mirror of
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466d093a92
while not fixing things very nicely, it does make the SOCKS5 proxy connection slightly better as it now acknowledges the timeout for connection and it no longer segfaults in the case when SOCKS requires authentication and you did not specify username:password. |
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.. | ||
.cvsignore | ||
amigaos.c | ||
amigaos.h | ||
arpa_telnet.h | ||
base64.c | ||
base64.h | ||
ca-bundle.crt | ||
config-amigaos.h | ||
config-mac.h | ||
config-riscos.h | ||
config-tpf.h | ||
config-win32.h | ||
config-win32ce.h | ||
config.dos | ||
connect.c | ||
connect.h | ||
content_encoding.c | ||
content_encoding.h | ||
cookie.c | ||
cookie.h | ||
curllib.dsw | ||
curlx.h | ||
dict.c | ||
dict.h | ||
easy.c | ||
easyif.h | ||
escape.c | ||
escape.h | ||
file.c | ||
file.h | ||
formdata.c | ||
formdata.h | ||
ftp.c | ||
ftp.h | ||
getenv.c | ||
getinfo.c | ||
getinfo.h | ||
gtls.c | ||
gtls.h | ||
hash.c | ||
hash.h | ||
hostares.c | ||
hostasyn.c | ||
hostip4.c | ||
hostip6.c | ||
hostip.c | ||
hostip.h | ||
hostsyn.c | ||
hostthre.c | ||
http_chunks.c | ||
http_chunks.h | ||
http_digest.c | ||
http_digest.h | ||
http_negotiate.c | ||
http_negotiate.h | ||
http_ntlm.c | ||
http_ntlm.h | ||
http.c | ||
http.h | ||
if2ip.c | ||
if2ip.h | ||
inet_ntoa_r.h | ||
inet_ntop.c | ||
inet_ntop.h | ||
inet_pton.c | ||
inet_pton.h | ||
krb4.c | ||
krb4.h | ||
ldap.c | ||
ldap.h | ||
libcurl.def | ||
libcurl.framework.make | ||
libcurl.imp | ||
libcurl.plist | ||
libcurl.rc | ||
llist.c | ||
llist.h | ||
Makefile.am | ||
makefile.amiga | ||
Makefile.b32 | ||
makefile.dj | ||
Makefile.inc | ||
Makefile.m32 | ||
Makefile.netware | ||
Makefile.riscos | ||
Makefile.vc6 | ||
Makefile.Watcom | ||
md5.c | ||
md5.h | ||
memdebug.c | ||
memdebug.h | ||
memory.h | ||
mprintf.c | ||
msvcproj.foot | ||
msvcproj.head | ||
multi.c | ||
multiif.h | ||
netrc.c | ||
netrc.h | ||
nwlib.c | ||
parsedate.c | ||
parsedate.h | ||
progress.c | ||
progress.h | ||
README.ares | ||
README.curlx | ||
README.encoding | ||
README.hostip | ||
README.httpauth | ||
README.memoryleak | ||
README.multi_socket | ||
README.pipelining | ||
security.c | ||
select.c | ||
select.h | ||
sendf.c | ||
sendf.h | ||
setup_once.h | ||
setup.h | ||
share.c | ||
share.h | ||
sockaddr.h | ||
speedcheck.c | ||
speedcheck.h | ||
splay.c | ||
splay.h | ||
sslgen.c | ||
sslgen.h | ||
ssluse.c | ||
ssluse.h | ||
strdup.c | ||
strdup.h | ||
strequal.c | ||
strequal.h | ||
strerror.c | ||
strerror.h | ||
strtok.c | ||
strtok.h | ||
strtoofft.c | ||
strtoofft.h | ||
telnet.c | ||
telnet.h | ||
tftp.c | ||
tftp.h | ||
timeval.c | ||
timeval.h | ||
transfer.c | ||
transfer.h | ||
url.c | ||
url.h | ||
urldata.h | ||
vc8proj.foot | ||
vc8proj.head | ||
version.c |
Doing HTTP Pipelining with libcurl ================================== Background Since pipelining implies that one or more requests are sent to a server before the previous response(s) have been received, it cannot be implemented easily into libcurl's easy interface due to its synchronous nature. We therefore only aim on adding it for multi interface use. Considerations When using the multi interface, you create one easy handle for each transfer. Bascially any number of handles can be created, added and used with the multi interface - simultaneously. It is an interface designed to allow many simultaneous transfers while still using a single thread. Pipelining however, will force us to allow apps to somehow "connect" two (or more) easy handles that are added to a multi handle. The first one sends a request and receives a response, just as normal, while the second (and subsequent) ones need to be attached to the first handle so that it can send its request on the same connection and then sit and wait until its response comes. API We add a new option to curl_multi_setopt() called CURLMOPT_PIPELINING that enables "attempted pipelining" and then all easy handles used on that handle will attempt to use an existing pipeline. Decisions Already Made - A pipeline is only created if a previous connection exists to the same IP address that the new request is being made to use. - Pipelines are only supported for HTTP(S) as no other currently supported protocol has features resemembling this, but we still name this feature plain 'pipelining' to possibly one day support it for other protocols as well. - HTTP Pipelining is for GET and HEAD requests only. - When a pipeline is in use, we must take precautions so that when used easy handles (i.e those who still wait for a response) are removed from the multi handle, we must deal with the outstanding response nicely. - Explicitly asking for pipelining handle X and handle Y won't be supported. It isn't easy for an app to do this association. The lib should probably still resolve the second one properly to make sure that they actually _can_ be considered for pipelining. Also, asking for explicit pipelining on handle X may be tricky when handle X get a closed connection. To Ponder About - We need options to control max pipeline length, and probably how to behave if we reach that limit. As was discussed on the list, it can probably be made very complicated, so perhaps we can think of a way to pass all variables involved to a callback and let the application decide how to act in specific situations. Either way, these fancy options are only interesting to work on when everything is working and we have working apps to test with. - Currently (before pipelining) we do not have any code or concept that lets multiple handles share the same physical connection. We need to carefully make sure that each easy handle knows exactly what they can do and when, on the shared connection. - We need to keep a linked list of each handle that is part of a single pipe so that if it breaks, we know which handles that need to resend their requests. The pipe linked-lists could very well be "held" in the multi handle struct so that they won't "belong" to a particular easy handle that happens to be part of the pipeline during a certain period.