A POP3 and IMAP4 mail retriever with reliable Maildir and command delivery.
Summary of features:
- Retrieve mail from an unlimited number of POP3/IMAP4 mailboxes and servers.
- Support for POP3-over-SSL and IMAP-over-SSL, as well as SDPS
WARNING: even with SSL, "no certificate or key validation is done." so
that getmail does not detect or protect from man-in-the-middle attacks.
- Support for multidrop or domain mailboxes.
- Safe and reliable delivery to qmail-style Maildirs, as well as program
(pipe) delivery for use with arbitrary external MDAs. Includes an MDA
for mbox files that supports mboxrd format and fcntl-type flock locking.
- Does not destroy information by rewriting mail headers.
- Does not cause mail loops by doing SMTP injection, and therefore does
not require that you run an MTA (like qmail or sendmail) on your host.
- Can remember which mail it has already retrieved, and can be set to
only download new messages.
- Written in Python, and therefore easy to extend or customize.
- Simple to install, configure, and use.
Prom-Wl is a procmail reader for Wanderlust on GNU Emacs.
If you want to install quickly, you shoud do following steps:
(1) add dot.emacs to your ~/.emacs file and change it suitable for your site
% cat /usr/local/share/examples/prom-wl/dot.emacs >> ~/.emacs
% vi ~/.emacs
(2) copy dot.procmailrc to ~/.procmailrc and change it suitable for your site
% cp /usr/local/share/examples/prom-wl/dot.promailrc ~/.promailrc
% vi ~/.promailrc
(3) byte-compile with "byte-comile" script if you want with xemacs-mule code
# cd /usr/local/share/emacs/site-lisp
# /usr/local/share/doc/prom-wl/byte-compile -l wl xemacs-mule prom-wl
Where detail specification for .emacs and .procmailrc may be shown in
/usr/local/share/doc/prom-wl/prom-usage.jis or procmail(1). And for
usage of byte_compile scripts, run byte-compile with -h option.
Run with "M-x prom-wl" in your emacs editors, Wanderlust will be invoked and
then search unread mails from procmail log to show unread message from top of
entries that you specfied in ~/.pronmailrc.
-KIRIYAMA Kazuhiko
<kiri@pis.toba-cmt.ac.jp>
This module extends the functionality of Math::Symbolic by offering
facilities to compile symbolic math trees (formulas) to C code. It also
uses Inline::C to compile and link the generated C code at run-time, thus
allowing the user to do symbolic calculations in Perl with Math::Symbolic
and then use the results in a fast numeric environment.
This software generates code. Code generators are difficult to test, but
the first release of the module is now 1.5 years old and I haven't
received any bug reports, so I consider it somewhat stable now.
Please read the manpage of Math::Symbolic::Compiler which comes with the
Math::Symbolic distribution. Most of the gotchas involved with compiling
the functions to Perl subroutines also apply to this module which compiles
to C instead.
Alternatively, you can use the module not for faster calculations from
your Perl program, but to generate C code for you. I have used it to
generate an implementation for (many!) Zernike Polynomials for work in C.
NSCA-ng provides a client-server pair which makes the Nagios command file
accessible to remote systems. This allows for submitting passive check
results, downtimes, and many other commands to Nagios or compatible
monitoring solutions. The submitted data is queued by the NSCA-ng
server if Nagios goes down. Multiple check results or commands can be
submitted in one go, and multiline plugin output is fully supported.
NSCA-ng uses TLS encryption and shared-secret authentication with
per-client passwords, as well as fine-grained authorization control.
This package contains the NSCA-ng server, which is written in C and
uses an event-driven architecture. Disk I/O is avoided unless the data
cannot be submitted in one go due to its size (on Linux, the threshold
is 4kB). In this case, the data is handed over to Nagios via
asynchronously written files.
NSCA clients cannot talk to NSCA-ng servers (nor vice versa), but NSCA
and NSCA-ng servers can happily run side by side.
Mediastreamer2 is a powerful and lightweight streaming engine specialized
in voice/video telephony applications.
It is the library that is responsible for all the receiving and sending of
multimedia streams in linphone, including voice/video capture, encoding and
decoding, and rendering.
Features:
* Capture and playback from various platform dependent sound architectures
* Send and receive RTP streams
* Encode and decode the following audio formats: OPUS, speex, G711, GSM, iLBC,
AMR, AMR-WB, G722, SILK, G729, and video formats H263, theora, MPEG4,
H264 and VP8
* RTP/AVPF support: RTCP control messages for video error recovery: PLI, SLI,
RPSI, FIR
* Audio conferencing
* Supports SRTP and ZRTP (encryption of voice and video)
* Supports any webcam, based on OS's camera API: quicktime, directshow,
video4linux, android.camera
* Acoustic echo cancellation using the speex echo canceler or webrtc AECm
* Read and write .wav files
* Optimized rendering of YUV pictures, using OpenGL, DrawDib, X11/Xv
* Dual tones generation
* Custom tone detector
* Audio parametric equalizer
* Volume control, automatic gain control
* ICE for optimized NAT traversal (RFC5246) to allow peer to peer audio and
video connections without media relay server
* Adaptive bitrate control algorithm: for automatic adaption of encoder
bitrate based on received RTCP feedback
* Can use plugins to add new codecs, new sound input/output backends,...
