tntnet 2.0+dfsg1-2ubuntu0.1 source package in Ubuntu

Changelog

tntnet (2.0+dfsg1-2ubuntu0.1) precise-security; urgency=high

  * SECURITY UPDATE: Fixed default configuration to prevent exposing
    files from /.  (LP: #1430750)
 -- Christian Hertel <email address hidden>   Wed, 11 Mar 2015 16:07:14 +0100

Upload details

Uploaded by:
Christian Hertel on 2015-03-12
Sponsored by:
Steve Beattie
Uploaded to:
Precise
Original maintainer:
Ubuntu Developers
Architectures:
any all
Section:
web
Urgency:
Very Urgent

See full publishing history Publishing

Series Pocket Published Component Section
Precise updates on 2015-03-13 universe web
Precise security on 2015-03-13 universe web

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File Size SHA-256 Checksum
tntnet_2.0+dfsg1.orig.tar.gz 1.5 MiB 700d7515cf1c2f126f9de34f0058cf751f544fddf7e79aa0fccc0435b4f53dc9
tntnet_2.0+dfsg1-2ubuntu0.1.debian.tar.gz 45.8 KiB db77ab5dbb473e9edcd59a713de8b8e4e227337bee0a7141adbf2619e4578429
tntnet_2.0+dfsg1-2ubuntu0.1.dsc 2.1 KiB 104d286a4690d2fee82b49560e70bf2e2927fbebbb59890840b095674948f7f8

View changes file

Binary packages built by this source

libtntnet-dev: Tntnet library development headers

 Tntnet has a template-language called ecpp similar to PHP, JSP or
 Mason, where you can embed c++ code inside a HTML page to generate
 active content. The ecpp files are precompiled to C++ classes called
 components and compiled and linked into a shared library. This process
 is done at compiletime. The web server Tntnet needs only the compiled
 component library.
 .
 Because the web applications are compiled into native code, they are
 very fast and compact.
 .
 Components can call other components. So you can create building blocks
 of HTML parts and call them in other pages like subprocesses.
 .
 Requests are parsed by tntnet and the request information is easily
 accessible to the components. It supports GET and POST parameters and
 MIME multipart requests for file upload.
 .
 The template language has also support for internationalized
 applications. You can easily create web applications for different
 languages.
 .
 Other features are: cookies, HTTP upload, automatic request parameter
 parsing and conversion, automatic session management, scoped variables
 (application, request and session), internationalisation and keep-alive.
 .
 Logging is done through cxxtools, which provides a unique API for
 log4cpp, log4cxx or simple logging to files or console.
 .
 Tntnet is fully multithreaded and much work has been gone into making
 it scalable. It uses a dynamic pool of worker threads, which answer
 requests from HTTP clients.

libtntnet9: Tntnet libraries

 Tntnet has a template-language called ecpp similar to PHP, JSP or
 Mason, where you can embed c++ code inside a HTML page to generate
 active content. The ecpp files are precompiled to C++ classes called
 components and compiled and linked into a shared library. This process
 is done at compiletime. The web server Tntnet needs only the compiled
 component library.
 .
 Because the web applications are compiled into native code, they are
 very fast and compact.
 .
 Components can call other components. So you can create building blocks
 of HTML parts and call them in other pages like subprocesses.
 .
 Requests are parsed by tntnet and the request information is easily
 accessible to the components. It supports GET and POST parameters and
 MIME multipart requests for file upload.
 .
 The template language has also support for internationalized
 applications. You can easily create web applications for different
 languages.
 .
 Other features are: cookies, HTTP upload, automatic request parameter
 parsing and conversion, automatic session management, scoped variables
 (application, request and session), internationalisation and keep-alive.
 .
 Logging is done through cxxtools, which provides a unique API for
 log4cpp, log4cxx or simple logging to files or console.
 .
 Tntnet is fully multithreaded and much work has been gone into making
 it scalable. It uses a dynamic pool of worker threads, which answer
 requests from HTTP clients.

