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CUDB 1.13 Network Impact Report

Contents

1Introduction
1.1Revision Information

2
General Impact
2.1Capacity and Performance
2.1.1Subscriber Capacity
2.1.2Network Performance
2.2Changes in Hardware Support
2.3Changes in Cloud Support
2.3.1Changes in VNF Workflows
2.3.2Changes in VMware Support
2.4Changes in Software Handling
2.5Changes in Upgrade Procedure
2.6Changes in Tools
2.7Obsolete Functions
2.8Other Network Elements (Dependencies)

3
New Functions
3.1Virtualized Network Function Support
3.1.1Changes in Operation
3.2Electronic Software License
3.2.1Changes in Operation
3.3LDAP Data Views
3.3.1Changes in Operation
3.4Local Reads
3.4.1Changes in Interfaces
3.4.2Changes in Operation
3.5Commercial UDC IoT Offering
3.5.1Changes in Licensing
3.5.2Changes in Operation
3.6Support for Static Routing
3.6.1Changes in Operation
3.7Smooth Migration to Virtualized CUDB
3.7.1Changes in Operation
3.8Migration to Virtualized CUDB through Backup and Restore
3.9Support for HSS-EPC 5G Profiles
3.9.1Changes in Licensing
3.9.2Changes in Operation
3.10Optimized Subtree Searches
3.10.1Changes in Operation

4
New Enhanced Functions
4.1Flexible PL Deployment
4.1.1Changes in Interfaces
4.1.2Changes in Operation
4.2OAM Automation with NETCONF Support
4.2.1Changes in Operation
4.3Increment Alert Key Command
4.3.1Changes in Operation
4.4CUDB Key Performance Indicators
4.4.1Changes in Operation
4.5SOAP Notifications Improvements
4.5.1Changes in Operation
4.6Asynchronous LDAP Proxy
4.7CUDB Combined Hardware and Software Upgrade Procedure
4.8Virtualized CUDB Adaptation Framework
4.9Subscription Reallocation Improvement
4.9.1Changes in Interfaces
4.9.2Changes in Operation
4.10Automatic Mastership Change Improvements
4.10.1Changes in Operation
4.11Additional High-Throughput Write Requests
4.11.1Changes in Operation
4.12IPv6 Support in CUDB
4.12.1Changes in Operation
4.13GEP7L Support
4.13.1Changes in Operation
4.14Image Based Instantiation
4.14.1Changes in Operation
4.15Automatic Installation in Native
4.15.1Changes in Operation
4.16Automated DSG Expansion

5
System Improvements
5.1Improvements in CUDB 1
5.1.1Interface Improvements
5.1.2OAM Improvements
5.1.3Notification Support Improvements
5.1.4Security Improvements
5.2OAM Improvements in CUDB 1.1
5.3Improvements in CUDB 1.2
5.3.1LDAP Data Views
5.3.2OAM Improvements
5.4OAM Improvements in CUDB 1.3
5.5Improvements in CUDB 1.4
5.5.1Application Counters
5.5.2OAM Improvements
5.6Improvements in CUDB 1.5
5.6.1OAM Improvements
5.6.2SOAP Notifications
5.6.3Encrypted rootdn Password
5.7Improvements in CUDB 1.6
5.7.1OAM Improvements
5.7.2Multicast Removal
5.8Improvements in CUDB 1.7
5.8.1OAM Improvements
5.8.2Centralized Security Event Logging
5.8.3Import and Export Procedures
5.8.4Application Counters
5.9Improvements in CUDB 1.8
5.9.1OAM Improvements
5.9.2Centralized Security Event Logging
5.10Improvements in CUDB 1.10
5.10.1OAM Improvements
5.10.2Electronic Software License Improvement
5.11OAM Improvements in CUDB 1.11
5.12Improvements in CUDB 1.12
5.12.1LDAP Node Counters
5.12.2OAM Improvements in CUDB 1.12
5.13Improvements in CUDB 1.13
5.13.1OAM Improvements in CUDB 1.13
5.13.2Security Improvements
5.13.3Restoration of Multiple Backups into a Single Destination Cluster in Hardware Migration through Backup and Restore Procedures

6
Functions Planned for Coming Releases
6.1Impacts in VNF Workflows
6.1.1VNF Scale-Out Workflow
6.2Geographical Redundancy Decrease and Site Decommissioning

Glossary

Reference List

1   Introduction

The Network Impact Report (NIR) describes the new and changed functions implemented in the Ericsson Centralized User Database (CUDB) since CUDB 16A FD1 and indicates how these changes affect the product and the overall network used by operators.

To find the changes applicable to a specific upgrade path, apply the filters by using the funnel icon on the upper left side of the browser.

The document also describes changes that are introduced with the software upgrade, but are part of functions planned for coming releases, see Section 6. Each of the changes is described in the corresponding referenced documents.

Refer to the Functions section of CUDB Technical Product Description, Reference [1] for more information on CUDB functions.

1.1   Revision Information


Rev. A
Rev. B
Rev. C
Rev. D
Rev. E
Rev. F
Rev. G
Rev. H
Rev. J
Rev. K
Rev. L
Rev. M
Rev. N
Rev. S
Rev. T
Rev. U
Rev. V

Other than editorial changes, this document has been revised as follows for the CUDB 1.13 release:

  • Section 2.2 Changes in Infrastructure Support: Removed section, moved subsections up one level.
  • Section 2.2: Updated Table 4 with changes in backup and restore procedure and replacement of GEP5 blades with GEP7L blades from CUDB 1.13 onwards.
  • Section 2.3: Updated Table 5 with changes in backup and restore procedure from CUDB 1.9 and CUDB 1.13 onwards.
  • Section 2.3.1: Added section, updated Table 6 with Graceful Termination from CUDB 1.13 onwards, and moved former section 6.2.2 VNF Graceful Termination Workflow to Section 2.3.1.
  • Section 2.3.1.1: Added cudbRemoveNode command to Table 7.
  • Section 2.5: Moved CUDB Application Schema Update impact from CUDB 1.12 onwards to CUDB 1.13 onwards in Table 9.
  • Section 2.6: Added Table 10 and updated with removed tools.
  • Section 2.6.1 Schema Update Tool and Section 2.6.2 CUDB Licensing Fingerprint Tool: Removed sections, because content is moved to Table 10.
  • Section 5.13: Added section with Section 5.13.1, regarding the removal of the init value from -s command option from cudbApplyConfig command. Added subsections Section 5.13.3, regarding the restoration of multiple backups into single destination cluster and Section 5.13.2, regarding hardening system improvement.
  • Section 6.1.1.1.1: Added section and Table 65 with new cudbManageDsGroup command.
  • Section 6.2: Added section regarding geographical redundancy decrease and site decommissioning.
  • Section 6.1 Image Based Instantiation: Removed section because feature has been delivered and added to Section 4.14.
  • Section 6.2 Automatic Installation in Native: Removed section because feature has been delivered and added to Section 4.15.
  • Section 6.2 Automated DSG Expansion: Removed section because feature has been delivered and added to Section 4.16.
  • Section 6.5 GEP7L Support: Removed section because feature has been delivered and added to Section 4.13.

2   General Impact

This section provides information about changes in the system that affect general areas, such as user capacity, network performance, memory consumption, and hardware.

2.1   Capacity and Performance

The capacity tables in the following section are not intended for dimensioning a CUDB system. Moreover, the figures may not reflect the latest updates. For dimensioning purposes, use the Ericsson dimensioning tool, which considers all the parameters and contains the latest figure updates.

Due to the one software track, the following considerations must be taken into account:

2.1.1   Subscriber Capacity

The subscriber capacity of CUDB is mainly affected by the following factors:

The subscriber capacity values for this CUDB release are shown in Table 1, Table 2, and Table 3. The figures of these tables have been obtained by using the Advanced processing option of the Ericsson default profile tool. The figures were calculated with an IP backbone Quality of Service (QoS) of RTT=40 ms and PLR=10E-4, on a 1+1 CUDB configuration.

The detailed capacity information for default Ericsson profiles on Blade Server Platform (BSP) 8100 with Generic Ericsson Processor version 3 (GEP3) boards is shown in Table 1. Individual operator profile characteristics can vary significantly.

Table 1    Capacity Summary for CUDB Systems Deployed on Native BSP 8100 GEP3 (1+1)

BSP 8100 GEP3

HLR(1)

MNP(2)

IMS(3)(4)

EPC (3)(5)

SAPC (2)(6)

AAA (2)(7)

M2M (2)

EIR (2)(8)

ENUM (2)

Maximum system capacity(9)

160.4

167.1

89.2

177.1

219.8

221.4

179.8

289.5

273.5

Maximum node capacity(9)

33.6

167.1

7.1

39.3

76.0

28.0

34.0

141.4

86.2

(1)  Default HLR profile.

(2)  Estimated figures.

(3)  Ericsson default profile.

(4)  IMS-fixed BB users.

(5)  EPC UDC 16A Traffic model. AVG Authentication. EPC traffic model has changed with the feature Optimized Subtree Searches.

