Result for 2E2C2D672D09F83E6C9F9F584CB5215ECEEBF4F3

Query result

Key Value
FileName./usr/lib/tntnet/calci18n.fi
FileSize497
MD522CEFCA345D1538D6C1C094FFA3C447F
SHA-12E2C2D672D09F83E6C9F9F584CB5215ECEEBF4F3
SHA-2566F1DEEC2F5A3C0F7EBDD24AE3AFEDC25790F831B3B7BD37D6CB0EB77572B03DD
SSDEEP12:5jVGUJGXsp+DXC3Nv0KW2t2r1UMOJsHa0/:9VGVcpMmhW20r+MV/
TLSHT1BEF00E211732A8F3F85EB9FF9C29E07028C4296223A7C892A2502CDCACC3ED21734C44
hashlookup:parent-total1
hashlookup:trust55

Network graph view

Parents (Total: 1)

The searched file hash is included in 1 parent files which include package known and seen by metalookup. A sample is included below:

Key Value
FileSize230592
MD5364E033C9B5227FEB7844651CCB534B4
PackageDescriptiondemo 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.
PackageMaintainerKari Pahula <kaol@debian.org>
PackageNametntnet-demos
PackageSectiondoc
PackageVersion2.2.1-3+b1
SHA-11E3727DCB4873D322D9065092CE66D95DC90CA72
SHA-256E074C8061A61855DBD9E0D9E23B8A3930B3B81CE147A4B29005833700745C5B7