Mitel Deutschland 68637RFP35U-01 DECT Base station User Manual SIP DECT OM System Manual
Mitel Deutschland GmbH DECT Base station SIP DECT OM System Manual
Contents
- 1. User Manual Part 1
- 2. User Manual Part 2
User Manual Part 2
SIP–DECT OM System Manual Release 3.0 7 OMM Web Service RFP 42 WLAN profile configuration depl-1230/0.2 Page: 80 (238) SIP–DECT OM System Manual Release 3.0 7 OMM Web Service RFP 43 WLAN profile configuration 4 Change the desired settings of the WLAN profile. You need at last to define the ESSID setting. The different settings are explained in detail in the sections below. 5 Activate the Profile active setting, otherwise the WLAN profile is inactive which deactivates the WLAN function for RFPs that are assigned to this WLAN profile. 6 Press the OK button to apply the settings. If you created a new WLAN profile, you can proceed by assigning the WLAN profile to the desired RFPs (see chapter 7.6.3). If you changed an existing WLAN profile, the settings are applied to the assigned RFPs automatically. The following description details the different parameters that are available on the New WLAN profile page resp. on the WLAN profile [Number] page. depl-1230/0.2 Page: 81 (238) SIP–DECT OM System Manual Release 3.0 7 OMM Web Service General settings x Profile active: Activate this checkbox to activate the profile. This in turn activates the WLAN function for all RFPs that are assigned to the WLAN profile. x SSID: Enter a descriptive character string to identify the WLAN network (e.g. “OurCompany”).The service set identifier is broadcasted by the RFP within “WLAN beacons” in a regularly interval. The SSID identifies the WLAN network and is visible by all WLAN clients. This is typically used with a scan function, e.g. from a WLAN client that tries to establish a connection. The SSID should not exceed 32 characters and it is advisable not to use unusual characters that may trigger WLAN client software bugs. x VLAN tag (number, 1..4094, default: off): You can separate VoIP and client data traffic (transferred via WLAN) by using different virtual LANs, e.g. to prevent bulk data transfers to interfere with VoIP. To use a separate VLAN for the client data traffic, activate the check box and enter the desired VLAN number (see chapters 9.15 and 9.10). x Beacon period (milliseconds, 50..65535, default: 100 ms): Determines the WLAN beacon interval. A higher value can save some WLAN airtime that can be used for data transfers. x DTIM period (number, 1..255, default: 5): Determines the number of beacons between DTIM messages. These messages manage the WLAN wakeup/sleep function e.g. that is critical for battery powered WLAN clients. x RTS threshold (bytes, 0..4096, default: 2346): If a WLAN packet exceeds this threshold, it will be transferred with RTS/CTS handshake. This may improve transfer reliability if several WLANs share the same channel. The default of 2346 byte switches off this function because the IP-MTU is typically only 1500 byte. x Fragmentation threshold (bytes, 0..4096, default: 2346): If a WLAN packet exceeds this threshold, it will be transferred in chunks. This may improve transfer reliability for a weak connection. The default of 2346 bytes switches off this function because the IP-MTU is typically only 1500 byte. x Maximum rate (list of rates in Mbps, 1..54, default: 54): Determines the maximum transfer rate used by the RFP. You can limit the rate to increase the WLAN range, e.g. to prevent WLAN clients in the vicinity of the RFP to disturb distant WLAN clients. x 802.11 mode (RFP 42 (L) WLAN selection list: Mixed / 802.11b-only / 802.11g-only, default: Mixed): Both the older and long-ranged B-Mode and the newer and faster G-Mode are typically supported by WLAN clients. You can change this setting to prevent problems with very old WLAN clients. (RFP 43 (L) WLAN selection list: 802.11bg /802.11b-only / 802.11g-only / 802.11abg /802.11n, default: 802.11bg): On the new RFP43 profiles you can choose additional 802.11 modes 802.11abg and 802.11n. Mode 802.11abg 802.11n Open yes yes WEP yes no Radius (802.1x WEP) yes no WPA v.1 (802.1x + PSK) yes no WPA v.2 (802.1x + PSK) yes yes x Hidden SSID mode (on / off, default: off): If switched on, the transmission of the SSID within beacons is suppressed. This in turn requires a more elaborate and manual connection procedure for WLAN clients. depl-1230/0.2 Page: 82 (238) SIP–DECT OM System Manual Release 3.0 7 OMM Web Service x Interference avoidance (on / off, default: off): Enables a WLAN procedure to enhance radio interference avoidance. This