Red Hat Enterprise Linux 6 6 2 Release Notes en US


Red Hat Enterprise Linux 6 6.2 Release Notes 1
Red Hat Enterprise Linux 6
6.2 Release Notes
Release Notes for Red Hat Enterprise Linux 6.2
Edition 2
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Red Hat Enterprise Linux 6 6.2 Release Notes 3
Abstract
Red Hat Enterprise Linux minor releases are an aggregation of individual enhancement, security and
bug fix errata. The Red Hat Enterprise Linux 6.2 Release Notes documents the major changes made to
the Red Hat Enterprise Linux 6 operating system and its accompanying applications for this minor
release. Detailed notes on all changes in this minor release are available in the Technical Notes.
4 Table of Contents
Table of Contents
Preface
1. Hardware Support
2. Installation
3. Kernel
4. Resource Management
5. Device Drivers
6. Storage
7. File System
8. Networking
9. Authentication and Interoperability
10. Entitlement
11. Security, Standards and Certification
12. Compiler and Tools
13. Clustering
14. High Availability
15. Virtualization
16. Graphics
17. General Updates
A. Component Versions
B. Revision History
Red Hat Enterprise Linux 6 6.2 Release Notes 5
Preface
The Release Notes provide high level coverage of the improvements and additions that have been
implemented in Red Hat Enterprise Linux 6.2. For detailed documentation on all changes to Red Hat
Enterprise Linux for the 6.2 update, refer to the Technical Notes.
Note
Refer to the Online Release Notes for the most up-to-date version of the Red Hat Enterprise
Linux 6.2 Release Notes.
6 Chapter 1. Hardware Support
Chapter 1. Hardware Support
biosdevname
The biosdevname package has been upgraded to version 0.3.8, providing the --smbios and --
nopirq command line parameters. These parameters allow users to specify a minimum BIOS and to
turn off PCI IRQ Routing Table (PIRQ).
Red Hat Enterprise Linux 6 6.2 Release Notes 7
Chapter 2. Installation
Compression format for the initrd.img file
In Red Hat Enterprise Linux 6.2, the compression format used for the initrd.im g file has changed.
The image is now compressed using LZMA rather than Gzip.
To decompress an image, use the xz -d command. For example:
~]# xz -dc initrd.img | cpio -id
To compress an image, use the xz -9 --format=lzma command. For example:
~]# find . | cpio -c -o | xz -9 --format=lzma > initrd.img
Support for device identification using WWIDs during installation
Fibre Channel and Serial Attached SCSI (SAS) devices can be now specified by a World Wide Name
(WWN) or a World Wide Identifier (WWID) for unattended installations. WWN is part of the IEEE standard
which makes it easier to identify storage devices during installation for users utilizing Storage Area
Networks (SAN) and other advanced network topologies. When a storage device is attached to a server
using multiple physical paths for redundancy or improved performance, WWN for any of these paths is
sufficient to identify the device.
Initial RAM disk file
The initial RAM disk file on 64-bit PowerPC and 64-bit IBM POWER Series systems is now named
initrd.img. In previous releases, it was named ramdisk.im age.gz.
Static IPv6 address support for network installation
In Red Hat Enterprise Linux 6.2, a static IPv6 address can be specified for the ipv6 boot option for
network installations. The specified address must be of the following form:
[/]
An example of a valid IPv6 address would then be 3ffe:ffff:0:1::1/128. If the prefix is omitted, the
value of 64 is assumed. Specifying a static IPv6 address for the ipv6 boot option complements the
already existing dhcp and auto parameters that can be specified for the ipv6 boot option.
8 Chapter 3. Kernel
Chapter 3. Kernel
The kernel shipped in Red Hat Enterprise Linux 6.2 includes several hundred bug fixes for, and
enhancements to, the Linux kernel. For details concerning every bug fixed and every enhancement
added to the kernel for this release, refer to the kernel section of the Red Hat Enterprise Linux 6.2
Technical Notes.
Using open-iscsi to manage the qla4 xxx discovery and login process
Prior to Red Hat Enterprise Linux 6.2, the qla4xxx adapter firmware managed discovery and login to
iSCSI targets. A new feature in Red Hat Enterprise Linux 6.2 allows you to use open-iscsi to manage
the qla4 xxx discovery and login process. This can result in a more uniform management process.
This new feature is enabled by default. The qla4xxx iSCSI firmware settings are accessible via:
~]# iscsiadm -m fw
This feature may be disabled by setting the module ql4xdisablesysfsboot=1 parameter as follows:
1. Set the parameter in the /etc/m odprobe.d file:
~]# echo "options qla4xxx ql4xdisablesysfsboot=1" >>
/etc/modprobe.d/qla4xxx.conf
2. Reload the qla4xxx module either by executing the following set of commands:
~]# rmmod qla4xxx
~]# modprobe qla4xxx
or, if you are booted off the qla4xxx device, by rebooting your system.
When booted off a qla4xxx device, upgrading from Red Hat Enterprise Linux 6.1 to Red Hat Enterprise
Linux 6.2 will cause the system to fail to boot up with the new kernel. For more information on this known
issue, refer to the Technical Notes.
kexec kdump support on additional file systems
Kdump (a kexec-based crash dumping mechanism) now supports dumping of the core on the following
file systems on Red Hat Enterprise Linux 6:
Btrfs (Note that this file system is a Technology Preview)
ext4
XFS (Note that XFS is a layer product and must be installed to enable this feature)
pkgtemp merged with coretemp
The pkgtemp module has been merged with the coretemp module. The pkgtemp module is now
deprecated. The coretemp module now supports all the features it previously did plus the features that
were supported by the pkgtemp module.
The coretemp previously only provided per core temperatures, while the pkgtemp module provided
the temperatures of the CPU package. In Red Hat Enterprise Linux 6.2, the coretemp module allows
you to read the temperatures of the cores, the uncore, and the package.
It is advisable to adjust any scripts using either of these modules.
Red Hat Enterprise Linux 6 6.2 Release Notes 9
Lockless dispatching of SCSI driver queuecommand functions
In Red Hat Enterprise Linux 6.2, the SCSI midlayer supports optional lockless dispatching of SCSI driver
queuecommand functions.
This is a backport of the upstream SCSI lock pushdown commit. The backport retains binary
compatibility with Red Hat Enterprise Linux 6.0 and Red Hat Enterprise Linux 6.1. Retaining binary
compatibility requires divergence from the equivalent upstream SCSI lock pushdown mechanism.
A previously unused flag in the scsi_host_template structure is used by SCSI drivers to indicate to
the SCSI midlayer that driver queuecommand will be dispatched without the SCSI host bus lock held.
The default behavior is that the Scsi_Host lock will be held during a driver queuecommand dispatch.
