Wednesday, August 24, 2016
Tuesday, August 23, 2016
There's a problem, MD5 SUM don't match, therefore doesn't decrypt; they changed the prelink, so the rpm extrator is giving error
debootstrap
18.9 KB
#!/bin/sh
set -e
VERSION='@VERSION@'
unset TMP TEMP TMPDIR || true
# might not be exported if we're running from init=/bin/sh or similar
export PATH
###########################################################################
if [ -z "$DEBOOTSTRAP_DIR" ]; then
if [ -x /debootstrap/debootstrap ]; then
DEBOOTSTRAP_DIR=/debootstrap
else
DEBOOTSTRAP_DIR=/usr/share/debootstrap
fi
fi
DEVICES_TARGZ=$DEBOOTSTRAP_DIR/devices.tar.gz
. $DEBOOTSTRAP_DIR/functions
exec 4>&1
LANG=C
USE_COMPONENTS=main
KEYRING=""
DISABLE_KEYRING=""
FORCE_KEYRING=""
VARIANT=""
ARCH=""
HOST_ARCH=""
HOST_OS=""
KEEP_DEBOOTSTRAP_DIR=""
USE_DEBIANINSTALLER_INTERACTION=""
SECOND_STAGE_ONLY=""
PRINT_DEBS=""
CHROOTDIR=""
MAKE_TARBALL=""
EXTRACTOR_OVERRIDE=""
UNPACK_TARBALL=""
ADDITIONAL=""
EXCLUDE=""
VERBOSE=""
CERTIFICATE=""
CHECKCERTIF=""
PRIVATEKEY=""
DEF_MIRROR="http://httpredir.debian.org/debian"
DEF_HTTPS_MIRROR="https://mirrors.kernel.org/debian"
export LANG USE_COMPONENTS
umask 022
###########################################################################
## phases:
## finddebs dldebs printdebs first_stage second_stage
RESOLVE_DEPS=true
WHAT_TO_DO="finddebs dldebs first_stage second_stage"
am_doing_phase () {
# usage: if am_doing_phase finddebs; then ...; fi
local x;
for x in "$@"; do
if echo " $WHAT_TO_DO " | grep -q " $x "; then return 0; fi
done
return 1
}
###########################################################################
usage_err()
{
info USAGE1 "usage: [OPTION]... [ [
Monday, August 22, 2016
ok, here's the problem its not possible to make a call here because the registration is not on a user name but on the Ip, so the call should be by implementing a class on the interface...(see last link)
www.sis.pt
Information
The information tab displays an easy overview of a site's credibility, using various sources summarized in a comprehensible scorecard.Test↓ | Points↕ | Date↓ | Extra↕ |
---|---|---|---|
![]() | N/A | ||
![]() | |||
Grand total | 0-0=0 |
Information
DNS Records
Number of IP Records (after resolving CNAME:s and CDN analysis and deduplication): | 1 |
---|---|
CNAME:s of this hostname: | |
IP Records: |
Checksums
MD5 sum of host name: | 325f4cb82b8196344b0f84a1ae2050be |
---|---|
SHA1 sum of host name: | 4a61fb5f2799d2c88079ac44f6b54f8dd7f6b8e5 |
SHA256 sum of host name: | 7f548e6c9f16a4b9ebdeddbc1543f3f6f72dbc7c9f7e4151c79b63b74dceb229 |
Summary
The summary displays data on what Internet Protocols a domain points to (A-records for IPv4, and AAAA-records for IPv6). It also contains information on name- and mail servers.What IP addresses does www.sis.pt use?
www.sis.pt uses the two IP addresses 107.154.112.99 and 193.47.185.103 , hereafter referred to as "IP group 1",The IP address 107.154.112.99 hosted by Incapsula Inc in Dover DE United States,
There are about twenty host names that point to the IP address 107.154.112.99 hosted by Incapsula Inc in Dover DE United States, .- Eight of those point only to that IP address .
- Four of them use the six name servers ns1.myhostadmin.net, ns2.myhostadmin.net, ns3.myhostadmin.net, ns4.myhostadmin.net, ns5.myhostadmin.net and ns6.myhostadmin.net .