setting applies to RFP (L)42 WLAN only. Security settings These settings determine the encryption used for the WLAN connection. Select one of the four modes (Open, WEP, WPA, or Radius). This will activate / gray-out the necessary additional input fields that specify further security settings on the WLAN profile page. x Open system: Enable this option to deactivate authentication and encryption (“Hotel mode”). Note, that all data is transferred un-encrypted in this mode, which can be easily eavesdropped with any WLAN equipment. x Wired equivalent privacy (WEP): Enable this option to use the older WEP encryption mode. This mode may be useful, e.g. if your WLAN should support older WLAN clients that do not implement the recommended WPA encryption. - Privacy (on / off, default: off): De-activate this setting to use no authentication (“Open System”) with standard WEP encryption. Activate this setting to use an additional shared key authentication between the RFP and the WLAN client. - Number of tx keys (number, 1..4, default: 1): The WEP encryption can use a single shared key or multiple shared keys (“key rotation”). Select the number of shared keys, select how to enter a shared key (by default as Text or as Hex value), and select the Cipher length (see Key settings below). - Default tx key (number, 1..4, default: 1): If more than one shared keys is used, you can select the default shared key. You need to configure the same default key on the WLAN client. - Key #1 – Key #4: Enter one or more shared key. The Cipher length setting (see Key settings below) determines the length of the required input. If you selected to enter as Text (see above), input a password with 5, 13, or 29 characters that matches a 64, 128, or 256 bit cipher. If you selected to enter as Hex value, you can input a hexadecimal number with 10, 26, or 58 characters (0-9, a-f). Press the Generate button to generate a random shared key that matches the current settings. x WiFi protected access (WPA): Enable this option to use the recommended WPA encryption mode. - Type (selection, WPA any / WPA v.1 / WPA v.2, default: WPA any): Select the WPA version required for WLAN clients. The WPA any setting allows WPA v.1 and WPA v.2 to be used concurrently. The WPA v.1 setting enforces the use of the older RC4-based encryption. The WPA v.2 setting enforce the use of the stronger AES encryption. You can also change the distribution interval (see Key settings below). - 802.1x (Radius): Select this option if your WLAN should use a RADIUS server for WLAN client authentication (“Enterprise WPA” with different username/password combinations per client). You also need to specify the Radius settings (see below). For details about the RADIUS authentication procedure, using the public keys, and importing certificates to the WLAN clients refer to the documentation of your RADIUS server product. - Pre-shared key: Select this option to use a single shared key for all WLAN clients (Value setting below). A WLAN client user needs to enter the shared key in order to connect. depl-1230/0.2 Page: 83 (238) SIP–DECT OM System Manual Release 3.0 7 OMM Web Service - Value: You can enter a shared key as Text. Use a longer text sequence with alphanumeric characters and special characters to enhance the shared key strength. A text shared key is case sensitive. Alternatively, the shared key can be entered as Hex value (hexadecimal number, 0-9, a-f). Press the Generate button to generate a random shared key that matches the current settings. x 802.1x (Radius): This setting applies to RFP (L)42 WLAN only. Enable this option to use the RADIUS authentication without the stronger WPA encryption. You also need to specify the Radius settings and you may adapt the Key settings (see below). x MAC access filters (on / off, default: off): This setting applies to RFP (L)43 WLAN only. You can limit WLAN access for WLAN clients with specified MAC addresses. Note, that without encryption this should not be used for security reasons. You can configure a list of MAC addresses that are allowed to connect via the MAC access filters tab on the WLAN profile page. x BSS isolation (on / off, default: off): In a standard WLAN setup, each WLAN client can contact other WLAN clients. For special purposes (e.g. “Internet café setup”), you may switch on this options to protect WLAN clients from eavesdropping on other WLAN clients. Key settings x Cipher length (selection, 64 Bits / 128 Bits / 256 Bits, default: 64 Bits): Determines the key length used for the WEP encryption. Larger bit sequences provide better security