Source: bitz-server Section: net Priority: optional Maintainer: Jörg Frings-Fürst Uploaders: Uditha Atukorala Build-Depends: debhelper (>= 9), dh-autoreconf, dh-python, dh-systemd (>= 1.5), libconfig++-dev, liblog4cpp5-dev, libpsocksxx-dev, python-dev, libpython-dev Build-Depends-Indep: doxygen Standards-Version: 3.9.6 Homepage: https://github.com/uditha-atukorala/bitz-server Vcs-Git: git://anonscm.debian.org/collab-maint/bitz-server.git Vcs-Browser: http://anonscm.debian.org/cgit/collab-maint/bitzserver.git Package: bitz-server Architecture: any Depends: ${shlibs:Depends}, ${misc:Depends}, libicap0 (= ${binary:Version}) Description: ICAP server (RFC 3507) implementation in C++ The main goal of this project is to create an ICAP server (RFC 3507) implementation in C++ to use the power of object oriented programming. . Starting from scratch, the server is developed with a modular architecture in mind. The server core (written in C++) will handle the client requests, manage workers (child processes) etc. and will provide basic handlers to serve ICAP requests. . To extend this core functionality the idea is to have pluggable modules (like Apache server modules). These modules will provide features like content filtering, anti-virus scanning etc. and to make it easier to write (and faster to implement) such modules there is hope to exploit Python programming language. Package: bitz-server-doc Architecture: all Section: doc Depends: ${misc:Depends} Description: ICAP server (RFC 3507) implementation in C++ (Documentation) The main goal of this project is to create an ICAP server (RFC 3507) implementation in C++ to use the power of object oriented programming. . Starting from scratch, the server is developed with a modular architecture in mind. The server core (written in C++) will handle the client requests, manage workers (child processes) etc. and will provide basic handlers to serve ICAP requests. . To extend this core functionality the idea is to have pluggable modules (like Apache server modules). These modules will provide features like content filtering, anti-virus scanning etc. and to make it easier to write (and faster to implement) such modules there is hope to exploit Python programming language. . This package holds the documentation. Package: libicap-dev Section: libdevel Architecture: any Multi-Arch: same Depends: libicap0 (= ${binary:Version}), ${misc:Depends} Suggests: bitz-server-doc Description: ICAP server (RFC 3507) implementation in C++ (development files) The main goal of this project is to create an ICAP server (RFC 3507) implementation in C++ to use the power of object oriented programming. . Starting from scratch, the server is developed with a modular architecture in mind. The server core (written in C++) will handle the client requests, manage workers (child processes) etc. and will provide basic handlers to serve ICAP requests. . To extend this core functionality the idea is to have pluggable modules (like Apache server modules). These modules will provide features like content filtering, anti-virus scanning etc. and to make it easier to write (and faster to implement) such modules there is hope to exploit Python programming language. . This package holds the development files. Package: libicap0 Architecture: any Multi-Arch: same Depends: ${shlibs:Depends}, ${misc:Depends} Pre-Depends: ${misc:Pre-Depends} Description: ICAP server (RFC 3507) implementation in C++ (library files) The main goal of this project is to create an ICAP server (RFC 3507) implementation in C++ to use the power of object oriented programming. . Starting from scratch, the server is developed with a modular architecture in mind. The server core (written in C++) will handle the client requests, manage workers (child processes) etc. and will provide basic handlers to serve ICAP requests. . To extend this core functionality the idea is to have pluggable modules (like Apache server modules). These modules will provide features like content filtering, anti-virus scanning etc. and to make it easier to write (and faster to implement) such modules there is hope to exploit Python programming language. . This package holds the library files. Package: bitz-server-dbg Architecture: any Section: debug Priority: extra Depends: ${misc:Depends}, bitz-server (= ${binary:Version}) Description: ICAP server (RFC 3507) implementation in C++ (server debug symbols) The main goal of this project is to create an ICAP server (RFC 3507) implementation in C++ to use the power of object oriented programming. . Starting from scratch, the server is developed with a modular architecture in mind. The server core (written in C++) will handle the client requests, manage workers (child processes) etc. and will provide basic handlers to serve ICAP requests. . To extend this core functionality the idea is to have pluggable modules (like Apache server modules). These modules will provide features like content filtering, anti-virus scanning etc. and to make it easier to write (and faster to implement) such modules there is hope to exploit Python programming language. . This package holds the debug symbols for bitz-server. Package: libicap0-dbg Architecture: any Multi-Arch: same Section: debug Priority: extra Depends: ${misc:Depends}, libicap0 (= ${binary:Version}) Description: ICAP server (RFC 3507) implementation in C++ (library debug symbols) The main goal of this project is to create an ICAP server (RFC 3507) implementation in C++ to use the power of object oriented programming. . Starting from scratch, the server is developed with a modular architecture in mind. The server core (written in C++) will handle the client requests, manage workers (child processes) etc. and will provide basic handlers to serve ICAP requests. . To extend this core functionality the idea is to have pluggable modules (like Apache server modules). These modules will provide features like content filtering, anti-virus scanning etc. and to make it easier to write (and faster to implement) such modules there is hope to exploit Python programming language. . This package holds the debug symbols for libicap0.