mirror of
https://github.com/openssl/openssl.git
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cf6342bc02
Those links were probably broken by some changes to the sanitizer of the [github/markup] module. [github/markup]: https://github.com/github/markup/#github-markup Reviewed-by: Hugo Landau <hlandau@openssl.org> Reviewed-by: Richard Levitte <levitte@openssl.org> (Merged from https://github.com/openssl/openssl/pull/22725)
274 lines
9.5 KiB
Markdown
274 lines
9.5 KiB
Markdown
Notes for Windows platforms
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===========================
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- [Native builds using Visual C++](#native-builds-using-visual-c)
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- [Native builds using Embarcadero C++Builder](
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#native-builds-using-embarcadero-cbuilder)
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- [Native builds using MinGW](#native-builds-using-mingw)
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- [Linking native applications](#linking-native-applications)
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- [Hosted builds using Cygwin](#hosted-builds-using-cygwin)
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There are various options to build and run OpenSSL on the Windows platforms.
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"Native" OpenSSL uses the Windows APIs directly at run time.
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To build a native OpenSSL you can either use:
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Microsoft Visual C++ (MSVC) C compiler on the command line
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or
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Embarcadero C++Builder
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or
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MinGW cross compiler
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run on the GNU-like development environment MSYS2
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or run on Linux or Cygwin
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"Hosted" OpenSSL relies on an external POSIX compatibility layer
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for building (using GNU/Unix shell, compiler, and tools) and at run time.
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For this option, you can use Cygwin.
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Native builds using Visual C++
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==============================
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The native builds using Visual C++ have a `VC-*` prefix.
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Requirement details
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-------------------
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In addition to the requirements and instructions listed in `INSTALL.md`,
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these are required as well:
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### Perl
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We recommend Strawberry Perl, available from <http://strawberryperl.com/>
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Please read NOTES.PERL for more information, including the use of CPAN.
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An alternative is ActiveState Perl, <https://www.activestate.com/ActivePerl>
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for which you may need to explicitly build the Perl module Win32/Console.pm
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via <https://platform.activestate.com/ActiveState> and then download it.
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### Microsoft Visual C compiler.
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Since these are proprietary and ever-changing we cannot test them all.
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Older versions may not work. Use a recent version wherever possible.
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### Netwide Assembler (NASM)
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NASM is the only supported assembler. It is available from <https://www.nasm.us>.
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Quick start
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-----------
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1. Install Perl
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2. Install NASM
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3. Make sure both Perl and NASM are on your %PATH%
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4. Use Visual Studio Developer Command Prompt with administrative privileges,
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choosing one of its variants depending on the intended architecture.
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Or run `cmd` and execute `vcvarsall.bat` with one of the options `x86`,
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`x86_amd64`, `x86_arm`, `x86_arm64`, `amd64`, `amd64_x86`, `amd64_arm`,
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or `amd64_arm64`.
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This sets up the environment variables needed for `nmake.exe`, `cl.exe`,
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etc.
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See also
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<https://docs.microsoft.com/cpp/build/building-on-the-command-line>
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5. From the root of the OpenSSL source directory enter
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- `perl Configure VC-WIN32` if you want 32-bit OpenSSL or
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- `perl Configure VC-WIN64A` if you want 64-bit OpenSSL or
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- `perl Configure VC-WIN64-ARM` if you want Windows on Arm (win-arm64)
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OpenSSL or
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- `perl Configure VC-WIN64-CLANGASM-ARM` if you want Windows on Arm (win-arm64)
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OpenSSL with assembly support using clang-cl as assembler or
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- `perl Configure VC-CLANG-WIN64-CLANGASM-ARM` if you want Windows on Arm (win-arm64)
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OpenSSL using clang-cl as both compiler and assembler or
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- `perl Configure VC-WIN32-HYBRIDCRT` if you want 32-bit OpenSSL dependent
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on the Universal CRT or
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- `perl Configure VC-WIN64A-HYBRIDCRT` if you want 64-bit OpenSSL dependent
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on the Universal CRT or
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- `perl Configure` to let Configure figure out the platform
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6. `nmake`
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7. `nmake test`
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8. `nmake install`
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For the full installation instructions, or if anything goes wrong at any stage,
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check the INSTALL.md file.
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Installation directories
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------------------------
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The default installation directories are derived from environment
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variables.
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For VC-WIN32, the following defaults are use:
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PREFIX: %ProgramFiles(x86)%\OpenSSL
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OPENSSLDIR: %CommonProgramFiles(x86)%\SSL
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For VC-WIN64, the following defaults are use:
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PREFIX: %ProgramW6432%\OpenSSL
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OPENSSLDIR: %CommonProgramW6432%\SSL
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Should those environment variables not exist (on a pure Win32
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installation for examples), these fallbacks are used:
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PREFIX: %ProgramFiles%\OpenSSL
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OPENSSLDIR: %CommonProgramFiles%\SSL
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ALSO NOTE that those directories are usually write protected, even if
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your account is in the Administrators group. To work around that,
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start the command prompt by right-clicking on it and choosing "Run as
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Administrator" before running `nmake install`. The other solution
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is, of course, to choose a different set of directories by using
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`--prefix` and `--openssldir` when configuring.
