We're having a lot of duplicate code just because of minor variants between
fetch functions that could be dealt with if the functions had the pointer to
the original keyword, so let's pass it as the last argument. An earlier
version used to pass a pointer to the sample_fetch element, but this is not
the best solution for two reasons :
- fetch functions will solely rely on the keyword string
- some other smp_fetch_* users do not have the pointer to the original
keyword and were forced to pass NULL.
So finally we're passing a pointer to the keyword as a const char *, which
perfectly fits the original purpose.
The max weight of server is 256 now, but SRV_UWGHT_MAX is still 255. As a result,
FWRR will not work well when server's weight is 256. The description is as below:
There are some macros related to server's weight in include/types/server.h:
#define SRV_UWGHT_RANGE 256
#define SRV_UWGHT_MAX (SRV_UWGHT_RANGE - 1)
#define SRV_EWGHT_MAX (SRV_UWGHT_MAX * BE_WEIGHT_SCALE)
Since weight of server can be reach to 256 and BE_WEIGHT_SCALE equals to 16,
the max eweight of server should be 256*16 = 4096, it will exceed SRV_EWGHT_MAX
which equals to SRV_UWGHT_MAX*BE_WEIGHT_SCALE = 255*16 = 4080. When a server
with weight 256 is insterted into FWRR tree during initialization, the key value
of this server should be SRV_EWGHT_MAX - s->eweight = 4080 - 4096 = -16 which
is closed to UINT_MAX in unsigned type, so the server with highest weight will
be not elected as the first server to process request.
In addition, it is a better choice to compare with SRV_UWGHT_MAX than a magic
number 256 while doing check for the weight. The max number of servers for
round-robin algorithm is also updated.
Signed-off-by: Godbach <nylzhaowei@gmail.com>
As per RFC3260 #4 and BCP37 #4.2 and #5.2, the IPv6 counterpart of TOS
is "traffic class".
Add support for IPv6 traffic class in "set-tos" by moving the "set-tos"
related code to the new inline function inet_set_tos(), handling IPv4
(IP_TOS), IPv6 (IPV6_TCLASS) and IPv4-mapped sockets (IP_TOS, like
::ffff:127.0.0.1).
Also define - if missing - the IN6_IS_ADDR_V4MAPPED() macro in
include/common/compat.h for compatibility.
Benoit Dolez reported a failure to start haproxy 1.5-dev19. The
process would immediately report an internal error with missing
fetches from some crap instead of ACL names.
The cause is that some versions of gcc seem to trim static structs
containing a variable array when moving them to BSS, and only keep
the fixed size, which is just a list head for all ACL and sample
fetch keywords. This was confirmed at least with gcc 3.4.6. And we
can't move these structs to const because they contain a list element
which is needed to link all of them together during the parsing.
The bug indeed appeared with 1.5-dev19 because it's the first one
to have some empty ACL keyword lists.
One solution is to impose -fno-zero-initialized-in-bss to everyone
but this is not really nice. Another solution consists in ensuring
the struct is never empty so that it does not move there. The easy
solution consists in having a non-null list head since it's not yet
initialized.
A new "ILH" list head type was thus created for this purpose : create
an Initialized List Head so that gcc cannot move the struct to BSS.
This fixes the issue for this version of gcc and does not create any
burden for the declarations.
Remove event_accept() in include/proto/proto_http.h and use correct function
name in other two files instead of event_accept().
Signed-off-by: Godbach <nylzhaowei@gmail.com>
It was a bit inconsistent to have gpc start at 0 and sc start at 1,
so make sc start at zero like gpc. No previous release was issued
with sc3 anyway, so no existing setup should be affected.
This configures the client-facing connection to receive a PROXY protocol
header before any byte is read from the socket. This is equivalent to
having the "accept-proxy" keyword on the "bind" line, except that using
the TCP rule allows the PROXY protocol to be accepted only for certain
IP address ranges using an ACL. This is convenient when multiple layers
of load balancers are passed through by traffic coming from public
hosts.
"set-mark" is used to set the Netfilter MARK on all packets sent to the
client to the value passed in <mark> on platforms which support it. This
value is an unsigned 32 bit value which can be matched by netfilter and
by the routing table. It can be expressed both in decimal or hexadecimal
format (prefixed by "0x"). This can be useful to force certain packets to
take a different route (for example a cheaper network path for bulk
downloads). This works on Linux kernels 2.6.32 and above and requires
admin privileges.