but may be unsupported by very old WLAN clients. x Distribution interval (seconds, 1..65535, default: 20): Determines how often the WEP encryption is re-negotiated. Radius settings The parameters in this section can only be configured if the 802.1x (Radius) option has been selected. x IP address: Enter the IP address of the RADIUS server. x Port: Enter the port number used to connect to the RADIUS server. Press the Default button to change to the standard port. x Secret: Enter the character string that is used by the RFP to secure the communication with the RADIUS server. QoS settings x WME with: (on / off, VLAN or DiffServ, default: off/VLAN): You can enable the Wireless Media Extensions to prioritize WLAN traffic. The WLAN traffic priority is determined by VLAN number or by examining the DiffServ data field of IP packets. SSID2 – SSID4 Tabs You can enable up to three additional virtual WLAN networks that are managed by their SSID. This can be used for example to provide WLAN access for guests that is separated from the company WLAN by means of VLAN tags and encryption settings. To activate this feature proceed as follows: 1 Switch to the appropriate SSID tab, e.g. SSID2. Activate the Active check box to enable the additional virtual WLAN. The tab provides separate configuration items for the selected SSID. 2 Enter at least a new SSID. Also enter a currently unused VLAN tag number. depl-1230/0.2 Page: 84 (238) SIP–DECT OM System Manual Release 3.0 7 OMM Web Service 3 You can specify different authentication/encryption settings for each SSID section. For example, you can use WPA / Pre-shared key with different passwords. Note, that some configuration combinations are incompatible with multiple SSIDs. For example, the wireless hardware only manages a single WEP encryption key. Also, some features apply to all defined SSIDs, this includes the MAC access filters list. You can edit the MAC access filters list via the MAC access filters tab on the WLAN profile page. x You can import a prepared list of MAC addresses (*.txt. file, one line per MAC address) Use the Browse button to select the file from the file system. Afterwards press the Import button. x To configure single MAC addresses, use the New button in the General settings section. Enter the address in the following New MAC access filter dialog. x To delete a single MAC address, click on the the Delete all button to delete the entire list. icon left behind the address entry. Use x Using the Save button you can export the MAC address filter list. The Associate column indicates for each MAC address if the respective WLAN client is currently connected to the WLAN. 7.8.1.2 Deleting WLAN Profiles To delete an existing WLAN profile: 1 You cannot remove WLAN profile that is in use. To remove a currently used WLAN profile, you need to select another WLAN profile for all assigned RFPs first (see chapter 7.6.3. 2 On the WLAN profiles page click on the icon next to the profile entry. The Delete WLAN profile? dialog opens showing a summary of the WLAN profile’s configuration. 3 Press the Delete button. depl-1230/0.2 Page: 85 (238) SIP–DECT OM System Manual Release 3.0 7 OMM Web Service 7.8.1.3 Exporting WLAN Profiles To help simplify the configuration of wireless devices, you can export SSID configuration to a XML WLAN profile file. To export the configuration, please click on the icon. On Windows 7 you can use the command “netsh wlan add profile filename=xxx” to import a WLAN configuration. Many other tools to import WLAN configuration files are available for Windows Vista / Windows XP systems (for example wlan.exe from Microsoft). 7.8.2 “WLAN clients” Menu The WLAN clients page shows the status of all WLAN clients currently connected to the WLAN. This can be used for example for troubleshooting purposes. The display shows the total number of connected WLAN clients and a list of RFPs that are part of the WLAN. For each RFP, the WLAN client connected to the RFP are listed. You can view the MAC address and the current Status of each WLAN client. 