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Add a data-independent variant of memcmp and a d-i memeq function.
The tor_memcmp code is by Robert Ransom, and the tor_memeq code is by me. Both incorporate some ideas from DJB's stuff.
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7
changes/bug3122_memcmp
Normal file
7
changes/bug3122_memcmp
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@ -0,0 +1,7 @@
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o Security fixes
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- Replace all potentially sensitive memory comparison operations
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with versions whose runtime does not depend on the data being
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compared. This will help resist a class of attacks where an
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adversary can use variations in timing information to learn
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sensitive data. Fix for one case of bug 3122. (Safe memcmp
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implementation by Robert Ransom based partially on code by DJB.)
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18
configure.in
18
configure.in
@ -626,6 +626,24 @@ if test "$tor_cv_twos_complement" != no ; then
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[Define to 1 iff we represent negative integers with two's complement])
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fi
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# What does shifting a negative value do?
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AC_CACHE_CHECK([whether right-shift on negative values does sign-extension], tor_cv_sign_extend,
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[AC_RUN_IFELSE([AC_LANG_SOURCE(
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[[int main () { int okay = (-60 >> 8) == -1; return okay ? 0 : 1; }]])],
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[tor_cv_sign_extend=yes],
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[tor_cv_sign_extend=no],
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[tor_cv_sign_extend=cross])])
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if test "$tor_cv_sign_extend" = cross ; then
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# Cross-compiling; let's hope that the target isn't raving mad.
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AC_MSG_NOTICE([Cross-compiling: we'll assume that right-shifting negative integers causes sign-extension])
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fi
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if test "$tor_cv_sign_extend" != no ; then
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AC_DEFINE([RSHIFT_DOES_SIGN_EXTEND], 1,
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[Define to 1 iff right-shifting a negative value performs sign-extension])
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fi
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# Whether we should use the dmalloc memory allocation debugging library.
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AC_MSG_CHECKING(whether to use dmalloc (debug memory allocation library))
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AC_ARG_WITH(dmalloc,
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@ -10,7 +10,7 @@ libor_extra_source=
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endif
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libor_a_SOURCES = address.c log.c util.c compat.c container.c mempool.c \
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memarea.c $(libor_extra_source)
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memarea.c di_ops.c $(libor_extra_source)
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libor_crypto_a_SOURCES = crypto.c aes.c tortls.c torgzip.c
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noinst_HEADERS = address.h log.h crypto.h test.h util.h compat.h aes.h torint.h tortls.h strlcpy.c strlcat.c torgzip.h container.h ht.h mempool.h memarea.h ciphers.inc
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noinst_HEADERS = address.h log.h crypto.h test.h util.h compat.h aes.h torint.h tortls.h strlcpy.c strlcat.c torgzip.h container.h ht.h mempool.h memarea.h di_ops.h ciphers.inc
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133
src/common/di_ops.c
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133
src/common/di_ops.c
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@ -0,0 +1,133 @@
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/* Copyright (c) 2011, The Tor Project, Inc. */
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/* See LICENSE for licensing information */
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/**
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* \file di_ops.c
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* \brief Functions for data-independent operations
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**/
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#include "orconfig.h"
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#include "di_ops.h"
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/**
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* Timing-safe version of memcmp. As memcmp, compare the <b>sz</b> bytes
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* at <b>a</b> with the <b>sz</b> bytes at <b>, and returns less than 0 if the
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* bytes at <b>a</b> lexically precede those at <b>b</b>, 0 if the byte ranges
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* are equal, and greater than zero if the bytes at <b>a</b> lexically follow
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* those at <b>.
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*
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* This implementation differs from memcmp in that its timing behavior is not
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* data-dependent: it should return in the same amount of time regardless of
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* the contents of <b>a</b> and <b>b</b>.
