The assumption that there was a 1:1 relation between tracked counters and
the frontend/backend role was wrong. It is perfectly possible to track the
track-fe-counters from the backend and the track-be-counters from the
frontend. Thus, in order to reduce confusion, let's remove this useless
{fe,be} reference and simply use {1,2} instead. The keywords have also been
renamed in order to limit confusion. The ACL rule action now becomes
"track-sc{1,2}". The ACLs are now "sc{1,2}_*" instead of "trk{fe,be}_*".
That means that we can reasonably document "sc1" and "sc2" (sticky counters
1 and 2) as sort of patterns that are available during the whole session's
life and use them just like any other pattern.
Doing so allows us to track counters from backends or depending on contents.
For instance, it now becomes possible to decide to track a connection based
on a Host header if enough time is granted to parse the HTTP request. It is
also possible to just track frontend counters in the frontend and unconditionally
track backend counters in the backend without having to write complex rules.
The first track-fe-counters rule executed is used to track counters for
the frontend, and the first track-be-counters rule executed is used to track
counters for the backend. Nothing prevents a frontend from setting a track-be
rule nor a backend from setting a track-fe rule. In fact these rules are
arbitrarily split between FE and BE with no dependencies.
Having a single tracking pointer for both frontend and backend counters
does not work. Instead let's have one for each. The keyword has changed
to "track-be-counters" and "track-fe-counters", and the ACL "trk_*"
changed to "trkfe_*" and "trkbe_*".
We're now able to return errors based on the validity of an argument
passed to a stick-table store data type. We also support ARG_T_DELAY
to pass delays to stored data types (eg: for rate counters).
Some data types will require arguments (eg: period for a rate counter).
This patch adds support for such arguments between parenthesis in the
"store" directive of the stick-table statement. Right now only integers
are supported.
This patch adds the ability to set a pointer in the session to an
entry in a stick table which holds various counters related to a
specific pattern.
Right now the syntax matches the target syntax and only the "src"
pattern can be specified, to track counters related to the session's
IPv4 source address. There is a special function to extract it and
convert it to a key. But the goal is to be able to later support as
many patterns as for the stick rules, and get rid of the specific
function.
The "track-counters" directive may only be set in a "tcp-request"
statement right now. Only the first one applies. Probably that later
we'll support multi-criteria tracking for a single session and that
we'll have to name tracking pointers.
No counter is updated right now, only the refcount is. Some subsequent
patches will have to bring that feature.
Sometimes it's necessary to be able to perform some "layer 6" analysis
in the backend. TCP request rules were not available till now, although
documented in the diagram. Enable them in backend now.
The stick_tables will now be able to store extra data for a same key.
A limited set of extra data types will be defined and for each of them
an offset in the sticky session will be assigned at startup time. All
of this information will be stored in the stick table.
The extra data types will have to be specified after the new "store"
keyword of the "stick-table" directive, which will reserve some space
for them.
pattern.c depended on stick_table while in fact it should be the opposite.
So we move from pattern.c everything related to stick_tables and invert the
dependency. That way the code becomes more logical and intuitive.
A new function session_accept() is now called from the lower layer to
instanciate a new session. Once the session is instanciated, the upper
layer's frontent_accept() is called. This one can be service-dependant.
That way, we have a 3-phase accept() sequence :
1) protocol-specific, session-less accept(), which is pointed to by
the listener. It defaults to the generic stream_sock_accept().
2) session_accept() which relies on a frontend but not necessarily
for use in a proxy (eg: stats or any future service).
3) frontend_accept() which performs the accept for the service
offerred by the frontend. It defaults to frontend_accept() which
is really what is used by a proxy.
The TCP/HTTP proxies have been moved to this mode so that we can now rely on
frontend_accept() for any type of session initialization relying on a frontend.
The next step will be to convert the stats to use the same system for the stats.
We can disable the monitor-net rules on a listener if this flag is not
set in the listener's options. This will be useful when we don't want
to check that fe->addr is set or not for non-TCP frontends.
The new LI_O_TCP_RULES listener option indicates that some TCP rules
must be checked upon accept on this listener. It is now checked by
the frontend and the L4 rules are evaluated only in this case. The
flag is only set when at least one tcp-req rule is present in the
frontend.
The L4 rules check function has now been moved to proto_tcp.c where
it ought to be.
For a long time we had two large accept() functions, one for TCP
sockets instanciating proxies, and another one for UNIX sockets
instanciating the stats interface.