Mpd is a netgraph(4) based implementation of the multi-link PPP
protocol for FreeBSD. It is designed to be both fast and flexible.
It handles configuration and negotiation in user land, while routing
all data packets strictly in the kernel. It supports several of
the numerous PPP sub-protocols and extensions, such as:
Multi-link PPP capability
PAP, CHAP, MS-CHAP and EAP authentication
PPP compression and encryption
IPCP and IPV6CP parameter negotiation
Mpd have support for many link types:
Serial port modem
Point-to-Point Tunnelling Protocol (PPTP)
Layer Two Tunnelling Protocol (L2TP)
PPP over Ethernet (PPPoE)
PPP over TCP
PPP over UDP
PPP over specified netgraph(4) node
Mpd also includes many additional features:
IPv4 and IPv6 support
RADIUS authentication and accounting
NetFlow traffic accounting
Network address translation (NAT)
Dial-on-demand with idle timeout
Multiple active connections running simultaneously
Dynamic demand based link management (also known as ``rubber bandwidth'')
Powerful chat scripting language for asynchronous serial ports
Pre-tested chat scripts for several common modems and ISDN TAs
Clean device-type independent design
Comprehensive logging
Telnet and HTTP control interfaces.
More and more people are posting binary files to usenet these days.
Because of limitations in the type data that usenet can accommodate,
binaries must be encoded into text, and because binary files are
commonly very large relative to text files usenet was designed to
handle, they frequently must be broken up into pieces.
aub, which stands for "assemble usenet binaries", automates the
reassembly process for you. aub determines whether or not any new
binaries have appeared in selected newsgroups since the last time it was
run, and if so, retrieves, organizes and decodes them, depositing them
in a configurable location. This process requires no human intervention
once aub has been configured. aub also keeps track of binaries which it
has seen some, but not all, of the pieces of. It remembers how to find
these old pieces, so that when new, previously missing pieces arrive at
your site, it will build the entire binary the next time it is run. It
also remembers which binaries it has already seen all of the pieces of
already, so that it does not waste time rebuilding the same binaries
over and over again.
run: ``aub -M | more'' for the long form documentation, or
``aub -m | more'' for the short form.
GSview is a graphical interface for Ghostscript. (Ghostscript is an
interpreter for the PostScript page description language used by
laser printers.) For documents following the Adobe PostScript Document
Structuring Conventions, GSview allows selected pages to be viewed or
printed. Features include:
* Display and print PostScript and PDF files.
* View pages in arbitrary order (Next, Previous, Goto).
* Page size and Orientation are automatically selected from DSC
comments or can be selected using the menu.
* Print selected pages using Ghostscript.
* Convert pages to bitmap, PDF or PostScript.
* Selectable display resolution, depth, alpha.
* Single button zoom.
* Extract selected pages to another file.
* Copy display bitmap to clipboard, and save clipboard bitmap as BMP file.
* Add bitmap or user preview to EPS file (Interchange, TIFF or Windows
Metafile)
* Graphically select and show bounding box for EPS file.
* Extract bitmap preview or PostScript from DOS EPS file.
* Extract text or search for text.
* Can read gzip and bzip2 compressed PostScript and PDF files.
* On-line help.
* English, Catalan, Dutch, French, German, Greek, Italian, Russian,
Slovak, Spanish and Swedish languages.
Sst can be used to connect to SSL-encrypted network ser-
vices or it can be used as an SSL front-end to network
servers. Sst can be used interactively, or in an inetd
setting, or it can be embedded inside other programs (eg.
Amanda).
One of the main goals of sst is to be as basic as possible
so in most non-embedded cases sst uses netcat to setup the
networking I/O. Sst uses a socketpair(2) pipe to stay in
contact with its netcat child process. In this way sst
only has to concern itself with file descriptors.
In the embedded mode sst expects the parent program to set
up the networking I/O and to provide the appropriate file
descriptors. In embedded client mode ("-c"), clear data
is read from (or written to) stdin (fildes 0) and SSL-
encrypted data is read from (or written to) stdout (fildes
1). In embedded server mode ("-s"), SSL-encrypted data is
read from (or written to) stdin and clear data read from
(or written to) stdout.
libretto-config - Libretto BIOS Setting Program
The `libretto-config' is a utility program to configure the BIOS
setting of the mini notebook computer, Toshiba Libretto. Changes to
the setting are immediately done, so rebooting is not necessary.
I don't know whether these programs work on any other machines but
Libretto. In case of Toshiba's notebook machines, some function may
work.
*** Disclaimer *****************************************************
The information used to write these programs was obtained by
analyzing Libretto individually, not provided by Toshiba. Therefore,
they might contain fatal bugs and might cause damages to your
Libretto. You can use them freely but the authors are not
responsible for the programs. Redistribution of the programs are not
restricted, but you must attach this caution and the source.
********************************************************************
The original program were written by Mr. Iizuka
(PXN02133@niftyserve.or.jp), which rewrite the CMOS setting directly.
Mr. Nomura (GBB00111@niftyserve.or.jp) have extended the program to
support SMI and BIOS calling. Thanks.
I, Ishioka, combined programs to the package. If you have any troubles,
bug reports, or requests, please notify me.