(6)  Usage Reporting (BLOB=1,5 KB) and 1 Traffic_ID. No subscriber groups with date and/or priority.

(7)  AAA-FE GPRS.

(8)  IMEI only. All IMEIs used by the active subscribers are provisioned. BHCI=1.

(9)  Million subscribers.


The detailed capacity information for default Ericsson profiles on BSP 8100 with Generic Ericsson Processor version 5 (GEP5) boards is shown in Table 2. Individual operator profile characteristics can vary significantly.

Table 2    Capacity Summary for CUDB Systems Deployed on Native BSP 8100 GEP5 (1+1)

BSP 8100 GEP5

HLR(1)

MNP(2)

IMS(3)(4)

EPC (3)(5)

SAPC (2)(6)

AAA (2)(7)

M2M (2)

EIR (2)(8)

ENUM (2)

Maximum system capacity(9)

514.3

536.1

286.1

568.1

704.8

710.1

576.7

928.3

877.0

Maximum node capacity(9)

104.9

536.1

22.2

122.5

236.9

87.3

84.8

324.7

203.7

(1)  Default HLR profile.

(2)  Estimated figures.

(3)  Ericsson default profile.

(4)  IMS-fixed BB users.

(5)  EPC UDC 16A Traffic model. AVG Authentication. EPC traffic model has changed with the feature Optimized Subtree Searches.

(6)  Usage Reporting (BLOB=1,5 KB) and 1 Traffic_ID. No subscriber groups with date and/or priority.

(7)  AAA-FE GPRS.

(8)  IMEI only. All IMEIs used by the active subscribers are provisioned. BHCI=1.

(9)  Million subscribers.


The detailed capacity information for default Ericsson profiles on vCUDB deployments over Cloud Execution Environment (CEE) on BSP 8100 hardware with GEP5 blades is shown in Table 3. Individual operator profile characteristics can vary significantly. The measurements are valid only for vCUDB_16CPU_47GB flavor.

Table 3    Capacity Summary for vCUDB over CEE on BSP 8100 GEP5 (1+1)

vCUDB over CEE on BSP 8100 GEP5 (16 vCPUs)

HLR(1)(2)

MNP (1)

IMS (1)(3)

EPC (1)(4)

SAPC (1)(5)

AAA (1)(6)

M2M (1)

EIR (1)(7)

ENUM (1)

Maximum system capacity(8)

375.4

391.3

208

414.6

514.5

518.3

420.9

667.6

640.1

Maximum node capacity(8)(9)

76.5

113.3

16.2

57.7

110.5

63.7

46.6

148.6

112

(1)  Estimated figures.

(2)  Default HLR profile.

(3)  IMS-fixed BB users.

(4)  EPC UDC 16A Traffic model. AVG Authentication. No LDAP optimization.

(5)  Usage Reporting and 1 Traffic_ID. No subscriber groups.

(6)  AAA-FE GPRS.

(7)  IMEI only. All IMEIs used by the active subscribers are provisioned. BHCI=1.

(8)  Million subscribers.

(9)  It is considered a full Virtualized Network Function (VNF) with 34 blades for Processing Layer (PL) and Data Store (DS). A full GEP5 cabinet, with CEE installed on top, only allows 30 blades for DS and PL.


Note:  
  • The maximum node capacity has been calculated for a 1+1 configuration. Consider that system capacity does not scale linearly with the number of nodes.
  • From CUDB 1 onwards, CUDB received improvements in Lightweight Directory Access Protocol (LDAP) FE processing that are not clearly visible in the tables above, as the LDAP Front End (LDAP FE) processing capacity is not the limiting factor in such maximum configurations. The maximum system capacity is usually limited by the PL memory, but the maximum node capacity in these 1+1 configurations is limited instead by the DS memory in the HLR, and by the DS processing in the IP Multimedia Subsystem (IMS). However, in most CUDB deployments, LDAP FE capacity is usually the limiting factor, and they will therefore benefit from this improvement. In case of HLR in a 2+2 configuration deployed on BSP 8100 GEP5 hardware, the maximum capacity is increased from 158 million subscribers (or 79 million subscribers per node) on CUDB 16A FD1 to 168 million subscribers (or 84 million subscribers per node) on this CUDB release.
  • In case of hybrid CUDB systems (consisting of native GEP3 coexisting with GEP5 nodes, or native nodes coexisting with vCUDB nodes), consider the smaller capacity figures for maximum system capacity (whenever PL memory is the limit). To determine the maximum node capacity, use the Ericsson default profile tool.

2.1.2   Network Performance

No impact.

2.2   Changes in Hardware Support

Hardware related impacts are listed in Table 4.

Table 4    Summary of Changes in Hardware Support

Release

Impact

From CUDB 1 onwards

Maiden installations support BSP 8100 hardware with GEP5 blades only.

The combination of nodes with different blade types (GEP3 or GEP5) is supported. Hybrid systems, mixing GEP3 nodes and GEP5 nodes, are allowed, except for maiden installations, but mixed GEP3 and GEP5 blades within the same node are not supported.

The minimum number of Processing Layer Database (PLDB) blades supported is 2 (the previous value is 4).(1)

From CUDB 1.4 onwards

Hardware migration from GEP3 to GEP5 based on backup and restore is provided.

From CUDB 1.6 onwards

Hardware migration procedure based on expansion, reallocation and decommission is supported.

From CUDB 1.13 onwards

Hardware migration from GEP3 to GEP5 through backup and restore procedure now supports restoration of multiple backups into a single destination cluster.


Replacement of GEP5 blades with Generic Ericsson Processor version 7, Low Power (GEP7L) blades is supported in native systems. See Section 4.13 for further details.

(1)  Refer to CUDB Node Configuration Data Model Description, Reference [2] for more information.


2.3   Changes in Cloud Support

Cloud support related impacts are listed in Table 5.

Table 5    Summary of Changes in Cloud Support

Release

Impact

From CUDB 1 onwards

vCUDB is verified to run on the CEE, on BSP 8100 hardware with GEP5 blades, and is supported for maiden installations only. Support for other virtualized environments or hardware is possible through an integration project only.

From CUDB 1.6 onwards

A TCP-based message system replaces the usage of multicast traffic in the cloud infrastructure.

From CUDB 1.9 onwards

Migration to vCUDB through backup and restore is provided.

From CUDB 1.12 onwards

Virtual Machine (VM) evacuation is supported and verified on CEE.

VM evacuation is supported and verified on CEE.

vCUDB is verified on CEE, over HDS 8000 CSU 0.2 hardware.

From CUDB 1.13 onwards

Migration to vCUDB through backup and restore procedure now supports restoration of multiple backups into a single destination cluster.

2.3.1   Changes in VNF Workflows

CUDB supports the workflows listed in Table 6 on the full Ericsson cloud infrastructure (ECEE on top of BSP 8100). Refer to CUDB VNF Lifecycle Management, Reference [4] for more information.

Table 6    Summary of Changes in VNF Workflows

Release

Impact

From CUDB 1.9 onwards

  • Instantiation workflow introduced.

  • Termination (forceful) workflow introduced.


See Section 4.14 for more information.

From CUDB 1.12 onwards

  • Upgrade Preparation workflow introduced.

  • Upgrade workflow introduced.


See Section 2.5 for more information.

From CUDB 1.13 onwards

  • Termination workflow enhanced (graceful).


See Section 6.1.1 for more information.

2.3.1.1   VNF Graceful Termination Workflow

This workflow allows automatic decommissioning of vCUDB VNFs. The graceful termination workflow is part of the VNF package to be executed according to CUDB VNF Lifecycle Management, Reference [4] in the OSS-RC/ENM.

2.3.1.1.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

Commands and Command Options

Table 7 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 7    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbRemoveNode

  • -h | --help

  • -v | --verbose

  • --no-prompt

New command restricted to Ericsson personnel.

2.3.2   Changes in VMware Support

VMware support related impacts are listed in Table 8.

Table 8    Summary of Changes in VMware Support

Release

Impact

CUDB 1.10

vCUDB software compliant package is certified on VMware vSphere 6.5 and vCloud Director for Service Provider 8.20.

CUDB 1.12

vCUDB software compliant package is certified, VM evacuation and VM migration are supported and verified on VMware vSphere 6.5 and vCloud Director for Service Provider 8.20.

2.4   Changes in Software Handling

No impact.

2.5   Changes in Upgrade Procedure

Upgrade procedure related impacts are listed in Table 9.

Table 9    Summary of Changes in Upgrade Procedure

Release

Impact

From CUDB 1 onwards

The Electronic Software Licenses function performs licensing-related activities during the upgrade, such as getting digital fingerprints on every node in the system and requesting License Key Files from Ericsson Sourcing and Supply.

During the software upgrade procedure, the Hardware Monitoring function is disabled on the node currently being upgraded.

During the upgrade procedure, and before it is fully completed, the LDAP proxy traffic sent from CUDB nodes that have not been upgraded is synchronous, while the LDAP proxy traffic sent from already upgraded CUDB nodes is asynchronous.

