This chapter summarizes all the new features in the Solaris 10 5/08 release.
The following system administration features and enhancements have been added to the Solaris 10 5/08 release.
Starting with this release, the SolarisTM Trusted Extensions packages are installed when the Solaris OS is installed. The ExtraValue directory is no longer present. This directory previously included the Solaris Trusted Extensions packages. The Solaris Trusted Extensions functionality is managed by the service management facility (SMF) as the svc:/system/labeld:default service. This service must be enabled. After the service is in the online state, reboot the system to activate Solaris Trusted Extensions. Additional configuration is required after the reboot. For more information, see Solaris Trusted Extensions Configuration Guide.
The Solaris 10 5/08 release also includes the following features:
The domain of interpretation (DOI) is configurable. For more information, see Network Security Attributes in Trusted Extensions in Solaris Trusted Extensions Administrator’s Procedures.
The NFSv3 protocol supports multilevel mounts. For more information, see Trusted Extensions Software and NFS Protocol Versions in Solaris Trusted Extensions Administrator’s Procedures.
The name service cache daemon, nscd, can be separately configured per labeled zone. This configuration supports environments where each zone is connected to a subnetwork that runs at the label of the zone, and the subnetwork has its own name server for that label.
For more information about Solaris Trusted Extensions, see Solaris Trusted Extensions Administrator’s Procedures.
fwflash(1M) is a new Solaris command for the manipulation of firmware for PCI-X, and PCI-Express HBA and HCA cards. Currently, the command enables listing, reading, and writing the firmware for the InfiniBand HCA cards.
For more information about this command, see the fwflash(1M) man page.
The PostScriptTM Printer Description (PPD) file management utility, /usr/sbin/ppdmgr, manages PPD files that are used with the Solaris print subsystem.
By using the ppdmgr utility, you can perform the following tasks:
Add a PPD file to a PPD file repository on a system
Supply a label to group PPD files within a PPD file repository
Update the cache of the PPD file information that is used by the Solaris Print Manager (printmgr) GUI to display supported printer information
You can add a new PPD file by using the ppdmgr utility or by using the lpadmin -n command. When you add a new PPD file, you automatically update the cache of the PPD file information that the printmgr GUI uses to display supported printer information.
The delivery location of PPD files in the Solaris OS has changed. During a software upgrade, any print servers with print queues that were defined by using PPD files from the previous PPD file delivery location are automatically updated to reflect the new PPD file delivery location.
In addition, a new SMF service, print/ppd-cache-update, has been introduced. The print/ppd-cache-update service is enabled by default. This service runs one time during system reboot to update the printer cache information with changes from all the PPD file repositories on the system. The service might take longer to transition to an online state during a system reboot after a software installation or upgrade. Also, if any changes were made to the PPD file repositories since the last PPD cache update, during system reboot, the service might take longer to come online. Changes made to the PPD file repositories on a system are not reflected in the PPD cache used by Solaris Print Manager until the print/ppd-cache-update service is online.
For more information, see the following:
ppdmgr(1M) man page
Client-side support for the Internet Printing Protocol (IPP) enables Solaris client systems to communicate with IPP-based print services, such as those on the Linux and Mac OS X operating systems, as well as other platforms.
Small improvements are also featured in the server-side support for the IPP listening service. These improvements promote better interoperability, including some minor changes that result in a more standard representation of printer and job attribute data.
The IPP server and client implementation in the Solaris OS is one of several OpenSolarisTM printing projects that are currently under development. OpenSolaris printing provides a set of specifications and implementations of software that enables you to create standardized, scalable printing components for the Solaris and Linux software, or any operating system that contains a set of POSIX interfaces.
For more information, see the System Administration Guide: Solaris Printing.
For more information about OpenSolaris Printing, see http://opensolaris.org/os/community/printing/.
This printing feature enables the Solaris print system to recognize and use localhost as the local host in the print system databases. In prior releases, /bin/hostname was used solely to generate the print hostname. The print system depended on this name remaining constant. The ability to use localhost as the name of the current system enables print servers to maintain the same print hostname, independent of the system's host name.
