pill identification
Sponsored Links
Sponsored Links
Secleted [ 0 ] software to compare
Results 1 - 15 of about 155
simple instant messaging 1.0
simple instant messaging (sim) is an IRC client specialized for use with bitlbee. more>>
simple instant messaging (sim) is an IRC client specialized for use with bitlbee. It is based on sic (http://suckless.org). It reads commands from standard input and prints all server output to standard output.
simple instant messaging also multiplexes all channel traffic into one output, so you dont have to switch to different channel buffers. sim must be customized by editing its source code to insert the correct username, server, password, and identification information.
Enhancements:
- The command operator was changed.
- Some code simplifications were done.
- The output format was adjusted.
<<lesssimple instant messaging also multiplexes all channel traffic into one output, so you dont have to switch to different channel buffers. sim must be customized by editing its source code to insert the correct username, server, password, and identification information.
Enhancements:
- The command operator was changed.
- Some code simplifications were done.
- The output format was adjusted.
Download (0.006MB)
Added: 2007-04-01 License: MIT/X Consortium License Price:
937 downloads
OpenChange 0.4
OpenChange is an implementation of Microsoft Exchange under Unix platforms. more>>
Openchange project intends to provide an Open-Source implementation of Microsoft Exchange Server 2003 under Unix Platforms.
The Openchange Project is developed in C language under the BSD license, and will primary work on NetBSD, OpenBSD, FreeBSD and Linux platforms. The project time line has been defined to approximatively one year, and we believe the project will be in a complete stable state at this time.
Openchange wishes to integrate the enterprise working environment and to substitute to an Exchange Server in a transparent way, so final users may continue to use Outlook, or any other mail client.
We also intend to provide to network administrators an easy solution to migrate Exchange databases into Openchange ones and reversely. And last but not least, we work so developers may reuse our sources in a smart way.
The project is divided into 4 parts :
- The OpenChange Library
- The OpenReverse Library
- The Documentation Framework
- The Openchange specifications
The OpenChange Library
This library includes all the requests managing the identification process, the data flow, and all the other requirements needed to permit the communication between an Outlook client and an Exchange Server. It can be used either to develop another Exchange-like server or client.
The OpenReverse Library
Due to legal restriction, the Openchange Server wont reuse the Microsoft Jet Database file format. Instead, we provide a library making easy to parse headers, retrieve the data, calculate checksum and more generally to offer a abstract migration tool to other user defined backends. This library can also be used for basics to develop a repair database tool.
The Documentation Framework
In the documentation framework, you will find all our research results. The subjects may concern the Exchange Internals or treat of a related subject. We wants to provide the most valuable information so our work can be shared with developers community.
The OpenChange Specifications
At last, we will provide the complete specifications of OpenChange in a printable way. This major document of the OpenChange team will help new developers to understand how Exchange Server works, how we implemented our APIs to make OpenChange, Exchange compatible. Around this main development, you will find several modules:
- OpenUtils Library
- OpenSniff
- OpenEDB
Enhancements:
- This release fixes limitations from the previous release (0.2) and adds a set of new features.
- Sending email messages to external recipients is now possible.
- It can also fetch and create appointments, contacts, and tasks in their respective default folder.
- Experimental NEWMAIL notification support is also available.
- The openchangeclient command line messaging tool has been improved and exchange2mbox has been introduced.
- It provides a way to synchronize an Exchange mailbox with an mbox file, supports MIME types, and is able to reflect changes back to Exchange.
<<lessThe Openchange Project is developed in C language under the BSD license, and will primary work on NetBSD, OpenBSD, FreeBSD and Linux platforms. The project time line has been defined to approximatively one year, and we believe the project will be in a complete stable state at this time.
Openchange wishes to integrate the enterprise working environment and to substitute to an Exchange Server in a transparent way, so final users may continue to use Outlook, or any other mail client.
We also intend to provide to network administrators an easy solution to migrate Exchange databases into Openchange ones and reversely. And last but not least, we work so developers may reuse our sources in a smart way.
The project is divided into 4 parts :
- The OpenChange Library
- The OpenReverse Library
- The Documentation Framework
- The Openchange specifications
The OpenChange Library
This library includes all the requests managing the identification process, the data flow, and all the other requirements needed to permit the communication between an Outlook client and an Exchange Server. It can be used either to develop another Exchange-like server or client.
The OpenReverse Library
Due to legal restriction, the Openchange Server wont reuse the Microsoft Jet Database file format. Instead, we provide a library making easy to parse headers, retrieve the data, calculate checksum and more generally to offer a abstract migration tool to other user defined backends. This library can also be used for basics to develop a repair database tool.
The Documentation Framework
In the documentation framework, you will find all our research results. The subjects may concern the Exchange Internals or treat of a related subject. We wants to provide the most valuable information so our work can be shared with developers community.