7.9 “System features” Menu The System features menu allows administration of system features concerning call number handling and directory access. depl-1230/0.2 Page: 86 (238) SIP–DECT OM System Manual Release 3.0 7.9.1 7 OMM Web Service “Digit treatment” Menu A number manipulation is provided by the digit treatment feature for LDAP corporate directories, that handles both incoming and outgoing calls (see chapter 7.9.2). LDAP A chosen number from a LDAP entry is checked against the external prefix pattern and if a pattern matches it is replaced by the configured internal prefix pattern. Only the best matching rule will be applied. Before a rule is applied the following character are automatically removed from the LDAP entry: ‘%’, space, ‘(’ and ‘)’. The result of the conversion is sent to the handset to be displayed e.g. directory entry details and entered in the redial list. Note: A conversion performed for a LDAP entry can be reversed if the rule is also activated for an outgoing call. Incoming Call The calling party number of an incoming call is checked against the configured external prefix pattern and if a pattern matches it will be replaced by the internal prefix pattern. Only the best matching rule will be applied. The result of the conversion is sent to the handset to be displayed and entered in the call log1. Outgoing Call A dialled number of an outgoing call is checked against the configured internal prefix pattern and if a pattern matches it will be replaced by the external prefix pattern. This applies to onbloc dialled numbers and to overlap sending as long as the SIP session has not been initiated. For Incoming Call/Calling Party Number; Depending on the capabilities of the handset and the level of integration. depl-1230/0.2 Page: 87 (238) SIP–DECT OM System Manual Release 3.0 Note: 7 OMM Web Service To support digit treatment and overlap sending, it is necessary to have a dial terminator configured. The result of the conversion is not sent to the handset to be displayed or entered in the call log1. The following tasks can be performed on the Digit treatment page: x creating and changing “Digit treatment” entries (see chapter 7.9.1.1), x deleting “Digit treatment” entries(see chapter 7.9.1.2). 7.9.1.1 Creating and Changing “Digit treatment” Entries 1 To configure a new entry press the New button on the Digit treatment page. To change the configuration of an existing entry click on the icon left behind the entry. The New digit treatment entry resp. the Configure digit treatment entry dialog opens. 2 External pattern: enter an external prefix pattern with up to 32 characters that matches an incoming call number or a number received via LDAP. The prefix to be substituted for calling party numbers has the same character set as the user telephone number (e.g.:”+*~#,;.-_!$%&/()=?09aAzZ”). 3 Internal pattern: enter an internal prefix pattern with up to 32 character that replaces the external pattern for LDAP / incoming calls or vice versa for outgoing calls. An internal prefix pattern can be composed of:characters “*”, ”#” and “0” – “9”. Please note: The plus character (“+”) can not be dialled from a handset and can not be transferred to a call log. 4 Direction: select one of the following options: - “Incoming calls”: Rule applies on incoming calls. - “Outgoing calls”: Rule applies on outgoing calls. - “Incoming and outgoing calls”: Rule applies on incoming and outgoing calls. - “Apply on directory only”: Rule applies on LDAP only. 5 Directory: Activate this option if the rule applies to LDAP directories (see chapter 7.9.2). For Outgoing Call/Called Number; If the user would dial the number from the redial list again the same procedure will be applied as for the initial dialling. depl-1230/0.2 Page: 88 (238) SIP–DECT OM System Manual Release 3.0 7 OMM Web Service 6 Sites: Specifies the sites for which a rule shall be applied e.g. “1,2” (see chapter 7.5). If set to “0” the rule applies to all sites i.e. the rule will be applied to all calls or corporate directory requests. 7 Press the OK button. 7.9.1.2 Deleting “Digit treatment” Entries To delete an existing entry: 1 On the Digit treatment page click on the icon left behind the entry. The Delete digit treatment entry? dialog opens showing the current configuration of this entry. 2 Press the Delete button. 7.9.2 “Directory” Menu The System features menu allows you to manage connections to one or more LDAP servers that in turn facilitate central corporate directories. The OMM supports multiple LDAP servers with specific parameter settings to support different types of directories e.g. global corporate directory, group specific directory, personal directory. If there is more than one LDAP server configured then the multiple options are offered to the user as a list. The list is presented to the user if the central directory is called e.g. via soft key or selecting central directory from the menu. The user can choose one of the entries in the list. The name of an entry shown in the list is configured in the OMM when creating the LDAP server entry. (Latin-1 character set is supported). x