The modification applies to the setup of local print queues exclusively.
To support this feature, the following modifications are effective for the lpadmin command and the Solaris Print Manager graphical user interface (GUI):
The lpadmin command uses the -s option when creating a local print queue.
To use localhost as the host name that is specified within the print server, set the print hostname to localhost, as shown:
# lpadmin -p <new-print-queue> -s localhost -v <device> |
For example:
# lpadmin -p foo -s localhost -v /dev/term/a |
The default behavior of the lpadmin command has not changed.
Solaris Print Manager now includes an added tool attribute check box, Use localhost for Printer Server. The localhost attribute is selected by default. To deselect the localhost attribute, uncheck the box. Unchecking the box selects the previously chosen behavior for this attribute.
For more information, see the following:
printmgr(1M) man page
lpadmin(1M) man page
The Solaris predictive self-healing technology is available on Sun SPARC Enterprise T5140 and T5240 platforms. Predictive self-healing features include the following:
Automated error handling
Automated diagnosis
Automated recovery for CPU, memory and I/O subsystems
Clear and concise error messages
For more information, see http://www.sun.com/software/solaris/ds/self_healing.jsp and http://opensolaris.org/os/community/fm.
SunVTSTM is a comprehensive system validation and test suite designed to support Sun hardware platforms and peripherals. SunVTS 7.0 is the next generation of SunVTS 6.0 and its compatible versions.
SunVTS 7.0 includes the following features:
Introduction of the concept of purpose-based testing
Improved diagnostics effectiveness
Web-based user interface
Simplified usage
New architecture framework
Enterprise View
SunVTS 7.0 follows a conventional three-tier architecture model. This model is composed of a browser-based user interface, a Java based middle server, and a diagnostic agent.
The following system resource features and enhancements have been added to the Solaris 10 5/08 release.
You can perform a trial run of a zone migration before the zone is moved to the new machine by using the “no execute” option, -n.
The zoneadm detach subcommand is used with the -n option to generate a manifest on a running zone without actually detaching the zone. The state of the zone on the originating system is not changed. The zoneadm attach subcommand is used with the -n option to read this manifest and verify that the target machine has the correct configuration to host the zone without actually doing an attach.
For more information, see the following:
Chapter 23, Moving and Migrating Non-Global Zones (Tasks), in System Administration Guide: Solaris Containers-Resource Management and Solaris Zones
CPU caps provide absolute fine-grained limits on the amount of CPU resources that can be consumed by a project or a zone. CPU caps are provided as a zonecfg resource, and as project and zone-wide resource controls.
The zonecfg capped-cpu resource provides an absolute limit on the amount of CPU that can be consumed by a project or a zone.
The following resource controls are available:
Absolute limit on the amount of CPU resources that can be consumed by a non-global zone.
Absolute limit on the amount of CPU resources that can be consumed by a project.
For more information, see the following:
zonecfg(1M) man page
zones(5) man page
System Administration Guide: Solaris Containers-Resource Management and Solaris Zones
Use the projmod command with the -A option to apply the resource control values defined in the project database to the active project. Existing values that do not match the values defined in the project file, such as values set manually by prctl(1), are removed.
The following device management features and enhancements have been added to the Solaris 10 5/08 release.
The tape self-identification feature configures the tape automatically, with the parameters provided by the tape drive. Previously, the configuration data for a tape drive was statically supplied through user-editable configuration files, built-in configuration tables, or default values. The tape-self identification feature uses a few SCSI commands to directly query the required parameters from the tape drive. When the st driver gets the parameters, the tape drive uses them on the Solaris OS.
The advantages of tape-self identification over the traditional file-based configuration are:
Simple and no user intervention is needed
Faster support for new tape drives
Easy to use, standard-based interface
Starting with this release, Intel's Enhanced SpeedstepTM technology is supported on the Solaris OS. Enhanced Speedstep support enables Solaris platform users to manage the power consumption of their Intel processors by lowering the processor frequency during idle periods.
