123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213 |
- * System libcrypto.dylib and libssl.dylib are used by system ld on MacOS X.
- NOTE: The problem described here only applies when OpenSSL isn't built
- with shared library support (i.e. without the "shared" configuration
- option). If you build with shared library support, you will have no
- problems as long as you set up DYLD_LIBRARY_PATH properly at all times.
- This is really a misfeature in ld, which seems to look for .dylib libraries
- along the whole library path before it bothers looking for .a libraries. This
- means that -L switches won't matter unless OpenSSL is built with shared
- library support.
- The workaround may be to change the following lines in apps/Makefile and
- test/Makefile:
- LIBCRYPTO=-L.. -lcrypto
- LIBSSL=-L.. -lssl
- to:
- LIBCRYPTO=../libcrypto.a
- LIBSSL=../libssl.a
- It's possible that something similar is needed for shared library support
- as well. That hasn't been well tested yet.
- Another solution that many seem to recommend is to move the libraries
- /usr/lib/libcrypto.0.9.dylib, /usr/lib/libssl.0.9.dylib to a different
- directory, build and install OpenSSL and anything that depends on your
- build, then move libcrypto.0.9.dylib and libssl.0.9.dylib back to their
- original places. Note that the version numbers on those two libraries
- may differ on your machine.
- As long as Apple doesn't fix the problem with ld, this problem building
- OpenSSL will remain as is. Well, the problem was addressed in 0.9.8f by
- passing -Wl,-search_paths_first, but it's unknown if the flag was
- supported from the initial MacOS X release.
- * Parallell make leads to errors
- While running tests, running a parallell make is a bad idea. Many test
- scripts use the same name for output and input files, which means different
- will interfere with each other and lead to test failure.
- The solution is simple for now: don't run parallell make when testing.
- * Bugs in gcc triggered
- - According to a problem report, there are bugs in gcc 3.0 that are
- triggered by some of the code in OpenSSL, more specifically in
- PEM_get_EVP_CIPHER_INFO(). The triggering code is the following:
- header+=11;
- if (*header != '4') return(0); header++;
- if (*header != ',') return(0); header++;
- What happens is that gcc might optimize a little too agressively, and
- you end up with an extra incrementation when *header != '4'.
- We recommend that you upgrade gcc to as high a 3.x version as you can.
- - According to multiple problem reports, some of our message digest
- implementations trigger bug[s] in code optimizer in gcc 3.3 for sparc64
- and gcc 2.96 for ppc. Former fails to complete RIPEMD160 test, while
- latter - SHA one.
- The recomendation is to upgrade your compiler. This naturally applies to
- other similar cases.
- - There is a subtle Solaris x86-specific gcc run-time environment bug, which
- "falls between" OpenSSL [0.9.8 and later], Solaris ld and GCC. The bug
- manifests itself as Segmentation Fault upon early application start-up.
- The problem can be worked around by patching the environment according to
- http://www.openssl.org/~appro/values.c.
- * solaris64-sparcv9-cc SHA-1 performance with WorkShop 6 compiler.
- As subject suggests SHA-1 might perform poorly (4 times slower)
- if compiled with WorkShop 6 compiler and -xarch=v9. The cause for
- this seems to be the fact that compiler emits multiplication to
- perform shift operations:-( To work the problem around configure
- with './Configure solaris64-sparcv9-cc -DMD32_REG_T=int'.
- * Problems with hp-parisc2-cc target when used with "no-asm" flag
- When using the hp-parisc2-cc target, wrong bignum code is generated.
- This is due to the SIXTY_FOUR_BIT build being compiled with the +O3
- aggressive optimization.
- The problem manifests itself by the BN_kronecker test hanging in an
- endless loop. Reason: the BN_kronecker test calls BN_generate_prime()
- which itself hangs. The reason could be tracked down to the bn_mul_comba8()
- function in bn_asm.c. At some occasions the higher 32bit value of r[7]
- is off by 1 (meaning: calculated=shouldbe+1). Further analysis failed,
- as no debugger support possible at +O3 and additional fprintf()'s
- introduced fixed the bug, therefore it is most likely a bug in the
- optimizer.
- The bug was found in the BN_kronecker test but may also lead to
- failures in other parts of the code.
- (See Ticket #426.)
- Workaround: modify the target to +O2 when building with no-asm.