The OpenChange Specifications
At last, we will provide the complete specifications of OpenChange in a printable way. This major document of the OpenChange team will help new developers to understand how Exchange Server works, how we implemented our APIs to make OpenChange, Exchange compatible. Around this main development, you will find several modules:
- OpenUtils Library
- OpenSniff
- OpenEDB
Enhancements:
- This release fixes limitations from the previous release (0.2) and adds a set of new features.
- Sending email messages to external recipients is now possible.
- It can also fetch and create appointments, contacts, and tasks in their respective default folder.
- Experimental NEWMAIL notification support is also available.
- The openchangeclient command line messaging tool has been improved and exchange2mbox has been introduced.
- It provides a way to synchronize an Exchange mailbox with an mbox file, supports MIME types, and is able to reflect changes back to Exchange.
Download (0.70MB)
Added: 2007-06-01 License: BSD License Price:
877 downloads
Pidentd 3.0.19
Pidentd v3 is a much improved version of the original Ident daemon both in terms of speed, code quality and features. more>>
Pidentd is a program that implements the RFC1413 identification server. It was very much inspired by Dan Bernsteins original authd (but unlike that program doesnt use netstat to get some of the information).
It uses the kernel information directly. (And is due to that fact a lot faster). Dan has now written another version of the authd daemon that uses his kstuff to read the kernel information.
Unlike that daemon, this will use only normally available kernel access functions (and is due to that more limited in the different machines it support).
Please note that this daemon used to be called pauthd but has changed name to better reflect what it does (and to conform to the new RFC).
Enhancements:
- Support for Solaris 10 on AMD64 was added and the 64-bit support was generalized for Solaris.
- A minor compilation problem in k_sunos510.c was fixed.
<<lessIt uses the kernel information directly. (And is due to that fact a lot faster). Dan has now written another version of the authd daemon that uses his kstuff to read the kernel information.
Unlike that daemon, this will use only normally available kernel access functions (and is due to that more limited in the different machines it support).
Please note that this daemon used to be called pauthd but has changed name to better reflect what it does (and to conform to the new RFC).
Enhancements:
- Support for Solaris 10 on AMD64 was added and the 64-bit support was generalized for Solaris.
- A minor compilation problem in k_sunos510.c was fixed.
Download (0.14MB)
Added: 2005-10-19 License: Freeware Price:
1467 downloads
linux-identd 1.3
linux-identd is a user identification daemon for Linux. more>>
linux-identd is a user identification daemon for Linux, which implements the Identification Protocol (RFC1413). This protocol is used to identify active TCP connections.
The daemon listens to TCP port 113 (auth) and can be run either as a stand-alone daemon or through inetd(8). This program is licensed through the GNU General Public License.
Installation:
To compile and install this program:
$ make
$ make install
To start identd in daemon mode:
$ /usr/sbin/identd -d
To start identd through inetd add the following line to /etc/inetd.conf:
auth stream tcp nowait nobody /usr/sbin/in.identd in.identd
Thats it!
Enhancements:
- Added option -l to log connections.
- Fixed a sizeof() bug.
- Fixed spelling error.
- Updated man page.
- Minor Makefile cleanups.
<<lessThe daemon listens to TCP port 113 (auth) and can be run either as a stand-alone daemon or through inetd(8). This program is licensed through the GNU General Public License.
Installation:
To compile and install this program:
$ make
$ make install
To start identd in daemon mode:
$ /usr/sbin/identd -d
To start identd through inetd add the following line to /etc/inetd.conf:
auth stream tcp nowait nobody /usr/sbin/in.identd in.identd
Thats it!
Enhancements:
- Added option -l to log connections.
- Fixed a sizeof() bug.
- Fixed spelling error.
- Updated man page.
- Minor Makefile cleanups.
Download (0.016MB)
Added: 2006-10-03 License: GPL (GNU General Public License) Price:
1120 downloads
libsift 1.8
libsift is an algorithm to identify and locate interesting points within an image. more>>
libsift is an algorithm to identify and locate interesting points within an image. For all such points, a descriptive signature is extracted.
The signatures can be stored and matched among multiple images, allowing for a large number of interesting applications, such as aligning overlapping images and identifying objects or motion within image sequences.
libsift is used by the autopano-sift program to create panorama images.
This library is a 100% C# implementation of the SIFT algorithm ("Scale-Invariant Feature Transform") and additional matching algorithms. The SIFT algorithm is an image feature location and extraction algorithm which provides the following key advantages over similar algorithms:
- Combined feature location and extraction algorithm.
- The keypoint locations are more precise and repeatable, because SIFT uses subpixel localization and multiple scale keypoint identification
- The descriptors are highly distinctive. For example, I tested with up to 300,000 keypoints while matching a large 60 picture panorama and it did not have a single invalid match.
- The feature vectors can be efficiently correlated using probabilistic algorithms like Best-Bin-First kd-tree search.
Enhancements:
- A serious bug in the Gaussian sigma computation and a bug in the DoG scale handling were fixed.