For more information about how to enable Solaris CPU power management, see the power.conf(4) man page.
Starting with this release, AMD's PowerNow! technology is supported on the Solaris OS. PowerNow! support enables Solaris platform users to manage the power consumption of their Opteron 10h family of processors by adjusting the processor operating frequency and voltage according to the task being performed.
For more information about how to enable Solaris CPU power management, see the power.conf(4) man page.
This Solaris release provides support for the Internet Storage Name Service (iSNS) protocol in the Solaris iSCSI target software. The iSNS protocol enables automated discovery, management, and configuration of iSCSI devices on a TCP/IP network.
The Solaris iSCSI target software does not include native iSNS server support. However, in this Solaris 10 release, you can add access to an existing iSNS server to automatically discover the iSCSI devices in your network.
The iscsitadm command is used to configure the Solaris iSCSI target to discover the iSNS server and enable or disable the iSNS discovery. Use the hostname or the IP address to specify the iSNS server.
For more information, see the iscsitadm(1M) man page and Chapter 14, Configuring Solaris iSCSI Targets and Initiators (Tasks), in System Administration Guide: Devices and File Systems.
The following security features and enhancements have been added to the Solaris 10 5/08 release.
Starting with this release, the Solaris Trusted Extensions software can mount labeled file systems by using NFS Version 3 (NFSv3) in addition to NFS Version 4 (NFSv4). Solaris Trusted Extensions has no restrictions on using TCP as an underlying transport protocol for NFS. However, users cannot choose User Datagram Protocol (UDP) as the underlying protocol for read-down NFS access for NFSv3. The use of UDP for the initial mount operation is supported, but UDP is not supported for subsequent multilevel NFSv3 operations.
The UltraSPARC T2 (Niagara 2) based platforms support hardware acceleration of Elliptical Curve Cryptography (ECC) algorithms. The Solaris OS now supports high performance ECDSA and ECDH on these platforms. These new ECC algorithms are accessible to all users of the Solaris Cryptographic Framework including Java technology and OpenSSL users.
The following networking features and enhancements have been added to the Solaris 10 5/08 release.
The Sockets Direct Protocol (SDP) is a transport protocol layered over the Infiniband Transport Framework (IBTF). SDP is a standard implementation based on Annex 4 of the Infiniband Architecture Specification Vol1. SDP provides reliable byte-stream, flow controlled two-way data transmission that is very similar to TCP.
For more information see sdp(7D) man page.
Starting with this release, a tunable to set the backlog queue size of the inetd managed services is introduced. This feature adds an SMF property to inetd called connection_backlog that enables the queue size to be modified. The default value of the connection_backlog queue size is 10. You can modify the connection_backlog property by using the inetadm command. For example:
To list the properties, type:
#inetadm -l fmri/pattern |
To change the value for a specific service, type:
#inetadm -m fmri/pattern conection_backlog=new value |
To change the value globally, type:
#inetadm -M connection_backlog=newvalue |
For more information, see the inetadm(1M) man page.
The following X11 windowing features and enhancements have been added to the Solaris 10 5/08 release.
VNC provides a remote desktop session over the Remote Frame Buffer (RFB) protocol. RFB clients, better known as VNC viewers, are available for most platforms, in both open-source and commercial releases.
The Solaris 10 5/08 release now includes Xvnc. Xvnc is an X server that is based on the open-source releases from the RealVNC project and X.Org Foundation. Xvnc is displayed to an RFB protocol client over the network without requiring an existing X server session display on the local video hardware. This release also includes RealVNC's vncviewer RFB client to connect to remote VNC servers, and several associated programs for managing these servers.
For more information, see System Administration Guide: Virtualization Using the Solaris Operating System. See also the Xvnc(1) and vncviewer(1) man pages.
The following desktop tools features and enhancements have been added to the Solaris 10 5/08 release.
Starting with this release, StarOffice has been enhanced to the latest version, StarOffice 8.
