There was not really any "connection failure" with some of these like 404.
They may have body content that is important.
The client should use lws_http_client_http_response(wsi) to discover
the response code the client action received and decide for itself
what to do about that.
HTTP/2 support is now able to serve the test server, complete with
websockets, from a single vhost.
- This works the same with both OpenSSL and mbedTLS.
- POST is now wired up and works (also for file upload).
- CGI is wired up and works.
- Redirect is adapted and works
- lwsws works.
- URI urldecode, sanitation and argument parsing wired up for :path
valgrind clean (aside from openssl-style false uninit data usage in mbedtls send occasionally)
h2spec reports:
$ h2spec -h 127.0.0.1 -p 7681 -t -k -o 1
...
145 tests, 145 passed, 0 skipped, 0 failed"
Incorporates:
- "https://github.com/warmcat/libwebsockets/pull/1039
Fixes issue with -Werror=unused-variable flag
- 2c843a1395
ssl: fix infinite loop on client cert verification failure
Signed-off-by: Petar Paradzik <petar.paradzik@sartura.hr>"
Caused and fixes Coverity 184887 - 184892
The mbedTLS / OpenSSL wrapper spins for the duration of the
handshake, which is a slow 31ms on my x86_64 box (by comparison
it's ~1ms on actual OpenSSL on the same box).
This doesn't change the 31ms but it stops us spinning during the
accept and has us retry on POLLIN instead like OpenSSL.
Note this also fixes the endemic mismatches in returncode
between mbedTLS and OpenSSL semantics...
For some targets like ESP32, the ah pool is mainly sitting idle wasting memory.
For HTTP/2, if the client sends a series of pipelined headers on different SIDs
that exist simultaneously, there is no way to stall the headers to wait for an
ah, because we must read the stream for stuff like WINDOW_UPDATE on the other
streams.
In both these cases having the ability to free unused ah completely and allocate
more dynamically if there is memory is useful, so this patch makes the ah pool
an initially-empty linked list that allocates on demand up to the "max pool
size" limit from the context info. When nobody wants an ah, it is freed (if
someone was waiting for it, it is directly reused).
For ESP32 it means no large, permanent alloc when lws starts and dynamic alloc
according to how many streams the client opens, which can be controlled by
SETTINGS.