A lot of code was duplicated and both did not work exactly the same way.
Now we have a stream_sock layer accept() called for either TCP or UNIX
sockets, and this function calls the frontend-specific accept() function
which does the rest of the frontend-specific initialisation.
Some code is still duplicated (session & task allocation, stream interface
initialization), and might benefit from having an intermediate session-level
accept() callback to perform such initializations. Still there are some
minor differences that need to be addressed first. For instance, the monitor
nets should only be checked for proxies and not for other connection templates.
Last, we renamed l->private as l->frontend. The "private" pointer in
the listener is only used to store a frontend, so let's rename it to
eliminate this ambiguity. When we later support detached listeners
(eg: FTP), we'll add another field to avoid the confusion.
It was once reported at least by Dirk Taggesell that the consistent
hash had a very poor distribution, making use of only two servers.
Jeff Persch analysed the code and found the root cause. Consistent
hash makes use of the server IDs, which are completed after the chash
array initialization. This implies that each server which does not
have an explicit "id" parameter will be merged at the same place in
the chash tree and that in the end, only the first or last servers
may be used.
The now obvious fix (thanks to Jeff) is to assign the missing IDs
earlier. However, it should be clearly understood that changing a
hash algorithm on live systems will rebalance the whole system.
Anyway, the only affected users will be the ones for which the
system is quite unbalanced already. The ones who fix their IDs are
not affected at all.
Kudos to Jeff for spotting that bug which got merged 3 days after
the consistent hashing !
This is used to disable persistence depending on some conditions (for
example using an ACL matching static files or a specific User-Agent).
You can see it as a complement to "force-persist".
In the configuration file, the force-persist/ignore-persist declaration
order define the rules priority.
Used with the "appsesion" keyword, it can also help reducing memory usage,
as the session won't be hashed the persistence is ignored.
Some servers do not completely conform with RFC2616 requirements for
keep-alive when they receive a request with "Connection: close". More
specifically, they don't bother using chunked encoding, so the client
never knows whether the response is complete or not. One immediately
visible effect is that haproxy cannot maintain client connections alive.
The second issue is that truncated responses may be cached on clients
in case of network error or timeout.
Óscar Frías Barranco reported this issue on Tomcat 6.0.20, and
Patrik Nilsson with Jetty 6.1.21.
Cyril Bonté proposed this smart idea of pretending we run keep-alive
with the server and closing it at the last moment as is already done
with option forceclose. The advantage is that we only change one
emitted header but not the overall behaviour.
Since some servers such as nginx are able to close the connection
very quickly and save network packets when they're aware of the
close negociation in advance, we don't enable this behaviour by
default.
"option http-pretend-keepalive" will have to be used for that, in
conjunction with "option http-server-close".
Using get_ip_from_hdr2() we can look for occurrence #X or #-X and
extract the IP it contains. This is typically designed for use with
the X-Forwarded-For header.
Using "usesrc hdr_ip(name,occ)", it becomes possible to use the IP address
found in <name>, and possibly specify occurrence number <occ>, as the
source to connect to a server. This is possible both in a server and in
a backend's source statement. This is typically used to use the source
IP previously set by a upstream proxy.
We'll need another flag in the 'options' member close to PR_O_TPXY_*,
and all are used, so let's move this easy one to options2 (which are
already used for SQL checks).
It's very common to see people getting trapped by HTTP-only options
which don't work in TCP proxies. To help them definitely get rid of
those configs, let's emit warnings for all options and statements
which are not supported in their mode. That includes all HTTP-only
options, the cookies and the stats.
In order to ensure internal config correctness, the options are also
disabled.
To save a little memory, the check_data buffer is only allocated
for the servers that are checked.
[WT: this patch saves 80 MB of RAM on the test config with 5000 servers]
We are seeing both real servers repeatedly going on- and off-line with
a period of tens of seconds. Packet tracing, stracing, and adding
debug code to HAProxy itself has revealed that the real servers are
always responding correctly, but HAProxy is sometimes receiving only
part of the response.
It appears that the real servers are sending the test page as three
separate packets. HAProxy receives the contents of one, two, or three
packets, apparently randomly. Naturally, the health check only
succeeds when all three packets' data are seen by HAProxy. If HAProxy
and the real servers are modified to use a plain HTML page for the
health check, the response is in the form of a single packet and the
checks do not fail.
(...)
I've added buffer and length variables to struct server, and allocated
space with the rest of the server initialisation.
(...)