Setting the scsi_host_template lockless bit prior to scsi_host_alloc will cause the driver
queuecommand function to be dispatched without the Scsi_Host lock being held. In such a case, the
responsibility for any lock protection required is pushed down into the driver queuecommand code path.
SCSI Drivers updated to use lockless queuecommand in Red Hat Enterprise Linux 6.2 are listed below:
iscsi_iser
be2iscsi
bnx2fc
bnx2i
cxgb3i
cxgb4i
fcoe (software fcoe)
qla2xxx
qla4xxx
Support for Fiber Channel over Ethernet (FCoE) target mode
Red Hat Enterprise Linux 6.2 includes support for Fiber Channel over Ethernet (FCoE) target mode, as a
Technology Preview. This kernel feature is configurable via targetadmin, supplied by the fcoe-target-
utils package. FCoE is designed to be used on a network supporting Data Center Bridging (DCB).
Further details are available in the dcbtool(8) and targetadmin(8) man pages.
Important
This feature uses the new SCSI target layer, which falls under this Technology Preview, and
should not be used independently from the FCoE target support. This package contains the
AGPL license.
Support for the crashkernel=auto boot parameter
In Red Hat Enterprise Linux 6.1, with BZ#605786, the crashkernel=auto boot parameter was
deprecated. However, in Red Hat Enterprise Linux 6.2, support for crashkernel=auto is continued on
all Red Hat Enterprise Linux 6 systems.
Support for MD RAID in user space
The mdadm and mdmon utilities have been updated to support Array Auto-Rebuild, RAID Level
10 Chapter 3. Kernel
Migrations, RAID 5 support limitation, and SAS-SATA drive roaming.
Flush request merge
Red Hat Enterprise Linux 6.2 supports merging of flush requests to assist devices which are slow to
perform a flush.
UV2 Hub Support
Red Hat Enterprise Linux 6.2 adds UV2 Hub support. UV2 is the UVhub chip that is the successor to the
current UV1 hub chip. UV2 uses the HARP hub chip that is currently in development. UV2 provides
support for new Intel sockets. It provides new features to improve performance. UV2 is being designed
to support 64 TB of memory in a Single System Image (SSI). Additionally, the node controller MMRs have
been updated for UV systems.
acpi_rsdp boot parameter
Red Hat Enterprise Linux 6.2 introduces the acpi_rsdp boot parameter for kdump to pass an ACPI
RSDP address, so that the kdump kernel can boot without Extensible Firmware Interface (EFI).
QETH driver improvements
The following enhancements have been added to the QETH network device driver:
Support for af_iucv HiperSockets transport
Support for forced signal adapter indications
Support for asynchronous delivery of storage blocks
New Ethernet Protocol ID added to the if_ether module
CPACF algorithms
Support for the new CPACF (CP Assist for Cryptographic Function) algorithms, supported by IBM
zEnterprise 196, has been added. The new hardware accelerated algorithms are:
CTR mode for AES
CTR mode for DES and 3DES
XTS mode for AES with key lengths of 128 and 256 bits
GHASH message digest for GCM mode
Red Hat Enterprise Linux 6.2 supports conditional resource-reallocation through the pci=realloc
kernel parameter. This feature provides an interim solution for adding a dynamically reallocatable PCI
resource without causing any regressions. It disables dynamic reallocation by default, but adds the
ability to enable it through the pci=realloc kernel command line parameter.
PCI improvements
Dynamic reallocation is disabled by default. It can be enabled with the pci=realloc kernel command
line parameter. In addition, bridge resources have been updated to provide larger ranges in the PCI
assign unassigned call.
SMEP
Red Hat Enterprise Linux 6.2 enables SMEP (Supervision Mode Execution Protection) in the kernel.
Red Hat Enterprise Linux 6 6.2 Release Notes 11
SMEP provides an enforcement mechanism, allowing the system to set a requirement that is not
intended to be executed from user pages while in the supervisor mode. This requirement is then
enforced by the CPU. This feature is able to prevent all attacks, irrespective of the vulnerability in the
system code, that are executed from user mode pages while the CPU is in the supervisor mode.
Enhanced fast string instructions
Support for enhanced fast string REP MOVSB/STORESB instructions for the latest Intel platform has been
added.
USB 3.0 xHCI
The USB 3.0 xHCI host side driver has been updated to add split-hub support, allowing the xHCI host
controller to act as an external USB 3.0 hub by registering a USB 3.0 roothub and a USB 2.0 roothub.
ACPI, APEI, and EINJ parameter support
The ACPI, APEI, and EINJ parameter support is now disabled by default.
pstore
Red Hat Enterprise Linux 6.2 adds support for pstore a file system interface for platform dependent
persistent storage.
PCIe AER error information printing
Support for printk based APEI (ACPI Platform Error Interface) hardware error reporting has been added,
providing a way to unify errors from various sources and send them to the system console.
ioatdma driver
The ioatdma driver (dma engine driver) has been updated to support Intel processors with a dma
engine.
8250 PCI serial driver
Support for the Digi/IBM PCIe 2-port Async EIA-232 Adapter has been added to the 8250 PCI serial
driver. Additionally, EEH (Enhanced Error Handling) support for the Digi/IBM PCIe 2-port Async EIA-232
Adapter has been added to the 8250 PCI serial driver.
ARI support
ARI (Alternative Routing- ID Interpretation) support, a PCIe v2 feature, has been to Red Hat Enterprise
Linux 6.2.
PCIe OBFF
PCIe OBFF (Optimized Buffer Flush/Fill) enable/disable support has been added for Intel's latest
platform. OBFF provides devices with information on interrupts and memory activity and their potentially
reduced power impact, ultimately improving energy efficiency.
Capture oops/panic reports to NVRAM
In Red Hat Enterprise Linux 6.2, the kernel is enabled to capture kernel oops/panic reports from the
12 Chapter 3. Kernel
dmesg buffer into NVRAM on PowerPC architectures.
MXM driver
The MXM driver, responsible for handling graphics switching on NVIDIA platforms, has been backported
to Red Hat Enterprise Linux 6.2.
Page coalescing
Red Hat Enterprise Linux 6.2 introduces page coalescing, a feature on IBM Power servers which allows
for coalescing identical pages between logical partitions.
L3 cache partitioning
Support for L3 Cache Partitioning has been added to the latest AMD family CPUs.
thinkpad_acpi module
The thinkpad_acpi module has been updated to add support for new ThinkPad models.
C-State support
Latest Intel processor C-State support has been added to intel_idle.
IOMMU warnings
Red Hat Enterprise Linux 6.2 now displays warnings for IOMMU (Input/Output Memory Management Unit)
on AMD systems.
Logging to dmesg during boot
Logging of board, system, and BIOS information to dmesg during boot has been added.
IBM PowerPC support
cputable entries have been added to the kernel, providing support for the latest IBM PowerPC
processor family.