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Special notes for Universal Windows Platform builds, aka `VC-*-UWP`
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-------------------------------------------------------------------
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- UWP targets only support building the static and dynamic libraries.
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- You should define the platform type to `uwp` and the target arch via
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`vcvarsall.bat` before you compile. For example, if you want to build
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`arm64` builds, you should run `vcvarsall.bat x86_arm64 uwp`.
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Native builds using Embarcadero C++Builder
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=========================================
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This toolchain (a descendant of Turbo/Borland C++) is an alternative to MSVC.
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OpenSSL currently includes an experimental 32-bit configuration targeting the
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Clang-based compiler (`bcc32c.exe`) in v10.3.3 Community Edition.
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<https://www.embarcadero.com/products/cbuilder/starter>
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1. Install Perl.
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2. Open the RAD Studio Command Prompt.
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3. Go to the root of the OpenSSL source directory and run:
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`perl Configure BC-32 --prefix=%CD%`
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4. `make -N`
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5. `make -N test`
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6. Build your program against this OpenSSL:
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* Set your include search path to the "include" subdirectory of OpenSSL.
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* Set your library search path to the OpenSSL source directory.
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Note that this is very experimental. Support for 64-bit and other Configure
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options is still pending.
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Native builds using MinGW
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=========================
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MinGW offers an alternative way to build native OpenSSL, by cross compilation.
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* Usually the build is done on Windows in a GNU-like environment called MSYS2.
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MSYS2 provides GNU tools, a Unix-like command prompt,
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and a UNIX compatibility layer for applications.
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However, in this context it is only used for building OpenSSL.
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The resulting OpenSSL does not rely on MSYS2 to run and is fully native.
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Requirement details
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- MSYS2 shell, from <https://www.msys2.org/>
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- Perl, at least version 5.10.0, which usually comes pre-installed with MSYS2
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- make, installed using `pacman -S make` into the MSYS2 environment
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- MinGW[64] compiler: `mingw-w64-i686-gcc` and/or `mingw-w64-x86_64-gcc`.
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These compilers must be on your MSYS2 $PATH.
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A common error is to not have these on your $PATH.
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The MSYS2 version of gcc will not work correctly here.
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In the MSYS2 shell do the configuration depending on the target architecture:
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./Configure mingw ...
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or
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./Configure mingw64 ...
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or
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./Configure ...
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for the default architecture.
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Apart from that, follow the Unix / Linux instructions in `INSTALL.md`.
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* It is also possible to build mingw[64] on Linux or Cygwin.
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In this case configure with the corresponding `--cross-compile-prefix=`
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option. For example
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./Configure mingw --cross-compile-prefix=i686-w64-mingw32- ...
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or
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./Configure mingw64 --cross-compile-prefix=x86_64-w64-mingw32- ...
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This requires that you've installed the necessary add-on packages for
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mingw[64] cross compilation.
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Linking native applications
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===========================
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This section applies to all native builds.
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If you link with static OpenSSL libraries, then you're expected to
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additionally link your application with `WS2_32.LIB`, `GDI32.LIB`,
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`ADVAPI32.LIB`, `CRYPT32.LIB` and `USER32.LIB`. Those developing
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non-interactive service applications might feel concerned about
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linking with `GDI32.LIB` and `USER32.LIB`, as they are justly associated
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with interactive desktop, which is not available to service
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processes. The toolkit is designed to detect in which context it's
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currently executed, GUI, console app or service, and act accordingly,
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namely whether to actually make GUI calls. Additionally, those
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who wish to `/DELAYLOAD:GDI32.DLL` and `/DELAYLOAD:USER32.DLL` and
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actually keep them off service process should consider implementing
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and exporting from .exe image in question own `_OPENSSL_isservice` not
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relying on `USER32.DLL`. E.g., on Windows Vista and later you could:
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__declspec(dllexport) __cdecl BOOL _OPENSSL_isservice(void)
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{
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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 a small "shim" snippet, which provides
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the glue between the OpenSSL BIO layer and your compiler run-time.
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See also the OPENSSL_Applink manual page.
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Hosted builds using Cygwin
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==========================
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Cygwin implements a POSIX/Unix runtime system (`cygwin1.dll`) on top of the
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Windows subsystem and provides a Bash shell and GNU tools environment.
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Consequently, a build of OpenSSL with Cygwin is virtually identical to the
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Unix procedure.
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To build OpenSSL using Cygwin, you need to:
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* Install Cygwin, see <https://cygwin.com/>
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* Install Cygwin Perl, at least version 5.10.0
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and ensure it is in the $PATH
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* Run the Cygwin Bash shell
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Apart from that, follow the Unix / Linux instructions in INSTALL.md.
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NOTE: `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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