<<lessThe signatures can be stored and matched among multiple images, allowing for a large number of interesting applications, such as aligning overlapping images and identifying objects or motion within image sequences.
libsift is used by the autopano-sift program to create panorama images.
This library is a 100% C# implementation of the SIFT algorithm ("Scale-Invariant Feature Transform") and additional matching algorithms. The SIFT algorithm is an image feature location and extraction algorithm which provides the following key advantages over similar algorithms:
- Combined feature location and extraction algorithm.
- The keypoint locations are more precise and repeatable, because SIFT uses subpixel localization and multiple scale keypoint identification
- The descriptors are highly distinctive. For example, I tested with up to 300,000 keypoints while matching a large 60 picture panorama and it did not have a single invalid match.
- The feature vectors can be efficiently correlated using probabilistic algorithms like Best-Bin-First kd-tree search.
Enhancements:
- A serious bug in the Gaussian sigma computation and a bug in the DoG scale handling were fixed.
Download (0.15MB)
Added: 2006-01-21 License: GPL (GNU General Public License) Price:
1374 downloads
Bio::Tools::Run::PiseApplication::consensus 1.4
Bio::Tools::Run::PiseApplication::consensus is a Perl module. more>>
Bio::Tools::Run::PiseApplication::consensus is a Perl module.
Bioperl class for:
CONSENSUS Identification of consensus patterns in unaligned DNA and protein sequences (Hertz, Stormo)
References:
G.Z. Hertz and G.D. Stormo. Identification of consensus patterns in unaligned DNA and protein sequences: a large-deviation statistical basis for penalizing gaps. In: Proceedings of the Third International Conference on Bioinformatics and Genome Research (H.A. Lim, and C.R. Cantor, editors). World Scientific Publishing Co., Ltd. Singapore, 1995. pages 201--216.
Parameters:
(see also:
http://bioweb.pasteur.fr/seqanal/interfaces/consensus.html
for available values):
consensus (Excl)
Program to run
sequence (Sequence)
Sequences file (-f)
pipe: seqsfile
width (Integer)
Width of pattern (consensus only) (-L)
out (String)
consensus_matrix (String)
complement (Excl)
Complement of nucleic acid sequences (-c)
ascii_alphabet (InFile)
Alphabet and normalization information (if not DNA) (-a)
prior (Switch)
Use the designated prior probabilities of the letters to override the observed frequencies (-d)
dna (Switch)
Alphabet and normalization information for DNA
protein (Switch)
Alphabet and normalization information for protein
queue (Integer)
Maximum number of matrices to save between cycles of the program -- ie: queue size (-q)
standard_deviation (Float)
Number of standard deviations to lower the information content at each position before identifying information peaks (mandatory for wconsensus) (-s)
progeny (Excl)
Save the top progeny matrices (-pr1)
linearly (Switch)
Seed with the first sequence and proceed linearly through the list (-l)
max_cycle_nb (Integer)
Maximum repeat of the matrix building cycle (-n or -N)
max_cycle (Excl)
How many words per matrix for each sequence to contribute (-n or -N)
distance (Integer)
Minimum distance between the starting points of words within the same matrix pattern (-m)
terminate (Integer)
Terminate the program this number of cycles after the current most significant alignment is identified (-t)
terminal_gap (Excl)
Permit terminal gaps (-pg) (wconsensus only)
top_matrices (Integer)
Number of top matrices to print (-pt)
final_matrices (Integer)
Number of final matrices to print (-pf)
<<lessBioperl class for:
CONSENSUS Identification of consensus patterns in unaligned DNA and protein sequences (Hertz, Stormo)
References:
G.Z. Hertz and G.D. Stormo. Identification of consensus patterns in unaligned DNA and protein sequences: a large-deviation statistical basis for penalizing gaps. In: Proceedings of the Third International Conference on Bioinformatics and Genome Research (H.A. Lim, and C.R. Cantor, editors). World Scientific Publishing Co., Ltd. Singapore, 1995. pages 201--216.