VPHN
The VPHN (Virtual Processor Home Node) feature has been disabled on IBM System p.
Driver support for latest Intel chipset
The following drivers now support the latest Intel chipset:
i2c-i801 SMBus driver
ahci AHCI-mode SATA
ata_piix IDE-mode SATA driver
TCO Watchdog driver
LPC Controller driver
Red Hat Enterprise Linux 6 6.2 Release Notes 13
exec-shield
On IBM PowerPC systems, the exec-shield value in sysctl or in the /proc/sys/kernel/exec-
shield parameter is no longer enforced.
kdump on PPC64
Additional checks and fixes have been added to support kdump on 64-bit PowerPC and 64-bit IBM
POWER Series systems.
UV MMTIMER module
The UV MMTIMER module (uv_mm tim er) has been enabled on SGI platforms. The uv_m mtimer
module allows direct userland access to the UV system's real time clock which is synchronized across
all hubs.
IB700 module
Support for the IB700 module has been added in Red Hat Enterprise Linux 6.2
Override PCIe AER Mask Registers
The aer_mask_override module parameter has been added, providing a way to override the corrected
or uncorrected masks for a PCI device. The mask will have the bit corresponding to the status passed
into the aer_inject() function.
USB 3.0 host controller support on PPC64
USB 3.0 host controller support has been added to 64-bit PowerPC and 64-bit IBM POWER Series
systems.
Out-of-Memory (OOM) killer improvements
An improved upstream Out-of-Memory (OOM) killer implementation has been backported to Red Hat
Enterprise Linux 6.2. The improvements include:
Processes which are about to exit are preferred by the OOM killer.
The OOM kill process also kills the children of the selected processes.
A heuristic has been added to kill the forkbomb processes.
The oom_score_adj /proc tunable parameter adds the value stored in each process's
oom_score_adj variable, which can be adjusted via /proc. This allows for an adjustment of each
process's attractiveness to the OOM killer in user space; setting it to -1000 will disable OOM kills
entirely, while setting it to +1000 marks this process as OOM's primary kill target.
For more information on the new implementation, refer to http://lwn.net/Articles/391222/ .
zram driver
Red Hat Enterprise Linux 6.2 provides an updated zram driver (creates generic RAM based
compressed block devices).
taskstat utility
14 Chapter 3. Kernel
In Red Hat Enterprise Linux 6.2, the taskstat utility in the kernel, which prints the status of ASET tasks,
has been enhanced by providing microsecond CPU time resolution for the top utility to use.
perf utility
Red Hat Enterprise Linux 6.2 updates the perf utility to upstream version 3.1 along with the kernel
upgrade to v 3.1. Refer to BZ#725524 for newly supported kernel features provided by the perf utility.
The updated version of the perf utility includes:
Added cgroup support
Added handling of /proc/sys/kernel/kptr_restrict
Added more cache-miss percentage printouts
Added the -d -d and -d -d -d options to show more CPU events
Added the --sync/-S option
Added support for the PERF_TYPE_RAW parameter
Added more documentation about the -f/--fields option
The python-perf package has been added for python binding support.
OProfile support
Red Hat Enterprise Linux 6.2 adds OProfile support for the latest Intel processors.
IRQ counting
The number of interrupt requests (IRQ) is now counted in a sum of all irq counter, reducing the cost of
the look-up in the /proc/stat file.
Scheduling improvement
Red Hat Enterprise Linux 6.2 introduces a scheduling improvement where a hint is provided to the
scheduler on the next buddy hint on sleep and preempt path. This hint enhancement helps the workload
of multiple tasks in multiple task groups.
Transparent Huge Page improvement
In Red Hat Enterprise Linux 6.2, Transparent Huge Pages are now supported in several places by the
kernel:
The system calls of mremap, mincore, and mprotect
/proc tunable parameters: /proc//smaps and /proc/vmstat
Additionally, Transparent Huge Pages add some compaction improvements.
XTS AES256 self-tests
Red Hat Enterprise Linux 6.2 adds XTS (XEX-based Tweaked CodeBook) AES256 self-tests to meet the
FIPS-140 requirements.
SELinux netfilter packet drops
Previously, the SELinux netfilter hooks returned NF_DROP if they dropped a packet. In Red Hat
Enterprise Linux 6.2, a drop in the netfilter hooks is signaled as a permanent fatal error and is not
transient. By doing this, the error is passed back up the stack, and in some situations applications will
Red Hat Enterprise Linux 6 6.2 Release Notes 15
get a faster indication that something went wrong.
LSM hook
In Red Hat Enterprise Linux 6.2, the remount mount options (mount -o remount) are passed to a new
LSM hook.
Default mode for UEFI systems
Red Hat Enterprise Linux 6.0 and 6.1 defaulted to running UEFI systems in a physical addressing mode.
Red Hat Enterprise Linux 6.2 defaults to running UEFI systems in a virtual addressing mode. The
previous behavior may be obtained by passing the physefi kernel parameter.
Default method for kdumping over SSH
In Red Hat Enterprise Linux 6, the default core_collector method for kdumping the core over SSH
has been changed from scp to makedumpfile, which helps shrink the size of the core file when copying
over the network link, resulting in faster copying.
If you require the old vmcore full size core file, specify the following in the /etc/kdump.conf file:
core_collector /usr/bin/scp
16 Chapter 4. Resource Management
Chapter 4. Resource Management
Cgroups CPU ceiling enforcement
The Completely Fair Scheduler (CFS) in the Linux kernel is a proportional share scheduler which divides
the CPU time proportionately between groups of tasks depending on the priority/weight of the task or
shares assigned to groups of tasks. In CFS, a task group can get more than its share of CPU if there
are enough idle CPU cycles available in the system, due to the work conserving nature of the scheduler.
However there are enterprise scenarios listed below, where giving more than the desired CPU share to
a task group is not acceptable:
Pay-per-use
In enterprise systems that cater to multiple customers, cloud service providers need to assign a
fixed amount of CPU time to the virtual guest based on the service level.
Service level guarantees
Customer demands a percentage of CPU resource without service interruptions for each virtual
guest.
In these scenarios, the scheduler needs to put a hard stop on the CPU resource consumption of a task
group if it exceeds a preset limit. This is usually achieved by throttling the task group when it fully
consumes its allocated CPU time.
The cgroups CPU ceiling enforcement is considered a very important addition to the Red Hat Enterprise
Linux feature repertoire, for the use case listed above. The CPU ceiling enforcement is provided by the
Credit Scheduler in Xen, and also in the VMware ESX scheduler.
Cgroups CPU controller scalability improvement on SMP systems
Red Hat Enterprise Linux 6 enabled cgroups out of the box, and libvirt created a cgroup-per-guest
model. On large SMP systems, an increase in the number of cgroups, worsened the performance.