tntnet: modular, multithreaded web application server for C++

 Tntnet has a template-language called ecpp similar to PHP, JSP or
 Mason, where you can embed c++ code inside a HTML page to generate
 active content. The ecpp files are precompiled to C++ classes called
 components and compiled and linked into a shared library. This process
 is done at compiletime. The web server Tntnet needs only the compiled
 component library.
 .
 Because the web applications are compiled into native code, they are
 very fast and compact.
 .
 Components can call other components. So you can create building blocks
 of HTML parts and call them in other pages like subprocesses.
 .
 Requests are parsed by tntnet and the request information is easily
 accessible to the components. It supports GET and POST parameters and
 MIME multipart requests for file upload.
 .
 The template language has also support for internationalized
 applications. You can easily create web applications for different
 languages.
 .
 Other features are: cookies, HTTP upload, automatic request parameter
 parsing and conversion, automatic session management, scoped variables
 (application, request and session), internationalisation and keep-alive.
 .
 Logging is done through cxxtools, which provides a unique API for
 log4cpp, log4cxx or simple logging to files or console.
 .
 Tntnet is fully multithreaded and much work has been gone into making
 it scalable. It uses a dynamic pool of worker threads, which answer
 requests from HTTP clients.

tntnet-demos: demo web applications for Tntnet

 Tntnet has a template-language called ecpp similar to PHP, JSP or
 Mason, where you can embed c++ code inside a HTML page to generate
 active content. The ecpp files are precompiled to C++ classes called
 components and compiled and linked into a shared library. This process
 is done at compiletime. The web server Tntnet needs only the compiled
 component library.
 .
 Because the web applications are compiled into native code, they are
 very fast and compact.
 .
 Components can call other components. So you can create building blocks
 of HTML parts and call them in other pages like subprocesses.
 .
 Requests are parsed by tntnet and the request information is easily
 accessible to the components. It supports GET and POST parameters and
 MIME multipart requests for file upload.
 .
 The template language has also support for internationalized
 applications. You can easily create web applications for different
 languages.
 .
 Other features are: cookies, HTTP upload, automatic request parameter
 parsing and conversion, automatic session management, scoped variables
 (application, request and session), internationalisation and keep-alive.
 .
 Logging is done through cxxtools, which provides a unique API for
 log4cpp, log4cxx or simple logging to files or console.
 .
 Tntnet is fully multithreaded and much work has been gone into making
 it scalable. It uses a dynamic pool of worker threads, which answer
 requests from HTTP clients.

tntnet-doc: documentation for Tntnet

 Tntnet has a template-language called ecpp similar to PHP, JSP or
 Mason, where you can embed c++ code inside a HTML page to generate
 active content. The ecpp files are precompiled to C++ classes called
 components and compiled and linked into a shared library. This process
 is done at compiletime. The web server Tntnet needs only the compiled
 component library.
 .
 Because the web applications are compiled into native code, they are
 very fast and compact.
 .
 Components can call other components. So you can create building blocks
 of HTML parts and call them in other pages like subprocesses.
 .
 Requests are parsed by tntnet and the request information is easily
 accessible to the components. It supports GET and POST parameters and
 MIME multipart requests for file upload.
 .
 The template language has also support for internationalized
 applications. You can easily create web applications for different
 languages.
 .
 Other features are: cookies, HTTP upload, automatic request parameter
 parsing and conversion, automatic session management, scoped variables
 (application, request and session), internationalisation and keep-alive.
 .
 Logging is done through cxxtools, which provides a unique API for
 log4cpp, log4cxx or simple logging to files or console.
 .
 Tntnet is fully multithreaded and much work has been gone into making
 it scalable. It uses a dynamic pool of worker threads, which answer
 requests from HTTP clients.

tntnet-runtime: Tntnet runtime system

 This package has the runtime system for tntnet web server.