Result for 1B6AE387028BA4C2EBB2EE44405B55B66F64BB9E

Query result

Key Value
FileName./usr/share/man/man1/tntnet-config.1.gz
FileSize662
MD51B1494DC255AEE8EC38D06F0B49BE9F7
SHA-11B6AE387028BA4C2EBB2EE44405B55B66F64BB9E
SHA-256C06232AB405EC07512304512B1F87D8BF7FA3B68D8D559F51DDB765FD4445D84
SSDEEP12:XvYgmyeUDVpW+SAZrSBAsiN8shvsCJe0AI4sQQvL5BWMmCAljeqXeeCK+OQZ5rpk:XAgmydPW+RJ3IasC14svvLTWMPQ1elO5
TLSHT1150183FC01735382E3912196115A740E1C1F76B20CA2CA766C2193256585D036AA5F3E
hashlookup:parent-total54
hashlookup:trust100

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Parents (Total: 54)

The searched file hash is included in 54 parent files which include package known and seen by metalookup. A sample is included below:

Key Value
FileSize127992
MD50C3B10B952B250B65D5D2994B7179623
PackageDescriptionTntnet 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.
PackageMaintainerKari Pahula <kaol@debian.org>
PackageNamelibtntnet-dev
PackageSectionlibdevel
PackageVersion2.2.1-4
SHA-10371E4D6F7603D85FBFBE9C0E6C0682B9E79ABB6
SHA-2568D35CFF3A63F31522D2C8A859B908EF38D37CD8D9A8808C1A79C487FEDBB715B
Key Value
MD50B374EE628E3791ABD5EF588DB2A56C7
PackageArchs390
PackageDescriptionA web application server for web applications
PackageMaintainerFedora Project
PackageNametntnet
PackageRelease8.fc23
PackageVersion2.2.1
SHA-106E08DD35D0DC781F5D0563DD538C8178894CD76
SHA-256C328F1B2D7A041DCF85FFA8D661F1AD68789CD831F4831D7B56589E1158347D0
Key Value
FileSize117946
MD5873E6F4C208BA2978FE0120C81AE4A83
PackageDescriptionTntnet 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.
PackageMaintainerUbuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com>
PackageNamelibtntnet-dev
PackageSectionlibdevel
PackageVersion2.2.1-2
SHA-10B8E51848E9F8FE287AF95DA3F0C9192C50F9777
SHA-256564658358BC168AC70893949962DF12838F4322CEFA01A44E2AD7458CC20CC16
Key Value
FileSize127210
MD54341F1620D45954706DD9938A8E0913C
PackageDescriptionTntnet 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.
PackageMaintainerKari Pahula <kaol@debian.org>
PackageNamelibtntnet-dev
PackageSectionlibdevel
PackageVersion2.2.1-3+b1
SHA-11792E639FF5570B9CCFD75E7E86DC6CC86172DE4
SHA-256D7DA0ED634CCF34AEB0BB9AF1D76724163AD40321AD7A71B4D7C5A7244AF8EB8
Key Value
MD51EAA8EA9DB6C449D8ABA8AFBD68A1DB9
PackageArcharmv7hl
PackageDescriptionA web application server for web applications
PackageMaintainerFedora Project
PackageNametntnet
PackageRelease20.fc33
PackageVersion2.2.1
SHA-11A4C09A238B52EE09B46AC90ECD62EFA4CE7A5D1
SHA-2568D91DAC9570976B9012F93409E728631AB2709D78F808F98FD85DCE69D002439
Key Value
MD59CC80310E3CDE52048955F9ADC3BFE59
PackageArchs390x
PackageDescriptionA web application server for web applications
PackageMaintainerFedora Project
PackageNametntnet
PackageRelease4.fc22
PackageVersion2.2.1
SHA-11BD486B0CC960639944F54242EC60E60C341D428
SHA-256044CDFF7A0B8A0C6291B5E38FB31512DBEB331581140E4E138FCCCC7F4708DCD
Key Value
MD56A9892ED323DEFC023AC0DC6FBA00A43
PackageArchi686
PackageDescriptionA web application server for web applications
PackageMaintainerFedora Project
PackageNametntnet
PackageRelease19.fc32
PackageVersion2.2.1
SHA-11DA198FB7C2A73D79DA3D1F5830D372321A3C999
SHA-256A3B409B4D180580CB43B6F87D99212679F72B11B1D942A86BCE8BDE4E8EF189B
Key Value
FileSize131938
MD5BF92C73B76F0C0FCC7D86870EA3D73AC
PackageDescriptionTntnet 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.
PackageMaintainerKari Pahula <kaol@debian.org>
PackageNamelibtntnet-dev
PackageSectionlibdevel
PackageVersion2.2.1-3+b1
SHA-11E5FAF149546556846FAB0ACB961410182560D8E
SHA-25699DBA74FFF1D5CE1E98EE6CE5923CE81F2F6C10A157D8ECD4BBD020257344786
Key Value
FileSize137460
MD5A754847BE32A5B8254855929EFE57936
PackageDescriptionTntnet 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.
PackageMaintainerKari Pahula <kaol@debian.org>
PackageNamelibtntnet-dev
PackageSectionlibdevel
PackageVersion2.2.1-4
SHA-11F8AE9AE8D67AE011E799340E2D6AC10306ABCE9
SHA-256F993853995FAB508B8BBE7FCB68A0EFBF1738160772BA85AECF21CD7F660F1E3
Key Value
MD5061C6387F9CC8096538EF588984CC8C0
PackageArchs390x
PackageDescriptionA web application server for web applications
PackageMaintainerFedora Project
PackageNametntnet
PackageRelease7.fc20
PackageVersion2.2
SHA-1213BC66585F4148A67A972DAB3FD419E4CA6CADA
SHA-2569C12F9674148A55E3240D90C0D200E5372B96B18E8968D82AE2B95DA04D67119