For more information about StarOffice, see http://www.sun.com/software/star/staroffice/whats_new.jsp.
Stating with this release, the Solaris OS includes the Adobe Flash Player 9. For more information about this Flash Player, see http://www.adobe.com/products/flashplayer/productinfo/features/.
Pidgin is a popular open-source instant messaging client. Pidgin 2.0 includes the following features:
Many improvements to the UI modules including status system, Buddy List, Conversation, and the chat window
New Yahoo features including Stealth Settings, Doodle, and the /list command
Improved AIM and ICQ file transfers
Improved Log Viewer module
Support for the new version of ICQ file transfer
New IRC features including SSL support, and the new commands /whowas, /nickserv, /memoserv, /chanserv, and /operserv
Jabber features including support for SRV lookups, buddy icons, and Jabber User Directory searching
The Free Standards Group (FSG) Open Printing API (PAPI) commands replace several commonly used print commands, which include the following:
The implementations of the Open Printing API commands are layered on top of the Free Standards Group Open Printing API in the Solaris OS. This implementation enables the commands to run on top of multiple protocols or services.
Some advantages of the new print command implementations include the following:
Improved consistency between desktop applications and command-line interfaces
Multiple print protocols and service support from the command line
Internet Print Protocol (IPP) client-side support for improved interoperability with Linux, Mac OS X, and other IPP-based print services
Enhanced remote capability and data when using IPP between print client and server
The capability to disable network services and retain access to local printers
For more information about the PAPI print commands, see the following:
How the PAPI Is Implemented in the Solaris OS in System Administration Guide: Solaris Printing
OpenSolaris Printing Community web pages at http://opensolaris.org/os/community/printing/projects/papi_client_commands/
The following system performance features and enhancements have been added to the Solaris 10 5/08 release.
Memory Placement Optimization (MPO) enables operating systems to allocate memory local to the core where the threads or processes are being executed. The sun4v architecture runs on virtualized hardware environment. The MPO for sun4v platforms feature provides the required standard accessors in the sun4v layer to provide locality information for the generic MPO framework. This feature is effective on platforms that have multiple sockets with differences in memory access latency. The MPO feature enhances the performance of various applications by enabling the OS to allocate memory local to the nodes.
The context mechanism, which is used by the Memory Management Unit (MMU) hardware to distinguish between the use of the same virtual address in different process address spaces, introduces some inefficiencies when shared memory is used. The inefficiencies in shared memory are because the data at a particular shared memory and the address in different processes might really be identical, but the context number associated with each process is different. Therefore, the MMU hardware cannot recognize a match. This inability to recognize a match results in mappings being unnecessarily evicted from the MMU translation cache and the Translation Lookaside Buffer (TLB), only to be replaced by identical mappings with a different context number.
The Niagara 2 system has an additional shared context, which is a hardware feature that can be used to prevent the inefficiency in handling shared memory. Searching the TLB for mapping a match on either the private or the shared context results in a TLB hit. The current software support for shared context activates the feature for processes that use the Dynamic Intimate Shared Memory (DISM). In this case, the process text segment and DISM segments mapped at the same virtual address with the same permissions for each process use the shared context.
Modern Intel processors provide an interface for discovering information about the cache hierarchy of the processor through the CPUID instruction.
The following language support features and enhancements have been added to the Solaris 10 5/08 release.
Locale Creator is a command line and graphical user interface tool that enables users to create and install Solaris locales. Using locale creator users can create installable Solaris packages containing customized locale data of a specific locale. After the created package has been installed, the user has a fully working locale on the system.
For more information, see the following:
The command /usr/bin/localectr -h
localectr man page
http://developers.sun.com/global/products_platforms/solaris/reference/techart/locale-creator.html
Chewing input method (IM) is based on libchewing, which is an open-source library for Traditional Chinese input. libchewing has been upgraded to the libchewing 0.3.0 version. Some of the features of the new version include the following:
Incompatibility with API/ABI.
UTF-8 based language engine core for common Unicode environment.
Includes the libchewing-data subproject.