From CUDB 1.1 onwards

The Installation Based Upgrade method, based on maiden installation, is introduced.

If the CUDB system has custom modifications in the sudoers files, the modifications will not be adapted automatically after the upgrade process has been completed, because the CUDB upgrade does not have any means to know what custom modifications are still supported in the new version. The upgrade process checks, during the System Validation phase, if the sudoers file is different from the standard CUDB configuration, and if it is the case, it displays a warning message and the sudoers file is copied to the cudbUpgradeWorkDir for later use. After the upgrade process has been completed, the sudoers file needs to be updated manually with the applicable content from the sudoers file located in cudbUpgradeWokDir.

From CUDB 1.4 onwards

The number of defined SITE_VIP addresses may decrease after upgrade from previous releases due to the application of the new formula for calculating this value.

From CUDB 1.6 onwards

The upgrade is improved with combined hardware and software upgrade procedure. See Section 4.7 for more details.

The upgrade on vCUDB is supported. See Section 4.8 for more details.

From CUDB 1.7 onwards

A new upgrade path from 16A FD1 CP1 is available. It is not possible to upgrade from 16A FD1 CP1 to any previous CUDB 1.x version.

From CUDB 1.8 onwards

The upgrade to hybrid CUDB systems, consisting of native and vCUDB nodes, is possible. See Section 3.7 for more details.

From CUDB 1.11 onwards

During upgrade procedure, the Automatic Mastership Change Improvements are disabled.

From CUDB 1.12 onwards

System init phase disappears as it has been integrated as a part of first node upgrade phase.

From CUDB 1.13 onwards

CUDB Application Schema Update, Reference [3] is an independent procedure out of the upgrade/hardware migration. A new command has been created to provide the existing support and guarantee the backwards compatibility.

2.6   Changes in Tools

Tools related changes are listed in Table 10.

Table 10    Summary of Changes in Tools

Release

Impact

From CUDB 1 onwards

Running the Schema Update Tool on the System Controllers (SCs) of the CUDB system is recommended (but not required). If the Schema Update Tool is executed elsewhere, check the version of the shared libraries required for the slapd process to determine if the Linux version of the current machine is sufficient for executing the tool.

From CUDB 1.10 onwards

A new tool is included to generate the fingerprints needed to request License Key Files to Ericsson Sourcing and Supply. This tool is meant to be used separately from the CUDB installation or upgrade procedures. See Section 5.10.2 for more information.

From CUDB 1.13 onwards

The following CUDB tools are removed:


  • CUDB Configuration Checking Tool

  • CUDB Initial Configuration Creation Tool

2.7   Obsolete Functions

From CUDB 1 onwards, the Subscription Control function is obsolete.

2.8   Other Network Elements (Dependencies)

To achieve full capacity at User Data Consolidation (UDC) solution level of the Key Performance Indicators (KPIs) function introduced in CUDB 1.1, Network Management System (NMS) and User Profile Gateway (UPG) support is needed.

All the changes in CUDB Fault Management and Performance Management are backward compatible with the Operations Support System for Radio and Core (OSS-RC) or Ericsson Network Manager (ENM) interfaces.

The minimum version of Ericsson NMS required to support CUDB VNF Lifecycle Management, Reference [4] is:

3   New Functions

3.1   Virtualized Network Function Support

This function makes it possible to decouple software and hardware through virtualization, thereby enabling the harmonization of hardware across multiple products and vendors, and the optimization of hardware utilization.

The support of virtualization in CUDB covers the installation, configuration, and adaptation of CUDB Operation and Maintenance (OAM) functions. A vCUDB system provides the same functions and architecture as a native CUDB system.

3.1.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

3.1.1.1   Alarms

Table 11 shows the alarms impacted by new or modified functions. Refer to CUDB Node Fault Management Configuration Guide, Reference [5] and the related alarm Operating Instructions (OPIs) for detailed information about the alarms.

Table 11    Summary of New and Modified Alarms

Alarm

Impact

Control, Blackboard Coordination Server Down

Modified alarm

LDAP Front End, Server Down

Modified alarm

Operating System, Disk Usage Too High

Modified alarm

Storage Engine, Automatic Handling of Network Isolation not Completed for DS

Modified alarm

Storage Engine, Automatic Handling of Network Isolation not Completed for PLDB

Modified alarm

Storage Engine, DS Cluster Node Down

Modified alarm

Storage Engine, PLDB Cluster Node Down

Modified alarm

3.1.1.2   Logging

New and modified logging events are included due to impacts in the following components:

  • Cluster Supervisor (CS)
  • LDAP FE Monitor

Refer to CUDB Node Logging Events, Reference [6] for more information on logging.

3.2   Electronic Software License

The Electronic Software License function requires to perform licensing-related activities during the upgrade, such as getting digital fingerprints on every node in the system and requesting License Key Files from Ericsson Sourcing and Supply.

3.2.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

3.2.1.1   Alarms

Table 12 shows the alarms impacted by new or modified functions. Refer to CUDB Node Fault Management Configuration Guide, Reference [5] and the related alarm OPIs for detailed information about the alarms.

Table 12    Summary of New and Modified Alarms

Alarm

Impact

Licensing, Autonomous Mode Activated, License Management

New alarm

Licensing, Capacity Usage Threshold Reached, License Management, Major

New alarm

Licensing, Capacity Usage Threshold Reached, License Management, Warning

New alarm

Licensing, Emergency Unlock Reset Key Required, License Management

New alarm

Licensing, Key File Fault, License Management

New alarm

Licensing, License Key Not Available, License Management, Major

New alarm

Licensing, License Key Not Available, License Management, Minor

New alarm

Licensing, License Management Not Available, License Management

New alarm

Licensing, Number of Profile Subscriptions has Reached the Purchased Number, Subscriptions Control

Removed alarm

3.2.1.2   Commands and Command Options

Table 13 describes the new, modified, and removed Command Line Interface (CLI) commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 13    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbLicensingTool

  • -c | --calculate-fingerprint

  • -h | --help

  • -r | --restore-fingerprint

  • -u |--upgrade

New command restricted to Ericsson personnel.

3.2.1.3   Logging

The following new component writing on the logs has been included in the CUDB system:

New and modified logging events are included due to impacts in the following components:

  • DataBackupRestore
  • Reconciliation

Only important events are logged. Successful operations are no longer logged into the ldap logs.

Refer to CUDB Node Logging Events, Reference [6] for more information on logging.

3.3   LDAP Data Views

This function makes it possible for applications to access the data stored in CUDB through a custom Directory Information Tree (DIT) and a custom schema. LDAP users can be configured to access CUDB either by using the "native" view and core DIT, or by using one of the defined LDAP data views.

3.3.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

3.3.1.1   Data Model

Table 14 describes the changes in configuration objects and attributes. Refer to CUDB Node Configuration Data Model Description, Reference [2] for more information.

Table 14    Summary of New and Modified Configuration Objects and Attributes

Class

Attribute

Impact

CudbLdapUser

cudbLdapViewId

Attribute used as the identifier of the LDAP view attached to the specific user for the LDAP Data Views function.


CudbLdapUser:: cudbLdapViewId must be equal to one CudbLdapView:: ldapViewName.

CudbLdapView

cudbLdapViewId

Attribute uniquely identifying LDAP view for the LDAP Data Views function.

CudbLdapView

ldapViewName

New attribute representing the name of unique LDAP view for the LDAP Data Views function.

3.4   Local Reads

This function allows data to be read from the closest DS replica. It is activated by setting readModeInDS in and LDAP user or via LDAP control, only if the Deployment Flexibility Value Package is available.

3.4.1   Changes in Interfaces

Table 15 describes interface changes between the existing and new revisions of the product.

Table 15    Summary of New, Modified, and Removed CUDB Interfaces

Protocol

Nodes

Impact

LDAP


LDAP v3

CUDB

Implemented a new LDAP Control ReadMode applicable only for search operations to override the default read mode in PL and DS.

3.4.2   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

3.4.2.1   Counters

The following new counters have been introduced:

  • processedLocalReadsLocalNode
  • processedLocalReadsOtherNodesInSite
  • processedLocalReadsRemoteSites

Refer to CUDB Counters List, Reference [8] for more information.

3.4.2.2   Data Model

Table 16 describes the changes in configuration objects and attributes. Refer to CUDB Node Configuration Data Model Description, Reference [2] for more information.

Table 16    Summary of New and Modified CUDB Configuration Objects and Attributes

Class

Attribute

Impact

CudbSystem

localReadsDSReplicationDelayThreshold

This attribute defines the maximum threshold (in seconds) for replication delay value, which is used to determine if the slave replica is too far behind the master replica. If the slave replica is too far behind, the data will not be read locally, even if DS read mode is set to Local Preferred.(1)

CudbLdapUser

localReadsDsReplicationDelayThreshold

If provided, the value in this attribute is used to override the value of localReadsDSReplicationDelayThreshold attribute of the CudbSystem class for an ldap user.

(1)  This applies only to users that have DS read mode set to Local Preferred.


