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 INSTALLATION ON THE WIN32 PLATFORM
 ----------------------------------

 [Instructions for building for Windows CE can be found in INSTALL.WCE]
 [Instructions for building for Win64 can be found in INSTALL.W64]

 Here are a few comments about building OpenSSL for Win32 environments,
 such as Windows NT and Windows 9x. It should be noted though that
 Windows 9x are not ordinarily tested. Its mention merely means that we
 attempt to maintain certain programming discipline and pay attention
 to backward compatibility issues, in other words it's kind of expected
 to work on Windows 9x, but no regression tests are actually performed.

 On additional note newer OpenSSL versions are compiled and linked with
 Winsock 2. This means that minimum OS requirement was elevated to NT 4
 and Windows 98 [there is Winsock 2 update for Windows 95 though].

 - you need Perl for Win32.  Unless you will build on Cygwin, you will need
   ActiveState Perl, available from http://www.activestate.com/ActivePerl.

 - one of the following C compilers:

  * Visual C++
  * Borland C
  * GNU C (Cygwin or MinGW)

- Netwide Assembler, a.k.a. NASM, available from http://nasm.sourceforge.net/
  is required if you intend to utilize assembler modules. Note that NASM
  is now the only supported assembler.

 If you are compiling from a tarball or a Git snapshot then the Win32 files
 may well be not up to date. This may mean that some "tweaking" is required to
 get it all to work. See the trouble shooting section later on for if (when?)
 it goes wrong.

 Visual C++
 ----------

 If you want to compile in the assembly language routines with Visual
 C++, then you will need already mentioned Netwide Assembler binary,
 nasmw.exe or nasm.exe, to be available on your %PATH%.

 Firstly you should run Configure with platform VC-WIN32:

 > perl Configure VC-WIN32 --prefix=c:\some\openssl\dir

 Where the prefix argument specifies where OpenSSL will be installed to.

 Next you need to build the Makefiles and optionally the assembly
 language files:

 - If you are using NASM then run:

   > ms\do_nasm

 - If you don't want to use the assembly language files at all then run:

   > perl Configure VC-WIN32 no-asm --prefix=c:/some/openssl/dir
   > ms\do_ms

 If you get errors about things not having numbers assigned then check the
 troubleshooting section: you probably won't be able to compile it as it
 stands.

 Then from the VC++ environment at a prompt do:

 > nmake -f ms\ntdll.mak

 If all is well it should compile and you will have some DLLs and
 executables in out32dll. If you want to try the tests then do:
 
 > nmake -f ms\ntdll.mak test


 To install OpenSSL to the specified location do:

 > nmake -f ms\ntdll.mak install

 Tweaks:

 There are various changes you can make to the Win32 compile
 environment. By default the library is not compiled with debugging
 symbols. If you use the platform debug-VC-WIN32 instead of VC-WIN32
 then debugging symbols will be compiled in.

 By default in 1.0.0 OpenSSL will compile builtin ENGINES into the
 separate shared librariesy. If you specify the "enable-static-engine"
 option on the command line to Configure the shared library build
 (ms\ntdll.mak) will compile the engines into libeay32.dll instead.

 The default Win32 environment is to leave out any Windows NT specific
 features.

 If you want to enable the NT specific features of OpenSSL (currently
 only the logging BIO) follow the instructions above but call the batch
 file do_nt.bat instead of do_ms.bat.

 You can also build a static version of the library using the Makefile
 ms\nt.mak


 Borland C++ builder 5
 ---------------------

 * Configure for building with Borland Builder:
   > perl Configure BC-32

 * Create the appropriate makefile
   > ms\do_nasm

 * Build
   > make -f ms\bcb.mak

 Borland C++ builder 3 and 4
 ---------------------------

 * Setup PATH. First must be GNU make then bcb4/bin 

 * Run ms\bcb4.bat

 * Run make:
   > make -f bcb.mak

 GNU C (Cygwin)
 --------------

 Cygwin implements a Posix/Unix runtime system (cygwin1.dll) on top of
 Win32 subsystem and provides a bash shell and GNU tools environment.
 Consequently, a make of OpenSSL with Cygwin is virtually identical to
 Unix procedure. It is also possible to create Win32 binaries that only
 use the Microsoft C runtime system (msvcrt.dll or crtdll.dll) using
 MinGW. MinGW can be used in the Cygwin development environment or in a
 standalone setup as described in the following section.

 To build OpenSSL using Cygwin:

 * Install Cygwin (see http://cygwin.com/)

 * Install Perl and ensure it is in the path. Both Cygwin perl
   (5.6.1-2 or newer) and ActivePerl work.

 * Run the Cygwin bash shell

 * $ tar zxvf openssl-x.x.x.tar.gz
   $ cd openssl-x.x.x

   To build the Cygwin version of OpenSSL:

   $ ./config
   [...]
   $ make
   [...]
   $ make test
   $ make install

   This will create a default install in /usr/local/ssl.

   To build the MinGW version (native Windows) in Cygwin:

   $ ./Configure mingw
   [...]
   $ make
   [...]
   $ make test
   $ make install

 Cygwin Notes:

 "make test" and normal file operations may fail in directories
 mounted as text (i.e. mount -t c:\somewhere /home) due to Cygwin
 stripping of carriage returns. To avoid this ensure that a binary
 mount is used, e.g. mount -b c:\somewhere /home.

 "bc" is not provided in older Cygwin distribution.  This causes a
 non-fatal error in "make test" but is otherwise harmless.  If
 desired and needed, GNU bc can be built with Cygwin without change.

 GNU C (MinGW/MSYS)
 -------------

 * Compiler and shell environment installation:

   MinGW and MSYS are available from http://www.mingw.org/, both are
   required. Run the installers and do whatever magic they say it takes
   to start MSYS bash shell with GNU tools on its PATH.

