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ibmIBM71704339C499506FBD9AD5216F79BE8D641A0F781BEF936B7F7E67FCCE6E79FA
HistoryDec 06, 2021 - 10:35 a.m.

Security Bulletin: Publicly disclosed vulnerabilities from Kernel affect IBM Netezza Host Management

2021-12-0610:35:06
www.ibm.com
37

6.5 Medium

CVSS3

Attack Vector

NETWORK

Attack Complexity

HIGH

Privileges Required

NONE

User Interaction

NONE

Scope

UNCHANGED

Confidentiality Impact

NONE

Integrity Impact

LOW

Availability Impact

HIGH

CVSS:3.1/AV:N/AC:H/PR:N/UI:N/S:U/C:N/I:L/A:H

5.8 Medium

CVSS2

Access Vector

NETWORK

Access Complexity

MEDIUM

Authentication

NONE

Confidentiality Impact

NONE

Integrity Impact

PARTIAL

Availability Impact

PARTIAL

AV:N/AC:M/Au:N/C:N/I:P/A:P

0.004 Low

EPSS

Percentile

72.8%

Summary

Kernel is used by IBM Netezza Host Management. This bulletin provides mitigation for the reported CVEs.

Vulnerability Details

CVEID:CVE-2021-3772
**DESCRIPTION:**Linux Kernel is vulnerable to a denial of service, caused by improper validation of integrity check value by the Linux SCTP stack. By sending packets with spoofed IP addresses and knowledge of the IP-addresses and port numbers being used, an attacker could exploit this vulnerability to kill an existing SCTP association.
CVSS Base score: 5.9
CVSS Temporal Score: See: https://exchange.xforce.ibmcloud.com/vulnerabilities/213794 for the current score.
CVSS Vector: (CVSS:3.0/AV:N/AC:H/PR:N/UI:N/S:U/C:N/I:N/A:H)

CVEID:CVE-2021-3655
**DESCRIPTION:**Linux Kernel could allow a remote attacker to obtain sensitive information, caused by missing size validations on inbound SCTP packets. By sending specially-crafted packets, an attacker could exploit this vulnerability to read uninitialized memory.
CVSS Base score: 5.3
CVSS Temporal Score: See: https://exchange.xforce.ibmcloud.com/vulnerabilities/206865 for the current score.
CVSS Vector: (CVSS:3.0/AV:N/AC:L/PR:N/UI:N/S:U/C:L/I:N/A:N)

Affected Products and Versions

Affected Product(s) Version(s)
IBM Netezza Host Management All IBM Netezza Host Management starting 5.4.9.0

Remediation/Fixes

Mitigation of the reported CVEs : CVE-2021-3655, CVE-2021-3772 blocklisting kernel module sctp to prevent them from loading automatically on PureData System for Analytics N200x and N3001 is as follows:

1. Change to user nz:
[root@nzhost1 ~]# su – nz

2. Check to see if Call Home is enabled:
[nz@nzhost1 ~]$ nzcallhome -status
If enabled, disable it:
[nz@nzhost1 ~]$ nzcallhome –off
Note: Ensure that nzcallhome returns status as disabled. If there are errors in the callHome.txt configuration file, errors are listed in the output, and call-Home is disabled.

3. Check the state of the Netezza system:
[nz@nzhost1 ~]$ nzstate

4. If the system state is online, stop the system using the command:
[nz@nzhost1 ~]$ nzstop

5. Wait for the system to stop, using the command:
[nz@nzhos1t ~]$ nzstate
System state is ‘Stopped’.

6. Exit from the nz session to return to user root:
[nz@nzhost1 ~]$ exit

7. Logged into the active host as root, type the following commands to stop the heartbeat processes:
[root@nzhost1 ~]#** ssh ha2 /sbin/service heartbeat stop**
[root@nzhost1 ~]# /sbin/service heartbeat stop