However, in Red Hat Enterprise Linux 6.2, the cgroups CPU scalability has been significantly improved,
making it possible to create and run several hundreds of cgroups at once with no performance
implications.
In addition to the scalability improvement, a /proc tunable parameter, dd
sysctl_sched_shares_window, has been added, with the default set to 10 ms.
Cgroups I/O controller performance improvement
The cgroups I/O controller design has been improved to reduce the usage of locks inside the I/O
controller, resulting in improved performance. Also, the I/O controller now supports per cgroup statistics.
Cgroups memory controller performance improvement
Red Hat Enterprise Linux 6.2 introduces a memory usage overhead improvement in the memory
controller by reducing the allocation overhead for page_cgroup array by 37%. Additionally, the direct
page_cgroup-to-page pointer has been removed, thereby improving the performance of the memory
controller.
Red Hat Enterprise Linux 6 6.2 Release Notes 17
Default value for the CFQ group_isolation variable
The default for CFQ's group_isolation variable has been changed from 0 to 1
(/sys/block//queue/iosched/group_isolation). After various tests and numerous
user reports, it was found that having default 1 is more useful. When set to 0, all random I/O queues
become part of the root cgroup and not the actual cgroup which the application is part of. Consequently,
this leads to no service differentiation for applications.
Further Reading
For more information on resource management and control groups, refer to the Red Hat
Enterprise Linux 6.2 Resource Management Guide.
18 Chapter 5. Device Drivers
Chapter 5. Device Drivers
Emulex lpfc driver
The default interrupt configuration for the Emulex LPFC FC/FCoE driver has changed from INT-X to MSI-
X. This is reflected by the lpfc_use_msi module parameter (in
/sys/class/scsi_host/host#/lpfc_use_msi) being set to 2 by default, instead of the previous 0.
For more information on this change, refer to Red Hat Enterprise Linux 6.2 Technical Notes.
Storage drivers
The lpfc driver for Emulex Fibre Channel Host Bus Adapters has been updated to version
8.3.5.45.2p.
The m ptfusion driver has been updated to version 3.4.19.
The bnx2fc for the Broadcom Netxtreme II 57712 chip has been updated to version of 1.0.4.
The qla2xxx driver for QLogic Fibre Channel HBAs has been updated to version 8.03.07.05.06.2-k.
The m egaraid driver has been updated to version 5.38.
The arcm sr driver for Areca RAID controllers has been updated.
The beiscsi driver has been updated to version 2.103.298.0.
The ipr driver for IBM Power Linux RAID SCSI HBAs has been updated to version 2.5.2.
The cciss driver has been updated to provide a fix for cciss driver kdump failures.
The hpsa driver has been updated to provide a fix for hpsa driver kdump failures.
The bnx2i driver for Broadcom NetXtreme II iSCSI has been updated to version 2.7.0.3 to support
the 578xx family of Multi-Port Single-Chip 10G Ethernet Converged Controllers.
The m pt2sas driver has been updated to version 09.101.00.00.
The Brocade BFA FC SCSI driver (bfa driver) has been updated to version 2.3.2.4.
The be2iscsi driver for ServerEngines BladeEngine 2 Open iSCSI devices has been updated to
version 4.0.160r.
The ata_generic driver has been updated to add Intel IDE-R ATA support.
The isci driver has been updated to version 2.6.40-rc.
The libfc, libfcoe, and fcoe drivers have been updated.
The qib driver TrueScale HCAs has been updated.
The libata module has been updated to include improved error handling.
The m d driver has been updated to include dm-raid target, which provides improved RAID
capabilities through a DM interface. The dm-raid code is currently marked as a Technology Preview.
Device Mapper support has been updated to upstream version 3.1+.
Application support for the qla4xxx using bsg/netlink interfaces has been added.
The DIF/DIX kernel code has been updated to the latest upstream version, affecting scsi, block,
and dm/md.
Network drivers
The netxen driver for NetXen Multi port (1/10) Gigabit Network has been updated to version 4.0.75.
The vmxnet3 driver has been updated.
The bnx2x driver has been updated to version 1.70.
The be2net driver for ServerEngines BladeEngine2 10Gbps network devices has been updated to
version 4.0.100u.
Red Hat Enterprise Linux 6 6.2 Release Notes 19
The ixgbevf driver has been updated to version 2.1.0-k
The cxgb4 driver for Chelsio Terminator4 10G Unified Wire Network Controllers has been updated.
The cxgb3 driver for the Chelsio T3 Family of network devices has been updated.
The ixgbe driver for Intel 10 Gigabit PCI Express network devices has been updated to version
3.4.8-k.
The e1000e driver for Intel PRO/1000 network devices has been updated to version 1.3.16-k.
The e1000 driver for Intel PRO/1000 network devices has been updated, providing support for
Marvell Alaska M88E1118R PHY.
The e100 driver has been updated.
The enic driver for Cisco 10G Ethernet devices has been updated to version 2.1.1.24.
The igbvf driver has been updated to version 2.0.0-k.
The igb driver for Intel Gigabit Ethernet Adapters has been updated.
The bnx2 driver for the NetXtreme II 1 Gigabit Ethernet controllers has been updated to version
2.1.6+.
The tg3 driver for Broadcom Tigon3 Ethernet devices has been updated to version 3.119.
The qlcnic driver for the HP NC-Series QLogic 10 Gigabit Server Adapters has been updated to
version 5.0.16+.
The bna driver has been updated.
The r8169 driver has been updated to fix two bugs related to Rx checksum offloading.
The qlge driver has been updated to version v1.00.00.29.
The cnic driver has been updated to add iSCSI and FCoE support for the 578xx family of Multi-Port
Single-Chip 10G Ethernet Converged Controllers, VLAN support, and the new bnx2x firmware
interface.
The iwl6000 and iwlwifi have been updated to the EEPROM version 0x423.
Graphics and miscellaneous drivers
The Radeon driver has been updated with post-3.0 fixes, including backported DRM and AGP code.
The Nouveau and i915 drivers have been updated, including backported DRM and AGP code.
The Ricoh memory stick driver (R5C592) has been updated with the new KFIFO application
programming interface.
The Netjet driver has been updated to blacklist the Digium TDM400P PCI Card.
The lm78 driver has been updated.
The Wacom driver has been updated to add support for the Cintiq 21UX2, Intuos4 WL, and DTU-
2231 adapter cards.
The Synaptics driver has been updated to add multi-touch support.
The ALSA HDA audio driver has been updated to enable or improve support for new chipsets and
HDA audio codecs.
The EDAC driver has been updated to support the new Northbridge chip for AMD platforms.
20 Chapter 6. Storage
Chapter 6. Storage
iprutil support for SAS VRAID functions
The iprutils package provides utilities to manage and configure SCSI devices that are supported by the
ipr SCSI storage device driver. The iprutils package has been updated to support SAS VRAID functions
for new 6 GB SAS adapters on IBM POWER7.