- One of them point to the five IP addresses 107.154.112.99, 198.148.92.53, 198.148.92.56, 198.148.92.58 and 198.148.92.62 .
- One of them point to the nine IP addresses 23.1.116.146, 23.12.228.143, 23.50.116.146, 23.74.68.146, 23.215.218.19, 104.68.113.118, 104.82.9.85, 107.154.112.99 and 184.86.177.143 .
The IP address 193.47.185.103 hosted by CEGER in Portugal,
There are six host names that point to the IP address 193.47.185.103 hosted by CEGER in Portugal, .- Five of those point only to that IP address .
- One of them point to IP group 1 .
http://twistedoakstudios.com/blog/Post774_anonymous-implementation-classes-a-design-pattern-for-c
Decoded value:
verizon
Original Hash (Sha1):
6ca2f5414a78bb882b77caf07beff613a2cb16e1
Sha1: 6ca2f5414a78bb882b77caf07beff613a2cb16e1
Md2 | 290c0c73b289f27daa5d8a107cee8f48 |
---|---|
Md4 | ff956ee05d30346265f2373efff00235 |
---|---|
Md5 | 5525ff59adcaac313923ab89d0a618c5 |
---|---|
Sha1 | 6ca2f5414a78bb882b77caf07beff613a2cb16e1 |
---|---|
Sha224 | 36d334ce11501ba1759473951516d7f3a4bcd6a2b293fb011adc5234 |
---|---|
Sha256 | aacca8bcb37aefa0c533aaf84f4bcdb9c15dfbf7175da4c6c1ce9d3ec5ba4a02 |
---|---|
Sha384 | c7d085c02751f94ccd70bd5bbf22520eaf0e4f6db8faebb6e334d5c1f03335e65df3dbcf96112cc478fa7fe4d07f4107 |
---|---|
Sha512 | 18666a6639cbe930ac284eee97cc1d80cb2d73c9c893683759ed29b90ab4dca950b3129375b7ab3457b6af387edbd0ab49b7c4970b0356731223c693ca82bcda |
---|---|
Ripemd128 | 145be2c697a992d74c6fb74a4563c482 |
---|---|
Ripemd160 | ff5c97089c9085a11762172d13552d93b983242b |
---|---|
Ripemd256 | 202c4c9036e5bfe1b985a1efa50e4c6df58976ad872b8d4a35536fb245be46c2 |
---|---|
Ripemd320 | 2c8766fedc7aafe65ea09664e00d1caaaaffef258084a2cd525924caaab15323082ac0a6bdd3b77f |
---|---|
Whirlpool | d3e71c0e8b945f40d1db89f99e53d7a77de9672be52c0e562636045b45698f9aa8be0c49039383024e4a1db6ce34b42246da3b9fb940dec9e406b94d426174a2 |
---|---|
Snefru | d1208be31d574840ed8b071405fea243 |
---|---|
Snefru256 | 2f84fe4ab76fd9d97bbea6b7e32e1bf1273c2c1cf469aa639fdc8f28e66d7ecc |
---|---|
Gost | b04821ad9fb8b831efaf59b3d73bc1ab17f31cc4b84ca03692670ac4d3730263 |
---|---|
Adler32 | 0c37030e |
---|---|
Crc32 | d657cbb7 |
---|---|
Crc32b | 1179d89e |
---|---|
Crc32b php | 9ed87911 |
---|---|
Fnv132 | 4eb8fd62 |
---|---|
Fnv164 | ed8b91b8b962d202 |
---|---|
Fnv1a32 | 7f52d49c |
---|---|
Fnv1a52 | f444ea4a80840 |
---|---|
Fnv1a64 | 36824af7df4a319c |
---|---|
Fnv1a128 | adf5e54a754ff78de8cb3efd4681355c |
---|---|
Fnv1a512 | 82f6e10496de7834b08b21ef464a4af0c54d7bbbaa000065cb74802739e0e5717522ecf6d1f9a52f5feefb4fab2273fde8310f1b7b5c9a83a66667cb6ab1478c |
---|---|
Joaat php | e8f8ca62 |
---|---|
Joaat | bd87e11f |
---|---|
Murmur3 | 99c682d8 |
---|---|
Djb2 | aa8eaa36 |
---|---|
Sdbm | 50298b53 |
---|---|
Loselose | 30d |
---|---|
Pearson | 28 |
---|---|
Farm hash fingerprint32 | edf25f01 |
---|---|
Farm hash fingerprint64 | b71c642cbe6c5c39 |
---|---|
Haval128,3 | 1bb27f45157debdab6aa8f66ca46f046 |
---|---|
Haval160,3 | c199ec574c13b3d02acd8994e463375972cdda55 |
---|---|
Haval192,3 | 5a23863708dabf6636e9edcf401ba9f0bc7c96bcf84d0810 |
---|---|