   N.B. Since source tar-ball can contain symbolic links, it's essential
   that you use accompanying MSYS tar to unpack the source. It will
   either handle them in one way or another or fail to extract them,
   which does the trick too. Latter means that you may safely ignore all
   "cannot create symlink" messages, as they will be "re-created" at
   configure stage by copying corresponding files. Alternative programs
   were observed to create empty files instead, which results in build
   failure.

 * Compile OpenSSL:

   $ ./config
   [...]
   $ make
   [...]
   $ make test

   This will create the library and binaries in root source directory
   and openssl.exe application in apps directory.

   It is also possible to cross-compile it on Linux by configuring
   with './Configure --cross-compile-prefix=i386-mingw32- mingw ...'.
   'make test' is naturally not applicable then.

   libcrypto.a and libssl.a are the static libraries. To use the DLLs,
   link with libeay32.a and libssl32.a instead.

   See troubleshooting if you get error messages about functions not
   having a number assigned.

 Installation
 ------------

 If you used the Cygwin procedure above, you have already installed and
 can skip this section.  For all other procedures, there's currently no real
 installation procedure for Win32.  There are, however, some suggestions:

    - do nothing.  The include files are found in the inc32/ subdirectory,
      all binaries are found in out32dll/ or out32/ depending if you built
      dynamic or static libraries.

    - do as is written in INSTALL.Win32 that comes with modssl:

	$ md c:\openssl 
	$ md c:\openssl\bin
	$ md c:\openssl\lib
	$ md c:\openssl\include
	$ md c:\openssl\include\openssl
	$ copy /b inc32\openssl\*       c:\openssl\include\openssl
	$ copy /b out32dll\ssleay32.lib c:\openssl\lib
	$ copy /b out32dll\libeay32.lib c:\openssl\lib
	$ copy /b out32dll\ssleay32.dll c:\openssl\bin
	$ copy /b out32dll\libeay32.dll c:\openssl\bin
	$ copy /b out32dll\openssl.exe  c:\openssl\bin

      Of course, you can choose another device than c:.  C: is used here
      because that's usually the first (and often only) harddisk device.
      Note: in the modssl INSTALL.Win32, p: is used rather than c:.


 Troubleshooting
 ---------------

 Since the Win32 build is only occasionally tested it may not always compile
 cleanly.  If you get an error about functions not having numbers assigned
 when you run ms\do_ms then this means the Win32 ordinal files are not up to
 date. You can do:

 > perl util\mkdef.pl crypto ssl update

 then ms\do_XXX should not give a warning any more. However the numbers that
 get assigned by this technique may not match those that eventually get
 assigned in the Git tree: so anything linked against this version of the
 library may need to be recompiled.

 If you get errors about unresolved symbols there are several possible
 causes.

 If this happens when the DLL is being linked and you have disabled some
 ciphers then it is possible the DEF file generator hasn't removed all
 the disabled symbols: the easiest solution is to edit the DEF files manually
 to delete them. The DEF files are ms\libeay32.def ms\ssleay32.def.

 Another cause is if you missed or ignored the errors about missing numbers
 mentioned above.

 If you get warnings in the code then the compilation will halt.

 The default Makefile for Win32 halts whenever any warnings occur. Since VC++
 has its own ideas about warnings which don't always match up to other
 environments this can happen. The best fix is to edit the file with the
 warning in and fix it. Alternatively you can turn off the halt on warnings by
 editing the CFLAG line in the Makefile and deleting the /WX option.

 You might get compilation errors. Again you will have to fix these or report
 them.

 One final comment about compiling applications linked to the OpenSSL library.
 If you don't use the multithreaded DLL runtime library (/MD option) your
 program will almost certainly crash because malloc gets confused -- the
 OpenSSL DLLs are statically linked to one version, the application must
 not use a different one.  You might be able to work around such problems
 by adding CRYPTO_malloc_init() to your program before any calls to the
 OpenSSL libraries: This tells the OpenSSL libraries to use the same
 malloc(), free() and realloc() as the application.  However there are many
 standard library functions used by OpenSSL that call malloc() internally
 (e.g. fopen()), and OpenSSL cannot change these; so in general you cannot
 rely on CRYPTO_malloc_init() solving your problem, and you should
 consistently use the multithreaded library.

 Linking your application
 ------------------------

 If you link with static OpenSSL libraries [those built with ms/nt.mak],
 then you're expected to additionally link your application with
 WS2_32.LIB, GDI32.LIB, ADVAPI32.LIB, CRYPT32.LIB and USER32.LIB. Those
 developing non-interactive service applications might feel concerned about
 linking with GDI32.LIB and USER32.LIB, as they are justly associated with
 interactive desktop, which is not available to service processes. The toolkit
 is designed to detect in which context it's currently executed, GUI, console
 app or service, and act accordingly, namely whether or not to actually make
 GUI calls. Additionally those who wish to /DELAYLOAD:GDI32.DLL and
 /DELAYLOAD:USER32.DLL and actually keep them off service process should
 consider implementing and exporting from .exe image in question own
 _OPENSSL_isservice not relying on USER32.DLL. E.g., on Windows Vista and
 later you could:

	__declspec(dllexport) __cdecl BOOL _OPENSSL_isservice(void)
	{   DWORD sess;
	    if (ProcessIdToSessionId(GetCurrentProcessId(),&sess))
	        return sess==0;
	    return FALSE;
	}

 If you link with OpenSSL .DLLs, then you're expected to include into
 your application code small "shim" snippet, which provides glue between
 OpenSSL BIO layer and your compiler run-time. Look up OPENSSL_Applink
 reference page for further details.