-
Notifications
You must be signed in to change notification settings - Fork 119
How to build CCTBX on Windows
Contents
This document describes how to build CCTBX from sources on Windows 7 or more recent versions. We cover how to build manually as well how to build automatically with BuildBot. Given that Windows does not have all the necessary tools for building CCTBX, how to set up these tools is covered here in some detail.
A typical CCTBX installation takes up the order of 1Gb disk space. If you build CCTBX from scratch including an installer this will be of the order of 6Gb. Throughout this document the "command prompt" (archaichally termed the "DOS prompt" by some) refers to the commandline interpreter program, cmd.exe, which serves the same purpose as bash or tcsh on Unix. On the Startup menu it is located in the "Accessories" group.
To build CCTBX from scratch the following tools are required:
- Python 2.7 (any version)
- Microsoft Visual C++ 9.0 / Microsoft Visual Studio 2008
- TortoiseSVN with command line tools ( for updating sources )
- TortoiseGit (optionally)
- Git ( for updating sources and providing some unix command line tools)
- mtee.exe (optionally for duplicating stdout to file and console)
Microsoft Visual Studio 2008 compiler is available for free in the Windows 7
SDK from the Microsoft website:
https://www.microsoft.com/en-gb/download/details.aspx?id=3138&fa43d42b-25b5-4a42-fe9b-1634f450f5ee=True .
It should be titled "Microsoft Windows SDK for Windows 7 and .NET Framework 3.5 SP1".
Rather than doing the automated installation from the website it may be convenient to
download the DVD iso image of the SDK and then do the installation
from that. The 32 bit version is named
GRMSDK_EN_DVD.iso
whereas the 64 bit version is named GRMSDKX_EN_DVD.iso
.
There are newer versions of this SDK for Windows 7. But as these use more recent
C-runtime libraries compiled programs may not be binary compatible with Python 2.7 which
is compiled with Visual C++ 9.0. You would still be able to build individual statically
linked executables with those newer compilers. But whether or not compiled python modules
can run without crashing using a newer runtime is questionable. After installing the
compiler it can be invoked once environment variables have been set by calling scripts
such as vcvars32.bat
or vcvars64.bat
from a command prompt or in a build script prior
to compiling. These files live in the folder
C:\Program Files (x86)\Microsoft Visual Studio 9.0\VC\bin
The OpenSSH tools used for the Windows build are the ones that come with Git for Windows. If Git has been installed in
C:\Program Files\Git
then OpenSSH tools live in the directory
C:\Program Files\Git\usr\bin
which you must add to the %PATH% environment variable. To have the build run without interrupts the private keys matching your public keys on the remote svn or git repositories must be loaded prior to the build with ssh-agent. Create a .ssh directory in the directory pointed to by the %USERPROFILE% environment variable and store your private keys there. Then add the lines
call "C:\Program Files\Git\cmd\start-ssh-agent.cmd" SETX SSH_AUTH_SOCK "%SSH_AUTH_SOCK%" SETX SSH_AGENT_PID "%SSH_AGENT_PID%"
to your logon.cmd file. When you log on it will pick up the private keys in your %USERPROFILE%\.ssh
folder.
If keys require password you will be prompted for them when you logon to the PC. If a key, say
mykey_rsa
, is not picked up it can be loaded explicitly by adding the line
ssh-add mykey_rsa
just below the above 3 lines.
If you want to build CCTBX from an existing installation on Windows located say in
C:\Users\Mike\CCTBX\cctbx-installer-dev-983
and do not intend to get updated sources
from remote repositories follow these steps:
- Open a command prompt and go to
C:\users\Mike\CCTBX\cctbx-installer-dev-983\build
.- Run one of the
vcvarsXX.bat
scripts depending on the platform .- Run
setpaths.bat
- Run libtbx.scons -j <nproc>.