It seems to be working fine in my tests, and handles check responses
that are bigger than the buffer.
We have been using haproxy to balance a not very well written application
(http://www.blackboard.com/). Using the "insert postonly indirect" cookie
method, I was attempting to remove the cookie when users would logout,
allowing the machine to re-balance for the next user (this application is
used in school computer labs, so a computer might stay on the whole day
but be used on and off).
I was having a lot of trouble because when the cookie was set, it was with
"Path=/", but when being cleared there was no "Path" in the set cookie
header, and because the logout page was in a different place of the
website (which I couldn't change), the cookie would not be cleared. I
don't know if this would be a problem for anyone other than me (as our
HTTP application is so un-adjustable), but just in case, I have included
the patch I used. Maybe it will help someone else.
[ WT: this was a correct fix, and I also added the same missing path to
the set-cookie option ]
isalnum, isdigit and friends are really annoying because they take
an int in which we should pass an unsigned char, while strings
everywhere use chars. Solaris uses macros relying on an array for
those functions, which easily triggers some warnings showing where
we have mistakenly passed a char instead of an unsigned char or an
int. Those warnings may indicate real bugs on some platforms
depending on the implementation.
When a host name could not be resolved, an alert was emitted but the
service used to start with 0.0.0.0 for the IP address, because the
address parsing functions could not report an error. This is now
changed. This fix must be backported to 1.3 as it was first discovered
there.
[WT: it was not a bug, I did it on purpose to leave no hole between IDs,
though it's not very practical when admins want to force some entries
after they have been used, because they'd rather leave a hole than
renumber everything ]
Forcing some of IDs should not shift others.
Regression introduced in 53fb4ae261
---cut here---
global
stats socket /home/ole/haproxy.stat user ole group ole mode 660
frontend F1
bind 127.0.0.1:9999
mode http
backend B1
mode http
backend B2
mode http
id 9999
backend B3
mode http
backend B4
mode http
---cut here---
Before 53fb4ae261:
$ echo "show stat" | socat unix-connect:/home/ole/haproxy.stat stdio|cut -d , -f 28
iid
1
2
9999
4
5
After 53fb4ae261:
$ echo "show stat" | socat unix-connect:/home/ole/haproxy.stat stdio|cut -d , -f 28
iid
1
2
9999
3
4
With this patch:
$ echo "show stat" | socat unix-connect:/home/ole/haproxy.stat stdio|cut -d , -f 28
iid
1
2
9999
4
5
Thich patch fixes cfgparser not to leak memory on each
default server statement and adds several missing free
calls in deinit():
- free(l->name)
- free(l->counters)
- free(p->desc);
- free(p->fwdfor_hdr_name);
None of them are critical, hopefully.
SSL and SQL checks did only perform a free() of the request without replacing
it, so having multiple SSL/SQL check declarations after another check type
causes a double free condition during config parsing. This should be backported
although it's harmless.
Anonymous ACLs allow the declaration of rules which rely directly on
ACL expressions without passing via the declaration of an ACL. Example :
With named ACLs :
acl site_dead nbsrv(dynamic) lt 2
acl site_dead nbsrv(static) lt 2
monitor fail if site_dead
With anonymous ACLs :
monitor fail if { nbsrv(dynamic) lt 2 } || { nbsrv(static) lt 2 }
Support the new syntax (http-request allow/deny/auth) in
http stats.
Now it is possible to use the same syntax is the same like in
the frontend/backend http-request access control:
acl src_nagios src 192.168.66.66
acl stats_auth_ok http_auth(L1)
stats http-request allow if src_nagios
stats http-request allow if stats_auth_ok
stats http-request auth realm LB
The old syntax is still supported, but now it is emulated
via private acls and an aditional userlist.
Add generic authentication & authorization support.
Groups are implemented as bitmaps so the count is limited to
sizeof(int)*8 == 32.
Encrypted passwords are supported with libcrypt and crypt(3), so it is
possible to use any method supported by your system. For example modern
Linux/glibc instalations support MD5/SHA-256/SHA-512 and of course classic,
DES-based encryption.
Just as for the req* rules, we can now condition rsp* rules with ACLs.
ACLs match on response, so volatile request information cannot be used.
A warning is emitted if a configuration contains such an anomaly.
All the req* rules except the reqadd rules can now be specified with
an if/unless condition. If a condition is specified and does not match,
the filter is ignored. This is particularly useful with reqidel, reqirep
and reqtarpit.