Parameters:
(see also:
http://bioweb.pasteur.fr/seqanal/interfaces/consensus.html
for available values):
consensus (Excl)
Program to run
sequence (Sequence)
Sequences file (-f)
pipe: seqsfile
width (Integer)
Width of pattern (consensus only) (-L)
out (String)
consensus_matrix (String)
complement (Excl)
Complement of nucleic acid sequences (-c)
ascii_alphabet (InFile)
Alphabet and normalization information (if not DNA) (-a)
prior (Switch)
Use the designated prior probabilities of the letters to override the observed frequencies (-d)
dna (Switch)
Alphabet and normalization information for DNA
protein (Switch)
Alphabet and normalization information for protein
queue (Integer)
Maximum number of matrices to save between cycles of the program -- ie: queue size (-q)
standard_deviation (Float)
Number of standard deviations to lower the information content at each position before identifying information peaks (mandatory for wconsensus) (-s)
progeny (Excl)
Save the top progeny matrices (-pr1)
linearly (Switch)
Seed with the first sequence and proceed linearly through the list (-l)
max_cycle_nb (Integer)
Maximum repeat of the matrix building cycle (-n or -N)
max_cycle (Excl)
How many words per matrix for each sequence to contribute (-n or -N)
distance (Integer)
Minimum distance between the starting points of words within the same matrix pattern (-m)
terminate (Integer)
Terminate the program this number of cycles after the current most significant alignment is identified (-t)
terminal_gap (Excl)
Permit terminal gaps (-pg) (wconsensus only)
top_matrices (Integer)
Number of top matrices to print (-pt)
final_matrices (Integer)
Number of final matrices to print (-pf)
Download (0.81MB)
Added: 2006-10-10 License: Perl Artistic License Price:
1109 downloads
K ISDN Watch 01.00.10
K ISDN Watch is a Linux application running under KDE 3.x. more>>
K ISDN Watch is a universal ISDN monitor for KDE 3, and can be used with each AVM ISDN-Controller and the CAPI4Linux driver.
K ISDN Watch is an "open source" program: the complete source code is available under the GNU Public License. The program is based on the ISDN monitor "kimon", written by Markus Dahlweid for I4L (ISDN4Linux) and the HiSax driver. K ISDN Watch can be used in all Linux distributions.
Main features:
- Monitoring of all activities of the AVM ISDN-Controller including
- Status display for connection set-up and clear-down
- Display of the number of ISDN B channels used
- Identification of the AVM ISDN-Controller in use
- Display of connection time information (incl. log)
- Integration in the KDE panel
<<lessK ISDN Watch is an "open source" program: the complete source code is available under the GNU Public License. The program is based on the ISDN monitor "kimon", written by Markus Dahlweid for I4L (ISDN4Linux) and the HiSax driver. K ISDN Watch can be used in all Linux distributions.
Main features:
- Monitoring of all activities of the AVM ISDN-Controller including
- Status display for connection set-up and clear-down
- Display of the number of ISDN B channels used
- Identification of the AVM ISDN-Controller in use
- Display of connection time information (incl. log)
- Integration in the KDE panel
Download (0.45MB)
Added: 2005-07-25 License: GPL (GNU General Public License) Price:
1551 downloads
enin 1.0
This is a program for enumerating ipx nodes on a network. more>>
This is a program for enumerating ipx nodes on a network. It works by sending an ipx ping packet to all nodes on a network. In addition to printing the ipx network and node address it is able to: print the hexdump of the packet (-h option), try to identify the ipx stack on the node (-i option - please note that this is unreliable at best), and parse the diagnostic response (-p option) giving the ipx version, the spx diagnostic socket, a list of installed components, a list of interfaces in case of routers etc. By default the program uses all networks in /proc/net/ipx_route. If you want to limit the query to a single network use the -n option (like -n 12abc, -n 0 is always the local network).
These are the available options:
Avaliable options:
--help: help
-h : hexdump of the ping response
-i : try to identify the node (unreliable at best), you will get a
hexdump of the response if identification fails
-p : parse diagnostic message
-a : equivalent to -h -p -i
-n NET: ping only single net
-t sec: how much to wait for responses in seconds (default: 2)
<<lessThese are the available options:
Avaliable options:
--help: help
-h : hexdump of the ping response
-i : try to identify the node (unreliable at best), you will get a
hexdump of the response if identification fails
-p : parse diagnostic message
-a : equivalent to -h -p -i
-n NET: ping only single net
-t sec: how much to wait for responses in seconds (default: 2)
Download (0.010MB)
Added: 2006-07-05 License: GPL (GNU General Public License) Price:
1206 downloads
Zombie Master Dedicated Server 1.1.2
Zombie Master is a multiplayer survival horror FPS/RTS mod for Half-Life 2. more>>
Zombie Master project is a multiplayer survival horror FPS/RTS mod for Half-Life 2. A team of FPS-playing humans attempts to complete map-specific objectives while an RTS player controls the zombie horde with only one goal: death to all humans.
He is the Zombie Master.
Enhancements:
- [fix] Weapons were sometimes hard to pick up
- [fix] Fast shooting exploits in shotgun and rifle
- [tweak] Health indication in player identification display
- [tweak] ZM resource limit server setting zm_resource_limit (default 4000)
- [fix] Team changes (including to spectator after death) had erratic results
- [feature] Muting players
- [tweak] Weapon flags failed to reset in some situations after forcehuman/forcemaster team switching
- [fix] ZM preference window came up when the ZM camera toggled
- [fix] Zombie spawns could still be clicked when inactive
- [fix] Voting for roundrestart could be spammed
- [fix] DOTD chalkboard weirded out
- Plus minor fixes to the maps.
As usual, if your game goes horridly wrong after patching, try reinstalling with the 1.1.2 full installer.
