Source: mosquitto Section: net Priority: optional Maintainer: Roger A. Light Build-Depends: debhelper (>= 11), libssl-dev (>=1.0.0), libsystemd-dev, libwebsockets-dev, libwrap0-dev, pkg-config, uthash-dev, uuid-dev Standards-Version: 4.3.0 Homepage: https://mosquitto.org/ Vcs-Git: https://github.com/eclipse/mosquitto Vcs-Browser: https://github.com/eclipse/mosquitto/tree/debian Package: mosquitto Architecture: any Multi-Arch: foreign Depends: adduser (>= 3.10), libuuid1, lsb-base (>=4.1+Debian3), ${misc:Depends}, ${shlibs:Depends} Suggests: apparmor Description: MQTT version 3.1/3.1.1 compatible message broker This is a message broker that supports version 3.1 and 3.1.1 of the MQTT protocol. . MQTT provides a method of carrying out messaging using a publish/subscribe model. It is lightweight, both in terms of bandwidth usage and ease of implementation. This makes it particularly useful at the edge of the network where a sensor or other simple device may be implemented using an arduino for example. Package: mosquitto-dev Section: devel Architecture: all Multi-Arch: foreign Depends: mosquitto (<< ${source:Version}.1~), mosquitto (>= ${source:Version}), ${misc:Depends} Description: Development files for Mosquitto Mosquitto is a message broker that supports the MQTT protocol. . This package contains the include files used if you wish to compile a package which requires Mosquitto's source file headers. Package: libmosquitto1 Section: libs Architecture: any Multi-Arch: same Depends: ${misc:Depends}, ${shlibs:Depends} Description: MQTT version 3.1/3.1.1 client library This is a C library for implementing MQTT version 3.1/3.1.1 clients. . MQTT provides a method of carrying out messaging using a publish/subscribe model. It is lightweight, both in terms of bandwidth usage and ease of implementation. This makes it particularly useful at the edge of the network where a sensor or other simple device may be implemented using an arduino for example. Package: libmosquitto-dev Section: libdevel Architecture: any Multi-Arch: same Depends: libmosquitto1 (<< ${source:Version}.1~), libmosquitto1 (>= ${source:Version}), ${misc:Depends} Replaces: libmosquitto0-dev (<< 1.2-1~) Breaks: libmosquitto0-dev (<< 1.2-1~) Description: MQTT version 3.1/3.1.1 client library, development files This is the header and man page for the libmosquitto1 C library, which is a library for implementing MQTT version 3.1/3.1.1 clients. This package is needed to do development with libmosquitto1. Package: libmosquittopp1 Section: libs Architecture: any Multi-Arch: same Pre-Depends: ${misc:Pre-Depends} Depends: libmosquitto1 (= ${binary:Version}), ${misc:Depends}, ${shlibs:Depends} Description: MQTT version 3.1/3.1.1 client C++ library This is a C++ library for implementing MQTT version 3.1/3.1.1 clients. . MQTT provides a method of carrying out messaging using a publish/subscribe model. It is lightweight, both in terms of bandwidth usage and ease of implementation. This makes it particularly useful at the edge of the network where a sensor or other simple device may be implemented using an arduino for example. Package: libmosquittopp-dev Section: libdevel Architecture: any Multi-Arch: same Depends: libmosquittopp1 (<< ${source:Version}.1~), libmosquittopp1 (>= ${source:Version}), libmosquitto-dev, ${misc:Depends} Replaces: libmosquittopp0-dev (<< 1.2-1~) Breaks: libmosquittopp0-dev (<< 1.2-1~) Description: MQTT version 3.1 client C++ library, development files This is the header and man page for the libmosquittopp1 C++ library, which is a library for implementing MQTT version 3.1 clients. This package is needed to do development with libmosquittopp1. Package: mosquitto-clients Architecture: any Multi-Arch: foreign Depends: libmosquitto1 (= ${binary:Version}), ${misc:Depends}, ${shlibs:Depends} Description: Mosquitto command line MQTT clients This is two MQTT version 3.1/3.1.1 command line clients. mosquitto_pub can be used to publish messages to a broker and mosquitto_sub can be used to subscribe to a topic to receive messages. . MQTT provides a method of carrying out messaging using a publish/subscribe model. It is lightweight, both in terms of bandwidth usage and ease of implementation. This makes it particularly useful at the edge of the network where a sensor or other simple device may be implemented using an arduino for example.