Haval224,3 | 7248aee6253770162605fcf91c2c89432bbc01321da65b7388c9c93f |
---|---|
Haval256,3 | 37e025b6655cede9e532bb28311147132a5b9fa17eadec7ac22aec6cd5dffbef |
---|---|
Haval128,4 | 128ef40728ab05e85624d99914436386 |
---|---|
Haval160,4 | 1d5dad77af4c3b3205eca020445969ceb348e400 |
---|---|
Haval192,4 | 544c27c85bbd4c37cb9e5ee1e9af2783716963179287a6c6 |
---|---|
Haval224,4 | 507e565644c38abc8d2dc225caae86357d014716d45d385c89b3d7ad |
---|---|
Haval256,4 | 2c526f71277b7eb44249248e619ac45fe6937b02ef16981994fb2fec67c5f1b1 |
---|---|
Haval128,5 | 8714092a84886222bd391939856b4eee |
---|---|
Haval160,5 | c255b0d186bfeffb60843a8fa40808b8a1077c53 |
---|---|
Haval192,5 | 205497d132ae67b14a556680387d65866ad9a887cbbb2413 |
---|---|
Haval224,5 | f99d1d406f2cd95d479595f7553dfad0bc8c577765ea97bf4173d3ad |
---|---|
Haval256,5 | df4b86f4b24d8b759247b573e35ad199e3d24a552e21b91d3e201648ec3d7615 |
---|---|
Tiger128 | 7a362eb72c455d41007d75b236fc5cdb |
---|---|
Tiger160 | 7a362eb72c455d41007d75b236fc5cdba08f4470 |
---|---|
Tiger192 | 7a362eb72c455d41007d75b236fc5cdba08f44705cb4942b |
---|---|
Tiger160,3 php | 415d452cb72e367adb5cfc36b2757d002b94b45c |
---|---|
Tiger128,4 | d5a6fdc30f3676ab73c7bc9c913af44e |
---|---|
Tiger160,4 | d5a6fdc30f3676ab73c7bc9c913af44e9875255f |
---|---|
Tiger192,4 | d5a6fdc30f3676ab73c7bc9c913af44e9875255f8334dffb |
---|---|
Base64 | dmVyaXpvbg== |
---|---|
Tiger128,3 | 415d452cb72e367adb5cfc36b2757d00 |
---|---|
Tiger160,3 | 415d452cb72e367adb5cfc36b2757d0070448fa0 |
---|---|
Tiger192,3 | 415d452cb72e367adb5cfc36b2757d002b94b45c70448fa0 |
---|---|
Md5x2 | 4971032ad93ab5ba3327eb2acda5e334 |
---|---|
Md5x3 | 0a6e004898968ba507b0e2e1d549480a |
---|---|
Md5x4 | 577699d0893fd92977d1b27601c793e8 |
---|---|
SHA-1 produces a 160-bit (20-byte) hash value. A SHA-1 hash value is typically expressed as a hexadecimal number, 40 digits long.
SHA-1 is the most widely used of the existing SHA hash functions, and is employed in several widely used applications and protocols.
https://md5hashing.net/hash/sha1/6ca2f5414a78bb882b77caf07beff613a2cb16e1
Sunday, August 21, 2016
Saturday, August 20, 2016
Ok, guys, I'm going to sleep now :) Before I go, I want to quickly explain to all those following this without understanding chit what's about; the authority port, the world internet authorithy (port 53) runs a trellis encryption; trellis is a 3 D system of geometric figures, where each vector of the 3D has a lapse of time (TTL) until can be shut off (like gmail which only can be reopened in 300 seconds) and a velocity of bites running on diffrent paths of volume (packets) , however (this is called convunational) trellis has a file i.cnm which has a task to forward, retransmit and reset all data traffic on world internet; what I've been doing was to use the forwrd aspect, which on the last code I published is about to reverse the lenght (firewall) , when we reverse the trellis path we are making possible a forward pool; this means that this is is the midlea aspect of shutting down worldwide internet. So, I'll be here tomorrow God's wishing; and He does. see u bye bye.