UPDATE: If you experience the spectator bug after patching to 1.1.2, it is recommended you do a clean install using the full 1.1.2 installer.
<<lessHe is the Zombie Master.
Enhancements:
- [fix] Weapons were sometimes hard to pick up
- [fix] Fast shooting exploits in shotgun and rifle
- [tweak] Health indication in player identification display
- [tweak] ZM resource limit server setting zm_resource_limit (default 4000)
- [fix] Team changes (including to spectator after death) had erratic results
- [feature] Muting players
- [tweak] Weapon flags failed to reset in some situations after forcehuman/forcemaster team switching
- [fix] ZM preference window came up when the ZM camera toggled
- [fix] Zombie spawns could still be clicked when inactive
- [fix] Voting for roundrestart could be spammed
- [fix] DOTD chalkboard weirded out
- Plus minor fixes to the maps.
As usual, if your game goes horridly wrong after patching, try reinstalling with the 1.1.2 full installer.
UPDATE: If you experience the spectator bug after patching to 1.1.2, it is recommended you do a clean install using the full 1.1.2 installer.
Download (82.3MB)
Added: 2007-06-26 License: Freeware Price:
899 downloads
netAI 0.1
netAI has been developed for identifying the end host applications that are responsible for traffic flows in the network. more>>
netAI comes from Network Traffic based Application Identification and has been developed for identifying the end host applications that are responsible for traffic flows in the network.
Unlike previous solutions that identify the application based on port numbers or packet payload (either through protocol decoding or signatures) netAI computes various payload independent features (e.g. packet length and packet inter-arrival time statistics) for a traffic flow and uses machine learning (ML) techniques.
ML is a discipline of the wider area of Artificial Intelligence (AI). Before netAI can be used to classify a particular application it must be trained on a representative set of traffic flows of that application. netAI can be used offline (reading packet data from tracefiles) and online (live capturing on network interfaces).
Main features:
- Reading packet data from live network interfaces or tracefiles (tcpdump or Endance format)
- Direct creation of WEKA data files (.arff files) from the packet data
- Interim flow information export (while flows are still active), TCP and time-based flow timeouts
- Flexible packet classification and filtering thanks to NetMate
- New features can be easily added and used
- Flexible selection of features to be used for classification
- A large number of machine learning algorithms can be used thanks to WEKA
- Feature extraction and ML based flow classification can be run on different machines - feature extractor supports data export via UDP or TCP
<<lessUnlike previous solutions that identify the application based on port numbers or packet payload (either through protocol decoding or signatures) netAI computes various payload independent features (e.g. packet length and packet inter-arrival time statistics) for a traffic flow and uses machine learning (ML) techniques.
ML is a discipline of the wider area of Artificial Intelligence (AI). Before netAI can be used to classify a particular application it must be trained on a representative set of traffic flows of that application. netAI can be used offline (reading packet data from tracefiles) and online (live capturing on network interfaces).
Main features:
- Reading packet data from live network interfaces or tracefiles (tcpdump or Endance format)
- Direct creation of WEKA data files (.arff files) from the packet data
- Interim flow information export (while flows are still active), TCP and time-based flow timeouts
- Flexible packet classification and filtering thanks to NetMate
- New features can be easily added and used
- Flexible selection of features to be used for classification
- A large number of machine learning algorithms can be used thanks to WEKA
- Feature extraction and ML based flow classification can be run on different machines - feature extractor supports data export via UDP or TCP
Download (0.60MB)
Added: 2006-02-10 License: GPL (GNU General Public License) Price:
1351 downloads
Simple scAnning Tool 1.2
Simple scAnning Tool is a simple and fast network scanner. more>>
Simple scAnning Tool is a simple and fast network scanner. Simple scAnning Tool is used to identify network devices and services. The identification is based on recieved data such as banners.