This manipulates the TOS field of the IP header of outgoing packets sent
to the client. This can be used to set a specific DSCP traffic class based
on some request or response information. See RFC2474, 2597, 3260 and 4594
for more information.
Some users want to disable logging for certain non-important requests such as
stats requests or health-checks coming from another equipment. Other users want
to log with a higher importance (eg: notice) some special traffic (POST requests,
authenticated requests, requests coming from suspicious IPs) or some abnormally
large responses.
This patch responds to all these needs at once by adding a "set-log-level" action
to http-request/http-response. The 8 syslog levels are supported, as well as "silent"
to disable logging.
Some actions were clearly missing to process response headers. This
patch adds a new "http-response" ruleset which provides the following
actions :
- allow : stop evaluating http-response rules
- deny : stop and reject the response with a 502
- add-header : add a header in log-format mode
- set-header : set a header in log-format mode
Since commit cfd97c6f was merged into 1.5-dev14 (BUG/MEDIUM: checks:
prevent TIME_WAITs from appearing also on timeouts), some valid health
checks sometimes used to show some TCP resets. For example, this HTTP
health check sent to a local server :
19:55:15.742818 IP 127.0.0.1.16568 > 127.0.0.1.8000: S 3355859679:3355859679(0) win 32792 <mss 16396,nop,nop,sackOK,nop,wscale 7>
19:55:15.742841 IP 127.0.0.1.8000 > 127.0.0.1.16568: S 1060952566:1060952566(0) ack 3355859680 win 32792 <mss 16396,nop,nop,sackOK,nop,wscale 7>
19:55:15.742863 IP 127.0.0.1.16568 > 127.0.0.1.8000: . ack 1 win 257
19:55:15.745402 IP 127.0.0.1.16568 > 127.0.0.1.8000: P 1:23(22) ack 1 win 257
19:55:15.745488 IP 127.0.0.1.8000 > 127.0.0.1.16568: FP 1:146(145) ack 23 win 257
19:55:15.747109 IP 127.0.0.1.16568 > 127.0.0.1.8000: R 23:23(0) ack 147 win 257
After some discussion with Chris Huang-Leaver, it appeared clear that
what we want is to only send the RST when we have no other choice, which
means when the server has not closed. So we still keep SYN/SYN-ACK/RST
for pure TCP checks, but don't want to see an RST emitted as above when
the server has already sent the FIN.
The solution against this consists in implementing a "drain" function at
the protocol layer, which, when defined, causes as much as possible of
the input socket buffer to be flushed to make recv() return zero so that
we know that the server's FIN was received and ACKed. On Linux, we can make
use of MSG_TRUNC on TCP sockets, which has the benefit of draining everything
at once without even copying data. On other platforms, we read up to one
buffer of data before the close. If recv() manages to get the final zero,
we don't disable lingering. Same for hard errors. Otherwise we do.
In practice, on HTTP health checks we generally find that the close was
pending and is returned upon first recv() call. The network trace becomes
cleaner :
19:55:23.650621 IP 127.0.0.1.16561 > 127.0.0.1.8000: S 3982804816:3982804816(0) win 32792 <mss 16396,nop,nop,sackOK,nop,wscale 7>
19:55:23.650644 IP 127.0.0.1.8000 > 127.0.0.1.16561: S 4082139313:4082139313(0) ack 3982804817 win 32792 <mss 16396,nop,nop,sackOK,nop,wscale 7>
19:55:23.650666 IP 127.0.0.1.16561 > 127.0.0.1.8000: . ack 1 win 257
19:55:23.651615 IP 127.0.0.1.16561 > 127.0.0.1.8000: P 1:23(22) ack 1 win 257
19:55:23.651696 IP 127.0.0.1.8000 > 127.0.0.1.16561: FP 1:146(145) ack 23 win 257
19:55:23.652628 IP 127.0.0.1.16561 > 127.0.0.1.8000: F 23:23(0) ack 147 win 257
19:55:23.652655 IP 127.0.0.1.8000 > 127.0.0.1.16561: . ack 24 win 257
This change should be backported to 1.4 which is where Chris encountered
this issue. The code is different, so probably the tcp_drain() function
will have to be put in the checks only.
The req.hdr and res.hdr fetch methods do not work well on headers which
are allowed to contain commas, such as User-Agent, Date or Expires.