Below is a cmd script for manually building CCTBX with bootstrap.py. It first downloads the base components, HDF5 and Python, installs them, then downloads sources from external repositories, compiles them, runs tests and finally creates a zipped up bundle of the sources and the compiled CCTBX files. It is assumed the script is started with command line arguments specifying platform and optionally a version label.
CCTBXBuild.cmd
@REM Call script with argument x32 or x64 to specify platform. Optional 2nd argument is the release number, e.g. 123.456 @REM SETLOCAL ENABLEDELAYEDEXPANSION @REM enable the platform specific compiler and python executable set MYPLATFORM=%1 IF DEFINED MYPLATFORM ( IF %MYPLATFORM% == x32 ( call "C:\Program Files (x86)\Microsoft Visual Studio 9.0\VC\bin\vcvars32.bat" set PYTHONEXE=C:\Python27_32\python.exe ) IF %MYPLATFORM% == x64 ( call "C:\Program Files (x86)\Microsoft Visual Studio 9.0\VC\bin\vcvars64.bat" set PYTHONEXE=C:\Python27_64\python.exe ) ) @REM Platform specific compiler and python executable now set mkdir %MYPLATFORM% cd %MYPLATFORM% %PYTHONEXE% -c "import time; print '-' + str((int((time.time() - 1404950400) / (24*60*60))))" > buildnumber.txt SET /p BUILDNUMBER= < buildnumber.txt %PYTHONEXE% -c "import time; print 'dev-' + str((int((time.time() - 1404950400) / (24*60*60))))" > version.txt SET RELEASENUMBER=%2 IF DEFINED RELEASENUMBER ( SET CCTBXVERSION=!RELEASENUMBER!!BUILDNUMBER! ) ELSE ( SET CCTBXVERSION=dev!BUILDNUMBER! ) title Bootstrap %CCTBXVERSION% on %MYPLATFORM% @REM mkdir %CCTBXVERSION% @REM cd %CCTBXVERSION% mkdir Current del *.log cd Current @echo %DATE% %TIME% > ..\build%CCTBXVERSION%-%MYPLATFORM%.log @REM get latest bootstrap.py file set GETBOOTSTRAP=%3 IF DEFINED GETBOOTSTRAP ( @echo Get bootstrap.py | mtee /+ ..\build%CCTBXVERSION%-%MYPLATFORM%.log ( curl https://raw.githubusercontent.com/cctbx/cctbx_project/master/libtbx/auto_build/bootstrap.py > bootstrap.py ) 2>&1 ^ | mtee /+ ..\build%CCTBXVERSION%-%MYPLATFORM%.log ) @REM with no flags bootstrap defaults to doing cleanup, hot, update, base and build stages title Bootstrap %CCTBXVERSION% on %MYPLATFORM% build @echo %DATE% %TIME% >> ..\build%CCTBXVERSION%-%MYPLATFORM%.log %PYTHONEXE% bootstrap.py --builder=cctbx --nproc=10 2>&1 ^ | mtee /+ ..\build%CCTBXVERSION%-%MYPLATFORM%.log IF ERRORLEVEL 1 ( GOTO Makesummary ) @echo %DATE% %TIME% | mtee /+ ..\build%CCTBXVERSION%-%MYPLATFORM%.log @REM run tests title Bootstrap %CCTBXVERSION% on %MYPLATFORM% tests @echo %DATE% %TIME% > ..\tests%CCTBXVERSION%-%MYPLATFORM%.log %PYTHONEXE% bootstrap.py --builder=cctbx --nproc=10 tests 2>&1 ^ | mtee /+ ..\tests%CCTBXVERSION%-%MYPLATFORM%.log IF ERRORLEVEL 1 ( GOTO Makesummary ) @echo %DATE% %TIME% | mtee /+ ..\tests%CCTBXVERSION%-%MYPLATFORM%.log @REM create installer title Bootstrap %CCTBXVERSION% on %MYPLATFORM% create_installer @echo %DATE% %TIME% > ..\CreateInstaller%CCTBXVERSION%-%MYPLATFORM%.log call build\bin\libtbx.create_installer.bat --binary --version %CCTBXVERSION% ^ --install_script modules\cctbx_project\libtbx\auto_build\plus_installer.py ^ --dist_dir dist\%CCTBXVERSION% tmp/cctbx-installer-%CCTBXVERSION%-win7vc90 2>&1 ^ | mtee /+ ..\CreateInstaller%CCTBXVERSION%-%MYPLATFORM%.log IF ERRORLEVEL 1 ( GOTO Makesummary ) @echo %DATE% %TIME% | mtee /+ ..\CreateInstaller%CCTBXVERSION%-%MYPLATFORM%.log :Makesummary @echo %CCTBXVERSION%-%MYPLATFORM% > ..