If there is only one LDAP server configured then the directory function is directly started when pressing the soft key or selecting central directory from the menu. x The name configured in the OMM is not relevant and ignored if there is only one LDAP server configured. x There are up to 5 LDAP directories configurable. The OMM determines the display order of the directories in the handset menu by the order specified by the administrator. depl-1230/0.2 Page: 89 (238) SIP–DECT OM System Manual Release 3.0 7 OMM Web Service The following tasks can be performed on the Directory page: x creating and changing LDAP entries (see chapter 7.9.1.1), x deleting LDAP entries(see chapter 7.9.2.2). 7.9.2.1 Creating and Changing LDAP Servers 1 To configure a new LDAP entry press the New button on the Directory page. To change the configuration of an existing entry click on the icon left behind the entry. The New LDAP entry resp. the Configure LDAP entry dialog opens. 1 On the LDAP entry page enter the parameters for the LDAP access, see parameter description below. 2 Press the OK button to create or change an LDAP directory entry. The following parameters can be set per LDAP directory entry: x Active flag: allows to enable/disable a specific entry. x Order: determines the position in the handset menu (1 – top; 5 – bottom). x Server name (mandatory): Enter the name or IP address of the LDAP server. x Server port (mandatory): Enter the server port number (default: 389) Note: SSL (default port 689) is not supported. Windows® Active Directory Server uses port 3268. x Search base: The search base has to be edited (e.g. “ou=people,o=my com”). x User name, Password: User name (a distinguished name) and password may be filled, if requested by the LDAP Server. Otherwise an anonymous bind takes place. Note: The DECT IP OMM supports LDAP simple bind. x Search type: Searches will be done for one of the following attributes: – Name (sn) // Surname (default) – First name (Given name) depl-1230/0.2 Page: 90 (238) SIP–DECT OM System Manual Release 3.0 7 OMM Web Service x Display type: Selection between the following two alternatives is possible: – Surname (sn), first name (given name) (default) – first name (Given name) and Surname (sn) x Server search timeout: The search results will be accepted within the entered search time (value range: 1 - 99 sec). The configuration is valid for all PP handsets which support the LDAP directory feature. To make search requests unique for different users the search base configuration can include space holders which are replaced by user specific values when submitting the LDAP request to a server. The following placeholders are defined: x “” which is replaced by the specific telephone number of the user, x “ ” which is replaced by the “Description 1” attribute value of the user x “ ” which is replaced by the “Description 2” attribute value of the user Note: The telephone number in SIP–DECT is not limited to numeric character. 7.9.2.2 Deleting LDAP Entries To delete an existing LDAP directory entry: 1 On the Directory page click on the icon left behind the entry. The Delete LDAP entry dialog opens showing the current configuration of this entry. 2 Press the Delete button. 7.9.3 “Feature access codes” Menu Features access codes (FAC) allow to perform specific actions on the OMM from any subscribed DECT handset. To configure the FAC feature: 1 FAC number: Enter a unique FAC number. depl-1230/0.2 Page: 91 (238) SIP–DECT OM System Manual Release 3.0 7 OMM Web Service 2 Activate the appropriate checkbox(es) to enable the corresponding FAC feature(s). For each enabled FAC feature enter an assigned access code. 3 Press the OK button. Afterwards the appropriate action can be performed by dialing the “FAC number” followed by the “FAC access code” en bloc from any subscribed DECT handset. In the example above a subscribed user can activate the OMM DECT subscription by dialing “9999*4701#” en bloc. Please note: Overlap sending is not supported for FAC. “FAC number” and “FAC action code” must be entered en bloc. FAC functions will be confirmed by an audible indication to the user (in-band tone signals). 7.10 “Licenses” Menu The Licenses page provides an overview on the currently used license. On this page you can also import an activation or license file: 1 Select the path and file name where the activation or license key is stored. 