Zuin fixes and symbol improvements.
New binary form of user hash data to speed up loading and solving hash data corruption.
Improved calculation of internal tree and phone constants.
Revised tsi.src for richer phrases and avoiding crashes.
Merge phone and phrase from CNS11643.
Improved Han-Yu PinYin to use table-lookup implementation.
Experimental frequency evaluation that re-computes chewing lifetime.
Implementation of the choice mechanism for symbol pairs.
Experimental, memory mapping-based, binary data handling to speed up data loading.
For further information, see the International Language Environments Guide.
The File Encoding Examiner (fsexam) enables you to convert the name of a file, or the contents of a plain-text file, from a legacy character encoding to UTF-8 encoding. New features in the fsexam utility include the following:
Encoding list customization
Encoding auto-detection
Support for dry runs, logs, batch conversion, file filtering, symbolic files, command line, and special file types like compress file
For more information, see the fsexam(1) and fsexam(4) man pages.
The following kernel functions features and enhancements have been added to theSolaris 10 5/08 release.
The Solaris OS uses the SSE3 MONITOR and MWAIT instructions in the x86 processor idle loop. Using the SSE3 instructions in the processor idle loop eliminates the overhead of sending and receiving an interrupt to wake up a halted processor. MONITOR is used to specify a memory range to monitor the idle loop. MWAIT halts the processor until the address previously specified with MONITOR is accessed. With the new idle loop, a processor has to write to memory only to wake up a halted processor.
The following driver features and enhancements have been added to the Solaris 10 5/08 release.
Starting with this release, the Sun Fire X4540 disk status indicators are supported. The amber Fault status LED and blue Ready to Remove status LEDs are enabled by this feature.
For more information, see the Sun Fire X4540 Server Diagnostics Guide.
The mpt driver has been enhanced to support MPxIO with supported storage devices. When MPxIO is enabled for Serial Attached SCSI (SAS) and SATA devices, they are enumerated under scsi_vhci(7D) just like fibre channel devices under fp(7D).
Starting with this release, stmsboot(1M) has also been enhanced to support multipathed SAS devices. stmsboot(1D) operates on all attached and multipath-capable controllers by default.
If you wish to only enable multipathing on fp or mpt controllers then you can use the new flag which has been added to restrict operations. The command, /usr/sbin/stmsboot -D mpt -e, will enable MPxIO only on attached mpt controllers. Replacing mpt with fp in this command will make stmsboot enable MPxIO only on attached fp controllers.
The AHCI driver supports SATA ATAPI CD or DVD devices. Users can use the SATA CD or DVD in AHCI mode instead of the compatible mode. The AHCI mode has better error handling and hot-pluggable capabilities.
For more information, see the ahci(7D) man page.
The AMD-8111 HyperTransport I/O hub includes a 10/100 Mbps Ethernet LAN controller. The driver is used by the Andretti platform.
The AHCI driver supports the SATA NCQ feature. NCQ support improves performance of the driver.
For more information, see the ahci(7D) man page.
Starting with this release, support is provided for the Broadcom NetXtreme (bnx) II Ethernet chipset, which includes BRCM5706C, BRCM5706S, BRCM5708C, and BRCM5708S.
For more information, see the bnx(7D) man page.
Starting with this release, a new driver is provided for Keyspan USB-to-serial adapters. This driver supports the USA-19HS model. This feature enables you to choose between Edgeport adapters and Keyspan adapters.
For further information, see the usbsksp(7D) man page.
The following freeware features and enhancements have been added to the Solaris 10 5/08 release.
pgAdmin III is a popular and feature-rich, open-source administration and development platform for PostgreSQL. The graphical interface supports all PostgreSQL features and makes administration easy. This tool enables users to write simple SQL queries and also to develop complex databases.
For more information, see http://www.pgadmin.org/.
Starting with this release, the Solaris OS includes p7zip port. p7zip is similar to the Windows compression and archiving utility, 7zip.
For more information, see http://p7zip.sourceforge.net/.