3.5   Commercial UDC IoT Offering

The feature introduces support for new Internet of Things (IoT) Profile License into the CUDB.

This enables CUDB to offer competitive licensing for data storage of IoT subscriptions as part of dedicated UDC IoT deployments for massive IoT devices (for example, related to smart cars, smart metering, and so on).

3.5.1   Changes in Licensing

This function requires to create a new capacity license for new UDC IoT dedicated deployments.

3.5.2   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

3.5.2.1   Alarms

Table 17 shows the alarms impacted by new or modified functions. Refer to CUDB Node Fault Management Configuration Guide, Reference [5] and the related alarm OPIs for detailed information about the alarms.

Table 17    Summary of New and Modified Alarms

Alarm

Impact

Licensing, License Key Not Available, License Management, Major

Modified alarm

Licensing, Capacity Usage Threshold Reached, License Management, Major

Modified alarm

Licensing, Capacity Usage Threshold Reached, License Management, Warning

Modified alarm

3.6   Support for Static Routing

This new function enables CUDB deployment on cloud infrastructures that do not support route supervision from the routers towards the VNFs.

3.6.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

3.6.1.1   Commands and Command Options

Table 18 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 18    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbEvipEncapsulator

-b | --blade

Modified command option restricted to Ericsson personnel.

3.7   Smooth Migration to Virtualized CUDB

Allows to migrate a native CUDB system to a virtualized one following the below steps:

  • the expansion of a native CUDB system with vCUDB nodes as part of the CUDB System Expansion procedure.
  • the migration of a native CUDB system to a vCUDB system as part of CUDB Hardware Migration through Subscription Reallocation procedure.

3.7.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

3.7.1.1   Commands and Command Options

Table 19 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 19    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbReallocate

--force

New command option to force reallocation if blocked.

 

Modified command behavior to block reallocation when DS Unit Group (DSG) is disabled for the provisioning of Distribution Entries (DEs).

 

Updated command output.

3.8   Migration to Virtualized CUDB through Backup and Restore

Migration of a native CUDB system to a virtualized one is possible through the Backup and Restore procedure.

3.9   Support for HSS-EPC 5G Profiles

The feature introduces support for HSS-EPC 5G profiles in CUDB.

This enables CUDB to offer licensing for data storage of HSS-EPC 5G subscriptions.

3.9.1   Changes in Licensing

This function requires to add a new capacity license for Base Package profile.

HSS-EPC 5G license acts as an addon on top of HSS-EPC license, so both are required for HSS-EPC 5G subscriptions.

3.9.2   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

3.9.2.1   Alarms

Table 20 shows the alarms impacted by new or modified functions. Refer to CUDB Node Fault Management Configuration Guide, Reference [5] and the related alarm OPIs for detailed information about the alarms.

Table 20    Summary of New and Modified Alarms

Alarm

Impact

Licensing, License Key Not Available, License Management, Major

Modified alarm. Additional Resource ID suffix has been added to support HSS-EPC 5G Profile license.

Licensing, Capacity Usage Threshold Reached, License Management, Major

Modified alarm. Additional Resource ID suffix has been added to support HSS-EPC 5G Profile license.

Licensing, Capacity Usage Threshold Reached, License Management, Warning

Modified alarm. Additional Resource ID suffix has been added to support HSS-EPC 5G Profile license.

3.10   Optimized Subtree Searches

This function increases the performance of preconfigured sub-tree LDAP searches associated to specific LDAP users, reducing the response time of these requests and consequently increasing LDAP processing capacity.

Optimized search narrows down the scope of the search and allows CUDB to optimize the query towards the storage engine instead of performing a whole sub-tree scan. When an LDAP sub-tree search is not configured, the function has no effect and a complete search is performed without optimization.

3.10.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

3.10.1.1   Data Model

Table 21 describes the changes in configuration objects and attributes. Refer to CUDB Node Configuration Data Model Description, Reference [2] for more information.

Table 21    Summary of New and Modified Configuration Objects and Attributes

Class

Attribute

Impact

CudbLdapUser

subtreeSearchConfigName

Modified class. New attribute used as the identifier of the configured Optimized Search instance attached to the specific user.


CudbLdapUser::subtreeSearchConfigName must be equal to one CudbSubtreeSearchConfig::subtreeSearchConfigName.

CudbSubtreeSearchMgmt

cudbSubtreeSearchMgmtId

New class. New attribute uniquely identifying the instance of this class.

CudbSubtreeSearchConfig

cudbSubtreeSearchConfigId

New class. New attribute uniquely identifying the instance of this class.

subtreeSearchConfigName

New attribute specifying the name of the unique CudbSubtreeSearchConfig.

4   New Enhanced Functions

This section describes the new enhanced functions of this CUDB release. Refer to the Functions section of CUDB Technical Product Description, Reference [1] for more information on these functions.

4.1   Flexible PL Deployment

This is an enhancement to the CUDB Global Access and the System and Node Architecture functions.

When activated, the enhancement requires a new network design, as nodes without a PLDB blade or VM cannot receive direct traffic from application FEs.

4.1.1   Changes in Interfaces

Table 22 describes interface changes between the existing and new revisions of the product.

Table 22    Summary of New, Modified, and Removed CUDB Interfaces

Protocol

Nodes

Impact

LDAP


LDAP v3

All application FEs

The LDAP interface received new conditions and error messages for Error Code 52. Error 52 can also be raised when application FEs send direct traffic to a node without PLDB.

If alias entry (or alias present in entry path) is pointing to a non-existing entry, error will be 33 instead of 32.


Error code 11 is changed to error 80 for maximum number of threads reached for a DS and maximum number of threads reached for connection.


Error code 3 returned for timed out proxy search operations is changed to error code 11 in those cases where the proxy operation was caused by exceeding the value of the timeout set by the LDAP FE (if the timeout set by the LDAP client is smaller than the one set by the LDAP FE in the proxy operation and the operation timed out, the operation will return err=3). Refer to CUDB LDAP Interwork Description, Reference [10] for further details.

4.1.2   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

4.1.2.1   Commands and Command Options

Table 23 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 23    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbClusterConfConverter

  

New command restricted to Ericsson personnel.

cudbEvipConfigExtension

-d | --dsg and -b | --blade

Modified command option restricted to Ericsson personnel.

-r | --removePLDB

New command option restricted to Ericsson personnel.

cudbPrepareStore

  

Modified command to also support nodes without PLDB.

cudbReallocate

  

Updated command output.

cudbSwBackup

-f | --force

Modified command option to allow software restore also when the CUDB node does not have a defined PLDB cluster.

cudbSystemStatus

  

Modified command output. PLDB sections are not included in the output if the node contains no PLDB.

4.1.2.2   Data Model

Table 24 describes the changes in configuration objects and attributes. Refer to CUDB Node Configuration Data Model Description, Reference [2] for more information.

Table 24    Summary of New and Modified Configuration Objects and Attributes

Class

Attribute

Impact

CudbLocalDs

cudbLocalDsId

Modified attribute. The value range of cudbLocalDsId is 1-17 if the CudbLocalNode class containing the CudbLocalDS object has no CudbLocalPl object created.

CudbLocalPl

  

Modified class. The CudbLocalPl class is optional.

CudbRemoteDs

cudbRemoteDsId

Modified attribute. The value range of cudbRemoteDsId is 1-17 if the CudbLocalNode class containing the CudbRemoteDs object has no CudbRemotePl object created.

CudbRemotePl

  

Modified class. The CudbRemotePl class is optional.

4.1.2.3   Logging

The following new component writing on the logs has been included in the CUDB system:

  • License Manager

New and modified logging events are included due to impacts in the following components:

  • Configuration Management

Refer to CUDB Node Logging Events, Reference [6] for more information on logging.

4.2   OAM Automation with NETCONF Support

This is an enhancement to the OAM CUDB function.

4.2.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

4.2.1.1   Commands and Command Options

Table 25 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 25    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbApplyConfig

-n | --noimmsave

Removed command option.

-s | --scope all

Deprecated command, replaced by the applyConfig administrative operation of the CudbLocalNode class.

cudbUpdateUserInfo

  

Deprecated command, replaced by the updateUserInfo administrative operation of the CudbLocalNode class. Also modified to support refreshing CUDB LDAP users from a remote PLDB.

4.2.1.1.1   Administrative Operations

Table 26 describes the changes in the administrative operations of the CUDB system. Refer to the Administrative Operations section of CUDB Node Configuration Data Model Description, Reference [2] for more information.

Table 26    Summary of New, Modified, and Removed Administrative Operations

Class

Administrative Operation

Impact

CudbLocalNode

applyConfig

New administrative operation replacing the deprecated cudbApplyConfig command, used to activate configuration changes.

CudbLocalNode

updateUserInfo

New administrative operation replacing the deprecated cudbUpdateUserInfo command, used to update user information in the node.

CudbLocalNode

cancelApplyConfig

New administrative operation restricted to Ericsson personnel.

4.2.1.2   Data Model

Table 27 describes the changes in configuration objects and attributes. Refer to CUDB Node Configuration Data Model Description, Reference [2] for more information.