2 Afterwards press the Import button. For a detailed description on the OMM licensing model see chapter 4. depl-1230/0.2 Page: 92 (238) SIP–DECT OM System Manual Release 3.0 7.11 7 OMM Web Service “Info” Menu On the Info page, the End User License Agreement (EULA) is displayed. With the first login into a new SIP–DECT SW version, this page is displayed automatically and the user has to accept the EULA by pressing the Accept button. depl-1230/0.2 Page: 93 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) OM Management Portal (OMP) The OM Management Portal (OMP) is a Java tool to manage the SIP–DECT solution. It can be used to view and configure OMM system data in the same way as the OM Web service. This section lists all parameters which can be configured and viewed using OMP. All parameters which are also accessible by the OM Web service are described in the appropriate OM Web service section (section 7). New parameters which are only accessible via OMP are described in this section. 8.1 Login The OMM allows only one user at a time to configure the system. To log in to the system enter the following data: x IP address of the OMM. x User name, Password: Enter a user name and a password. Both strings are checked case sensitive. With initial installation or after removing the configuration file, the OMM Web service is accessible via a default built-in user account with user “omm” and password “omm”. The System name is set by the system administrator after first successful login to the OMM, see chapter 8.5.1. The system name and the IP address of successful logins are stored in the local OMP preferences and can be reselected for further logins. Up to 10 different login datasets can be stored in the preferences. x On a Linux system, preferences are stored in the users home directory “~/.java/.userPrefs/…”. x On a windows system in the registry node “HKEY_CURRENT_USER/Software/JavaSoft/Prefs/…”. Note: The OMM password can not be changed using OMP, please use the OM Web service instead (see chapter 7.4.3). After login the OMP is set to the configuration mode page showing the system status page which contains health state information of the connected OMM (see chapter 8.4). depl-1230/0.2 Page: 94 (238) SIP–DECT OM System Manual Release 3.0 8.2 8 OM Management Portal (OMP) Logout There is no automatically logout for the OMP. The user has to log out manually. To log out from the system: x click on the closing icon on the upper left in the upper right corner of the OMP window x or select the Exit entry from the General menu. Note: 8.3 If the OMM link is broken, the OMP asks if you want to reconnect to the OMM. In that case you have to enter the login data again. OMP Main Window The header of the OMP window shows version info of the connected OMM. 1 – “OMP mode” toolbar buttons The OMP provides two different modes: the configuration mode and the monitor mode. The configuration mode allows changing of parameters. In monitor mode parameters are only displayed, they are not changeable. The monitor mode provides additional features, e.g. system and RFP statistics and RFP synchronization monitoring. To select the desired mode, press the appropriate toolbar button in the upper left corner of the OMP window: depl-1230/0.2 Page: 95 (238) SIP–DECT OM System Manual Release 3.0 x configuration mode, x monitor mode. 8 OM Management Portal (OMP) 2 – Main menus The OMP provides two main menus which are available in all program situations: x General menu, see chapter 8.11. x Help menu, see chapter 8.12. 3 – Navigation panel Both configuration and monitor mode contain a navigation panel. This panel contains the mode-dependant menu. 4 – Status bar The status bar is located at the bottom of the main window. It shows the following items: x Encryption state: The icon indicates that encryption is enabled. The icon indicates that encryption is disabled. This setting can be configured in the DECT tab of the System settings menu (see also chapter 8.5.1). x PARK, x Subscription state: Clicking on one of the following icons enables / disables subscription. The icon indicates that subscription is enabled. The icon indicates that subscription is disabled. Subscription can also be enabled / disabled in the Portable parts menu (see also chapter 8.8). x Auto-create on subscription state: Clicking on one of the following icons enables / disables Auto-create on subscription. The icon indicates that Auto-create on subscription is enabled. The icon indicates that Auto-create on subscription is disabled. This setting can also be configured in the DECT tab of the System settings menu (see also chapter 8.5.1). x Connection status to the OMM: If connected to the OMM, the IP address of the OMM is displayed. OMP is disconnected from the