\summary.log %PYTHONEXE% -c "lines = open('..\\build%CCTBXVERSION%-%MYPLATFORM%.log','r').readlines(); lastlines = lines[(len(lines) - 5): ]; print ''.join(lastlines); " >> ..\summary.log %PYTHONEXE% -c "lines = open('..\\tests%CCTBXVERSION%-%MYPLATFORM%.log','r').readlines(); lastlines = lines[(len(lines) - 5): ]; print ''.join(lastlines); " >> ..\summary.log %PYTHONEXE% -c "lines = open('..\\CreateInstaller%CCTBXVERSION%-%MYPLATFORM%.log','r').readlines(); lastlines = lines[(len(lines) - 20): ]; print ''.join(lastlines); " >> ..\summary.log REM print concatenated summary of logfiles in a message box type ..\summary.log | msg %USERNAME% /time:86400 @ENDLOCAL EXIT
In the above script mtee.exe from https://ritchielawrence.github.io/mtee/ is used for piping stdout to a file as well as to the console. It works similar to tee on Unix platforms. A newer version has been compiled that also retains the error code of the program that streams to stdout. This is useful when checking for the success of the builds. Source code and executable is available from http://oeffner.net/development/Stuff/mtee.zip.
On Unix a startup script such as .bashrc or .tcshrc are convenient for initiating commonly used environment variables for a user. Windows has a different technique for achieving the same for the command prompt. In the registry editor, regedit.exe, locate the AutoRun registry key:
HKEY_CURRENT_USER\Software\Microsoft\Command Processor\AutoRun
If there is no AutoRun key present under the "Command Processor" key then create a new one of type string. The value of this key can be set to the full path of a cmd script you have written that does something such as defining environment variables for that command prompt. This script can have any name but we will call it ntshell.cmd and store it in path pointed to by the %HOMEDRIVE%%HOMEPATH% environment variables.
Warning
Entering wrong values in the registry or accidentally deleting values may render Windows bricked. Always ensure you have a recent "System Restore" point in your Windows backup. This will allow you to boot Windows to "Last known good configuration" if the registry gets corrupted.
Alternatively one can also define environment variables through the Control Panel\All Control Panel Items\User Accounts and click on "Change my enviroment variables". But this method is not feasible if there are many variables or some variable values are deduced on the fly from scripts. This is the case when initialising environment variables for the compiler.
Say you have a script in the directory pointed to by the %HOMEDRIVE%%HOMEPATH% environment variables named logon.cmd or whatever. To make this script run once every time you log on to your account, open the Task Scheduler in the "Administrative tools" group in Control Panel, click "Create Task", set "Triggers" to "At logon" and set "Action" to the full path of the logon.cmd file. This script will then run next time you log on.
This section is relevant only if you plan to do automated builds using BuildBot. Assuming the PC runs as a Buildbot slave builds are automated from the Buildbot master machine. Required private keys should be loaded in a logon.cmd script with ssh-agent and command prompts must set the compiler environment variables through an ntshell.cmd script as detailed above.