Table 27    Summary of New and Modified Configuration Objects and Attributes

Class

Attribute

Impact

CudbLocalNode

applyConfigStatus

New read-only attribute that stores the following information about the progress of the asynchronous applyConfig administrative action:


  • actionId

  • actionName

  • additionalInfo

  • progressInfo

  • progressPercentage

  • result

  • resultInfo

  • state

  • timeActionStarted

  • timeActionCompleted

  • timeOfLastStatusUpdate

CudbLocalNode

updateUserInfoStatus

New read-only attribute that stores the following information about the progress of the asynchronous updateUserInfo administrative action:


  • actionId

  • actionName

  • additionalInfo

  • progressInfo

  • progressPercentage

  • result

  • resultInfo

  • state

  • timeActionStarted

  • timeActionCompleted

  • timeOfLastStatusUpdate

4.3   Increment Alert Key Command

This is an enhancement to the CUDB Global Access and the System and Node Architecture functions.

4.3.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

4.3.1.1   Commands and Command Options

Table 28 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 28    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbLdapFeRestart

--with-monitor

Deprecated command option.

--no-prompt

New command option restricted to Ericsson personnel.

cudbManageStore

--no-prompt

New command option restricted to Ericsson personnel.

cudbSetDsgMaster

--no-prompt

New command option restricted to Ericsson personnel.

cudbSwBackup

--no-prompt

New command option restricted to Ericsson personnel.

-r

Deprecated command option.

cudbSystemDataBackupAndRestore

--no-prompt

New command option restricted to Ericsson personnel.

-r

Deprecated command option.

cudbUnitDataBackupAndRestore

--no-prompt

New command option restricted to Ericsson personnel.

4.4   CUDB Key Performance Indicators

This is an enhancement to the OAM CUDB function.

CUDB KPIs are a special set of CUDB counters, for CUDB systems deployed on native BSP 8100, that help the users evaluate and quantify the usage of the processing and memory capacity of certain CUDB resources.

4.4.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

4.4.1.1   Commands and Command Options

Table 29 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 29    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbHaState

  

Additional printouts were included due to the introduction of KpiCentral process.


Example:


saAmfSISUHAState."safSu=SC-2,safSg=2N,safApp=ERIC-CUDB_KPICENTRAL"."safSi=2N-1": active(1)

cudbSystemStatus

-p | --check-cudbprocess

KpiCentral process was added to the output when listing processes running on OAM blades.


Example:


KpiCentral process............................Running in: OAM2

4.4.1.2   Data Model

Table 30 describes the changes in configuration objects and attributes. Refer to CUDB Node Configuration Data Model Description, Reference [2] for more information.

Table 30    Summary of New and Modified Configuration Objects and Attributes

Class

Attribute

Impact

CudbLocalNode

cudbCounterPublishingPeriod

New attribute used to change the frequency of Performance Management (PM) report file generation.

4.4.1.3   Counters

The following new counters have been introduced:

  • kpiClusterLoad
  • kpiRatioDroppedCluster
  • kpiLdapFeLoad
  • kpiRatioDroppedLdap

Refer to CUDB Counters List, Reference [8] for more information.

4.4.1.4   Logging

The following new component writing on the logs has been included in the CUDB system:

Refer to CUDB Node Logging Events, Reference [6] for more information on logging.

4.5   SOAP Notifications Improvements

This is an enhancement of the Simple Object Access Protocol (SOAP) notifications function. It enables and simplifies SOAP notification events configuration by allowing to monitor sets of LDAP entries configuring in a single notification event. It helps to reduce the number of configured notification events and therefore to optimize CUDB Notification resources. With the enhancement, it will be possible to configure Portable Operating System Interface (POSIX) extended regular expressions in the dn associated to CudbNotificationObjectClass classes of type monitor or monitorAll. The dn attribute can be configured with the full Distinguished Name (DN) of the entry.

4.5.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

4.5.1.1   Data Model

Table 31 describes the changes in the configuration objects and attributes. Refer to CUDB Node Configuration Data Model Description, Reference [2] for more information.

Table 31    Summary of New, Modified, and Removed CUDB Configuration Objects and Attributes

Object

Attribute

Impact

CudbNotificationObjectClass

dn

  • Modified attribute. The dn attribute can contain the partial or full DN of the attribute or object to be monitored.

  • The DN can be configured using POSIX extended regular expressions.

CudbNotificationEvent

numberOfSoapThreads

New restricted attribute defining the number of SOAP threads to start for a specific notification event.

4.6   Asynchronous LDAP Proxy

This is an enhancement to the asynchronous LDAP proxy function that allows releasing resources in a CUDB node until a response for a proxied LDAP operation is received. The LDAP FE can wait for the response, asynchronously handling the queue of pending operations. As a result, the maximum traffic capacity of the node is increased.

The benefits are the following:

  • Increases CUDB node capacity therefore decreasing the need for hardware resources.
  • Reduces the probability of overload situations.
  • Decouples CUDB capacity from IP backbone delay.
  • Increases CUDB node capacity by increasing its proxy traffic processing capacity.

This feature modifies the formula for calculating the number of SITE_VIP addresses due to the increase of node traffic capacity. Refer to the Multiple SITE_VIPs section of CUDB Node Network Description, Reference [9] for more information. As a consequence, the number of defined SITE_VIP addresses may decrease after upgrade from previous releases.

4.7   CUDB Combined Hardware and Software Upgrade Procedure

This is an enhancement to the software upgrade function in CUDB 1.6. The simplified hardware migration from EBS 1.0 or EBS 2.0 to BSP 8100 is a more flexible procedure and supports more customer adaptations.

4.8   Virtualized CUDB Adaptation Framework

This is an enhancement to the software upgrade function and it allows the upgrade of vCUDB systems.

4.9   Subscription Reallocation Improvement

This is an enhancement to the Subscription Reallocation function. It enables faster reallocation of the stored data by packing together all the data related to a particular subscription and moving them in a single LDAP operation. With this enhancement, it is possible to run one cudbReallocate command on each SC separately in the node hosting the PLDB master. To get the benefits of the enhanced Subscription Reallocation function, both node hosting DSG from where data is reallocating and node hosting DSG to where data is reallocating, need to be on the software level supporting enhancements.

4.9.1   Changes in Interfaces

Table 32 describes interface changes between the existing and new revisions of the product.

Table 32    Summary of New, Modified, and Removed CUDB Interfaces

Protocol

Nodes

Impact

LDAP v3

All application FEs

The error message for code 80 Distribution entry is locked is changed to CUDB lock due to Reallocation.


A new branch 'ou=dsgLocks,{root dn}' is added due to the improved locking mechanism. This branch is used solely for the internal mechanism of the subscription reallocation, to mark entries being reallocated as locked and forbid modification until their movement is completed.

4.9.2   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

4.9.2.1   Command and Command Options

It is possible to run a cudbReallocate command on each SC separately in the node hosting the PLDB master, so two reallocation processes can run in parallel in a CUDB system. Refer to the Configuring Subscription Reallocation section of CUDB System Administrator Guide, Reference [15] for more information.

Command output has been changed. Refer to the Output section of CUDB Node Commands and Parameters, Reference [7] for more information on the output of the cudbReallocate command.

Table 33 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 33    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbReallocate

-n | --nthreads

Command option restricted to Ericsson personnel.

4.10   Automatic Mastership Change Improvements

This is an enhancement of the Automatic Master Change (AMC) function that intends to improve the system capacity under situation of degradation in master replicas.

A smooth mastership change is attempted in case the master replica is degraded.

This enhancement improves the footprint in dimensioning exercises in which DSG processing is the bottleneck, since both blades can always be counted during the dimensioning exercise.

Refer to the Automatic Mastership Change when Master Replica is Degraded section of CUDB High Availability, Reference [13] for more information.

4.10.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

4.10.1.1   Command and Command Options

Table 34 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 34    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Impact

cudbDsgMastershipChange

Command output is modified to show a warning in case the master is manually moved to a degraded replica.

4.11   Additional High-Throughput Write Requests

This is an enhancement to the LDAP operations in CUDB. LDAP interface efficiency is increased by allowing grouping several related write operations (Add, Delete, Modify) into a single LDAP request. Refer to CUDB LDAP Interwork Description, Reference [10] for more information.

4.11.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

4.11.1.1   Counters

The following new counters have been introduced:

  • effectiveLdapOperations
  • effectiveLdapTpsAtFrontEndn

Refer to CUDB Counters List, Reference [8] for more information.

4.12   IPv6 Support in CUDB

This is an enhancement to the CUDB external address configuration. IPv6 is supported only for new installations.

Upgrade from IPv4 deployment and dual stack, that is the combination of IPv4 and IPv6 addresses, are not supported.

Refer to CUDB Node Network Description, Reference [9] for more information.

4.12.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

4.12.1.1   Data Model

Data type of attributes representing external IP addresses in CUDB node configuration model is changed to IpDNSAddress that allows configuration of addresses in IPv4 or IPv6 format. This change does not affect configuration of nodes with IPv4 addresses.

