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326 lines
12 KiB
Plaintext
326 lines
12 KiB
Plaintext
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INSTALLATION ON THE WIN32 PLATFORM
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----------------------------------
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[Instructions for building for Windows CE can be found in INSTALL.WCE]
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[Instructions for building for Win64 can be found in INSTALL.W64]
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Here are a few comments about building OpenSSL for Win32 environments,
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such as Windows NT and Windows 9x. It should be noted though that
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Windows 9x are not ordinarily tested. Its mention merely means that we
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attempt to maintain certain programming discipline and pay attention
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to backward compatibility issues, in other words it's kind of expected
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to work on Windows 9x, but no regression tests are actually performed.
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On additional note newer OpenSSL versions are compiled and linked with
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Winsock 2. This means that minimum OS requirement was elevated to NT 4
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and Windows 98 [there is Winsock 2 update for Windows 95 though].
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- you need Perl for Win32. Unless you will build on Cygwin, you will need
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ActiveState Perl, available from http://www.activestate.com/ActivePerl.
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- one of the following C compilers:
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* Visual C++
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* Borland C
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* GNU C (Cygwin or MinGW)
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- Netwide Assembler, a.k.a. NASM, available from http://nasm.sourceforge.net/
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is required if you intend to utilize assembler modules. Note that NASM
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is now the only supported assembler.
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If you are compiling from a tarball or a Git snapshot then the Win32 files
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may well be not up to date. This may mean that some "tweaking" is required to
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get it all to work. See the trouble shooting section later on for if (when?)
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it goes wrong.
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Visual C++
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----------
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If you want to compile in the assembly language routines with Visual
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C++, then you will need already mentioned Netwide Assembler binary,
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nasmw.exe or nasm.exe, to be available on your %PATH%.
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Firstly you should run Configure with platform VC-WIN32:
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> perl Configure VC-WIN32 --prefix=c:\some\openssl\dir
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Where the prefix argument specifies where OpenSSL will be installed to.
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Next you need to build the Makefiles and optionally the assembly
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language files:
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- If you are using NASM then run:
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> ms\do_nasm
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- If you don't want to use the assembly language files at all then run:
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> perl Configure VC-WIN32 no-asm --prefix=c:/some/openssl/dir
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> ms\do_ms
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If you get errors about things not having numbers assigned then check the
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troubleshooting section: you probably won't be able to compile it as it
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stands.
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Then from the VC++ environment at a prompt do:
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> nmake -f ms\ntdll.mak
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If all is well it should compile and you will have some DLLs and
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executables in out32dll. If you want to try the tests then do:
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> nmake -f ms\ntdll.mak test
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To install OpenSSL to the specified location do:
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> nmake -f ms\ntdll.mak install
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Tweaks:
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There are various changes you can make to the Win32 compile
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environment. By default the library is not compiled with debugging
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symbols. If you use the platform debug-VC-WIN32 instead of VC-WIN32
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then debugging symbols will be compiled in.
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By default in 1.0.0 OpenSSL will compile builtin ENGINES into the
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separate shared librariesy. If you specify the "enable-static-engine"
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option on the command line to Configure the shared library build
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(ms\ntdll.mak) will compile the engines into libeay32.dll instead.
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The default Win32 environment is to leave out any Windows NT specific
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features.
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If you want to enable the NT specific features of OpenSSL (currently
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only the logging BIO) follow the instructions above but call the batch
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file do_nt.bat instead of do_ms.bat.
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You can also build a static version of the library using the Makefile
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ms\nt.mak
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Borland C++ builder 5
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---------------------
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* Configure for building with Borland Builder:
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> perl Configure BC-32
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* Create the appropriate makefile
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> ms\do_nasm
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* Build
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> make -f ms\bcb.mak
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Borland C++ builder 3 and 4
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---------------------------
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* Setup PATH. First must be GNU make then bcb4/bin
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* Run ms\bcb4.bat
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* Run make:
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> make -f bcb.mak
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GNU C (Cygwin)
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--------------
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Cygwin implements a Posix/Unix runtime system (cygwin1.dll) on top of
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Win32 subsystem and provides a bash shell and GNU tools environment.
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Consequently, a make of OpenSSL with Cygwin is virtually identical to
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Unix procedure. It is also possible to create Win32 binaries that only
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use the Microsoft C runtime system (msvcrt.dll or crtdll.dll) using
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MinGW. MinGW can be used in the Cygwin development environment or in a
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standalone setup as described in the following section.
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To build OpenSSL using Cygwin:
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* Install Cygwin (see http://cygwin.com/)
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* Install Perl and ensure it is in the path. Both Cygwin perl
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(5.6.1-2 or newer) and ActivePerl work.
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* Run the Cygwin bash shell
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* $ tar zxvf openssl-x.x.x.tar.gz
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$ cd openssl-x.x.x
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To build the Cygwin version of OpenSSL:
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$ ./config
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[...]
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$ make
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[...]
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$ make test
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$ make install
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This will create a default install in /usr/local/ssl.
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To build the MinGW version (native Windows) in Cygwin:
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$ ./Configure mingw
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[...]
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$ make
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[...]
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$ make test
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$ make install
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Cygwin Notes:
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"make test" and normal file operations may fail in directories
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mounted as text (i.e. mount -t c:\somewhere /home) due to Cygwin
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stripping of carriage returns. To avoid this ensure that a binary
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mount is used, e.g. mount -b c:\somewhere /home.
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"bc" is not provided in older Cygwin distribution. This causes a
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non-fatal error in "make test" but is otherwise harmless. If
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desired and needed, GNU bc can be built with Cygwin without change.
