length
field of this packet did not take into an account the trailing 16 bytes for
the AEAD tag. Furthermore, the remaining <room> available in this buffer
was not decremented by the CRYPTO frame length, but only by the CRYPTO data length
of this frame.
Add traces to have an idea why this function may fail. In fact
in never fails when the passed parameters are correct, especially the
lengths. This is not the case when a packet is not correctly built
before being encrypted.
Even if the size of frames built by qc_build_frm() are computed so that
not to overflow a buffer, do not rely on this and always makes a packet
build fails if we could not build a frame.
Also add traces to have an idea where qc_build_frm() fails.
Fixes a memory leak in qc_build_phdshk_apkt().
At least displays the SSL alert error code passed to ->ssl_send_alert()
QUIC BIO method and the SSL encryption level. This function is newly called
when using picoquic client with a recent version of BoringSSL (Nov 19 2020).
This is not the case with OpenSSL with 32 as QUIC draft implementation.
Reorder by increasing type the switch/case in qc_parse_pkt_frms()
which is the high level frame parser.
Add new STREAM_X frame types to support some tests with ngtcp2 client.
Add ->flags to the QUIC frame parser as this has been done for the builder so
that to flag RX packets as ack-eliciting at low level. This should also be
helpful to maintain the code if we have to add new flags to RX packets.
Remove the statements which does the same thing as higher level in
qc_parse_pkt_frms().
Remove ->ifcdata which was there to control the CRYPTO data sent to the
peer so that not to saturate its reception buffer. This was a sort
of flow control.
Add ->prep_in_flight counter to the QUIC path struct to control the
number of bytes prepared to be sent so that not to saturare the
congestion control window. This counter is increased each time a
packet was built. This has nothing to see with ->in_flight which
is the real in flight number of bytes which have really been sent.
We are olbiged to maintain two such counters to know how many bytes
of data we can prepared before sending them.
Modify traces consequently which were useful to diagnose issues about
the congestion control window usage.
As there is a lot of information in this protocol, this is not
easy to make the traces readable. We remove here a few of them and
shorten some line shortening the variable names.
This patch imports all the C files for QUIC protocol implementation with few
modifications from 20200720-quic branch of quic-dev repository found at
https://github.com/haproxytech/quic-dev.
Traces were implemented to help with the development.