If doing an automated build with Buildbot all the necessary prerequisites must be accessible from the %PATH% environment from a command prompt. It is tempting to add the full path of one of the vcvarsXX.bat scripts to ntshell.cmd. However, due to a bug in those files this may lead all command prompts to hang in an infinite loop. A workaround is to copy vcvars32.bat and vcvars64.bat to the %HOMEDRIVE%%HOMEPATH% folder and rename them myvcvars32.bat and myvcvars64.bat, respectively. Then replace the lines:
:GetWindowsSdkDirHelper @for /F "tokens=1,2*" %%i in ('reg query "%1\SOFTWARE\Microsoft\Microsoft SDKs\Windows" /v "CurrentInstallFolder"') DO ( if "%%i"=="CurrentInstallFolder" ( SET "WindowsSdkDir=%%k" ) )
with
:GetWindowsSdkDirHelper SET fname=%TEMP%\tmpSDKvars.txt reg query "%1\SOFTWARE\Microsoft\Microsoft SDKs\Windows" /v "CurrentInstallFolder" > %fname% @SET WindowsSdkDir= @for /F "tokens=1,2*" %%i in (%fname%) DO ( if "%%i"=="CurrentInstallFolder" ( SET "WindowsSdkDir=%%k" ) ) del %fname%
then add a line to your ntshell.cmd with the full path of myvcvars32.bat or myvcvars64.bat like:
call "C:\Users\builder\myvcvars32.bat"
The Buildbot slave is installed as per online documentation. For instance for installing a slave named intel-windows-x86_64 in C:\Users\builder\slave chdir to python installed in C:\Python2.7.9x64 type:
C:\Python2.7.9x64\Scripts\easy_install.exe buildbot-slave
and then:
C:\Python2.7.9x64\Scripts\buildslave create-slave C:\Users\builder\slave cci-vm-6.lbl.gov:9989 intel-windows-x86_64 pass
which will make it listen to a master on port 9989 from cci-vm-6.lbl.gov. It is possible to start this slave automatically as a Windows service (equivalent of a Unix daemon) but a simpler procedure is to add the following line:
START "Running BuildBot Slave. Do not close!" /MIN cmd /c C:\Python2.7.9x64\Scripts\buildslave start C:\Users\builder\slave
to your logon.cmd script. Once you have logged on this will place an icon of a minimised command prompt on the taskbar which must not be interfered with, let alone closed. The account can now be locked (Windows key + L) and is ready for doing regular builds from a Buildbot master.
The Windows build does not need to compile Python or the HDF5 library from scratch. Instead these two components are bundled as separate zip files which bootstrap.py will download from http://cci.lbl.gov/cctbx_dependencies during the first stages of the build. The Python bundle has had all the necessary 3rd party modules added to it for running CCTBX on Windows. Click here for details on how these bundles were created or on how to update this Python bundle with additional modules.
Clear virtual memory at shutdown: Go to Control Panel\All Control Panel Items\Administrative Tools->Local Security Policy->Local Policies->Security Options->Shutdown: Clear virtual memory pagefile
Adjust for best performance of background processes: Check Control Panel\All Control Panel Items\System->Advanced system settings->System Properties | Advanced tab->Performance settings->Performance Options | Advanced tab->Adjust for best performance of Background services
Ensure at least weekly disk defragmentation which does not coincide with doing builds.
If used for nightly builds then disable automatic installation of updates as this often triggers an automatic reboot of the PC. This can be done from the control panel on Windows 7. On Windows 10 follow the steps described on http://www.howtogeek.com/224471/how-to-prevent-windows-10-from-automatically-downloading-updates/
For the directory where nightly builds are done:
- Exclude it from Windows indexing.
- Exclude it from on-access virus scan (both read and write)
- Avoid storing several previous builds since NTFS doesn't perform well when zillions of files are present on the same disc. Zip up previous builds into single files or move them to a different partition if they have to be retained.
Failure to follow these steps could over time make successive builds very slow (+24 hours)