Table 35 describes the changes in configuration objects and attributes. Refer to CUDB Node Configuration Data Model Description, Reference [2] for more information.

Table 35    Summary of New, Modified, and Removed CUDB Configuration Objects and Attributes

Class

Attribute

Impact

CudbExternalAuthServer

  • primaryServer

  • secondaryServer

Data type is changed to IpDNSAddress.

CudbExternalLogServer

  • externalLogServerIp

Data type is changed to IpDNSAddress.

CudbLocalNode

  • cudbVIP

  • oamVIP

  • trafficVIP

Data type is changed to IpDNSAddress.

CudbRemoteNode

  • cudbVIP

  • oamVIP

  • trafficVIP

Data type is changed to IpDNSAddress.

CudbTrafficBlockingRule

  • blockedVIP

Data type is changed to IpDNSAddress.

4.12.1.2   Alarms

Table 36 shows the alarms impacted by new or modified functions. Refer to CUDB Node Fault Management Configuration Guide, Reference [5] and the related alarm OPIs for detailed information about the alarms.

Table 36    Summary of New and Modified Alarms

Alarm

Impact

Security, OAM User Exceeded Number Of Failed Logins

Modified alarm. Alarm Active Description attribute is updated.

Security, OAM User Gaining Privilege Failed

Modified alarm. Alarm Active Description attribute is updated.

Security, OAM User Privilege Raise To Root Failed

Modified alarm. Alarm Active Description attribute is updated.

Security, Root Login Failed

Modified alarm. Alarm Active Description and Resource ID attributes are updated to support IPv6 addresses.

Control, Blackboard Coordination Server Down

Modified alarm. Alarm Active Description and Resource ID attributes are updated to support IPv6 addresses.

4.13   GEP7L Support

Replacement of GEP5 blades with GEP7L blades in native systems is supported ensuring:

4.13.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

4.13.1.1   Logging

New and modified logging events are included due to impacts in the following components:

  • Software Management (SW_Mgmt)

Refer to CUDB Node Logging Events, Reference [6] for more information on logging.

4.14   Image Based Instantiation

CUDB allows deployment based on images created offline. Image supports customer configuration injection after deployment.

4.14.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

4.14.1.1   Commands and Command Options

Table 37 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 37    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbAutomatedInstall

-c| --check

New command restricted to Ericsson personnel.

-f| --full_system_check

cudbEvipConfigExtension

-i| --install

Modified command option restricted to Ericsson personnel.

cudbPrepareInstallConfig(1)

-g| --generate

New command restricted to Ericsson personnel.

-v| --validate

-e| --expansion

(1)  The command is also valid for Automatic Installation in Native.


4.15   Automatic Installation in Native

CUDB supports automatic installation enabling the upload and configuration of the software, thus minimizing manual intervention and reducing the possibility of human errors.

4.15.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

4.15.1.1   Commands and Command Options

Table 38 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 38    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbAitDeploy

-c

New command restricted to Ericsson personnel.

4.16   Automated DSG Expansion

CUDB supports the addition of a new DS in a partially automated way. The servers assigned to the database cluster hosting DS data in a CUDB system are expanded automatically, thus minimizing manual intervention and reducing the possibility of human errors.

5   System Improvements

This section describes updates to the CUDB system.

5.1   Improvements in CUDB 1

5.1.1   Interface Improvements

Table 39 describes the interface changes between the existing and new revisions of the product.

Table 39    Summary of New, Modified, and Removed CUDB Interfaces

Protocol

Nodes

Impact

LDAP


LDAP v3

All application FEs

Deleting parent entries of DEs is not allowed and results in Error Code 53 with the text message: Deleting parent of distribution entry is not allowed.(1)

Example of parent entries that cannot be deleted:


ou=multiSCs,dc=<root entry>, ou=association,dc=<root entry>

Asynchronous LDAP communication between CUDB nodes (in the previous version it was synchronous).

LDAP


LDAP v3

CUDB

Implemented new LDAP Control


TimestampBasedConditionaUpdate for extended LDAP modify and delete operations, used internally by the Data Repair process.

(1)   Already included in 16A FD1 CP1.


5.1.2   OAM Improvements

Table 40 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 40    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbCheckConsistency

-o | --object-tables(1)

New command option used to check and report any difference between the OBJECT_CLASSES and MULTI_VALUE_OBJECTS tables.

cudbConsistencyMgr

--max-replica-lag(1)

Modified command option, default value changed to 10000.

cudbDsgMastershipChange

  

Modified the mastership change logic of the command. In case the destination node has a PLDB slave that is unable to synchronize with its master, then the mastership change request will be rejected. The --force option overrides this behavior.

cudbManageBCServer

-help

Removed command option.

cudbRemoteTrust

-b | --banner

New command option used to disable the legal warning banner for internal CUDB logins.

(1)   Already included in 16A FD1 CP1.


Table 41 describes the changes in configuration objects and attributes. Refer to CUDB Node Configuration Data Model Description, Reference [2] for more information.

Table 41    Summary of New, Modified, and Removed CUDB Configuration Objects and Attributes

Class

Attribute

Impact

CudbLdapAccess

ldapRootPassword(1)

MySQL and LDAP root passwords can contain only ASCII alphabetic characters, numeric digit characters, and the following symbols: ,-%=?+~_

CudbTrafficControlManager

  

New class serving as the container of the traffic blocking rules.

CudbTrafficBlockingRule

  

New class used to block access to certain CUDB VIPs or services running on certain CUDB VIP ports. It is used to replace the existing procedure for node isolation.

(1)  Already included in 16A FD1 CP1.


5.1.2.1   Logging

New and modified logging events are included due to impacts in the following components:

  • CountersFw
  • Fault Management
  • Security

Refer to CUDB Node Logging Events, Reference [6] for more information on logging.

Note:  
Consider the following changes related to logging:

5.1.3   Notification Support Improvements

CUDB supports outbound notifications, so whenever a piece of data is modified in a subscriber profile, CUDB can send SOAP based notifications towards the corresponding application FE.

5.1.3.1   Impact

The notifications process runs on all blades of the node.

5.1.4   Security Improvements

The following changes improve security functions:

5.2   OAM Improvements in CUDB 1.1

Table 42 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 42    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbInstall

  

Modified command restricted to Ericsson personnel.

cudbMpStat

  

This command is restricted to Ericsson personnel.

cudbReplicaRepair

  

Modified command to execute extended LDAP modify or delete operations with the TimestampBaseConditionalUpdate LDAP Control during the Data Repair process.

cudbSystemStatus

-p | --check-cudbprocess

Error status of CS process provides additional information related to reporting status in Blackboard Coordination (BC) Cluster.

5.3   Improvements in CUDB 1.2

5.3.1   LDAP Data Views

The cudbCheckLdapViewMapping checking tool has been improved with the -v optional parameter to get verbose error messages.

5.3.2   OAM Improvements

Table 43 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 43    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbSystemDataBackupAndRestore

-R

Deprecated command option.

cudbSystemStatus

-b | --bc-status

This command option is restricted to Ericsson personnel.

-B | --new-bc-status

New command option to print the status of the BC process. The output is the Node ID and application designations (OAM1, OAM2, and DS2_0|DS1_0|PL2, depending on PLDB deployment) instead of Node CUDB VIP address and Linux Open Telecom Cluster (LOTC) designations.


Example:


[Site 1]
SM leader: Node 10 OAM1
Node 10
BC server in OAM1 ......... running
BC server in OAM2 ......... running (Leader)
BC server in PL2 ......... running


This is a default command option, that is, if no other command option is supplied for cudbSystemStatus, the command runs with -v -B -s -C -R -a -m -p options.


If the node is disabled, the output will be Disabled instead of the BC server status.

5.4   OAM Improvements in CUDB 1.3

Table 44 shows the alarm changes. Refer to CUDB Node Fault Management Configuration Guide, Reference [5] and the related alarm OPIs for detailed information about the alarms.

Table 44    Summary of New, Modified, and Removed Alarms

Alarm

Impact

Operating System, Server Configuration Backup Fault

 

Modified active description of alarm. The <fault reason> parameter is available in the output to provide more information on configuration backup failures.


The possible values are the following:


  • applyConfig action is ongoing.

  • There are pending configuration changes.

  • Backup with the same name already exists.

  • Internal fault.

Table 45 describes the changes in configuration objects and attributes. Refer to CUDB Node Commands and Parameters, Reference [7] for more information on CLI commands and command options.

Table 45    Summary of New, Modified, and Removed Configuration Objects and Attributes

Class

Attribute

Impact

CudbExternalAuthServer

tlsMode(1)

New attribute that indicates if a secure session will start:


  • From an insecure session: STARTTLS (port 389)

  • Directly: LDAP over SSL (LDAPS) (port 636)

CudbLocalNode

networkElementName

Modified attribute.


Added restriction to attribute name to allow only characters A to Z, a to z, 0 to 9 and characters "-"and "_".

(1)   Already included in 16A FD1 CP1.