More specifically, full-length matching is impossible if a comma is
present.
This patch introduces 4 new fetch functions which are designed to work
with these full-length headers :
- req.fhdr, req.fhdr_cnt
- res.fhdr, res.fhdr_cnt
These ones do not stop at commas and permit to return full-length header
values.
People who use "option dontlog-normal" are bothered with redirects and
stats being logged and reported as errors in the logs ("PR" = proxy
blocked the request).
This patch introduces a new flag 'L' for when a request is locally
processed, that is not considered as an error by the log filters. That
way we know a request was intercepted and processed by haproxy without
logging the line when "option dontlog-normal" is in effect.
Since 1.5-dev12 and commit 3bf1b2b8 (MAJOR: channel: stop relying on
BF_FULL to take action), the HTTP parser switched to channel_full()
instead of BF_FULL to decide whether a buffer had enough room to start
parsing a request or response. The problem is that channel_full()
intentionally ignores outgoing data, so a corner case exists where a
large response might still be left in a response buffer with just a
few bytes left (much less than the reserve), enough to accept a second
response past the last data, but not enough to permit the HTTP processor
to add some headers. Since all the processing relies on this space being
available, we can get some random crashes when clients pipeline requests.
The analysis of a core from haproxy configured with 20480 bytes buffers
shows this : with enough "luck", when sending back the response for the
first request, the client is slow, the TCP window is congested, the socket
buffers are full, and haproxy's buffer fills up. We still have 20230 bytes
of response data in a 20480 response buffer. The second request is sent to
the server which returns 214 bytes which fit in the small 250 bytes left
in this buffer. And the buffer arrangement makes it possible to escape all
the controls in http_wait_for_response() :
|<------ response buffer = 20480 bytes ------>|
[ 2/2 | 3 | 4 | 1/2 ]
^ start of circular buffer
1/2 = beginning of previous response (18240)
2/2 = end of previous response (1990)
3 = current response (214)
4 = free space (36)
- channel_full() returns false (20230 bytes are going to leave)
- the response headers does not wrap at the end of the buffer
- the remaining linear room after the headers is larger than the
reserve, because it's the previous response which wraps :
=> response is processed
Header rewriting causes it to reach 260 bytes, 10 bytes larger than what
the buffer could hold. So all computations during header addition are
wrong and lead to the corruption we've observed.
All the conditions are very hard to meet (which explains why it took
almost one year for this bug to show up) and are almost impossible to
reproduce on purpose on a test platform. But the bug is clearly there.
This issue was reported by Dinko Korunic who kindly devoted a lot of
time to provide countless traces and cores, and to experiment with
troubleshooting patches to knock the bug down. Thanks Dinko!
No backport is needed, but all 1.5-dev versions between dev12 and dev18
included must be upgraded. A workaround consists in setting option
forceclose to prevent pipelined requests from being processed.
We're often missin a third counter to track base, src and base+src at
the same time. Here we introduce track_sc3 to have this third counter.
It would be wise not to add much more counters because that slightly
increases the session size and processing time though the real issue
is more the declaration of the keywords in the code and in the doc.
By properly affecting the flags and values, it becomes easier to add
more tracked counters, for example for experimentation. It also slightly
reduces the code and the number of tests. No counters were added with
this patch.
FreeBSD uses (IPPROTO_IP, IP_BINDANY) and (IPPROTO_IPV6, IPV6_BINDANY)
to enable transparent proxy on a socket.
This patch adds support for the relevant setsockopt() calls.
This patch does not change the logic of the code, it only changes the
way OS-specific defines are tested.
At the moment the transparent proxy code heavily depends on Linux-specific
defines. This first patch introduces a new define "CONFIG_HAP_TRANSPARENT"
which is set every time the defines used by transparent proxy are present.
This also means that with an up-to-date libc, it should not be necessary
anymore to force CONFIG_HAP_LINUX_TPROXY during the build, as the flags
will automatically be detected.
The CTTPROXY flags still remain separate because this older API doesn't
work the same way.
A new line has been added in the version output for haproxy -vv to indicate
what transparent proxy support is available.
When freeing ACL regex, we don't want to perform the free() in regex_free()
as it's already performed in free_pattern(). The double free only happens
when using PCRE_JIT when freeing everything during exit so it's harmless
but exhibits libc errors during a reload/restart.
