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view auto/cc/sunc @ 7810:167d32476737 quic
Crypto buffer frames reordering.
If offset in CRYPTO frame doesn't match expected, following actions are taken:
a) Duplicate frames or frames within [0...current offset] are ignored
b) New data from intersecting ranges (starts before current_offset, ends
after) is consumed
c) "Future" frames are stored in a sorted queue (min offset .. max offset)
Once a frame is consumed, current offset is updated and the queue is inspected:
we iterate the queue until the gap is found and act as described
above for each frame.
The amount of data in buffered frames is limited by corresponding macro.
The CRYPTO and STREAM frame structures are now compatible: they share
the same set of initial fields. This allows to have code that deals with
both of this frames.
The ordering layer now processes the frame with offset and invokes the
handler when it can organise an ordered stream of data.
author | Vladimir Homutov <vl@nginx.com> |
---|---|
date | Tue, 14 Apr 2020 12:16:25 +0300 |
parents | d8e8ced78e77 |
children |
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# Copyright (C) Igor Sysoev # Copyright (C) Nginx, Inc. # Sun C 5.7 Patch 117837-04 2005/05/11 Sun Studio 10 # Sun C 5.8 2005/10/13 Sun Studio 11 # Sun C 5.9 SunOS_i386 2007/05/03 Sun Studio 12 # Sun C 5.9 SunOS_sparc 2007/05/03 # Sun C 5.10 SunOS_i386 2009/06/03 Sun Studio 12.1 # Sun C 5.11 SunOS_i386 2010/08/13 Oracle Solaris Studio 12.2 # Sun C 5.12 SunOS_i386 2011/11/16 Oracle Solaris Studio 12.3 # Sun C 5.13 SunOS_i386 2014/10/20 Oracle Solaris Studio 12.4 # Sun C 5.14 SunOS_i386 2016/05/31 Oracle Developer Studio 12.5 NGX_SUNC_VER=`$CC -V 2>&1 | grep 'Sun C' 2>&1 \ | sed -e 's/^.* Sun C \(.*\)/\1/'` echo " + Sun C version: $NGX_SUNC_VER" have=NGX_COMPILER value="\"Sun C $NGX_SUNC_VER\"" . auto/define cat << END > $NGX_AUTOTEST.c int main(void) { printf("%d", __SUNPRO_C); return 0; } END eval "$CC -o $NGX_AUTOTEST $NGX_AUTOTEST.c >> $NGX_ERR 2>&1" if [ -x $NGX_AUTOTEST ]; then ngx_sunc_ver=`$NGX_AUTOTEST` fi rm -rf $NGX_AUTOTEST* # 1424 == 0x590, Sun Studio 12 if [ "$ngx_sunc_ver" -ge 1424 ]; then ngx_sparc32="-m32" ngx_sparc64="-m64" ngx_amd64="-m64" else ngx_sparc32="-xarch=v8plus" ngx_sparc64="-xarch=v9" ngx_amd64="-xarch=amd64" fi case "$NGX_MACHINE" in i86pc) NGX_AUX=" src/os/unix/ngx_sunpro_x86.il" ;; sun4u | sun4v) NGX_AUX=" src/os/unix/ngx_sunpro_sparc64.il" ;; esac MAIN_LINK= MODULE_LINK="-G" # optimizations # 20736 == 0x5100, Sun Studio 12.1 if [ "$ngx_sunc_ver" -ge 20736 ]; then ngx_fast="-fast" else # older versions had problems with bit-fields ngx_fast="-fast -xalias_level=any" fi IPO=-xipo CFLAGS="$CFLAGS $ngx_fast $IPO" CORE_LINK="$CORE_LINK $ngx_fast $IPO" case $CPU in pentium) # optimize for Pentium and Athlon CPU_OPT="-xchip=pentium" ;; pentiumpro) # optimize for Pentium Pro, Pentium II CPU_OPT="-xchip=pentium_pro" ;; pentium3) # optimize for Pentium III CPU_OPT="-xchip=pentium3" #CPU_OPT="$CPU_OPT -xarch=sse" CPU_OPT="$CPU_OPT -xcache=16/32/4:256/32/4" ;; pentium4) # optimize for Pentium 4 CPU_OPT="-xchip=pentium4" #CPU_OPT="$CPU_OPT -xarch=sse2" CPU_OPT="$CPU_OPT -xcache=8/64/4:256/128/8" ;; opteron) # optimize for Opteron CPU_OPT="-xchip=opteron" #CPU_OPT="$CPU_OPT -xarch=sse2" CPU_OPT="$CPU_OPT -xcache=64/64/2:1024/64/16" ;; sparc32) # build 32-bit UltraSparc binary CPU_OPT="$ngx_sparc32" CORE_LINK="$CORE_LINK $ngx_sparc32" CC_AUX_FLAGS="$CC_AUX_FLAGS $ngx_sparc32" NGX_CPU_CACHE_LINE=64 ;; sparc64) # build 64-bit UltraSparc binary CPU_OPT="$ngx_sparc64" CORE_LINK="$CORE_LINK $ngx_sparc64" CC_AUX_FLAGS="$CC_AUX_FLAGS $ngx_sparc64" NGX_CPU_CACHE_LINE=64 ;; amd64) # build 64-bit amd64 binary CPU_OPT="$ngx_amd64" CORE_LINK="$CORE_LINK $ngx_amd64" CC_AUX_FLAGS="$CC_AUX_FLAGS $ngx_amd64" NGX_AUX=" src/os/unix/ngx_sunpro_amd64.il" NGX_CPU_CACHE_LINE=64 ;; esac CFLAGS="$CFLAGS $CPU_OPT" if [ ".$PCRE_OPT" = "." ]; then PCRE_OPT="$ngx_fast $IPO $CPU_OPT" fi if [ ".$ZLIB_OPT" = "." ]; then ZLIB_OPT="$ngx_fast $IPO $CPU_OPT" fi # stop on warning CFLAGS="$CFLAGS -errwarn=%all" # debug CFLAGS="$CFLAGS -g"