Usage:
sat.py [options] < file_name/ip_range >
sat.py -r [-f < file >]
sat.py -u [-o < host:port >]
sat.py -h
Options:
-i scan ip range, example: 10.1.1.1-10.1.1.2,10.1.2.2
[default]
-t scan targets from file
-n scan targets from file with nmap grepable output format
(nmap switch -oG)
-p < port_range > port range to scan, example: 1-1024,3333,4000-5000 [default
23]
-T scan TCP ports rather then UDP [default]
-U scan UDP ports rather then TCP
-4 scan via IPv4 rather than IPv6 [default]
-6 scan via IPv6 rather than IPv4
-H < number > maximum number of threads [default 100]
-O < file_name > set the output file name [default sat.log]
-V verbose scan mode
-c < file > specify the config file [default sat.conf]
-l < file > specify the srules file [default sat.srules]
-r restore aborted scan
-f < file > specify the restore file [default sat.restore]
-u update srules file from the net
-o < host:port > set the HTTP/FTP proxy for updater
-v show programs version number and exit
-h show this help message and exit
<<lessUsage:
sat.py [options] < file_name/ip_range >
sat.py -r [-f < file >]
sat.py -u [-o < host:port >]
sat.py -h
Options:
-i scan ip range, example: 10.1.1.1-10.1.1.2,10.1.2.2
[default]
-t scan targets from file
-n scan targets from file with nmap grepable output format
(nmap switch -oG)
-p < port_range > port range to scan, example: 1-1024,3333,4000-5000 [default
23]
-T scan TCP ports rather then UDP [default]
-U scan UDP ports rather then TCP
-4 scan via IPv4 rather than IPv6 [default]
-6 scan via IPv6 rather than IPv4
-H < number > maximum number of threads [default 100]
-O < file_name > set the output file name [default sat.log]
-V verbose scan mode
-c < file > specify the config file [default sat.conf]
-l < file > specify the srules file [default sat.srules]
-r restore aborted scan
-f < file > specify the restore file [default sat.restore]
-u update srules file from the net
-o < host:port > set the HTTP/FTP proxy for updater
-v show programs version number and exit
-h show this help message and exit
Download (0.057MB)
Added: 2006-02-21 License: GPL (GNU General Public License) Price:
1342 downloads
H-inventory 1.0.0
h-inventory provides Web-based hardware and software inventory management for Windows, Linux, and BSD machines. more>>
H-inventory project was developed to meet the needs for a training center of network administrators.
Indeed, the stations are redeployed every week and are not linked to active directory, those are renamed each week so we cannot base us on the name.
The problem is thus the identification of the machine. We thus decided to base us on the concatenation of all the MAC addresses of the machine.
Enhancements:
- Inventory Quick Search Multiple edition of extra fields Cron synchronization Default Location Auto location by script Statistics filtered by locations
- Incidents Quick search Edition and deletion Archiving Multiple incidents types and subtypes
- Monitoring Cron to automate monitoring and audit
- Knowledge Base New
- Deployment Interface and DB improvement New installation method with the 0.2 version of the client
- Admin Maintenance (tar xml files to obtain some space)
- General New installer All interfaces reviewed
- Development (to improve the facility to extend the application) Bug corrections Full php5 object now Comments on code Xhtml 1.0 strict
<<lessIndeed, the stations are redeployed every week and are not linked to active directory, those are renamed each week so we cannot base us on the name.
The problem is thus the identification of the machine. We thus decided to base us on the concatenation of all the MAC addresses of the machine.
Enhancements:
- Inventory Quick Search Multiple edition of extra fields Cron synchronization Default Location Auto location by script Statistics filtered by locations
- Incidents Quick search Edition and deletion Archiving Multiple incidents types and subtypes
- Monitoring Cron to automate monitoring and audit
- Knowledge Base New
- Deployment Interface and DB improvement New installation method with the 0.2 version of the client
- Admin Maintenance (tar xml files to obtain some space)
- General New installer All interfaces reviewed
- Development (to improve the facility to extend the application) Bug corrections Full php5 object now Comments on code Xhtml 1.0 strict
Download (0.97MB)
Added: 2007-04-06 License: GPL (GNU General Public License) Price:
953 downloads
Audio::TagLib::ID3v2::RelativeVolumeFrame 1.42
Audio::TagLib::ID3v2::RelativeVolumeFrame is an ID3v2 relative volume adjustment frame implementation. more>>
Audio::TagLib::ID3v2::RelativeVolumeFrame is an ID3v2 relative volume adjustment frame implementation.
SYNOPSIS
use Audio::TagLib::ID3v2::RelativeVolumeFrame;
my $i = Audio::TagLib::ID3v2::RelativeVolumeFrame->new(
Audio::TagLib::ByteVector->new(""));
$i->setChannelType("MasterVolume");
print $i->channelType(), "n"; # got "MasterVolume"
This is an implementation of ID3v2 relative volume adjustment. The presense of this frame makes it possible to specify an increase in volume for an audio file or specific audio tracks in that file.
Multiple relative volume adjustment frames may be present in the tag each with a unique identification and describing volume adjustment for different channel types.
new()
Constructs a RelativeVolumeFrame. The relevant data should be set manually.
new(ByteVector $data)
Constructs a RelativeVolumeFrame based on the contents of $data.
DESTROY()
Destroys the RelativeVolumeFrame instance.
String toString()
Returns the frames identification.
see identification()
LIST channles()
Returns a list of channels with information currently in the frame.
NOTE This should be a list of PV which indicates the ChannelType.
see %_ChannelType
PV channelType()
Always returns master volume.
deprecated
void setChannelType(PV $t)
This method no longer has any effect.
deprecated
IV volumeAdjustmentIndex(PV $type = "MasterVolume")
Returns the relative volume adjustment "index". As indicated by the ID3v2 standard this is a 16-bit signed integer that reflects the decibils of adjustment when divided by 512.
