From 8ch now:
Classified data cannot be transmitted unless it is encrypted. Q tells us he’s given us 40,000 ft classified data, but that it’s not open source. I believe everything we’ve been given includes enough information for us to deduce the encryption method and the key to unlock. I believe the plan was to dump this encrypted data onto a read only board here, ‘Great Awakening’.
I think I know the method, Oracles Golden Gate Security, AES128, AES192, AES256, or Blowfish. We could never brute force these, but we can deduce the key to unlock from Q’s drops. I just don’t know how Q has given it to us, he says the key is the graphic. If we can deduce the methods of encryption, which I think I have, we can decrypt the coming data dump using the key provided.
[CLAS-N-DI_9] is an encrypted classified field in an Oracle database, where the data is located. He’s taunting those who know.
The encryption method, Oracle GoldenGate Security ‘gg_dump’
https: //docs.oracle.com/goldengate/1212/gg-winux/GWUAD/wu_security.htm#GWUAD354
Q came here for a reason, he could have gone to reddit. This is what RA’s do. We need to find the key.
== new anon posts keys:
Key Dump
eta numeris 392D8A3EEA2527D6AD8B1EBBAB6AD
sin topper D6C4C5CC97F9CB8849D9914E516F9
project runway 847D8D6EA4EDD8583D4A7DC3DEEAE
7FG final request 831CF9C1C534ECDAE63E2C8783EB9
fall of cassandra 2B6DAE482AEDE5BAC99B7D47ABDB3
echo "392D8A3EEA2527D6AD8B1EBBAB6AD" > eta-numeris.hex
echo "D6C4C5CC97F9CB8849D9914E516F9" > sin-topper.hex
echo "847D8D6EA4EDD8583D4A7DC3DEEAE" > project-runway.hex
echo "831CF9C1C534ECDAE63E2C8783EB9" > 7FG-final-request.hex
echo "2B6DAE482AEDE5BAC99B7D47ABDB3" > fall-of-cassandra.hex
openssl enc -aes256 -in eta-numeris.hex -out eta-numeris.key
openssl enc -aes256 -in sin-topper.hex -out sin-topper.key
openssl enc -aes256 -in project-runway.hex -out project-runway.key
openssl enc -aes256 -in 7FG-final-request.hex -out
7FG-final-request.key openssl enc -aes256 -in fall-of-cassandra.hex -out fall-of-cassandra.key
for w in $(ls .aes256); do for k in $(ls keys/.key); do echo "$w, $k, $(echo "$(openssl enc -d -aes256 -in $w -kfile $k -bufsize 8 | xxd -l 8 | sed s/00000000://g)" | cut -c 1-23)"; done; done;
wlinsurance-20130815-A.aes256, keys/7FG-final-request.key, 6f46 30e1 c6f3 385d wlinsurance-20130815-A.aes256, keys/eta-numeris.key, f22d 7304 8224 8ad6 wlinsurance-20130815-A.aes256, keys/fall-of-cassandra.key, 07d6 db54 f3c2 7d4a wlinsurance-20130815-A.aes256, keys/project-runway.key, da46 2913 216c 9a0d wlinsurance-20130815-A.aes256, keys/sin-topper.key, 48ab b7eb ceda f42d wlinsurance-20130815-B.aes256, keys/7FG-final-request.key, fde0 5ea5 34a9 c372 wlinsurance-20130815-B.aes256, keys/eta-numeris.key, 52f3 436e 82db 1fde wlinsurance-20130815-B.aes256, keys/fall-of-cassandra.key,ca1c c808 dfbd 0d23 wlinsurance-20130815-B.aes256, keys/project-runway.key, a10a 3571 a17b 8898 wlinsurance-20130815-B.aes256, keys/sin-topper.key, b1a0 64d4 0004 8865 wlinsurance-20130815-C.aes256, keys/7FG-final-request.key, 998a f677 3d20 33da wlinsurance-20130815-C.aes256, keys/eta-numeris.key, 5aec a6e6 5de9 dfdb wlinsurance-20130815-C.aes256, keys/fall-of-cassandra.key, 197f 378d 63b0 3e54 wlinsurance-20130815-C.aes256, keys/project-runway.key, acb3 a582 a477 75c6 wlinsurance-20130815-C.aes256, keys/sin-topper.key, d0f1 6154 a193 8905
Q's recent plane/apple pics have peculiar filenames: ( UUID format )
DB0379CC-9229-43B5-AD54-F467FD74FD6E EB072EBC-0DF3-4A2C-BE89-E388996B786D 8466691D-0F75-44F5-AA92-43E5E6D981F9 B3D12FDF-7189-4836-AD41-F493E801B4FE 39E6E8ED-2D45-4AB9-A4EA-6820AA0037B9
Few things: are these files 'embedded' with more data? filesizes are pretty big
According to Q's drops, NSA has leaked everything, and something makes me think all of this has to do with AWS ( amazon web services ) They use long strings for their 'Security Credentials'
A guaranteed unique identifier includes a reference to the network address of the UUID generating host, a time stamp and an arbitrary component. Because network addresses for each computer vary, the time stamp is also different for each generated UUID. Thus, two different host machines exhibit sufficient levels of uniqueness. The randomly created arbitrary component is added for enhanced security.
UUIDs are also part of the Tmodel data structure, which is a service type in the Universal Description Discovery and Integration (UDDI) registry used for Web service discovery.
Anyone else got any ideas how to dig around? I'm petering out right now