8. Run below commands as a root user to disable heartbeat from startup:
[root@nzhost1 ~]# ssh ha2 /sbin/chkconfig heartbeat off
[root@nzhost1 ~]# /sbin/chkconfig heartbeat off

9. Type the following commands to stop the DRBD processes:
[root@nzhost1 ~]# ssh ha2 /sbin/service drbd stop
[root@nzhost1 ~]# /sbin/service drbd stop

10. Run below commands as a root user to disable drbd from startup:
[root@nzhost1 ~]# ssh ha2 /sbin/chkconfig drbd off
[root@nzhost1 ~]#** /sbin/chkconfig drbd off**

Execute below steps using “root” user on both ha1/ha2 hosts

Step 1: Check if kernel module sctp is loaded in the hosts

lsmod | grep sctp

example:
lsmod | grep sctp
sctp 268911 0

Note: No output on Step 1 for any module indicates, that module is not loaded hence skip Step 2 for that module, and proceed with Step 3

Step 2: Unload kernel module sctp if it is loaded

modprobe -rv sctp

example:
[root@nzhost1 ~]# modprobe -rv sctp
rmmod /lib/modules/2.6.32-754.41.2.el6.x86_64/kernel/net/sctp/sctp.ko

Kernel modules and their dependent modules will be unloaded in the reverse order that they are loaded, given that no processes depend on any of the modules being unloaded.

Step 3: To prevent module from being loaded directly you add the blocklist line to a configuration file specific to the system configuration.

echo “blocklist sctp” >> /etc/modprobe.d/local-blocklist.conf

example :
[root@nzhost1 ~]# echo “blocklist sctp” >> /etc/modprobe.d/local-blocklist.conf
[root@nzhost1 ~]# cat /etc/modprobe.d/local-blocklist.conf | grep sctp
blocklist sctp

Step 4: Kernel modules can be loaded directly or loaded as a dependency from another module
To prevent installation as a dependency from another module follow below step:

echo “install sctp /bin/false” >> /etc/modprobe.d/local-blocklist.conf

example:
[root@nzhost1 ~]# echo “install sctp /bin/false” >> /etc/modprobe.d/local-blocklist.conf
[root@nzhost1 ~]# cat /etc/modprobe.d/local-blocklist.conf | grep sctp
blocklist sctp
install sctp /bin/false

The install line simply causes /bin/false to be run instead of installing a module.

Step 5: Make a backup copy of your initramfs.

cp /boot/initramfs-$(uname -r).img /boot/initramfs-$(uname -r).img.$(date +%m-%d-%H%M%S).bak

Example:
[root@nzhost1 ~]# cp /boot/initramfs-$(uname -r).img /boot/initramfs-$(uname -r).img.$(date +%m-%d-%H%M%S).bak
[root@nzhost1 ~]# uname -r
2.6.32-754.41.2.el6.x86_64
[root@nzhost1 ~]# ll /boot/initramfs-2.6.32-754.41.2.el6.x86_64.img.10-01-041951.bak
-rw------- 1 root root 22126152 Sep 17 03:52 /boot/initramfs-2.6.32-754.41.2.el6.x86_64.img.10-01-041951.bak

Step 6: If the kernel module is part of the initramfs (boot configuration), rebuild your initial ramdisk image, omitting the module to be avoided

dracut --omit-drivers sctp -f

example:
[root@nzhost1 ~]# dracut --omit-drivers sctp -f
[root@nzhost1 ~]# lsinitrd /boot/initramfs-2.6.32-754.35.1.el6.x86_64.img | grep sctp

Step 7: Append module_name.blocklist to the kernel cmdline. We give it an invalid parameter of blocklist and set it to 1 as a way to preclude the kernel from loading it.

sed --follow-symlinks -i ‘/\s*kernel /vmlinuz/s/$/ sctp.blocklist=1/’ /etc/grub.conf

example :
[root@nzhost1 ~]# sed --follow-symlinks -i ‘/\s*kernel /vmlinuz/s/$/ sctp.blocklist=1/’ /etc/grub.conf