This defaults to returning the value for the master volume channel if available and returns 0 if the specified channel does not exist.
see setVolumeAdjustmentIndex()
see volumeAjustment()
void setVolumeAdjustmentIndex(IV $index, PV $type = "MasterVolume")
Set the volume adjustment to $index. As indicated by the ID3v2 standard this is a 16-bit signed integer that reflects the decibils of adjustment when divided by 512.
By default this sets the value for the master volume.
see volumeAdjustmentIndex()
see setVolumeAdjustment()
< NV volumeAdjustment(PV $type = "MasterVolume") >
Returns the relative volume adjustment in decibels.
NOTE Because this is actually stored internally as an "index" to this value the value returned by this method may not be identical to the value set using setVolumeAdjustment().
This defaults to returning the value for the master volume channel if available and returns 0 if the specified channel does not exist.
see setVolumeAdjustment()
see volumeAdjustmentIndex()
void setVolumeAdjustment(NV $adjustment, PV $type = "MasterVolume")
Set the relative volume adjustment in decibels to $adjustment.
By default this sets the value for the master volume.
NOTE Because this is actually stored internally as an "index" to this value the value set by this method may not be identical to the one returned by volumeAdjustment().
see setVolumeAdjustment()
see volumeAdjustmentIndex()
PeakVolume peakVolume(PV $type = "MasterVolume")
Returns the peak volume (represented as a length and a string of bits).
This defaults to returning the value for the master volume channel if available and returns 0 if the specified channel does not exist.
see setPeakVolume()
setPeakVolume(PeakVolume $peak, PV $type = "MasterVolume")
Sets the peak volume to $peak.
By default this sets the value for the master volume.
see peakVolume()
%_ChannelType
This indicates the type of volume adjustment that should be applied. keys %Audio::TagLib::ID3v2::RelativeVolumeFrame::_ChannelType lists all available values used in Perl code.
<<lessSYNOPSIS
use Audio::TagLib::ID3v2::RelativeVolumeFrame;
my $i = Audio::TagLib::ID3v2::RelativeVolumeFrame->new(
Audio::TagLib::ByteVector->new(""));
$i->setChannelType("MasterVolume");
print $i->channelType(), "n"; # got "MasterVolume"
This is an implementation of ID3v2 relative volume adjustment. The presense of this frame makes it possible to specify an increase in volume for an audio file or specific audio tracks in that file.
Multiple relative volume adjustment frames may be present in the tag each with a unique identification and describing volume adjustment for different channel types.
new()
Constructs a RelativeVolumeFrame. The relevant data should be set manually.
new(ByteVector $data)
Constructs a RelativeVolumeFrame based on the contents of $data.
DESTROY()
Destroys the RelativeVolumeFrame instance.
String toString()
Returns the frames identification.
see identification()
LIST channles()
Returns a list of channels with information currently in the frame.
NOTE This should be a list of PV which indicates the ChannelType.
see %_ChannelType
PV channelType()
Always returns master volume.
deprecated
void setChannelType(PV $t)
This method no longer has any effect.
deprecated
IV volumeAdjustmentIndex(PV $type = "MasterVolume")
Returns the relative volume adjustment "index". As indicated by the ID3v2 standard this is a 16-bit signed integer that reflects the decibils of adjustment when divided by 512.
This defaults to returning the value for the master volume channel if available and returns 0 if the specified channel does not exist.
see setVolumeAdjustmentIndex()
see volumeAjustment()
void setVolumeAdjustmentIndex(IV $index, PV $type = "MasterVolume")
Set the volume adjustment to $index. As indicated by the ID3v2 standard this is a 16-bit signed integer that reflects the decibils of adjustment when divided by 512.
By default this sets the value for the master volume.
see volumeAdjustmentIndex()
see setVolumeAdjustment()
< NV volumeAdjustment(PV $type = "MasterVolume") >
Returns the relative volume adjustment in decibels.
NOTE Because this is actually stored internally as an "index" to this value the value returned by this method may not be identical to the value set using setVolumeAdjustment().
This defaults to returning the value for the master volume channel if available and returns 0 if the specified channel does not exist.
see setVolumeAdjustment()
see volumeAdjustmentIndex()
void setVolumeAdjustment(NV $adjustment, PV $type = "MasterVolume")
Set the relative volume adjustment in decibels to $adjustment.
By default this sets the value for the master volume.
NOTE Because this is actually stored internally as an "index" to this value the value set by this method may not be identical to the one returned by volumeAdjustment().
see setVolumeAdjustment()
see volumeAdjustmentIndex()
PeakVolume peakVolume(PV $type = "MasterVolume")
Returns the peak volume (represented as a length and a string of bits).
This defaults to returning the value for the master volume channel if available and returns 0 if the specified channel does not exist.
see setPeakVolume()
setPeakVolume(PeakVolume $peak, PV $type = "MasterVolume")
Sets the peak volume to $peak.