Bug reported by Seri.
Improve the crt-list file format to allow a rule to negate a certain SNI :
<crtfile> [[!]<snifilter> ...]
This can be useful when a domain supports a wildcard but you don't want to
deliver the wildcard cert for certain specific domains.
This patch adds a "scope" box in the statistics page in order to
display only proxies with a name that contains the requested value.
The scope filter is preserved across all clicks on the page.
Commit a4312fa2 merged into dev18 improved log-format management by
processing "log-format" and "unique-id-format" where they were declared,
so that the faulty args could be reported with their correct line numbers.
Unfortunately, the log-format parser considers the proxy mode (TCP/HTTP)
and now if the directive is set before the "mode" statement, it can be
rejected and report warnings.
So we really need to parse these directives at the end of a section at
least. Right now we do not have an "end of section" event, so we need
to store the file name and line number for each of these directives,
and take care of them at the end.
One of the benefits is that now the line numbers can be inherited from
the line passing "option httplog" even if it's in a defaults section.
Future improvements should be performed to report line numbers in every
log-format processed by the parser.
The ALPN extension is meant to replace the now deprecated NPN extension.
This patch implements support for it. It requires a version of openssl
with support for this extension. Patches are available here right now :
http://html5labs.interopbridges.com/media/167447/alpn_patches.zip
While ACL args were resolved after all the config was parsed, it was not the
case with sample fetch args because they're almost everywhere now.
The issue is that ACLs now solely rely on sample fetches, so their args
resolving doesn't work anymore. And many fetches involving a server, a
proxy or a userlist don't work at all.
The real issue is that at the bottom layers we have no information about
proxies, line numbers, even ACLs in order to report understandable errors,
and that at the top layers we have no visibility over the locations where
fetches are referenced (think log node).
After failing multiple unsatisfying solutions attempts, we now have a new
concept of args list. The principle is that every proxy has a list head
which contains a number of indications such as the config keyword, the
context where it's used, the file and line number, etc... and a list of
arguments. This list head is of the same type as the elements, so it
serves as a template for adding new elements. This way, it is filled from
top to bottom by the callers with the information they have (eg: line
numbers, ACL name, ...) and the lower layers just have to duplicate it and
add an element when they face an argument they cannot resolve yet.
Then at the end of the configuration parsing, a loop passes over each
proxy's list and resolves all the args in sequence. And this way there is
all necessary information to report verbose errors.
The first immediate benefit is that for the first time we got very precise
location of issues (arg number in a keyword in its context, ...). Second,
in order to do this we had to parse log-format and unique-id-format a bit
earlier, so that was a great opportunity for doing so when the directives
are encountered (unless it's a default section). This way, the recorded
line numbers for these args are the ones of the place where the log format
is declared, not the end of the file.
Userlists report slightly more information now. They're the only remaining
ones in the ACL resolving function.
The acl_expr struct used to hold a pointer to the ACL keyword. But since
we now have all the relevant pointers, we don't need that anymore, we just
need the pointer to the keyword as a string in order to return warnings
and error messages.
So let's change this in order to remove the dependency on the acl_keyword
struct from acl_expr.
During this change, acl_cond_kw_conflicts() used to return a pointer to an
ACL keyword but had to be changed to return a const char* for the same reason.
ACL expressions now support "-m" in addition to "-i" and "-f". This new
option is followed by the name of the pattern matching method to be used
on the extracted pattern. This makes it possible to reuse existing sample
fetch methods with other matching methods (eg: regex). A "found" matching
method ignores any pattern and only verifies that the required sample was
found (useful for cookies).
The ACLs now use the fetch's ->use and ->val to decide upon compatibility
between the place where they are used and where the information are fetched.
The code is capable of reporting warnings about very fine incompatibilities
between certain fetches and an exact usage location, so it is expected that
some new warnings will be emitted on some existing configurations.
Two degrees of detection are provided :
- detecting ACLs that never match
- detecting keywords that are ignored
All tests show that this seems to work well, though bugs are still possible.
Proxy's acl_requires was a copy of all bits taken from ACLs, but we'll
get rid of ACL flags and only rely on sample fetches soon. The proxy's
acl_requires was only used to allocate an HTTP context when needed, and
was even forced in HTTP mode. So better have a flag which exactly says
what it's supposed to be used for.
These hooks, which established the relation between ACL_USE_* and the location
where the ACL were used, were never used because they were superseded with the
sample capabilities. Remove them now.