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*/
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int
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tor_memcmp(const void *a, const void *b, size_t len)
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{
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const uint8_t *x = a;
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const uint8_t *y = b;
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size_t i = len;
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int retval = 0;
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/* This loop goes from the end of the arrays to the start. At the
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* start of every iteration, before we decrement i, we have set
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* "retval" equal to the result of memcmp(a+i,b+i,len-i). During the
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* loop, we update retval by leaving it unchanged if x[i]==y[i] and
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* setting it to x[i]-y[i] if x[i]!= y[i].
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*
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* The following assumes we are on a system with two's-complement
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* arithmetic. We check for this at configure-time with the check
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* that sets USING_TWOS_COMPLEMENT. If we aren't two's complement, then
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* torint.h will stop compilation with an error.
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*/
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while (i--) {
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int v1 = x[i];
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int v2 = y[i];
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int equal_p = v1 ^ v2;
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/* The following sets bits 8 and above of equal_p to 'equal_p ==
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* 0', and thus to v1 == v2. (To see this, note that if v1 ==
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* v2, then v1^v2 == equal_p == 0, so equal_p-1 == -1, which is the
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* same as ~0 on a two's-complement machine. Then note that if
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* v1 != v2, then 0 < v1 ^ v2 < 256, so 0 <= equal_p - 1 < 255.)
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*/
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--equal_p;
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equal_p >>= 8;
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/* Thanks to (sign-preserving) arithmetic shift, equal_p is now
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* equal to -(v1 == v2), which is exactly what we need below.
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* (Since we're assuming two's-complement arithmetic, -1 is the
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* same as ~0 (all bits set).)
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*
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* (The result of an arithmetic shift on a negative value is
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* actually implementation-defined in standard C. So how do we
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* get away with assuming it? Easy. We check.) */
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#if ((-60 >> 8) != -1)
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#error "According to cpp, right-shift doesn't perform sign-extension."
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#endif
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#ifndef RSHIFT_DOES_SIGN_EXTEND
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#error "According to configure, right-shift doesn't perform sign-extension."
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#endif
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/* If v1 == v2, equal_p is ~0, so this will leave retval
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* unchanged; otherwise, equal_p is 0, so this will zero it. */
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retval &= equal_p;
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/* If v1 == v2, then this adds 0, and leaves retval unchanged.
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* Otherwise, we just zeroed retval, so this sets it to v1 - v2. */
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retval += (v1 - v2);
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/* There. Now retval is equal to its previous value if v1 == v2, and
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* equal to v1 - v2 if v1 != v2. */
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}
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return retval;
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}
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/**
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* Timing-safe memory comparison. Return true if the <b>sz</b> bytes at
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* <b>a</b> are the same as the <b>sz</b> bytes at <b>, and 0 otherwise.
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*
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* This implementation differs from !memcmp(a,b,sz) in that its timing
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* behavior is not data-dependent: it should return in the same amount of time
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* regardless of the contents of <b>a</b> and <b>b</b>. It differs from
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* !tor_memcmp(a,b,sz) by being faster.
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*/
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int
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tor_memeq(const void *a, const void *b, size_t sz)
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{
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/* Treat a and b as byte ranges. */
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const uint8_t *ba = a, *bb = b;
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uint32_t any_difference = 0;
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while (sz--) {
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/* Set byte_diff to all of those bits that are different in *ba and *bb,
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* and advance both ba and bb. */
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const uint8_t byte_diff = *ba++ ^ *bb++;
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/* Set bits in any_difference if they are set in byte_diff. */
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any_difference |= byte_diff;
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}
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/* Now any_difference is 0 if there are no bits different between
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* a and b, and is nonzero if there are bits different between a
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* and b. Now for paranoia's sake, let's convert it to 0 or 1.
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*
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* (If we say "!any_difference", the compiler might get smart enough
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* to optimize-out our data-independence stuff above.)
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*
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* To unpack:
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*
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* If any_difference == 0:
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* any_difference - 1 == ~0
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* (any_difference - 1) >> 8 == 0x00ffffff
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* 1 & ((any_difference - 1) >> 8) == 1
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*
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* If any_difference != 0:
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* 0 < any_difference < 256, so
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* 0 < any_difference - 1 < 255
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* (any_difference - 1) >> 8 == 0
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* 1 & ((any_difference - 1) >> 8) == 0
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*/
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return 1 & ((any_difference - 1) >> 8);
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}
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28
src/common/di_ops.h
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28
src/common/di_ops.h
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/* Copyright (c) 2003-2004, Roger Dingledine
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* Copyright (c) 2004-2006, Roger Dingledine, Nick Mathewson.
