Although there are good reasons for our policy of including postgres.h
as the first #include in every .c file, never from .h files, there are
two places where it seems expedient to violate the policy because the
alternative is to modify externally-supplied .c files. (In the case
of the regexp library, the idea that it's externally-supplied is kind
of at odds with reality, but I haven't entirely given up hope that it
will become a standalone project some day.) Add some comments to make
it explicit that this is a policy violation and provide the reasoning.
In passing, move #include "miscadmin.h" out of regcomp.c and into
regcustom.h, which is where it should be if we're taking this reasoning
seriously at all.
Discussion: https://postgr.es/m/CAEepm=2zCoeq3QxVwhS5DFeUh=yU6z81pbWMgfOB8OzyiBwxzw@mail.gmail.com
Discussion: https://postgr.es/m/11634.1488932128@sss.pgh.pa.us
Previously, we failed to recognize Unicode characters above U+7FF as
being members of locale-dependent character classes such as [[:alpha:]].
(Actually, the same problem occurs for large pg_wchar values in any
multibyte encoding, but UTF8 is the only case people have actually
complained about.) It's impractical to get Spencer's original code to
handle character classes or ranges containing many thousands of characters,
because it insists on considering each member character individually at
regex compile time, whether or not the character will ever be of interest
at run time. To fix, choose a cutoff point MAX_SIMPLE_CHR below which
we process characters individually as before, and deal with entire ranges
or classes as single entities above that. We can actually make things
cheaper than before for chars below the cutoff, because the color map can
now be a simple linear array for those chars, rather than the multilevel
tree structure Spencer designed. It's more expensive than before for
chars above the cutoff, because we must do a binary search in a list of
high chars and char ranges used in the regex pattern, plus call iswalpha()
and friends for each locale-dependent character class used in the pattern.
However, multibyte encodings are normally designed to give smaller codes
to popular characters, so that we can expect that the slow path will be
taken relatively infrequently. In any case, the speed penalty appears
minor except when we have to apply iswalpha() etc. to high character codes
at runtime --- and the previous coding gave wrong answers for those cases,
so whether it was faster is moot.
Tom Lane, reviewed by Heikki Linnakangas
Discussion: <15563.1471913698@sss.pgh.pa.us>
The regex library used to have a notion of a "collating element" that was
distinct from a "character", but Henry Spencer never actually implemented
his planned support for multi-character collating elements, and the Tcl
crew ripped out most of the stubs for that years ago. The only thing left
that distinguished the "celt" typedef from the "chr" typedef was that
"celt" was supposed to also be able to hold the not-a-character "NOCELT"
value. However, NOCELT was not used anywhere after the MCCE stub removal
changes, which means there's no need for celt to be different from chr.
Removing the separate typedef simplifies matters and also removes a trap
for the unwary, in that celt is signed while chr may not be, so comparisons
could mean different things. There's no bug there today because we
restrict CHR_MAX to be less than INT_MAX, but I think there may have been
such bugs before we did that, and there could be again if anyone ever
decides to fool with the range of chr.
This patch also removes assorted unnecessary casts to "chr" of values
that are already chrs. Many of these seem to be leftover from days when
the code was compatible with pre-ANSI C.
Reportedly, some compilers warn about tests like "c < 0" if c is unsigned,
and hence complain about the character range checks I added in commit
3bb3f42f3749d40b8d4de65871e8d828b18d4a45. This is a bit of a pain since
the regex library doesn't really want to assume that chr is unsigned.
However, since any such reconfiguration would involve manual edits of
regcustom.h anyway, we can put it on the shoulders of whoever wants to
do that to adjust this new range-checking macro correctly.
Per gripes from Coverity and Andres.
Previously, our regex code defined CHR_MAX as 0xfffffffe, which is a
bad choice because it is outside the range of type "celt" (int32).