1
30 #include <itpp/base/matfunc.h>
31 #include <itpp/base/algebra/schur.h>
32 #include <itpp/base/converters.h>
41 cmat sqrtm(const mat& A)
47 cmat sqrtm(const cmat& A)
50 schur(A, U, T);
57 R(j, j) = std::sqrt(T(j, j));
59 const double fudge = std::sqrt(std::numeric_limits::min ());
70 const std::complex conj_d = conj(d);
80 bool all(const bvec &testvec)
87 bool any(const bvec &testvec)
92 }
Convert convolutional code polynomials to trellis description
http://www.mathworks.com/help/comm/ref/poly2trellis.html
Friday, August 19, 2016
DNSSEC: Does the algorithm of the ZSK need to match the algorithm of the KSK?
Is it legal with DNSSEC to have differing algorithms for the ZSK and
KSK? If so, how can I sign verify the zone using the standard
...
Well, as much as the tools complain about it, it does appear to work:
http://security.stackexchange.com/questions/80493/dnssec-does-the-algorithm-of-the-zsk-need-to-match-the-algorithm-of-the-ksk
https://kernel.googlesource.com/pub/scm/linux/kernel/git/broonie/regulator/+/regulator-v4.0-rc2%5E3..regulator-v4.0-rc2/
bind
DNSSEC tools with such a configuration?...
Well, as much as the tools complain about it, it does appear to work:
dig voria.net +dnssec +multi
isn't giving me any errors.http://security.stackexchange.com/questions/80493/dnssec-does-the-algorithm-of-the-zsk-need-to-match-the-algorithm-of-the-ksk
kernel, ok, microvolts code here so you don't need clusters you need a microvolt regulator
https://kernel.googlesource.com/pub/scm/linux/kernel/git/broonie/regulator/+/regulator-v4.0-rc2%5E3..regulator-v4.0-rc2/
ICANN selected seven people to be key holders and gave each one an actual key to Internet. It selected seven more people to be backup keyholders: so total 14 people. The physical keys unlock safety deposit boxes stashed around the world. Inside those boxes, there are smart key cards. If they all combine seven smart key cards together then they will have the “master key.” The master key may be a computer code or a password that can be used to access the ICANN database.
ICANN has released the list of trusted community representatives who
will participate in the root key generation and signing ceremonies, the
first of which will take place tomorrow, June 16, in Culpeper,
Virginia. (An FAQ on the trusted community representatives can be found
here.) Following is the complete list, although ICANN notes that backups may be called in if needed:
Crypto Officers for the US East Coast Facility
Crypto Officers for the US East Coast Facility
- Alain Aina, BJ
- Anne-Marie Eklund Löwinder, SE
- Federico Neves, BR
- Gaurab Upadhaya, NP
- Olaf Kolkman, NL
- Robert Seastrom, US
- Vinton Cerf, US
- Andy Linton, NZ
- Carlos Martinez, UY
- Dmitry Burkov, RU
- Edward Lewis, US
- João Luis Silva Damas, PT
- Masato Minda, JP
- Subramanian Moonesamy, MU
- Bevil Wooding, TT
- Dan Kaminsky, US
- Jiankang Yao, CN
- Moussa Guebre, BF
- Norm Ritchie, CA
- Ondřej Surý, CZ
- Paul Kane, UK
- Christopher Griffiths, US
- Fabian Arbogast, TZ
- John Curran, US
- Nicolas Antoniello, UY
- Rudolph Daniel, UK
- Sarmad Hussain, PK
- Ólafur Guðmundsson, IS
- David Lawrence, US
- Dileepa Lathsara, LK
- Jorge Etges, BR
- Kristian Ørmen, DK
- Ralf Weber, DE
- Warren Kumari, US
Tuesday, August 16, 2016
Thursday, August 11, 2016
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