By default this sets the value for the master volume.
see peakVolume()
%_ChannelType
This indicates the type of volume adjustment that should be applied. keys %Audio::TagLib::ID3v2::RelativeVolumeFrame::_ChannelType lists all available values used in Perl code.
Download (1.4MB)
Added: 2006-06-27 License: GPL (GNU General Public License) Price:
1215 downloads
Osicat 0.5
Osicat is lightweight operating system interface for Common Lisp on POSIX-like systems. more>>
Osicat is lightweight operating system interface for Common Lisp on POSIX-like systems.
Osicat uses UFFI for foreign bindings, so it is relatively portable, though most active development happens on SBCL and Debian GNU/Linux, so other platforms may experience wrinkles.
Main features:
- directory iteration and deletion
- environment variables
- symbolic links
- file permissions
- file-type identification
Installation:
If you have asdf-install, just:
$ asdf-install osicat
Sample usage:
- (with-directory-iterator (next "/")
(loop for entry = (next)
while entry
when (member group-write (file-permissions entry))
collect entry))
(#P"/home" #P"/vmlinuz" #P"/tmp" #P"/initrd.img" #P"/initrd.img.old")
- (file-permissions "/initrd.img")
(USER-READ USER-WRITE
USER-EXEC
GROUP-READ
GROUP-WRITE
GROUP-EXEC
OTHER-READ
OTHER-WRITE
OTHER-EXEC)
- (file-kind "/initrd.img")
:SYMBOLIC-LINK
- (read-link "/initrd.img")
#P"boot/initrd.img-2.4.20-3-686"
*
<<lessOsicat uses UFFI for foreign bindings, so it is relatively portable, though most active development happens on SBCL and Debian GNU/Linux, so other platforms may experience wrinkles.
Main features:
- directory iteration and deletion
- environment variables
- symbolic links
- file permissions
- file-type identification
Installation:
If you have asdf-install, just:
$ asdf-install osicat
Sample usage:
- (with-directory-iterator (next "/")
(loop for entry = (next)
while entry
when (member group-write (file-permissions entry))
collect entry))
(#P"/home" #P"/vmlinuz" #P"/tmp" #P"/initrd.img" #P"/initrd.img.old")
- (file-permissions "/initrd.img")
(USER-READ USER-WRITE
USER-EXEC
GROUP-READ
GROUP-WRITE
GROUP-EXEC
OTHER-READ
OTHER-WRITE
OTHER-EXEC)
- (file-kind "/initrd.img")
:SYMBOLIC-LINK
- (read-link "/initrd.img")
#P"boot/initrd.img-2.4.20-3-686"
*
Download (0.014MB)
Added: 2006-03-17 License: MIT/X Consortium License Price:
1316 downloads
NetPacket::IP 0.04
NetPacket::IP is a Perl module to assemble and disassemble IP (Internet Protocol) packets. more>>
SYNOPSIS
use NetPacket::IP;
$ip_obj = NetPacket::IP->decode($raw_pkt);
$ip_pkt = NetPacket::IP->encode($ip_obj);
$ip_data = NetPacket::IP::strip($raw_pkt);
NetPacket::IP provides a set of routines for assembling and disassembling packets using IP (Internet Protocol).
Methods
NetPacket::IP->decode([RAW PACKET])
Decode the raw packet data given and return an object containing instance data. This method will quite happily decode garbage input. It is the responsibility of the programmer to ensure valid packet data is passed to this method.
NetPacket::IP->encode()
Return an IP packet encoded with the instance data specified. This will infer the total length of the packet automatically from the payload lenth and also adjust the checksum.
Functions
NetPacket::IP::strip([RAW PACKET])
Return the encapsulated data (or payload) contained in the IP packet. This data is suitable to be used as input for other NetPacket::* modules.
This function is equivalent to creating an object using the decode() constructor and returning the data field of that object.
Instance data
The instance data for the NetPacket::IP object consists of the following fields.
ver
The IP version number of this packet.
hlen
The IP header length of this packet.
flags
The IP header flags for this packet.
foffset
The IP fragment offset for this packet.
tos
The type-of-service for this IP packet.
len
The length (including length of header) in bytes for this packet.
id
The identification (sequence) number for this IP packet.
ttl
The time-to-live value for this packet.
proto
The IP protocol number for this packet.
cksum
The IP checksum value for this packet.
src_ip
The source IP address for this packet in dotted-quad notation.
dest_ip
The destination IP address for this packet in dotted-quad notation.
options
Any IP options for this packet.
data
The encapsulated data (payload) for this IP packet.
Download (0.011MB)
Added: 2007-02-28 License: Perl Artistic License Price:
968 downloads
Secleted [ 0 ] software to compare
Copyright Notice:
Software piracy is theft, Using crack, password, serial numbers, registration codes, key generators is illegal and prevent future software development. The above pill identification search only lists software in full, demo and trial versions for free download. Download links are directly from our mirror sites or publisher sites, torrent files or links from rapidshare.com, yousendit.com or megaupload.com are not allowed