Characters approaching that limit could lead to infinite loops in logic
such as "for (c = a; c <= b; c++)" where c is of type celt but the
range bounds are chr. Such loops will work safely only if CHR_MAX+1
is representable in celt, since c must advance to beyond b before the
loop will exit.
Fortunately, there seems no reason not to restrict CHR_MAX to 0x7ffffffe.
It's highly unlikely that Unicode will ever assign codes that high, and
none of our other backend encodings need characters beyond that either.
In addition to modifying the macro, we have to explicitly enforce character
range restrictions on the values of \u, \U, and \x escape sequences, else
the limit is trivially bypassed.
Also, the code for expanding case-independent character ranges in bracket
expressions had a potential integer overflow in its calculation of the
number of characters it could generate, which could lead to allocating too
small a character vector and then overwriting memory. An attacker with the
ability to supply arbitrary regex patterns could easily cause transient DOS
via server crashes, and the possibility for privilege escalation has not
been ruled out.
Quite aside from the integer-overflow problem, the range expansion code was
unnecessarily inefficient in that it always produced a result consisting of
individual characters, abandoning the knowledge that we had a range to
start with. If the input range is large, this requires excessive memory.
Change it so that the original range is reported as-is, and then we add on
any case-equivalent characters that are outside that range. With this
approach, we can bound the number of individual characters allowed without
sacrificing much. This patch allows at most 100000 individual characters,
which I believe to be more than the number of case pairs existing in
Unicode, so that the restriction will never be hit in practice.
It's still possible for range() to take awhile given a large character code
range, so also add statement-cancel detection to its loop. The downstream
function dovec() also lacked cancel detection, and could take a long time
given a large output from range().
Per fuzz testing by Greg Stark. Back-patch to all supported branches.
Security: CVE-2016-0773
locale-dependent character classification properly when the database encoding
is UTF8.
The previous coding worked okay in single-byte encodings, or in any case for
ASCII characters, but failed entirely on multibyte characters. The fix
assumes that the <wctype.h> functions use Unicode code points as the wchar
representation for Unicode, ie, wchar matches pg_wchar.
This is only a partial solution, since we're still stupid about non-ASCII
characters in multibyte encodings other than UTF8. The practical effect
of that is limited, however, since those cases are generally Far Eastern
glyphs for which concepts like case-folding don't apply anyway. Certainly
all or nearly all of the field reports of problems have been about UTF8.
A more general solution would require switching to the platform's wchar
representation for all regex operations; which is possible but would have
substantial disadvantages. Let's try this and see if it's sufficient in
practice.
was Tcl 8.4.8. The main changes are to remove the never-fully-implemented
code for multi-character collating elements, and to const-ify some stuff a
bit more fully. In combination with the recent security patch, this commit
brings us into line with Tcl 8.5.0.
Note that I didn't make any effort to duplicate a lot of cosmetic changes
that they made to bring their copy into line with their own style
guidelines, such as adding braces around single-line IF bodies. Most of
those we either had done already (such as ANSI-fication of function headers)
or there is no point because pgindent would undo the change anyway.
are converted to Postgres Assert() macros, instead of using <assert.h>
as formerly. No difference in production builds, but --enable-cassert
debug builds will get better coverage for regex testing.
conversion of basic ASCII letters. Remove all uses of strcasecmp and
strncasecmp in favor of new functions pg_strcasecmp and pg_strncasecmp;
remove most but not all direct uses of toupper and tolower in favor of
pg_toupper and pg_tolower. These functions use the same notions of
case folding already developed for identifier case conversion. I left
the straight locale-based folding in place for situations where we are
just manipulating user data and not trying to match it to built-in
strings --- for example, the SQL upper() function is still locale
dependent. Perhaps this will prove not to be what's wanted, but at
the moment we can initdb and pass regression tests in Turkish locale.
(extracted from Tcl 8.4.1 release, as Henry still hasn't got round to
making it a separate library). This solves a performance problem for
multibyte, as well as upgrading our regexp support to match recent Tcl
and nearly match recent Perl.