- * Problems building shared libraries on SCO OpenServer Release 5.0.6
- with gcc 2.95.3
- The symptoms appear when running the test suite, more specifically
- test/ectest, with the following result:
- OSSL_LIBPATH="`cd ..; pwd`"; LD_LIBRARY_PATH="$OSSL_LIBPATH:$LD_LIBRARY_PATH"; DYLD_LIBRARY_PATH="$OSSL_LIBPATH:$DYLD_LIBRARY_PATH"; SHLIB_PATH="$OSSL_LIBPATH:$SHLIB_PATH"; LIBPATH="$OSSL_LIBPATH:$LIBPATH"; if [ "debug-sco5-gcc" = "Cygwin" ]; then PATH="${LIBPATH}:$PATH"; fi; export LD_LIBRARY_PATH DYLD_LIBRARY_PATH SHLIB_PATH LIBPATH PATH; ./ectest
- ectest.c:186: ABORT
- The cause of the problem seems to be that isxdigit(), called from
- BN_hex2bn(), returns 0 on a perfectly legitimate hex digit. Further
- investigation shows that any of the isxxx() macros return 0 on any
- input. A direct look in the information array that the isxxx() use,
- called __ctype, shows that it contains all zeroes...
- Taking a look at the newly created libcrypto.so with nm, one can see
- that the variable __ctype is defined in libcrypto's .bss (which
- explains why it is filled with zeroes):
- $ nm -Pg libcrypto.so | grep __ctype
- __ctype B 0011659c
- __ctype2 U
- Curiously, __ctype2 is undefined, in spite of being declared in
- /usr/include/ctype.h in exactly the same way as __ctype.
- Any information helping to solve this issue would be deeply
- appreciated.
- NOTE: building non-shared doesn't come with this problem.
- * ULTRIX build fails with shell errors, such as "bad substitution"
- and "test: argument expected"
- The problem is caused by ULTRIX /bin/sh supporting only original
- Bourne shell syntax/semantics, and the trouble is that the vast
- majority is so accustomed to more modern syntax, that very few
- people [if any] would recognize the ancient syntax even as valid.
- This inevitably results in non-trivial scripts breaking on ULTRIX,
- and OpenSSL isn't an exclusion. Fortunately there is workaround,
- hire /bin/ksh to do the job /bin/sh fails to do.
- 1. Trick make(1) to use /bin/ksh by setting up following environ-
- ment variables *prior* you execute ./Configure and make:
- PROG_ENV=POSIX
- MAKESHELL=/bin/ksh
- export PROG_ENV MAKESHELL
- or if your shell is csh-compatible:
- setenv PROG_ENV POSIX
- setenv MAKESHELL /bin/ksh
- 2. Trick /bin/sh to use alternative expression evaluator. Create
- following 'test' script for example in /tmp:
- #!/bin/ksh
- ${0##*/} "$@"
- Then 'chmod a+x /tmp/test; ln /tmp/test /tmp/[' and *prepend*
- your $PATH with chosen location, e.g. PATH=/tmp:$PATH. Alter-
- natively just replace system /bin/test and /bin/[ with the
- above script.
- * hpux64-ia64-cc fails blowfish test.
- Compiler bug, presumably at particular patch level. It should be noted
- that same compiler generates correct 32-bit code, a.k.a. hpux-ia64-cc
- target. Drop optimization level to +O2 when compiling 64-bit bf_skey.o.
- * no-engines generates errors.
- Unfortunately, the 'no-engines' configuration option currently doesn't
- work properly. Use 'no-hw' and you'll will at least get no hardware
- support. We'll see how we fix that on OpenSSL versions past 0.9.8.
- * 'make test' fails in BN_sqr [commonly with "error 139" denoting SIGSEGV]
- if elder GNU binutils were deployed to link shared libcrypto.so.
- As subject suggests the failure is caused by a bug in elder binutils,
- either as or ld, and was observed on FreeBSD and Linux. There are two
- options. First is naturally to upgrade binutils, the second one - to
- reconfigure with additional no-sse2 [or 386] option passed to ./config.
- * If configured with ./config no-dso, toolkit still gets linked with -ldl,
- which most notably poses a problem when linking with dietlibc.
- We don't have framework to associate -ldl with no-dso, therefore the only
- way is to edit Makefile right after ./config no-dso and remove -ldl from
- EX_LIBS line.
- * hpux-parisc2-cc no-asm build fails with SEGV in ECDSA/DH.
- Compiler bug, presumably at particular patch level. Remaining
- hpux*-parisc*-cc configurations can be affected too. Drop optimization
- level to +O2 when compiling bn_nist.o.
- * solaris64-sparcv9-cc link failure
- Solaris 8 ar can fail to maintain symbol table in .a, which results in
- link failures. Apply 109147-09 or later or modify Makefile generated
- by ./Configure solaris64-sparcv9-cc and replace RANLIB assignment with
- RANLIB= /usr/ccs/bin/ar rs
|