LVM RAID support
In Red Hat Enterprise Linux 6.2, support for MD's RAID personalities has been added to LVM as a
Technology Preview. The following basic features are available: create, display, rename, use, and
remove RAID logical volumes. Automated fault tolerance is not yet available.
It is possible to create RAID logical volumes by specifying the --type argument. The
following are a few examples:
Create a RAID1 array (this is a different implementation of RAID1 than LVM's mirror segment type):
~]# lvcreate --type raid1 -m 1 -L 1G -n my_lv my_vg
Create a RAID5 array (3 stripes + 1 implicit parity):
~]# lvcreate --type raid5 -i 3 -L 1G -n my_lv my_vg
Create a RAID6 array (3 stripes + 2 implicit parity):
~]# lvcreate --type raid6 -i 3 -L 1G -n my_lv my_vg
iSCSI extension for RDMA (iSER) initiator and target
iSER initiator and target is now fully supported. Red Hat Enterprise Linux can now function as an iSCSI
initiator and storage server in production environments that use InfiniBand and where high throughput
and low latency are key requirements.
Reduced activation times for LVM devices
LVM devices can now be activated or deactivated quicker than before. This is relevant to high-density
environments that involve a large number of LVM configurations. An example of this is a host that
supports hundreds of virtual guests each using one or more logical volumes.
Support for raw ECKD access to the DASD driver
Normal I/O operations through the DASD device driver give access only to the data fields of an ECKD
device even for track based I/O. In Red Hat Enterprise Linux 6.2, the DASD device driver is extended to
give access to whole ECKD tracks including count, key, and data fields.
Red Hat Enterprise Linux 6 6.2 Release Notes 21
Chapter 7. File System
XFS scalability
The XFS file system is currently supported in Red Hat Enterprise Linux 6 and is well suited for very large
files and file systems on a single host. Integrated backup and restore, direct I/O and online resizing of
the file system are some of the benefits that this file system provides.
The XFS implementation has been improved to better handle metadata intensive workloads. An example
of this type of workload is accessing thousands of small files in a directory. Prior to this enhancement,
metadata processing could cause a bottleneck and lead to degraded performance. To address this
problem an option to delay the logging of the metadata has been added that provides a significant
performance improvement. As a result of this delayed logging of metadata, XFS performance is on par
with ext4 for such workloads. The default mount options have also been updated to use delayed
logging.
Parallel NFS
Parallel NFS (pNFS) is a part of the NFS v4.1 standard that allows clients to access storage devices
directly and in parallel. The pNFS architecture eliminates the scalability and performance issues
associated with NFS servers in deployment today.
pNFS supports 3 different storage protocols or layouts: files, objects and blocks. The Red Hat
Enterprise Linux 6.2 NFS client supports the files layout protocol.
To automatically enable the pNFS functionality, create the /etc/modprobe.d/dist-nfsv41.conf
file with the following line and reboot the system:
alias nfs-layouttype4-1 nfs_layout_nfsv41_files
Now when the -o minorversion=1 mount option is specified, and the server is pNFS-enabled, the
pNFS client code is automatically enabled.
This feature is a Technology Preview. For more information on pNFS, refer to http://www.pnfs.com/.
Asynchronous writes in CIFS
The CIFS (Common Internet File System) protocol allows for a unified way to access remote files on
disparate operating systems. The CIFS client has traditionally only allowed for synchronous writes. This
meant that the client process would not yield back control until the writes were successfully completed.
This can lead to degraded performance for large transactions that take long to complete. The CIFS client
has been updated to write data in parallel without the need to wait for the sequential writes. This change
can now result in performance improvements up to 200%.
CIFS NTLMSSP authentication
Support for NTLMSSP authentication has been added to CIFS. In addition, CIFS now uses the kernel's
crypto API.
autofs4 module
The autofs4 module has been updated to kernel version 2.6.38.
Fixed tracepoints for ext3 and jbd
22 Chapter 7. File System
Fixed tracepoints have been added to ext3 and jbd.
Mount options in superblock
Support for the -o nobarrier mount option in ext4, and its utilities: tune2fs, debugfs, libext2fs,
has been added.
Red Hat Enterprise Linux 6 6.2 Release Notes 23
Chapter 8. Networking
Multi-message send system call
Red Hat Enterprise Linux 6.2 introduces the multi-message send system call which is the send version
of the existing recvmmsg system call in Red Hat Enterprise Linux 6.
The system call sendmmsg socket API looks like this:
struct mmsghdr {
struct msghdr msg_hdr;
unsigned msg_len;
};
ssize_t sendmmsg(int socket, struct mmsghdr *datagrams, int vlen, int flags);
Transmit Packet Steering (XPS)
Red Hat Enterprise Linux 6.2 includes Transmit Packet Steering (XPS) for multiqueue devices. XPS
introduces more efficient transmission of network packets for multiqueue devices by specifically
targeting the processor involved in sending the packet. XPS enables the selection of the transmit queue
for packet transmission based on configuration. This is analogous to the receive-side functionality
implemented in Red Hat Enterprise Linux 6.1 which allowed for processor selection based on the receive
queue (RPS). XPS has shown to improve throughput by 20% to 30%.
Traffic flooding for unregistered groups
Previously, the bridge flooded packets to unregistered groups via all ports. However, this behavior is not
desirable in environments where traffic to unregistered groups is always present. In Red Hat Enterprise
Linux 6.2, traffic is only sent to unregistered groups via ports marked as router ports. To force flooding
to any given port, mark that port as a router port.
Stream Control Transmission Protocol (SCTP) Multihome support
Red Hat Enterprise Linux 6.2 adds support for SCTP multihoming the ability of nodes (that is, multi-
home nodes) to be reached at several IP addresses.
Tracepoints for UDP packet drop events
In Red Hat Enterprise Linux 6.2, more tracepoints have been added for UDP packet drop events. These
tracepoints provide a way to analyze the reasons why UDP packets are dropped.
IPSet
The IPSet feature in the kernel has been added to store multiple IP addresses or port numbers, and
match them against a collection via iptables.
TCP initial receive window default
The TCP initial receive window default has been increased from 4 kB to 15 kB. The benefit of this
increase is that more data (15 kB > payload > 4 kB) can now fit in the initial window. With a 4 kB setting
(IW3), any payload larger than 4 kB would have to be broken into multiple transfers.
24 Chapter 8. Networking
TCP initial congestion window default
In Red Hat Enterprise Linux 6.2, the TCP initial congestion window default is now set to 10, according to
RFC 5681. Additionally, the initial-window code common to TCP and CCID-2 has been consolidated.
