We now have the following enums and all related functions return them and
consume them :
enum pat_match_res {
PAT_NOMATCH = 0, /* sample didn't match any pattern */
PAT_MATCH = 3, /* sample matched at least one pattern */
};
enum acl_test_res {
ACL_TEST_FAIL = 0, /* test failed */
ACL_TEST_MISS = 1, /* test may pass with more info */
ACL_TEST_PASS = 3, /* test passed */
};
enum acl_cond_pol {
ACL_COND_NONE, /* no polarity set yet */
ACL_COND_IF, /* positive condition (after 'if') */
ACL_COND_UNLESS, /* negative condition (after 'unless') */
};
It's just in order to avoid doubts when reading some code.
This patch just renames functions, types and enums. No code was changed.
A significant number of files were touched, especially the ACL arrays,
so it is likely that some external patches will not apply anymore.
One important thing is that we had to split ACL_PAT_* into two groups :
- ACL_TEST_{PASS|MISS|FAIL}
- PAT_{MATCH|UNMATCH}
A future patch will enforce enums on all these places to avoid confusion.
This patch just moves code without any change.
The ACL are just the association between sample and pattern. The pattern
contains the match method and the parse method. These two things are
different. This patch cleans the code by splitting it.
This is mainly a massive renaming in the code to get it in line with the
calling convention. Next patch will rename a few files to complete this
operation.
This way, fetch functions will be able to tell if they're called for a single
request or as part of a loop. This is important for instance when we use
hdr(foo), because in an ACL this means that all hdr(foo) occurrences must
be checked while in a pattern it means only one of them (eg: last one).
Patterns were using a bitmask to indicate if request or response was desired
in fetch functions and keywords. ACLs were using a bitmask in fetch keywords
and a single bit in fetch functions. ACLs were also using an ACL_PARTIAL bit
in fetch functions indicating that a non-final fetch was performed, which was
an abuse of the existing direction flag.
The change now consists in using :
- a capabilities field for fetch keywords => SMP_CAP_REQ/RES to indicate
if a keyword supports requests, responses, both, etc...
- an option field for fetch functions to indicate what the caller expects
(request/response, final/non-final)
The ACL_PARTIAL bit was reversed to get SMP_OPT_FINAL as it's more explicit
to know we're working on a final buffer than on a non-final one.
ACL_DIR_* were removed, as well as PATTERN_FETCH_*. L4 fetches were improved
to support being called on responses too since they're still available.
The <dir> field of all fetch functions was changed to <opt> which is now
unsigned.
The patch is large but mostly made of cosmetic changes to accomodate this, as
almost no logic change happened.
Now there is no more reference to union pattern_data. All pattern fetch and
conversion functions now make use of the common sample type. Note: none of
them adjust the type right now so it's important to do it next otherwise
we would risk sharing such functions with ACLs and seeing them fail.
This change is pretty minor. Struct pattern is only used for
pattern_process() now so changing it to use the common type is
quite obvious. It's worth noting that the last argument of
pattern_process() is never used so the function is self-sufficient.
Note that pattern_process() does not initialize the pattern at all
before calling fetch->process(), and that minimal initialization
will be required when we later change the argument for the sample.
These ones were either unused or improperly used. Some integers were marked
read-only, which does not make much sense. Buffers are not read-only, they're
"constant" in that they must be kept intact after any possible change.
The new sample types are necessary for the acl-pattern convergence.
These types are boolean and signed int. Some types were renamed for
less ambiguity (ip->ipv4, integer->uint).
The pattern type is ambiguous because a pattern is only a type and a data
part, and is normally used to match against samples. Currently, patterns
cannot hold information related to the life of the data which was extracted.
We don't want to overload patterns either, so let's add a new "sample" type
which will progressively supersede the acl_test and maybe the pattern at most
places. The sample shares similar information with patterns and also has flags
describing the data volatility and protection.
This is used to validate that arguments are coherent. For instance,
payload_lv expects that the last arg (if any) is not more negative
than the sum of the first two. The error is reported if any.
We don't need the pattern-specific args parsers anymore, make use of the
common parser instead. We still need to improve this by adding a validation
function to report abnormal argument values or combinations. We don't report
precise parsing errors yet but this was not previously done either.
arg_i was almost unused, and since we migrated to use struct arg everywhere,
the rare cases where arg_i was needed could be replaced by switching to
arg->type = ARGT_STOP.
Till now the pattern data integer type was unsigned without any
particular reason. In order to make ACLs use it, we must switch it
to signed int instead.
Since IPv6 is a different type than IPv4, the pattern fetch functions
src6 and dst6 were added. IPv6 stick-tables can also fetch IPv4 addresses
with src and dst. In this case, the IPv4 addresses are mapped to their
IPv6 counterpart, according to RFC 4291.
Ross West reported that int32_t breaks compilation on FreeBSD. Since an
int is 32-bit on all supported platforms and we already rely on that,
change the type.
Enhance pattern convs and fetch argument parsing, now fetchs and convs callbacks used typed args.
Add more details on error messages on parsing pattern expression function.
Update existing pattern convs and fetchs to new proto.
Create stick table key type "binary".
Manage Truncation and padding if pattern's fetch-converted result don't match table key size.
Some converters will need one or several arguments. It's not possible
to write a simple generic parser for that, so let's add the ability
for each converter to support its own argument parser, and call it
to get the arguments when it's specified. If unspecified, the arguments
are passed unmodified as string+len.
The pattern type converters currently support a string arg and a length.
Sometimes we'll prefer to pass them a list or a structure. So let's convert
the string and length into a generic void* and int that each converter may
use as it likes.