Step 8: blocklist the kernel module in kdump’s configuration file.

echo “blocklist sctp” >> /etc/kdump.conf

example:
[root@nzhost1 ~]# echo “blocklist sctp” >> /etc/kdump.conf
[root@nzhost1 ~]# cat /etc/kdump.conf | grep sctp
blocklist sctp

Note: PerformStep 9 if kexec-tools is installed and kdump is configured else continue with Step 10.
Perform below commands to check if kexec-tools is installed and Kdump is operational
[root@nzhost1 ~]# rpm -qa | grep kexec-tools
[root@nzhost1 ~]# service kdump status

Step 9: Restart the kdump service to pick up the changes to kdump’s initrd.

service kdump restart

example:
[root@nzhost1 ~]# service kdump restart
Stopping kdump: [ OK ]
Detected change(s) the following file(s):

/etc/kdump.conf
Rebuilding /boot/initrd-2.6.32-754.31.1.el6.x86_64kdump.img
Starting kdump: [ OK ]

Step 10: Reboot the system at a convenient time to have the changes take effect.
Make sure the secondary host is up by pinging or logging in before rebooting the primary host.

/sbin/shutdown -r now

example:
[root@nzhost1 ~]# /sbin/shutdown -r now
Make sure the primary server comes up and is reachable before performing Mitigation steps on the secondary server.

After applying the mitigation:

1. Start the services using following:
[root@nzhost1 ~]# service heartbeat start
[root@nzhost1 ~]# ssh ha2 service heartbeat start
[root@nzhost1 ~]# service drbd start
[root@nzhost1 ~]# ssh ha2 service drbd start

2. Check the stat of the system. Type:
[root@nzhost1 ~]#** crm_mon -i5**

Result: When the cluster manager comes up and is ready, status appears as follows.
Make sure that nzinit has started before you proceed. (This could take a few minutes.)
Node: nps61074 (e890696b-ab7b-42c0-9e91-4c1cdacbe3f9): online
Node: nps61068 (72043b2e-9217-4666-be6f-79923aef2958): online
Resource Group: nps
drbd_exphome_device(heartbeat:drbddisk): Started nps61074
drbd_nz_device(heartbeat:drbddisk): Started nps61074
exphome_filesystem(heartbeat::ocf:Filesystem): Started nps61074
nz_filesystem (heartbeat::ocf:Filesystem): Started nps61074
fabric_ip (heartbeat::ocf:IPaddr): Started nps61074
wall_ip (heartbeat::ocf:IPaddr): Started nps61074
nzinit (lsb:nzinit): Started nps61074
fencing_route_to_ha1(stonith:apcmaster): Started nps61074
fencing_route_to_ha2(stonith:apcmaster): Started nps61068

3. From host 1 (ha1), press Ctrl+C to break out of crm_mon.

4. Turn on heartbeat and DRBD using the chkconfig:
ssh ha2 /sbin/chkconfig drbd on ** /sbin/chkconfig drbd on** ** ssh ha2 /sbin/chkconfig heartbeat on** ** /sbin/chkconfig heartbeat on**

Workarounds and Mitigations

None

CPENameOperatorVersion
ibm netezza host managementeqany

6.5 Medium

CVSS3

Attack Vector

NETWORK

Attack Complexity

HIGH

Privileges Required

NONE

User Interaction

NONE

Scope

UNCHANGED

Confidentiality Impact

NONE

Integrity Impact

LOW

Availability Impact

HIGH

CVSS:3.1/AV:N/AC:H/PR:N/UI:N/S:U/C:N/I:L/A:H

5.8 Medium

CVSS2

Access Vector

NETWORK

Access Complexity

MEDIUM

Authentication

NONE

Confidentiality Impact

NONE

Integrity Impact

PARTIAL

Availability Impact

PARTIAL

AV:N/AC:M/Au:N/C:N/I:P/A:P

0.004 Low

EPSS

Percentile

72.8%