GSO support on IPv6
GSO (Generic Segmentation Offload) support for the IPv6 forward path has been added, improving the
performance of host to guest communication if GSO is enabled.
vios-proxy
vios-proxy is a stream-socket proxy for providing connectivity between a client on a virtual guest and a
server on a Hypervisor host. Communication occurs over virtio-serial links. This feature is introduced as
a Technology Preview in Red Hat Enterprise Linux 6.2.
Red Hat Enterprise Linux 6 6.2 Release Notes 25
Chapter 9. Authentication and Interoperability
Identity Management
Red Hat Enterprise Linux 6.2 includes identity management capabilities that allow for central
management of user identities, policy-based access control and authentication services. This identity
management service, previously referred to as IPA, is based on the open source FreeIPA project. These
services have been present as a Technology Preview in previous Red Hat Enterprise Linux 6 releases.
With this release, identity management has been promoted to fully supported.
Further Reading
The Identity Management Guide provides detailed information about the Identity Management
solution, the technologies with which it works, and some of the terminology used to describe it. It
also provides high-level design information for both the client and server components.
PIV support for smart cards
Support for smart cards with a PIV (Personal Identity Verification) interface has been added in Red Hat
Enterprise Linux 6.2. It is now possible to use FIPS 201 compliant PIV cards that allow for secure use of
data. PIV cards enable confidentiality of data by restricting access to the card holder. They also ensure
data integrity by allowing only the card holder to make modifications. They guarantee the authenticity of
the information and prevent non-repudiation of data. The use of PIV cards is mandated by the U.S.
Homeland Security Presidential Directive 12 (HSPC-12) which requires the use of this type of technology
to gain access to all government IT systems.
26 Chapter 10. Entitlement
Chapter 10. Entitlement
Certificate-based RHN
The new subscription management platform delivers Red Hat subscriptions and software services in a
flexible, scalable and secure way. When installing a new Red Hat Enterprise Linux 6 system, a user
receives X.509 certificates which contain information about which Red Hat products are installed and
what subscriptions the machine is consuming. The subscription information includes support levels,
expiration dates, Red Hat account numbers, and Red Hat contract numbers. In addition, an X.509
certificate allows a machine to authenticate to the Red Hat Content Delivery Network (CDN). The globally
distributed Red Hat Content Delivery Network (CDN) is designed to work even with an outage of the Red
Hat systems. Users outside of North America should see improved update speeds and availability with
the new system. RHN Classic continues to be the default option for computer registration and for
receiving updates.
Entitlement certificates for disconnected systems
Red Hat customer portal, in conjunction with new functionality available in Red Hat Enterprise Linux 6.2,
allows customers to register and subscribe up to 25 machines that are completely disconnected from
the Internet. Prior to this enhancement, customers with disconnected systems were not able to receive
the benefits of subscription information and tracking from the RHN website. For customers with more
than 25 disconnected machines, RHN Satellite continues to be the recommended option at additional
cost.
Automatic regeneration of a certificate after renewal of a subscription
It is now possible to automatically regenerate new entitlement certificates after the renewal of a
subscription. Prior to this enhancement, customers were required to manually regenerate the certificate
in order to continue receiving software updates and other subscription services. Automatically
regenerating a certificate minimizes service interruptions. Users are also notified of cases where auto
regeneration of certificates was not successful. For more information, refer to
https://www.redhat.com/rhel/renew/faqs/.
Red Hat Subscription Manager and the Subscription Service
In Red Hat Enterprise Linux 6.2, during system registration, the Red Hat Subscription Manager is now
used by default.
Further Reading
The Red Hat Enterprise Linux 6.2 Deployment Guide contains further information on managing
subscriptions.
The Red Hat Enterprise Linux 6.2 Installation Guide contains further information on the
registration and subscription process during firstboot and kickstart.
Red Hat Enterprise Linux 6 6.2 Release Notes 27
Chapter 11. Security, Standards and Certification
Common Criteria Certification
As of Red Hat Enterprise Linux 6.2 Beta, Red Hat Enterprise Linux 6 is under evaluation for Common
Criteria certification at Evaluation Assurance Level (EAL) 4+. Common Criteria provides a standardized
way of expressing security requirements and defines a set of rigorous criteria by which products are
evaluated.
FIPS-14 0 Validation
As of Red Hat Enterprise Linux 6.2 Beta, Red Hat Enterprise Linux 6 cryptographic modules are under
evaluation for FIPS-140 certification. FIPS-140 is a U.S. government security standard used for
accrediting cryptographic modules. Red Hat Enterprise Linux now satisfies the regulatory requirement
mandated by the U.S. federal government for acceptable use of cryptographic modules by all the
governmental agencies.
Trusted boot
Red Hat Enterprise Linux 6.2 includes Intel Trusted Boot, a trusted boot mechanism (provided by the
tboot package). Trusted boot is an install-time optional component that allows for Intel's Trusted
Execution Technology (TXT) to perform a measured and verified launch of the operating system kernel.
Trusted boot is supported on both Intel x86 and Intel 64 architectures.
28 Chapter 12. Compiler and Tools
Chapter 12. Compiler and Tools
SystemTap
SystemTap is a tracing and probing tool that allows users to study and monitor the activities of the
operating system (particularly, the kernel) in fine detail. It provides information similar to the output of
tools like netstat, ps, top, and iostat; however, SystemTap is designed to provide more filtering and
analysis options for collected information.
SystemTap in Red Hat Enterprise Linux 6.2 is updated to version 1.6, providing:
Kernel modules with a hyphen ("-") in their name, such as i2c-core are now handled properly.
process.mark now supports $$parms for reading probe parameters.
Improved and simplified operation of the SystemTap compile-server and client:
compile-server may cache script build results for improved performance.
compile-server and client now communicate exchange version information to adjust the
communication protocol accordingly and use the newest version of the server possible.
Removal of deprecated tools: stap-client, stap-authorize-server-cert, stap-authorize-
signing-cert, stap-find-or-start-server, and stap-find-servers.
For remote execution, the --remote USER@HOST functionality can now be specified multiple times
and will automatically build the script for distinct kernel and architecture configurations, and run it on
all named machines at once.
The staprun utility now allows multiple instances of the same script to be run at the same time.
Red Hat Enterprise Linux 6 6.2 Release Notes 29
Chapter 13. Clustering
Dynamic schema generation
The introduction of dynamic schema generation provides a lot of flexibility for end users to plug into Red
Hat Enterprise Linux High Availability Add-on custom resource and fence agents, and still retain the
possibility to validate their /etc/cluster.conf configuration file against those agents. It is a strict
requirement that custom agents provide correct metadata output and that the agents must be installed
on all cluster nodes.
Clustered Samba on GFS2
Support for Samba in a clustered environment is now fully supported in Red Hat Enterprise Linux 6.2.
Samba clustering relies on a clustered file system being available and shared on all nodes. In the Red
Hat Enterprise Linux context, Samba clustering has been configured to work with GFS2, the native
shared storage file system.