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GNU C (MinGW/MSYS)
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-------------
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* Compiler and shell environment installation:
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MinGW and MSYS are available from http://www.mingw.org/, both are
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required. Run the installers and do whatever magic they say it takes
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to start MSYS bash shell with GNU tools on its PATH.
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N.B. Since source tar-ball can contain symbolic links, it's essential
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that you use accompanying MSYS tar to unpack the source. It will
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either handle them in one way or another or fail to extract them,
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which does the trick too. Latter means that you may safely ignore all
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"cannot create symlink" messages, as they will be "re-created" at
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configure stage by copying corresponding files. Alternative programs
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were observed to create empty files instead, which results in build
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failure.
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* Compile OpenSSL:
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$ ./config
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[...]
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$ make
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[...]
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$ make test
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This will create the library and binaries in root source directory
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and openssl.exe application in apps directory.
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It is also possible to cross-compile it on Linux by configuring
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with './Configure --cross-compile-prefix=i386-mingw32- mingw ...'.
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'make test' is naturally not applicable then.
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libcrypto.a and libssl.a are the static libraries. To use the DLLs,
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link with libeay32.a and libssl32.a instead.
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See troubleshooting if you get error messages about functions not
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having a number assigned.
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Installation
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------------
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If you used the Cygwin procedure above, you have already installed and
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can skip this section. For all other procedures, there's currently no real
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installation procedure for Win32. There are, however, some suggestions:
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- do nothing. The include files are found in the inc32/ subdirectory,
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all binaries are found in out32dll/ or out32/ depending if you built
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dynamic or static libraries.
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- do as is written in INSTALL.Win32 that comes with modssl:
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$ md c:\openssl
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$ md c:\openssl\bin
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$ md c:\openssl\lib
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$ md c:\openssl\include
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$ md c:\openssl\include\openssl
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$ copy /b inc32\openssl\* c:\openssl\include\openssl
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$ copy /b out32dll\ssleay32.lib c:\openssl\lib
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$ copy /b out32dll\libeay32.lib c:\openssl\lib
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$ copy /b out32dll\ssleay32.dll c:\openssl\bin
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$ copy /b out32dll\libeay32.dll c:\openssl\bin
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$ copy /b out32dll\openssl.exe c:\openssl\bin
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Of course, you can choose another device than c:. C: is used here
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because that's usually the first (and often only) harddisk device.
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Note: in the modssl INSTALL.Win32, p: is used rather than c:.
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Troubleshooting
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---------------
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Since the Win32 build is only occasionally tested it may not always compile
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cleanly. If you get an error about functions not having numbers assigned
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when you run ms\do_ms then this means the Win32 ordinal files are not up to
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date. You can do:
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> perl util\mkdef.pl crypto ssl update
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then ms\do_XXX should not give a warning any more. However the numbers that
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get assigned by this technique may not match those that eventually get
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assigned in the Git tree: so anything linked against this version of the
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library may need to be recompiled.
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If you get errors about unresolved symbols there are several possible
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causes.
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If this happens when the DLL is being linked and you have disabled some
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ciphers then it is possible the DEF file generator hasn't removed all
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the disabled symbols: the easiest solution is to edit the DEF files manually
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to delete them. The DEF files are ms\libeay32.def ms\ssleay32.def.
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Another cause is if you missed or ignored the errors about missing numbers
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mentioned above.
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If you get warnings in the code then the compilation will halt.
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The default Makefile for Win32 halts whenever any warnings occur. Since VC++
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has its own ideas about warnings which don't always match up to other
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environments this can happen. The best fix is to edit the file with the
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warning in and fix it. Alternatively you can turn off the halt on warnings by
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editing the CFLAG line in the Makefile and deleting the /WX option.
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You might get compilation errors. Again you will have to fix these or report
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them.
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One final comment about compiling applications linked to the OpenSSL library.
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If you don't use the multithreaded DLL runtime library (/MD option) your
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program will almost certainly crash because malloc gets confused -- the
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OpenSSL DLLs are statically linked to one version, the application must
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not use a different one. You might be able to work around such problems
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by adding CRYPTO_malloc_init() to your program before any calls to the
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OpenSSL libraries: This tells the OpenSSL libraries to use the same
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malloc(), free() and realloc() as the application. However there are many
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standard library functions used by OpenSSL that call malloc() internally
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(e.g. fopen()), and OpenSSL cannot change these; so in general you cannot
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rely on CRYPTO_malloc_init() solving your problem, and you should
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consistently use the multithreaded library.
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Linking your application
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------------------------
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If you link with static OpenSSL libraries [those built with ms/nt.mak],
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then you're expected to additionally link your application with
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WS2_32.LIB, ADVAPI32.LIB, GDI32.LIB and USER32.LIB. Those developing
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non-interactive service applications might feel concerned about linking
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with the latter two, as they are justly associated with interactive
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desktop, which is not available to service processes. The toolkit is
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designed to detect in which context it's currently executed, GUI,
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console app or service, and act accordingly, namely whether or not to
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actually make GUI calls. Additionally those who wish to
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/DELAYLOAD:GDI32.DLL and /DELAYLOAD:USER32.DLL and actually keep them
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off service process should consider implementing and exporting from
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.exe image in question own _OPENSSL_isservice not relying on USER32.DLL.
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E.g., on Windows Vista and later you could:
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__declspec(dllexport) __cdecl BOOL _OPENSSL_isservice(void)
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{ DWORD sess;
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if (ProcessIdToSessionId(GetCurrentProcessId(),&sess))
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return sess==0;
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return FALSE;
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}
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If you link with OpenSSL .DLLs, then you're expected to include into
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your application code small "shim" snippet, which provides glue between
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OpenSSL BIO layer and your compiler run-time. Look up OPENSSL_Applink
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reference page for further details.
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