mirror of
https://github.com/PurpleI2P/i2pd.git
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190 lines
6.6 KiB
Markdown
190 lines
6.6 KiB
Markdown
Building on Windows
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=========================
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There are two approaches available to build i2pd on Windows. The best
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one depends on your needs and personal preferences. One is to use
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msys2 and [unix alike infrastructure](build_notes_unix.md). Another
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one is to use Visual Studio. While there might be no difference for
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end users of i2pd daemon, developers, however, shall be wary of
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differences in C++ name mangling between the two compilers when making
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a choice to be able to link their software against libi2pd.
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If you are a stranger to C++ with no development tools installed on
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your system and your only goal is to have i2pd up and running from the
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most recent source, consider using msys2. Although it relies on
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command line operations, it should be straight forward.
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In this guide, we will use CMake for both approaches and we will
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assume that you typically have your projects in C:\dev\ as your
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development location for the sake of convenience. Adjust paths
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accordingly if it is not the case. Note that msys uses unix-alike
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paths like /c/dev/ for C:\dev\.
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msys2
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-----
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### x86 (32-bit architecture)
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Get install file msys2-i686-20150916.exe from https://msys2.github.io.
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open MSYS2 Shell (from Start menu).
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Install all prerequisites and download i2pd source:
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```bash
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pacman -S mingw-w64-i686-boost mingw-w64-i686-openssl mingw-w64-i686-gcc git make
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mkdir -p /c/dev/i2pd
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cd /c/dev/i2pd
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git clone https://github.com/PurpleI2P/i2pd.git
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cd i2pd
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export PATH=/mingw32/bin:/usr/bin # we need compiler on PATH which is usually heavily cluttered on Windows
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make
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```
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### x64 (64-bit architecture)
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Get install file msys2-x86_64-20150916.exe from https://msys2.github.io.
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open MSYS2 Shell (from Start menu).
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Install all prerequisites and download i2pd source:
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```bash
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pacman -S mingw-w64-x86_64-boost mingw-w64-x86_64-openssl mingw-w64-x86_64-gcc git make
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mkdir -p /c/dev/i2pd
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cd /c/dev/i2pd
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git clone https://github.com/PurpleI2P/i2pd.git
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cd i2pd
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export PATH=/mingw64/bin:/usr/bin # we need compiler on PATH which is usually heavily cluttered on Windows
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make
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```
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### Caveats
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It is important to restrict PATH as described above. If you have
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Strawberry Perl and/or Mercurial installed, it will pick up gcc &
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openssl from the wrong places.
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If you do use precompiled headers to speed up compilation
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(recommended), things can go wrong if compiler options have changed
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for whatever reason. Just delete `stdafx.h.gch` found in your build
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folder, note the file extension.
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If you are an Arch Linux user, refrain from updating system with
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`pacman -Syu`. Always update runtime separately as described on the
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home page, otherwise you might end up with DLLs incompatibility
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problems.
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### AES-NI
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If your processor has
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[AES instruction set](https://en.wikipedia.org/wiki/AES_instruction_set),
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you use `make USE_AESNI=1`. No check is done however, it
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will compile, but it might crash with `Illegal instruction` if not supported.
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You should be able to run ./i2pd . If you need to start from the new
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shell, consider starting *MinGW-w64 Win32 Shell* instead of *MSYS2 Shell* as
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it adds`/minw32/bin` to the PATH.
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Using Visual Studio
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-------------------
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Requirements for building:
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* [CMake](https://cmake.org/) (tested with 3.1.3)
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* [Visual Studio Community Edition](https://www.visualstudio.com/en-us/products/visual-studio-community-vs.aspx) (tested with VS2013 Update 4)
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* [Boost](http://www.boost.org/) (tested with 1.59)
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* Optionally [MiniUPnP](http://miniupnp.free.f) (tested with 1.9), we need only few client headers
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* OpenSSL (tested with 1.0.1p and 1.0.2e), if building from sources (recommended), you'll need as well
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* [Netwide assembler](www.nasm.us)
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* Strawberry Perl or ActiveState Perl, do NOT try msys2 perl, it won't work
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### Building Boost
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Open a Command Prompt (there is no need to start Visual Studio command
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prompt to build Boost) and run the following:
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cd C:\dev\boost
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bootstrap
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b2 toolset=msvc-12.0 --build-type=complete --with-filesystem --with-program_options --with-regex --with-date_time
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If you are on 64-bit Windows and you want to build 64-bit version as well
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b2 toolset=msvc-12.0 --build-type=complete --stagedir=stage64 address-model=64 --with-filesystem --with-program_options --with-regex --with-date_time
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After Boost is compiled, set the environment variable `BOOST_ROOT` to
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the directory Boost was unpacked to, e.g., C:\dev\boost.
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If you are planning on building only particular variant, e.g. Debug
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only and static linking, and/or you are out of space/time, you might
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consider `--build-type=minimal`. Take a look at
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[appveyor.yml](../appveyor.yml) for details on how test builds are done.
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### Building OpenSSL
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Download OpenSSL, e.g. with git
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git clone https://github.com/openssl/openssl.git
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cd openssl
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git checkout OpenSSL_1_0_1p
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Now open Visual Studio command prompt and change directory to that with OpenSSL
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set "PATH=%PATH%;C:\Program Files (x86)\nasm"
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perl Configure VC-WIN32 --prefix=c:\OpenSSL-Win32
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ms\do_nasm
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nmake -f ms\ntdll.mak
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nmake -f ms\ntdll.mak install
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You should have it installed into C:\OpenSSL-Win32 by now.
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Note that you might consider providing `-DOPENSSL_ROOT_DIR` to CMake
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and/or create a symlink (with mklink /J) to C:\OpenSSL if you plan on
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maintaining multiple versions, e.g. 64 bit and/or
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static/shared. Consult `C:\Program Files
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(x86)\CMake\share\cmake-3.3\Modules\FindOpenSSL.cmake` for details.
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### Get miniupnpc
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If you are behind a UPnP enabled router and don't feel like manually
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configuring port forwarding, you should consider using
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[MiniUPnP](http://miniupnp.free.fr) client. I2pd can be built capable
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of using miniupnpc shared library (DLL) to open up necessary
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port. You'd want to have include headers around to build i2pd with
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support for this. Unpack client source code in a sibling folder,
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e.g. C:\dev\miniupnpc . You may want to remove version number from
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folder name included in downloaded archive.
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Note that you might need to build DLL yourself for 64-bit systems
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using msys2 as 64-bit DLLs are not provided by the project.
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### Creating Visual Studio project
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Start CMake GUI, navigate to i2pd directory, choose building directory, e.g. ./out, and configure options.
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Alternatively, if you feel adventurous, try that from the command line
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```
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cd <i2pd_dir>
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mkdir out
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cd out
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cmake ..\build -G "Visual Studio 12 2013" -DWITH_UPNP=ON -DWITH_PCH=ON -DCMAKE_INSTALL_PREFIX:PATH=C:\dev\Debug_Win32_stage
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```
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WITH_UPNP will stay off, if necessary files are not found.
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### Building i2pd
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You can open generated solution/project with Visual Studio and build
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from there, alternatively you can use `cmake --build . --config Release --target install` or
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[MSBuild tool](https://msdn.microsoft.com/en-us/library/dd293626.aspx)
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`msbuild i2pd.sln /p:Configuration=Release`.
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