Clustered Samba (more specifically CTDB) provides the ability for the metadata to span multiple physical
hosts in a cluster. CTDB will automatically recover and repair node-specific databases in case of node
failures. It also provides high availability features like node monitoring and failover.
Support for redundant ring for standalone Corosync
Red Hat Enterprise Linux 6.2 introduces support for redundant ring with autorecovery feature as a
Technology Preview. Refer to the Technical Notes for a list of known issues associated with this
Technology Preview.
corosync-cpgtool
The corosync-cpgtool now specifies both interfaces in a dual ring configuration. This feature is a
Technology Preview.
Disabling rgmanager in /etc/cluster.conf
As a consequence of converting the /etc/cluster.conf configuration file to be used by pacemaker,
rgmanager must be disabled. The risk of not doing this is high; after a successful conversion, it would
be possible to start rgmanager and pacemaker on the same host, managing the same resources.
Consequently, Red Hat Enterprise Linux 6.2 includes a feature (as a Technology Preview) that forces
the following requirements:
rgmanager must refuse to start if it sees the flag in /etc/cluster.conf.
rgmanager must stop any resources and exit if the flag appears in
/etc/cluster.conf during a reconfiguration.
30 Chapter 14. High Availability
Chapter 14. High Availability
XFS and High Availability Add On
Usage of XFS in conjunction with Red Hat Enterprise Linux 6.2 High Availability Add On as a file system
resource is now fully supported.
HA support for VMWare
Applications running inside VMWare based guests can now be configured for high availability. This also
includes full support for the use of GFS2 shared storage file system in the environment. A new SOAP-
based fence agent has been added that has the ability to fence guests when necessary.
Administrative UI enhancements
Luci, the web-based administrative UI for configuring clusters has been updated to include the following:
Role-based access control (RBAC): enables fine-grained access levels by defining user classes to
access specific cluster operations.
Improved response times for destructive operations in a cluster.
Support for UDP-Unicast
IP multicasting has been the only supported option for a cluster transport. IP multicasting is inherently
complex to configure and often requires re-configuration of network switches. UDP-unicast in contrast
offers a simpler approach to cluster configuration and is an established protocol for cluster
communication. UDP-unicast, initially introduced as a Technology Preview, is now fully supported.
Watchdog integration with fence_scsi
Watchdog is a general timer service available in Linux that can be used to periodically monitor system
resources. Fence agents have now been integrated with watchdog such that the watchdog service can
reboot a node after it has been fenced using fence_scsi. This eliminates the need for manual
intervention to reboot the node after it has been fenced using fence_scsi.
Red Hat Enterprise Linux 6 6.2 Release Notes 31
Chapter 15. Virtualization
KVM processor performance improvement
Virtual CPU timeslice sharing
Virtual CPU timeslice sharing is a performance enhancing feature at the Linux scheduler level,
where an idle virtual CPU can hand the remainder of its timeslice to another virtual CPU before
yielding the CPU. This feature addresses an inherent lock holder preemption issue that exists
in SMP systems, that can affect performance in virtual CPUs. This feature provides stable
performance in multi-processor guests. This feature is supported on both Intel and AMD
processors, and is called Pause Loop Exiting (PLE) on Intel processors, and Pause Filter on
AMD processors.
KVM network performance improvements
KVM network performance is a critical requirement for Virtualization and cloud based products and
solutions. Red Hat Enterprise Linux 6.2 provides a number of network performance optimizations to
improve the KVM network para-virtualized driver performance in various setups.
Improved small message KVM performance
Red Hat Enterprise Linux 6.2 improves the KVM small message performance to satisfy a variety
of networking workloads that generate small messages (< 4K).
Wire speed requirement in KVM network drivers
Virtualization and cloud products that run networking work loads need to run wire speeds. Up
until Red Hat Enterprise Linux 6.1, the only way to reach wire speed on a 10 GB Ethernet NIC
with a lower CPU utilization was to use PCI device assignment (passthrough), which limits other
features like memory overcommit and guest migration
The macvtap/vhost zero-copy capabilities allows the user to use those features when high
performance is required. This feature improves performance for any Red Hat Enterprise Linux
6.x guest in the VEPA use case. This feature is introduced as a Technology Preview.
UDP checksum optimization for KVM network drivers
UDP checksum optimization eliminates the need for the guest to validate the checksum if it has
been validated by host NICs. This feature speeds up UDP external-to-guest traffic on 10 GB
Ethernet cards with Red Hat Enterprise Linux 6.2 guests and hosts. The UDP checksum
optimization is implemented in the virtio-net driver.
Improved I/O path performance when host slower than guest
The Red Hat Enterprise Linux 6.2 KVM network driver has improved I/O path performance, with
reduced virtual machine exits and interrupts, that results in faster data delivery. This
improvement enables you to run a faster guest on a slower host, without incurring any
performance penalties. This enhancement is achieved by an enhanced virtio ring structure,
and event index support in virtio and vhost-net.
32 Chapter 15. Virtualization
KVM Systems Management and usability improvements
System monitoring via SNMP
This feature provides KVM support for a stable technology that is already used in data center
with bare metal systems. SNMP is the standard for monitoring and is extremely well understood
as well as computationally efficient. System monitoring via SNMP in Red Hat Enterprise Linux
6.2 allows the KVM hosts to send SNMP traps on events so that hypervisor events can be
communicated to the user via standard SNMP protocol. This feature is provided through the
addition of a new package: libvirt-snmp. This feature is introduced as a Technology Preview.
Improved guest debugging capabilities
Users who virtualize their data centers need a way of debugging when a guest OS becomes
unresponsive and a crash dump has to be initiated. There are two methods heavily used with
physical systems:
Triggering a non-maskable interrupt (NMI) in the guest
Sending SysRq sequences to the guest
While these capabilities are provided directly with the KVM console, a number of users use KVM
through the libvirt API and virsh, where these two features were missing. Red Hat Enterprise
Linux 6.2 improves guest debugging capabilities across the KVM stack, thus allowing a user to
trigger NMIs in guests and send SysRq key sequences to guests.
Improve virtual machine boot up access
Users who virtualize their data centers need to track the guest boot up process and display the
entire BIOS and kernel boot up message from the start. The absence of this feature prevents
users from an interactive use of the virsh console, prior to boot up. A new package, sgabios,
has been be added to Red Hat Enterprise Linux 6.2, to provide this capability, along with some
additions to qemu-kvm.
Multi-processor (NUMA) Tuning Improvements
Red Hat Enterprise Linux 6.2 adds tuning improvements to the libvirt API stack, resulting in
improved out-of-the-box performance when performing SPECvirt measurements. Red Hat
Enterprise Linux 6.2 is now able to pin the memory associated with a NUMA node when a virtual
machine is created.