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* Copyright (c) 2007-2011, The Tor Project, Inc. */
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/* See LICENSE for licensing information */
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/**
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* \file di_ops.h
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* \brief Headers for di_ops.c
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**/
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#ifndef TOR_DI_OPS_H
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#define TOR_DI_OPS_H
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#include "orconfig.h"
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#include "torint.h"
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int tor_memcmp(const void *a, const void *b, size_t sz);
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int tor_memeq(const void *a, const void *b, size_t sz);
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#define tor_memneq(a,b,sz) (!tor_memeq((a),(b),(sz)))
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/** Alias for the platform's memcmp() function. This function is
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* <em>not</em> data-independent: we define this alias so that we can
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* mark cases where we are deliberately using a data-dependent memcmp()
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* implementation.
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*/
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#define fast_memcmp(a,b,c) (memcmp((a),(b),(c)))
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#endif
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@ -43,6 +43,7 @@ const char tor_svn_revision[] = "";
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#include "torgzip.h"
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#include "mempool.h"
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#include "memarea.h"
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#include "di_ops.h"
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#ifdef USE_DMALLOC
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#include <dmalloc.h>
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@ -1331,6 +1332,59 @@ test_util(void)
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;
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}
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static void
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test_util_di_ops(void)
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{
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#define LT -1
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#define GT 1
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#define EQ 0
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const struct {
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const char *a; int want_sign; const char *b;
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} examples[] = {
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{ "Foo", EQ, "Foo" },
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{ "foo", GT, "bar", },
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{ "foobar", EQ ,"foobar" },
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{ "foobar", LT, "foobaw" },
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{ "foobar", GT, "f00bar" },
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{ "foobar", GT, "boobar" },
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{ "", EQ, "" },
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{ NULL, 0, NULL },
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};
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int i;
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for (i = 0; examples[i].a; ++i) {
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size_t len = strlen(examples[i].a);
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int eq1, eq2, neq1, neq2, cmp1, cmp2;
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test_eq(len, strlen(examples[i].b));
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/* We do all of the operations, with operands in both orders. */
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eq1 = tor_memeq(examples[i].a, examples[i].b, len);
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eq2 = tor_memeq(examples[i].b, examples[i].a, len);
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neq1 = tor_memneq(examples[i].a, examples[i].b, len);
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neq2 = tor_memneq(examples[i].b, examples[i].a, len);
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cmp1 = tor_memcmp(examples[i].a, examples[i].b, len);
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cmp2 = tor_memcmp(examples[i].b, examples[i].a, len);
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/* Check for correctness of cmp1 */
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if (cmp1 < 0 && examples[i].want_sign != LT)
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test_fail();
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else if (cmp1 > 0 && examples[i].want_sign != GT)
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test_fail();
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else if (cmp1 == 0 && examples[i].want_sign != EQ)
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test_fail();
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/* Check for consistency of everything else with cmp1 */
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test_eq(eq1, eq2);
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test_eq(neq1, neq2);
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test_eq(cmp1, -cmp2);
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test_eq(eq1, cmp1 == 0);
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test_eq(neq1, !eq1);
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}
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done:
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;
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}
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/** Helper: assert that IPv6 addresses <b>a</b> and <b>b</b> are the same. On
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* failure, reports an error, describing the addresses as <b>e1</b> and
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* <b>e2</b>, and reporting the line number as <b>line</b>. */
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@ -4753,6 +4807,7 @@ static struct {
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SUBENT(crypto, aes_iv),
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SUBENT(crypto, base32_decode),
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ENT(util),
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SUBENT(util, di_ops),
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SUBENT(util, ip6_helpers),
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SUBENT(util, gzip),
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SUBENT(util, datadir),
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