ACL fetch being inherited from the sample fetch keyword, we don't need
anymore to specify what function to use to validate the fetch arguments.
Note that the job is still done in the ACL parsing code based on elements
from the sample fetch structs.
Now that ACLs solely rely on sample fetch functions, make them use the
same arg mask. All inconsistencies have been fixed separately prior to
this patch, so this patch almost only adds a new pointer indirection
and removes all references to ARG*() in the definitions.
The parsing is still performed by the ACL code though.
ACL fetch functions used to directly reference a fetch function. Now
that all ACL fetches have their sample fetches equivalent, we can make
ACLs reference a sample fetch keyword instead.
In order to simplify the code, a sample keyword name may be NULL if it
is the same as the ACL's, which is the most common case.
A minor change appeared, http_auth always expects one argument though
the ACL allowed it to be missing and reported as such afterwards, so
fix the ACL to match this. This is not really a bug.
The file acl.c is a real mess, it both contains functions to parse and
process ACLs, and some sample extraction functions which act on buffers.
Some other payload analysers were arbitrarily dispatched to proto_tcp.c.
So now we're moving all payload-based fetches and ACLs to payload.c
which is capable of extracting data from buffers and rely on everything
that is protocol-independant. That way we can safely inflate this file
and only use the other ones when some fetches are really specific (eg:
HTTP, SSL, ...).
As a result of this cleanup, the following new sample fetches became
available even if they're not really useful :
always_false, always_true, rep_ssl_hello_type, rdp_cookie_cnt,
req_len, req_ssl_hello_type, req_ssl_sni, req_ssl_ver, wait_end
The function 'acl_fetch_nothing' was wrong and never used anywhere so it
was removed.
The "rdp_cookie" sample fetch used to have a mandatory argument while it
was optional in ACLs, which are supposed to iterate over RDP cookies. So
we're making it optional as a fetch too, and it will return the first one.
If a log-format involves some sample fetches that may not be present at
the logging instant, we can now report a warning.
Note that this is done both for log-format and for add-header and carefully
respects the original fetch keyword's capabilities.
Samples fetches were relying on two flags SMP_CAP_REQ/SMP_CAP_RES to describe
whether they were compatible with requests rules or with response rules. This
was never reliable because we need a finer granularity (eg: an HTTP request
method needs to parse an HTTP request, and is available past this point).
Some fetches are also dependant on the context (eg: "hdr" uses request or
response depending where it's involved, causing some abiguity).
In order to solve this, we need to precisely indicate in fetches what they
use, and their users will have to compare with what they have.
So now we have a bunch of bits indicating where the sample is fetched in the
processing chain, with a few variants indicating for some of them if it is
permanent or volatile (eg: an HTTP status is stored into the transaction so
it is permanent, despite being caught in the response contents).
The fetches also have a second mask indicating their validity domain. This one
is computed from a conversion table at registration time, so there is no need
for doing it by hand. This validity domain consists in a bitmask with one bit
set for each usage point in the processing chain. Some provisions were made
for upcoming controls such as connection-based TCP rules which apply on top of
the connection layer but before instantiating the session.
Then everywhere a fetch is used, the bit for the control point is checked in
the fetch's validity domain, and it becomes possible to finely ensure that a
fetch will work or not.
Note that we need these two separate bitfields because some fetches are usable
both in request and response (eg: "hdr", "payload"). So the keyword will have
a "use" field made of a combination of several SMP_USE_* values, which will be
converted into a wider list of SMP_VAL_* flags.
The knowledge of permanent vs dynamic information has disappeared for now, as
it was never used. Later we'll probably reintroduce it differently when
dealing with variables. Its only use at the moment could have been to avoid
caching a dynamic rate measurement, but nothing is cached as of now.
This flag is used on ACL matches that support being looking up patterns
in trees. At the moment, only strings and IPs support tree-based lookups,
but the flag is randomly set also on integers and binary data, and is not
even always set on strings nor IPs.
Better get rid of this mess by only relying on the matching function to
decide whether or not it supports tree-based lookups, this is safer and
easier to maintain.
TCP Fast Open is supported in server mode since Linux 3.7, but current
libc's don't define TCP_FASTOPEN=23. Introduce the new USE flag USE_TFO
to define it manually in compat.h. Also note this in the TFO related
documentation.