USB enhancements
The USB 2.0 emulation has been implemented for qemu-kvm. This is available for QEMU
directly only. Libvirt support is planned for the next release.
Remote Wakeup support has been added for the USB host controller. Together with the
cooperation of the guest OS it allows the stopping of the frequent 1000hz polling mode and
putting the device to sleep. It dramatically improves the power utilization and the CPU
consumption of virtual machines with a USB mouse emulation (or a tablet)  one of the
common devices that every virtual machine has.
Xen improvements
Red Hat Enterprise Linux 6 6.2 Release Notes 33
Memory ballooning
Memory ballooning is now supported by Red Hat Enterprise Linux 6 paravirtualized Xen guests.
Domain memory limit
Memory limit for x86_64 domU PV guests has been increased to 128 GB:
CONFIG_XEN_MAX_DOMAIN_MEMORY=128.
Time accounting
The xen_sched_clock implementation (which returns the number of unstolen nanoseconds)
has been replaced by the xen_clocksource_read implementation.
Virtualization Documentation
The Red Hat Enterprise Linux Virtualization Guide has been divided into several specific guides:
Red Hat Enterprise Linux Virtualization Getting Started Guide
Red Hat Enterprise Linux Virtualization Administration Guide
Red Hat Enterprise Linux Virtualization Host Configuration and Guest Installation Guide
spice-protocol
The package spice-protocol has been upgraded to version 0.8.1, providing the following new features:
Support for volume change
Support for async guest I/O writes and interrupts
Support for suspend (S3) related guest I/O writes
Support for an interrupt indicating a guest bug
Linux Containers
Linux containers provide a flexible approach to application runtime containment on bare-metal systems
without the need to fully virtualize the workload. Red Hat Enterprise Linux 6.2 provides application level
containers to separate and control the application resource usage policies via cgroup and namespaces.
This release introduces basic management of container life-cycle by allowing creation, editing and
deletion of containers via the libvirt API and the virt-manager GUI. Linux Containers are a Technology
Preview.
Red Hat Enterprise Virtualization Hypervisor RPM multi-installable
In order to allow side-by-side installs of the rhev-hypervisor package, configure Yum to make rhev-
hypervisor an install-only package by editing the /etc/yum.conf file and adding the
installonlypkgs option:
[main]
...
installonlypkgs=rhev-hypervisor
This option needs to also include the default list of installonly packages which can be found in the
yum.conf man page (man yum.conf 5) in the installonlypkgs option section.
34 Chapter 15. Virtualization
Red Hat Enterprise Linux 6 6.2 Release Notes 35
Chapter 16. Graphics
The X server shipped in Red Hat Enterprise Linux 6.2 has been updated to the upstream X.org 1.10 X
server and the upstream Mesa 7.11 releases. The X server had internal structure changes that required
updating all video and input drivers. In addition, the kernel graphics support has been updated to include
new hardware support and bug fixes.
AMD
Improved support for ATI/AMD GPU series HD2xxx, HD4xxx, HD5xxx, FirePro. Support added for new
HD6xxx series, new model in the FirePro series and new mobile GPU HD6xxxM series.
Intel
Support has been added for Intel's next generation class of chipsets.
Nouveau
2D/Xv acceleration is now supported on GeForce GT2xx (and Quadro equivalents). Suspend/resume
support has been improved.
X server
RandR-enabled drivers (Intel, Nouveau, Radeon) now confine the cursor to the visible area of the screen
in asymmetric multihead configurations.
The Composite extension is now functional when Xinerama is used to span a single desktop across
multiple GPUs.
X server configuration may now be managed with configuration file snippets under
/etc/X11/xorg.conf.d/ in addition to /etc/X11/xorg.conf itself. X.org input device configuration
in these snippets applies when the device becomes available to the X server at runtime.
Refer to the 1.10 X server upstream announcement for additional information:
http://lists.freedesktop.org/archives/xorg-announce/2011-February/001612.html.
Mesa
See the Mesa 7.11 upstream announcement for release notes: http://mesa3d.org/relnotes-7.11.html.
36 Chapter 17. General Updates
Chapter 17. General Updates
Matahari
Matahari in Red Hat Enterprise Linux 6.2 is fully supported only for x86 and AMD64 architectures. Builds
for other architectures are considered a Technology Preview.
Automatic Bug Reporting Tool
Red Hat Enterprise Linux 6.2 introduces ABRT 2.0. ABRT logs details of software crashes on a local
system, and provides interfaces (both graphical and command line based) to report issues to various
issue trackers, including Red Hat support. This update provides the following notable enhancements:
More flexible configuration with a new syntax.
Out-ouf-process plugins (plugins run in separate processes and communicate via inter-process
communication with other processes). Advantages of such a design are:
bugs in plugins do not break the main daemon,
more secure as most of the processing is now done under the normal (non-root) user,
plugins can be written in any programming language.
Reporting backend is shared across all of Red Hat's issue reporting tools:
ABRT, sealert, all users of python-meh (Anaconda, firstboot)
Because all of the tools above share the same configuration, it only has to be written once.
Further Reading
For more information on ABRT configuration and its new syntax, refer to the Red Hat Enterprise
Linux 6.2 Deployment Guide.
Optimized math library for Linux on IBM System z
Red Hat Enterprise Linux 6.2 provides an optimized linear algebra math library for Linux on System z
which enables the compiler to generate code for high profile functions, taking advantage of the latest
hardware functions.
Improved tablet support
Red Hat Enterprise Linux 6.2 improves support for Wacom devices. It is no longer necessary to
reconfigure device settings after a device has been unplugged and plugged back in.
Improved wireless detection
NetworkManager can now scan wireless networks in the background, providing a better user
experience.
Increase in CPU support in GNOME
The gnome-system-monitor utility can now monitor systems that have more than 64 CPUs.
Red Hat Enterprise Linux 6 6.2 Release Notes 37
Component Versions
This appendix is a list of components and their versions in the Red Hat Enterprise Linux 6.2 release.
Table A.1. Component Versions
Component Version
Kernel 2.6.32-202
QLogic qla2xxx driver 8.03.07.05.06.2-k
QLogic qla2xxx firmware ql23xx-firmware-3.03.27-3.1
ql2100-firmware-1.19.38-3.1
ql2200-firmware-2.02.08-3.1
ql2400-firmware-5.06.01-1
ql2500-firmware-5.06.01-1
Emulex lpfc driver 8.3.5.45.2p
iSCSI initiator utils 6.2.0.872-27
DM-Multipath 0.4.9-43
LVM 2.02.87-3
X Server 1.10.4-3
38 Revision History
Revision History
Revision 2-22.33 2012-08-07 Anthony Towns
Rebuild for Publican 3.0
Revision 1-0 Tue Dec 6 2011 Martin Prpi%0Å„
Release of the Red Hat Enterprise Linux 6.2 Release Notes


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