compression identity is already present among the registered
compression methods, and if so, reject the addition request.
Declare SSL_COMP_get_compression_method() so it can be used properly.
Change ssltest.c so it checks what compression methods are available
and enumerates them. As a side-effect, built-in compression methods
will be automagically loaded that way. Additionally, change the
identities for ZLIB and RLE to be conformant to
draft-ietf-tls-compression-05.txt.
Finally, make update.
Next on my list: have the built-in compression methods added
"automatically" instead of requiring that the author call
SSL_COMP_add_compression_method() or
SSL_COMP_get_compression_methods().
It was not accepted because code is not PIC, too UltraSPARC-specific when
it doesn't have to and 32-bit only. I'm committing the original version
mostly for reference purposes. 64, PIC, blended CPU tune-up follows shortly.
Obtained from: http://inet.uni2.dk/~svolaf/des.htm
(before SSLeay, maybe?), it's better to have that macro protect
the compatibility header des_old.h. In the new des.h, let's use
a slightly different protecting macro.
The rationale is that there are application that might include (via
other header files, perhaps) both an old libdes des.h and OpenSSL's
des.h. Whichever comes first would overshadow the other because of
the clash in protecting macro. This fix solves that problem.
Correct misspelled VXWORKS macros.
Add VXWORKS identifying macros to e_os2.h.
Add required inclusions and mappings for VxWorks in e_os.h.
A few small modifications to make OpenSSL build and work on VxWorks.
PR: 253, except for the change that was handled in an earlier
commit, and a request for easy build of just parts of OpenSSL.
functions in ui_compat. This gave reason to rework that part more
thoroughly, so here are the changes made:
1. Add DES_read_password() and DES_read_2passwords() with the same
functionality as the corresponding old des_ functions, as a
convenience to the users.
2. Add UI_UTIL_read_pw_string() and UI_UTIL_read_pw() with the
functionality from des_read_pw_string() and des_read_pw(), again as
a concenience to the users.
3. Rename des_read_password(), des_read_2passwords(),
des_read_pw_string() and des_read_pw() by changing des_ to
_ossl_old_des_, and add the usual mapping macros.
4. Move the implementation of des_read_password() and
des_read_2passwords() to the des directory, since they are tightly
tied to DES anyway.
This change was inspired by a patch from Assar Westerlund <assar@sics.se>:
There are some functions that didn't get the kick-away-old-des-and-
replace-des-with-DES action. Here's a patch that adds DES_ and des_
(in des_old.h) versions of des_read_pw_string et al. This patch
includes some of the first des_old.h semi-colon macro fixes that I've
already sent.
This patch makes the macros in des_old.h actually pretend to be
functions.
There's no reason not to define _ossl_old_crypt when using
PERL5/FreeBSD/darwin/Next, since it makes using crypt and including
des.h break. Here's a trivial patch.
This patch fixes some of the typos used in macro names in des_old.h
and the number of arguments for some of them.
libdes (which is still used out there) or other des implementations,
the OpenSSL DES functions are renamed to begin with DES_ instead of
des_. Compatibility routines are provided and declared by including
openssl/des_old.h. Those declarations are the same as were in des.h
when the OpenSSL project started, which is exactly how libdes looked
at that time, and hopefully still looks today.
The compatibility functions will be removed in some future release, at
the latest in version 1.0.
DES's keyschedules.
I know these two should be separate, and I'll back out the DES changes if they
are deemed to be an error.
Note that there is a memory leak lurking in SSL somewhere in this version.
like des_read_password and friends (backward compatibility functions
using this new API are provided). The purpose is to remove prompting
functions from the DES code section as well as provide for prompting
through dialog boxes in a window system and the like.
des_encrypt() and des_encrypt() defined on some systems (Solaris and
Unixware and maybe others), we rename des_encrypt() to des_encrypt1().
This should have very little impact on external software unless
someone has written a mode of DES, since that's all des_encrypt() is
meant for.
functions on platform were that's the best way to handle exporting
global variables in shared libraries. To enable this functionality,
one must configure with "EXPORT_VAR_AS_FN" or defined the C macro
"OPENSSL_EXPORT_VAR_AS_FUNCTION" in crypto/opensslconf.h (the latter
is normally done by Configure or something similar).
To implement a global variable, use the macro OPENSSL_IMPLEMENT_GLOBAL
in the source file (foo.c) like this:
OPENSSL_IMPLEMENT_GLOBAL(int,foo)=1;
OPENSSL_IMPLEMENT_GLOBAL(double,bar);
To declare a global variable, use the macros OPENSSL_DECLARE_GLOBAL
and OPENSSL_GLOBAL_REF in the header file (foo.h) like this:
OPENSSL_DECLARE_GLOBAL(int,foo);
#define foo OPENSSL_GLOBAL_REF(foo)
OPENSSL_DECLARE_GLOBAL(double,bar);
#define bar OPENSSL_GLOBAL_REF(bar)
The #defines are very important, and therefore so is including the
header file everywere where the defined globals are used.
The macro OPENSSL_EXPORT_VAR_AS_FUNCTION also affects the definition
of ASN.1 items, but that structure is a bt different.
The largest change is in util/mkdef.pl which has been enhanced with
better and easier to understand logic to choose which symbols should
go into the Windows .def files as well as a number of fixes and code
cleanup (among others, algorithm keywords are now sorted
lexicographically to avoid constant rewrites).
and make all files the depend on it include it without prefixing it
with openssl/.
This means that all Makefiles will have $(TOP) as one of the include
directories.