The RouterSploit Framework is an open-source exploitation framework dedicated to
embedded devices.
It consists of various modules that aids penetration testing operations:
- exploits: modules that take advantage of identified vulnerabilities
- creds: modules designed to test credentials against network services
- scanners: modules that check if a target is vulnerable to any exploit
SNMP v1/v2c/v3 engine and apps written in pure-Python. Supports
Manager/Agent/Proxy roles, scriptable MIBs, asynchronous operation
and multiple transports.
A local patch incorporated upstream:
Author: kamil
Date: Thu Jan 25 03:07:42 2018
New Revision: 323413
URL: http://llvm.org/viewvc/llvm-project?rev=323413&view=rev
Log:
Correct typo in TSan code
We wrongly enabled additional (unwanted) branch for NetBSD.
Noted by Vlad Tsyrklevich
Modified:
compiler-rt/trunk/lib/tsan/rtl/tsan_interceptors.cc
Sponsored by <The NetBSD Foundation>
Changes:
1. Add fts(3) interceptors
2. Add lstat(2) interceptor
3. Correct strftime(3) inteceptor for NetBSD
4. Correct fgets(3) interceptor for NetBSD
5. Add strmode(3) interceptor
Programs like chmod(1), stat(1) and similar work now under MSan.
Sponsored by <The NetBSD Foundation>
1. Adapt sysctl(2)-like interceptors with reality.
2. Implement getnetent(3)-like interceptors.
This corrects execution of netstat(1) with more (all?) possible options.
Sponsored by <The NetBSD Foundation>
nmh (new MH) is a powerful electronic mail handling system. It was
originally based on version 6.8.3 of the MH message system developed by
the RAND Corporation and the University of California. It is intended
to be a (mostly) compatible drop-in replacement for MH.
nmh consists of a collection of fairly simple single-purpose programs
to send, receive, save, retrieve, and manipulate e-mail messages. Since
nmh is a suite rather than a single monolithic program, you may freely
intersperse nmh commands with other commands at your shell prompt,
or write custom scripts which use these commands in flexible ways.
This is intended to ease the update of mail/nmh.
This is the official plugin pack for mackerel-agent,
a piece of software which is installed on your hosts to
collect metrics and events and send them to Mackerel.
https://github.com/mackerelio/mackerel-agent-plugins
Changes:
1. Improve sysctl-like functions handling in interceptors
2. Implement interceptors for getprotoent(3)-like functions
netstat(1) can now execute under MSan.
Sponsored by <The NetBSD Foundation>
UnifrakturMaguntia has been created by j. 'mach' wust, Gerrit Ansmann and Georg
Duffner. It is a modification of Peter Wiegel's font Berthold Mainzer Fraktur,
is in turn based on a 1901 typeface by Carl Albert Fahrenwaldt.
UnifrakturMaguntia has been created in order to provide a Fraktur typeface that
may be embedded on websites. It is in accordance with the Unicode standard. It
has suitable font licenses (GPL with font exception and OFL).
By now, Gerrit Ansmann has redrawn all of Wiegel's original letters up to the
very last special character.
New features since 1.0-2:
o This package is now Renjin compatible.
o gengamma.stacy() handles multiple responses, and some
of its arguments have had their default values changed.
o calibrate() has a methods function for "rrvglm" objects.
o "vglm" objects have a new "hadof" slot.
o "vglm" objects will soon have a new "charfun" slot.
o constraints(vglmfit, matrix = TRUE) is now embellished by
rownames, by default.
o New generic and methods function: hdeff(), lrp().
o Many link functions accommodate 'deriv = 3' and sometimes a bit
higher. More safety when 'deriv' is assigned out-of-range values.
o fitted() and predict() with lms.???() fits, such as lms.bcn(),
now handles inputting new 'percentiles' values. Thanks to
Sven Garbade for picking up this obvious deficiency.
o New function(s): d3theta.deta3().
o vgam() with sm.os() and sm.ps() terms allows G2-VGAMs to be fitted.
o plotvgam() has a "shade" argument.
o Almost all family functions have been "validparams"-enabled, for
greater reliability.
o confint() implements the profile likelihood method (in addition
to the Wald method).
o New family functions: diffzeta(dpqr),
oilog(dpqr), oiposbinomial(dpqr), oizeta(dpqr), oizipf(dpqr),
otlog(dpqr), otpospoisson(dpqr), otzeta(dpqr),
oalog(dpqr), oapospoisson(dpqr), oazeta(dpqr), topple(dpqr).
o New functions: [pqr]zeta(), [qr]zipf().
o Argument 'zero' now accepts "" or NA and interprets these as NULL,
i.e., no linear or additive predictors are intercept-only.
o Significance stars added to summary(rrvglm.object), for very crude
inference.
o zeta() can return the Hurwitz zeta function, via the 'shift' argument.
o show.summary.vglm() will only print out any dispersion parameter
that is not equal to 1.
o type.fitted = "quantiles" is available for
gevff(), negbinomial(), poissonff().
Filip Hajny
Leonardo Taccari
Benny Siegert
Kamil Rytarowski
Mark Davies
Thomas Klausner
miwarin
Min Sik Kim
Pierre Pronchery