Solaris

Note:

See the knowledge article KB0687582 for information on model_id and manufacturer.

Supported operating systems

Oracle Solaris 10
Oracle Solaris 11

Prerequisites

Handle truncated command line parameters: Discovery stores data in the [cmdb_running_process] table with command line parameters truncated to 80 characters. This can cause multiple applications to be merged into one CI. To get the full command line and prevent this issue, run pargs -a and parse the result.
Install SNEEP: To use patterns to find Solaris computers, install SNEEP. Without it, Discovery cannot find the serial number.
Configure unique serial numbers for Solaris zones: Configure each zone to return a unique serial number. If zones return the same number, CI identification fails.
Note:
Solaris discovery only supports local zones installed on the same host as the global zone. If the local zone is installed on a different host from the global zone, the zoneadm list -cip command can't retrieve the UUID for the local zone.
Install the LSOF command: The Solaris - ADM probe requires the LSOF command to be installed.
Configure SSH credentials: Configure SSH credentials for the systems you are discovering.
For a list of privileged commands that you need for Discovery and Service Mapping, see Service Mapping commands requiring a privileged user. This list includes commands that require elevated rights to discover and map Unix-based hosts in your organization.

Classifier, probes, and pattern

Table 1. Classifier, probes, and pattern
Classifier	Probes	Pattern
Solaris (UNIX Classification)	Horizontal discovery probe: launches patterns Solaris - Installed Software^ Solaris - Identity* Solaris - CPU* Solaris - Hardware Model* Solaris - Memory* Solaris - Network ARP Tables* Solaris - OS Patches* Solaris - Storage* Solaris - Zones* Solaris - Disks* DNS*	Solaris Server

*For new instances, these probes are inactive on the classifier. Discovery uses patterns for discovery.

^This probe remains active by default, even when Discovery uses pattern discovery.

To use patterns, verify that the correct pattern is specified in the horizontal pattern probe on the classifier. See Add the Horizontal Pattern probe to a classifier for instructions.

Data collected

Table 2. Data collected on Solaris computers
Label	Table name	Field name	Source
Operating System	cmdb_ci_computer	os	uname
Short description	cmdb_ci_solaris_server	short_description	uname
Name	cmdb_ci_solaris_server	name	DNS, NBT
Hostname	cmdb_ci_solaris_server	host_name	DNS, NBT
DNS domain	cmdb_ci_solaris_server	dns_domain	DNS
Start date	cmdb_ci_solaris_server	start_date	uptime
CPU type	cmdb_ci_computer	cpu_type	kstat
CPU speed (MHz)	cmdb_ci_computer	cpu_speed	kstat
CPU count	cmdb_ci_computer	cpu_count	kstat
CPU core count	cmdb_ci_computer	cpu_core_count	kstat
CPU core thread	cmdb_ci_computer	cpu_core_thread	kstat
Model number	cmdb_ci_solaris_server	model_number	suntype
Model ID	cmdb_ci_solaris_server	model_id	suntype
RAM (MB)	cmdb_ci_computer	ram	prtconf
Disk space (GB)	cmdb_ci_solaris_server	disk_space	iostat
Serial Number	cmdb_ci_solaris_server	serial_number	sneep *
Manufacturer	cmdb_ci_disk	manufacturer	iostat
Model ID	cmdb_ci_disk	model_id	iostat
Volume serial number	cmdb_ci_disk	volume_serial_number	iostat
Disk space (GB)	cmdb_ci_disk	disk_space	iostat
Name	cmdb_ci_disk	name	iostat
Name	cmdb_ci_file_system	name	df
Capacity (MB)	cmdb_ci_file_system	capacity	df
Available Space (MB)	cmdb_ci_file_system	available_space	df
Mount point	cmdb_ci_file_system	mount_point	df
Name	cmdb_ci_patches	name	showrev
Name	cmdb_running_process	name	ps
Command	cmdb_running_process	command	ps
Connects to	cmdb_running_process	connects_to	lsof
Listening on	cmdb_running_process	listening_on	lsof
Type	cmdb_running_process	type	ps
PID	cmdb_running_process	pid	ps
Parameters	cmdb_running_process	parameters	ps
Name	cmdb_ci_network_adapter	name	ifconfig
IP address**	cmdb_ci_network_adapter	ip_address	ifconfig
MAC address	cmdb_ci_network_adapter	mac_address	ifconfig
Netmask	cmdb_ci_network_adapter	netmask	ifconfig
Default gateway	cmdb_ci_hardware	default_gateway	netstat

* To discover Fujitsu PRIMEPOWER devices, you must install Oracle SNEEP and run Solaris discovery with root credentials.

Solaris zone discovery

Discovery maps the relationships between global and local Solaris zones upon detection.

In the following example, a Solaris global zone contains two local zones: zone01 and zone02. Each local zone is represented by a physical Solaris CI record and a Virtual Machine Instance record. Each of the local zones is tied to a Zone Server, demonstrating how virtualization relates to the global zone (mmp1).

The TCP connection and process information for local zone servers must be collected by running commands on their parent global zone. The relationship path between the local and global zone physical machines must be established before TCP connection and process information for local zone servers can be collected.

Case 1: Global zone is discovered first.

The system creates the Solaris server CI for the global zone.
Discovery detects the local zones, creates a hypervisor zone server record, and creates a virtual machine instance record for each Solaris device in the local zone.
Discovery creates the relationship between the hypervisor record and the VM instance record.

Case 2: Local zone is discovered first.

The system creates the Solaris server CI for the local zone.
Discovery sets the correlation ID, so that it can be reconciled during later global zone discoveries.

Case 3: Global zone is discovered after local zone Solaris server CIs are created.

Global zone Discovery detects local zones.
Discovery creates a hypervisor zone server record, and creates a virtual machine instance record for each Solaris device in the local zone.
Discovery creates the relationship between the hypervisor record and the VM instance record. In addition, it creates the relationship between the physical local zone VM and its virtual machine instance record.
The global zone runs the Solaris - ADM probe on itself, filtering by the local zone, and updates the physical local zone VMs with this data.

Case 4: The relationship path between physical local and global zone machines is established.

Subsequent discoveries of the global zone refresh the TCP connection and process information for the contained local zones.

When the system discovers a global zone, the Solaris - Zones & ADM Launcher probe triggers the Solaris - ADM probe to explore the global zone and each local zone found. Because the Solaris - ADM probe must run on the global zone to detect TCP connection and process information from its local zones, you might see multiple ECC queue records that appear identical.

Figure 2. ECC queue entries for a zone Discovery

Examining the payload shows that each probe targets a different zone CI to filter on and update.

Table 3. Data collected on Solaris zones
Label	Table name	Field name	Source
Version	`cmdb_ci_vm_zones`	`version`	zoneadm, zonename
Correlation ID	`cmdb_ci_vm_zones`	`correlation_id`	zoneadm, zonename
Name	`cmdb_ci_solaris_instance`	`name`	zoneadm, zonename
Parent	`cmdb_ci_solaris_instance`	`parent`	Internal
CMDB CI	`cmdb_ci_solaris_instance`	`cmdb_ci`	Internal
Correlation ID	`cmdb_ci_solaris_instance`	`correlation_id`	zoneadm, zonename

Note:

cmdb_ci_solaris_instance extends cmdb_ci_vm_instance.