db38aaff1c
Also update according to the API change, and trigger the notification when calling .uno:Save. |
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.. | ||
bundled/include/LibreOfficeKit | ||
debian | ||
test | ||
.gitignore | ||
AUTHORS | ||
ChangeLog | ||
configure.ac | ||
Connect.cpp | ||
COPYING | ||
INSTALL | ||
LoadTest.cpp | ||
LoadTest.hpp | ||
LOKitClient.cpp | ||
LOKitHelper.hpp | ||
LOOLProtocol.cpp | ||
LOOLProtocol.hpp | ||
LOOLSession.cpp | ||
LOOLSession.hpp | ||
loolstat | ||
loolwsd-systemplate-setup | ||
LOOLWSD.cpp | ||
LOOLWSD.hpp | ||
loolwsd.service | ||
loolwsd.spec.in | ||
Makefile.am | ||
NEWS | ||
protocol.txt | ||
README | ||
reference.txt | ||
sysconfig.loolwsd | ||
TileCache.cpp | ||
TileCache.hpp | ||
TODO | ||
tsqueue.h | ||
Util.cpp | ||
Util.hpp |
LibreOffice On-Line WebSocket server ==================================== Dependencies ------------ LibreOffice On-Line WebSocket server has the following dependencies: * libpng * Poco library: http://pocoproject.org/index.html. * libcap-progs Poco can be built with ./configure --prefix=/opt/poco && make install, but distro packages exist too. On openSUSE, you can use: zypper ar http://download.opensuse.org/repositories/devel:/libraries:/c_c++/openSUSE_13.2/devel:libraries:c_c++.repo zypper in poco-devel libcap-progs Building -------- loolwsd uses autoconf/automake, so build using the usual: MASTER=/path/to/built/core.git # configure for your system autoreconf automake --add-missing ./configure --enable-silent-rules --with-lokit-path=${MASTER}/include make where ${MASTER} is the location of the LibreOffice source tree. Note that the loolwsd program needs the CAP_SYS_CHROOT capability, thus you will be asked the root password when running make as it invokes sudo to run /sbin/setcap. If you have self-built Poco, add the following to ./configure: --with-poco-includes=<POCOINST>/include --with-poco-libs=<POCOINST>/lib where <POCOINST> means the Poco installation location. If you have the Poco debugging libraries (eg. you have a self-built Poco), you can add --enable-debug to the configure options for additional debugging. For Windows, a proper VS2013 project is needed. There is still unconditional debugging output etc. This is a work in progress. Running ------- First create the directory used for caching tiles. It is set as "${localstatedir}/cache/${PACKAGE}" in the configure.ac, so if you did not pass any switch to the configure script that affects "localstatedir, it will be /usr/local/var/cache/loolwsd . If you did pass such a switch, like --prefix, check config.h for the exact value. If you're using the defaults you'll need to: sudo mkdir -p /usr/local/var/cache/loolwsd sudo chown `whoami` /usr/local/var/cache/loolwsd Now you need to set up a minimal chroot system, and directory for the jails: SYSTEMPLATE=`pwd`/systemplate # or tweak for your system ROOTFORJAILS=`pwd`/jails # or tweak for your system rm -Rf ${SYSTEMPLATE} # clean ./loolwsd-systemplate-setup ${SYSTEMPLATE} ${MASTER}/instdir # build template mkdir -p ${ROOTFORJAILS} # create location for transient jails. To run loolwsd the way it is supposed to eventually be run "for real", you can now do: ./loolwsd --systemplate=${SYSTEMPLATE} --lotemplate=${MASTER}/instdir --childroot=${ROOTFORJAILS} and connect loleaflet to that (see loleaflet/README for more info). Again, ${MASTER} is location of the LibreOffice source tree with a built LibreOffice. This is work in progress, and consequently needs the latest LibreOffice master. The ${SYSTEMPLATE} is a directory tree set up using the loolwsd-systemplate-setup script here. (It should not exist before running the script.) It will contain the runtime environment needed by the LibreOffice dynamic libraries used through LibreOfficeKit. Improvements to that script are very likely needed on various distros. The ${ROOTFORJAILS} directory above is a presumably initially empty directory under which loolwsd will create chroot jails for editing each specific document. As loolwsd uses hardlinks to "copy" the contents of both ${SYSTEMPLATE} and the ${MASTER}/instdir directories into each chroot jail, ${SYSTEMPLATE} and ${MASTER}/instdir need to be on the same file system as ${ROOTFORJAILS}. If you plan to hack on loolwsd, you probably want to familiarize yourself with loolwsd's --test and --numprespawns switches, and the 'connect' test program. For interactive testing, you can use the loolwsd --test switch, or you can use the 'connect' program. Both accept "commands" from the protocol on standard input. You can either used them tuly interactively, or edit input lines into a file, or use shell scripting, etc. For instance: (echo load /some/where/foo.odt; echo tile part=0 width=500 height=500 tileposx=0 tileposy=0 tilewidth=10000 tileheight=10000; sleep 10) | ./loolwsd --test --systemplate=/home/tml/lo/master/lool-sys-template --lotemplate=/home/tml/lo/master/instdir --childroot=/home/tml/lo/master/lool-child-root Debugging --------- When debugging, you want to add --numprespawns=1 to the loolwsd parameters to limit the amount of concurrently running processes. When the crash happens too early, you also want to export SLEEPFORDEBUGGER=<number of seconds> so that you have time to attach to the process. Then run loolwsd, and attach your debugger to the process you are interested in. Note that as the loolwsd executable file has capabilities set, you need to run the debugger with super-user privilege. Also, note that as the child processes run in a chroot environment, they see the LibreOffice shared libraries as being in a directory tree /lo , but your debugger does not. So in order to be able to effectively debug the LibreOffice code as used through LibreOfficeKit by a child loolwsd process, you need to symlink the "lo" subdirectory of a running child loolwsd process's chroot jail as /lo. Something like: sudo ln -s ~/libreoffice/master/lool-child-roots/1046829984599121011/lo /lo Use the ps command to find out exactly the path to use. Protocol description -------------------- See protocol.txt for a description of the protocol to be used over the websocket. Coding style ------------ There is not really any serious rationale why the code ended up being written in the style it is... but unless you plan to change some style detail completely and consistenly all over, please keep to the style of the existing code when editing. The style is roughly as follows, in rough order of importance: - As in LO, no hard TABs in source files. Only spaces. Indentation step is four columns. - As in LO, the braces { and } of the block of if, switch, and while statements go on separate lines. - Following Poco conventions, member variables are prefixed with an underscore. But I am not opposed to changing this to 'm_' for instance. - Do use C++11. I admit in some places (out of laziness or ignorance) I use Poco API even if there probably is an equivalent std:: API. (Like for threads.) Feel free to change those, if the std:: API is not much more verbose or ugly, and you are sure it is equivalent. - Always prefer the C++ wrapped version of a C library API. I.e. include <cstring> instead of <string.h>, use std::memcpy() instead of memcpy(), etc. - Use std:: prefix for all std API, i.e. don't ever do "using std;". But it's OK to use "using Poco::Foo;" all over. Maybe that is not a good idea? - Be as portable as possible, i.e. don't intentionally write Unix-only code if there is a choice. Obviously some parts of the code currently use Unix-only things like chroot() and link() though. - Member functions use camelCaseWithInitialLowerCase. I don't like CamelCaseWithInitialUpperCase. - No kind of Hungarian prefixes.