LibreOffice On-Line WebSocket server ==================================== Installation ------------ LibreOffice On-Line WebSocket server has the following dependencies: * libpng * Poco library: http://pocoproject.org/index.html. 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 Building -------- loolwsd uses autoconf/automake, so build using the usual: autoreconf automake --add-missing ./configure --enable-silent-rules --with-lokit-path=/include make where 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=/include --with-poco-libs=/lib where 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 ------- Run loolwsd for instance like this, to run it the way it is supposed to eventually be run "for real": ./loolwsd --systemplate= --lotemplate=/instdir --childroot= and connect loleaflet to that (see loleaflet/README for more info). Again, is location of the LibreOffice source tree with a built LibreOffice. This is work in progress, and consequently needs the latest LibreOffice master. The is a directory tree set up using the setup-sys-chroot script here. It is intended to 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 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 and the /instdir directories into each chroot jail, and need to be on the same file system as /instdir. 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 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 Protocol description -------------------- See protocol.txt for a description of the protocol to be used over the websocket.