5.5   Improvements in CUDB 1.4

5.5.1   Application Counters

Cron task configuration procedure for application counters is changed to provide a persistent configuration for multiple .cron files after SC reboot.

Refer to the Configure Cron Task section of CUDB Application Counters, Reference [12] for more information regarding the changes.

5.5.2   OAM Improvements

Table 46 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 46    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbDataBackup

  

Created backups are accessible to users in cudbadmin group.(1)

cudbManageStore

backup

Created backups are accessible to users in cudbadmin group.

cudbSystemDataBackupAndRestore

-c | --create

Created backups are accessible to users in cudbadmin group.

/opt/ericsson/cudb/OAM/bin/slapcat

  

To access export files, users in cudbadmin group must execute slapcat command without sudo.

(1)   Already included in 16A FD1 CP1.


5.5.2.1   Logging

5.5.2.1.1   LDAP FE Monitor

New and modified logging events are included due to impacts in the following components:

Refer to CUDB Node Logging Events, Reference [6] for more information on logging.

5.5.2.1.2   commandlog

The number of logs in commandlog, generated by user login to CUDB, has been reduced and it contains only one log.

5.6   Improvements in CUDB 1.5

5.6.1   OAM Improvements

Users that belong to the cudbadmin group can access NETCONF SSH subsystem.

Table 47 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 47    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbBCServersRestart

-f | --fast(1)

New command option restricted to Ericsson personnel.

cudbFollowLdapfeLogs

-v | --invert-match

New command option restricted to Ericsson personnel.

cudbManageBCServer

-restart -no_check(1)

New command option restricted to Ericsson personnel.

cudbManageNode

  • -d | --disable

  • -e | --enable

  • -b | --block

  • -u | --unblock

  • -n | --nodes

  • --no-prompt

  • --allow-node-skip

  • --apply-on-node

  • -h | --help

New command restricted to Ericsson personnel.

cudbSystemStatus

-C | --new-cluster-status

In case of erroneous behavior of a system, when no status is reported in BC Cluster for DS replicas on a node, cudbSystemStatus reports the retrieved information as an error with appropriate description.


Example:


    Checking Clusters status:

  • [-E-] No information about DSG status from BC Cluster.

-r

Deprecated command option.

-R | --new-replication-status

cudbSystemStatus handles disabled node(s), disabled DS(s), or both in the system by marking them as Xu (unreachable) in Replication Channels Table. Furthermore, in case of a disabled node, the Detailed Replication Status for the Slave Replicas will show that a specific node is Disabled and the replication for its DS(s) is Stopped as Data Store is disabled. Similarly, in case of disabled DS(s), Detailed Replication Status will show that the replication is Stopped as Data Store is disabled.

(1)   Already included in 16A FD1 CP1.


5.6.2   SOAP Notifications

Two new alarms have been introduced to indicate unwanted events that may occur during the notification process. These events were only logged, previously.

Table 48 shows the alarm changes. Refer to CUDB Node Fault Management Configuration Guide, Reference [5] and the related alarm OPIs for detailed information about the alarms.

Table 48    Summary of New Alarms

Alarm

Impact

SOAP Notifications, Endpoint Unreachable

New alarm

SOAP Notifications, Discarded Notifications

New alarm

5.6.3   Encrypted rootdn Password

This is an improvement to the CUDB security functions. This improvement allows the rootdn password to be stored encrypted when the root user is defined.

5.6.3.1   Interface Improvements

Table 49 describes the interface changes between the existing and new revisions of the product.

Table 49    Summary of Interface Changes

Protocol

Nodes

Impact

LDAP


LDAP v3

CUDB

The use of a custom SASL mechanism (CUDB-CRYPTO) is allowed, to avoid storing LDAP root user password in cleartext in configuration files.


When custom SASL mechanism (CUDB-CRYPTO) is used within LDAP commands (search, modify, add, delete) the user is forced to introduce LDAP root user password in a prompt not echoed to the console.

5.6.3.2   Data Model

Table 50 describes the changes in configuration objects and attribute. Refer to CUDB Node Configuration Data Model Description, Reference [2] for more information.

Table 50    Summary of New, Modified, and Removed CUDB Configuration Objects and Attributes

Class

Attribute

Impact

CudbLdapAccess

ldapRootPassword

Attribute type changed from EcimPasswordString to EcimpassPhraseString. When configured through CLI, value has to be introduced twice and is not echoed.

5.7   Improvements in CUDB 1.6

5.7.1   OAM Improvements

Table 51 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 51    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbLdapFeRestart

-f | --force

New -f command option that provides the same behavior as the command (without modifiers) in the previous versions.

Continue with restart, even if any slapd process fails to start.

Table 52 shows the alarm changes. Refer to CUDB Node Fault Management Configuration Guide, Reference [5] and the related alarm OPIs for detailed information about the alarms.

Table 52    Summary of New, Modified, and Removed Alarms

Alarm

Impact

Licensing, Emergency Unlock Reset Key Required

Removed translation and definition of this alarm in CUDB.

5.7.2   Multicast Removal

This enhancement to the CUDB Data Availability Coordination system replaces multicast by a TCP based messaging infrastructure.

The main benefit is that it allows the deployment of CUDB in scenarios where multicast support is limited or restricted (for example, cloud environments).

5.7.2.1   Changes in Operation

5.7.2.1.1   Alarms

Table 53 shows the alarms impacted by new or modified functions. Refer to CUDB Node Fault Management Configuration Guide, Reference [5] and the related alarm OPIs for detailed information about the alarms.

Table 53    Summary of New and Modified Alarms

Alarm

Impact

Control, Messaging Service Server Down

New alarm

Control, Messaging Service Cluster Down

New alarm

5.7.2.1.2   Commands and Command Options

Table 54 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 54    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Impact

cudbManageMsgSrvServer

New command used to manage the Messaging Service servers in the CUDB node. Refer to CUDB High Availability, Reference [13] for more information.

5.8   Improvements in CUDB 1.7

5.8.1   OAM Improvements

Table 55 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 55    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbSwBackup

-U | --Unschedule

Remove a periodic software and configuration backup according to the defined <cron expression>.


The format of the <cron expression> follows the standard UNIX cron expression format.

cudbPmJobReload

  

Deprecated command. If ESA PM Agent needs to be restarted, execute /sbin/service esapma restart in both SCs. See Section 5.8.4 for more information.

Table 56 shows the alarm changes. Refer to CUDB Node Fault Management Configuration Guide, Reference [5] and the related alarm OPIs for detailed information about the alarms.

Table 56    Summary of New and Modified Alarms

Alarm

Impact

SAF, AMF Component Cleanup Failed

Modified alarm. Resource ID does not contain the complete DN, but a relative path from ‘ManagedElement=1’ instead.

SAF, AMF Component Instantiation Failed

Modified alarm. Resource ID does not contain the complete DN, but a relative path from ‘ManagedElement=1’ instead.

SAF, AMF SI Unassigned

Modified alarm. Resource ID does not contain the complete DN, but a relative path from ‘ManagedElement=1’ instead.

5.8.2   Centralized Security Event Logging

The Centralized Security Event Logging function allows a CUDB node to send log information to an external logging server. The format of the logs sent to the Remote Server has been modified as explained in the Sending Logs to a Remote Server section of CUDB Node Logging Events, Reference [6].

5.8.3   Import and Export Procedures

To export LDIF file, -l parameter must be used. The output redirection " >" is deprecated.

/opt/ericsson/cudb/OAM/bin/slapcat -l <output-file>

5.8.4   Application Counters

Due to the deprecation of cudbPmJobReload command, the following procedures have been updated to handle the application counters correctly:

5.9   Improvements in CUDB 1.8

5.9.1   OAM Improvements

Table 57 describes the new and modified alarms in CUDB. Refer to CUDB Node Fault Management Configuration Guide, Reference [5] and the related alarm OPIs for detailed information about the alarms.

Table 57    Summary of New and Modified Alarms

Alarm

Impact

Storage Engine, Unable to Synchronize Cluster in DS, Major

Modified alarm. Alarm Active Description attribute also contains human readable date format along with the timestamp.

Storage Engine, Unable to Synchronize Cluster in DS, Warning

Modified alarm. Alarm Active Description attribute also contains human readable date format along with the timestamp.

Storage Engine, Unable to Synchronize Cluster in PLDB, Major

Modified alarm. Alarm Active Description attribute also contains human readable date format along with the timestamp.

Storage Engine, Unable to Synchronize Cluster in PLDB, Warning

Modified alarm. Alarm Active Description attribute also contains human readable date format along with the timestamp.

5.9.2   Centralized Security Event Logging

The Centralized Security Event Logging function allows a CUDB node to send log information to an external logging server. The format of the logs sent to the Remote Server has been modified as follows:

  • Logs sent to the remote server include an identity of the sender process.
  • Timestamp of collected logs follow RFC 3339, Reference [18].

For further details on logs sent to remote server, refer to the Sending Logs to a Remote Server section of CUDB Node Logging Events, Reference [6].

5.10   Improvements in CUDB 1.10

5.10.1   OAM Improvements

5.10.1.1   Logging

LDAP FE log files are allowed to grow up to 10 MB and are rotated three times before being removed. Refer to the LDAP FE section of CUDB Node Logging Events, Reference [6] for more information.

5.10.2   Electronic Software License Improvement

The Electronic Software License function requires to perform licensing-related activities during installation or upgrade, such as getting digital fingerprints on every node in the system and requesting License Key Files from Ericsson Sourcing and Supply.

This function has been improved with a new tool for the generation of the digital fingerprints.

5.10.2.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

5.10.2.1.1   Commands and Command Options

Table 58 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 58    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Impact

cudbLicensingTool

Removed command.

5.10.2.1.2   Data Model

Table 59 describes the changes in configuration objects and attributes. Refer to CUDB Node Configuration Data Model Description, Reference [2] for detailed information about the configuration objects and their attributes.

Table 59    Summary of New and Modified Configuration Objects and Attributes

Class

Attribute

Impact

CudbSystem

customerId

New attribute that uniquely identifies the customer identity.

CudbSystem

deploymentId

New attribute that uniquely identifies the deployed customer system.

CudbSystem

productNumber

New attribute with the CXP product number for the CUDB software.

5.11   OAM Improvements in CUDB 1.11

Table 60 describes the new and modified alarms in CUDB. Refer to CUDB Node Fault Management Configuration Guide, Reference [5] and the related alarm OPIs for detailed information about the alarms.

Table 60    Summary of New and Modified Alarms

Alarm

Impact

Storage Engine, Data Inconsistency between Replicas Found in DS, Major

Modified alarm. Resource Id and Alarm Active Description attributes are updated.

Storage Engine, Data Inconsistency between Replicas Found in DS, Minor

Modified alarm. Resource Id and Alarm Active Description attributes are updated.

Storage Engine, Data Inconsistency between Replicas Found in PLDB, Major

Modified alarm. Resource Id and Alarm Active Description attributes are updated.

Storage Engine, Data Inconsistency between Replicas Found in PLDB, Minor

Modified alarm. Resource Id and Alarm Active Description attributes are updated.

Operating System, Server Configuration Backup Fault

Modified alarm. Resource Id attribute is updated.

Table 61 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 61    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbSwBackup

-c

Modified command output.

cudbAppCheckerManager

  

New command restricted to Ericsson personnel.

5.12   Improvements in CUDB 1.12

5.12.1   LDAP Node Counters

This section describes changes in per-application group LDAP node counters in CUDB. AppGroupn range has been expanded with 10 additional groups to increase granularity when counting operations on a per-application basis. Refer to the Per-Application Group LDAP Node Counters section of CUDB Counters List, Reference [8] for more information.

5.12.1.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

5.12.1.1.1   Data Model

Table 62 describes the changes in configuration objects and attributes. Refer to CUDB Node Configuration Data Model Description, Reference [2] for detailed information about the configuration objects and their attributes.

Table 62    Summary of New and Modified Configuration Objects and Attributes

Class

Attribute

Impact

CudbLdapUser

countersGroup

Modified attribute. Data Type changed.

5.12.2   OAM Improvements in CUDB 1.12

Table 63 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 63    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbCheckConsistency

-o

Modified command parameter behavior.

5.13   Improvements in CUDB 1.13

5.13.1   OAM Improvements in CUDB 1.13

Table 64 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 64    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbApplyConfig

-s

Removed init value. It is not a supported value of -s command option anymore.

cudbSdpInstall

  

Removed command.

cudbSdpReplace

  

Removed command.

cudbSdpUninstall

  

Removed command.

cudbInstall

  

Removed command.

5.13.2   Security Improvements

The following change improves security functions:

  • Hardening is automatically enforced by CUDB.

5.13.3   Restoration of Multiple Backups into a Single Destination Cluster in Hardware Migration through Backup and Restore Procedures

This is an improvement to the Hardware Migration through Backup and Restore procedure both from GEP3 to GEP5 and from native CUDB to virtualized CUDB. It allows the user to provide mapping for restoring several DSGs from a source system to a target system.

6   Functions Planned for Coming Releases

This section provides changes in the product that are parts of the functions planned for coming releases.

These functions are not generally available, yet. They are either in a ready-for-tendering status only, or they are delivered in phases, following the continuous delivery to a software track strategy.

The use of partially delivered functions will not take effect in the system until the function is completed and is generally available. Legacy behavior is not changed.

6.1   Impacts in VNF Workflows

6.1.1   VNF Scale-Out Workflow

This new workflow will allow automatic scale-out in vCUDB with Open Shortest Path First (OSPF) routing. The scale-out workflow will be part of the VNF package to be executed according to CUDB VNF Lifecycle Management, Reference [4] in the OSS-RC/ENM. VNF must configure the new resources automatically.

6.1.1.1   Changes in Operation

This section describes changes to commands and command options, configuration parameters, alarms, counters, logging, and tools.

6.1.1.1.1   Commands and Command Options

Table 65 describes the new, modified, and removed CLI commands and command options. Refer to CUDB Node Commands and Parameters, Reference [7] for more information.

Table 65    Summary of New, Modified, and Removed CUDB CLI Commands and Command Options

Command

Command Option

Impact

cudbManageDsGroup

  • -a | --add

  • -r | --remove

  • -i | --dsgId

  • -h | --help

New command restricted to Ericsson personnel.

6.1.1.1.2   Counters

The following new counters will be introduced:

  • kpiDsMemoryUsageUnbalance
  • kpiLdapFesLoadUnbalance

Refer to CUDB Counters List, Reference [8] for more information.

6.2   Geographical Redundancy Decrease and Site Decommissioning

CUDB will support geographical redundancy decrease and site decommissioning by allowing decommission of the last node in the site for CUDB systems with more than two sites.


Glossary

AMC
Automatic Mastership Change
 
BC
Blackboard Coordination
 
BSP
Blade Server Platform
 
CEE
Cloud Execution Environment
 
CLI
Command Line Interface
 
CS
Cluster Supervisor
 
CUDB
Ericsson Centralized User Database
 
DE
Distribution Entry
 
DIT
Directory Information Tree
 
DN
Distinguished Name
 
DS
Data Store
 
DSG
DS Unit Group
 
FE
Front End
 
GEP3
Generic Ericsson Processor version 3
 
GEP5
Generic Ericsson Processor version 5
 
GEP7L
Generic Ericsson Processor version 7, Low Power
 
HLR
Home Location Register
 
HSS
Home Subscriber Server
 
IoT
Internet of Things
 
IMM
Information Model Management
 
IMS
IP Multimedia Subsystem
 
KPI
Key Performance Indicator
 
LDAP
Lightweight Directory Access Protocol
 
LDAP FE
LDAP Front End
 
LDAPS
LDAP over SSL
 
LOTC
Linux Open Telecom Cluster
 
NIR
Network Impact Report
 
NMS
Network Management System
 
OAM
Operation and Maintenance
 
OPI
Operating Instruction
 
OSPF
Open Shortest Path First
 
PL
Processing Layer
 
PLDB
Processing Layer Database
 
PM
Performance Management
 
POSIX
Portable Operating System Interface
 
QoS
Quality of Service
 
SC
System Controller
 
SOAP
Simple Object Access Protocol
 
UDC
User Data Consolidation
 
UPG
User Profile Gateway
 
vCUDB
Virtualized CUDB
 
VM
Virtual Machine
 
VNF
Virtualized Network Function

Reference List

CUDB Documents
[1] CUDB Technical Product Description, 221 02-FGC 101 3147
[2] CUDB Node Configuration Data Model Description, 1/192 02-CSH 109 067/10
[3] CUDB Application Schema Update, 2/1553-CSH 109 067/10
[4] CUDB VNF Lifecycle Management, 1/1553-CNL 121 695/10
[5] CUDB Node Fault Management Configuration Guide, 3/1553-CSH 109 067/10
[6] CUDB Node Logging Events, 4/1553-CSH 109 067/10
[7] CUDB Node Commands and Parameters, 1/1553-CSH 109 067/10
[8] CUDB Counters List, 1/006 51-CSH 109 067/10
[9] CUDB Node Network Description, 4/1551-CSH 109 067/10
[10] CUDB LDAP Interwork Description, 1/155 19-HDA 104 03/10
[11] CUDB Security and Privacy Management, 8/1553-HDA 104 03/10
[12] CUDB Application Counters, 10/155 34-HDA 104 03/10
[13] CUDB High Availability, 7/155 34-HDA 104 03/10
[14] CUDB Performance Guide, 4/1553-HDA 104 03/10
[15] CUDB System Administrator Guide, 2/1543-HDA 104 03/10
[16] CUDB Glossary of Terms and Acronyms, 0033-HDA 104 03/10
Other Documents and Online References
[17] Reliable Delivery for syslog https://www.ietf.org/rfc/rfc3195.txt.
[18] Date and Time on the Internet: Timestamps. IETF RFC 3339 https://www.ietf.org/rfc/rfc3339.txt.
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