OMM. 5 – Info console Since SIP–DECT release 3.0, general OMP events are displayed the Info console. depl-1230/0.2 Page: 96 (238) SIP–DECT OM System Manual Release 3.0 8.4 8 OM Management Portal (OMP) “Status” Menu The system status is displayed after startup of OMP. The Status panel provides information about the system health state. The following health state items are displayed: x Synchronization state: indicates the current synchronization state for all RFPs (see chapter 8.7.5). x Standby OMM: indicates if the status of the standby OMM (see chapter 9.13). x DB import/export: indicates the status of a current database import/export (see chapter 8.5.4). x Downloading new firmware to portable parts: indicates the status of the “Download over Air” service (see chapter 9.17). x Radio fixed parts: indicates the status of all RFPs. The status of an individual RFP can be viewed in the RFP detail panel (see chapter 8.7.1.1). x System license: indicates the status of the current system license (see chapter 4). x G.729 license: indicates the status of the G.729 codec license (see chapter 4). x OM Integrated Messaging and Alerting service: indicates the status of the integrated message and alarm server (see chapter 8.5.1). Health states can be set to these values: x – inactive or unknown; no G.729 channels are licensed x – error x – warning; all G.729 channels are consumed depl-1230/0.2 Page: 97 (238) SIP–DECT OM System Manual Release 3.0 x 8.5 8 OM Management Portal (OMP) – OK; G.729 licenses are available “System” Menu The System menu allows to configure/view the global settings of the OMM. The systems settings are changeable in configuration mode. Change of some parameters can cause the OMM to be reset. In this case a new login is required. The System menu provides the following entries: 8.5.1 Configuration mode Monitor mode See chapter System settings System settings 8.5.1 Statistics 8.5.2 SIP SIP 8.5.3 Data management Data management 8.5.4 “System settings” Menu The System settings menu contains general settings of the OpenMobility Manager. The menu provides the settings in several tabs: depl-1230/0.2 Page: 98 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) General For a description of the parameters which can be set in the General tab, please refer to the description of the System settings page of the OMM Web service (see chapter 7.4.1). The corresponding parameters can be found there in the General settings, Syslog, OM Integrated Messaging and Alerting service and Voice mail page sections. Net parameters For a description of the parameters which can be set in the Net parameters tab, please refer to the description of the System settings page of the OMM Web service (see chapter 7.4.1). The corresponding parameters can be found there in the IP parameters page section. Notes: x The 802.1p signalling priority parameter (OMP) corresponds to the VLAN priority Call control parameter (OMM Web service). x The 802.1p voice priority parameter (OMP) corresponds to the VLAN priority Audio parameter (OMM Web service). DECT For a description of the parameters which can be set in the DECT tab, please refer to the description of the System settings page of the OMM Web service (see chapter 7.4.1). The corresponding parameters can be found there in the DECT settings and Downloading new firmware to portable parts page sections. The following settings are only available in the OMP. x Paging area size: Select the number of paging areas for the SIP–DECT system. A paging area can consist of up to 16 RFPs. The configuration of the paging areas is done in the Paging areas menu of the OMP (see chapter 8.7.2). x Auto-create on subscription: Activate this option if an unbound subscription of portable parts should be allowed. Please see the SIP–DECT; OM Handset Sharing & Provisioning; User Guide /27/ for details. WLAN For a description of the parameters which can be set in the WLAN tab, please refer to the description of the System settings page of the OMM Web service (see chapter 7.4.1). The corresponding parameters can be found there in the WLAN settings page section. Restarting or Updating the OMM For a restart of the OMM, press the Restart button in the System settings menu. For more information see chapter 7.4.1.1. To update the OMM software, press the Update button in the System settings menu. For more information see the chapters 7.4.1.2 and chapter 9.12. 8.5.2 “Statistics” Menu The Statistics menu provides system statistics information. It contains a table with numerous system statistics counters which can be used to check the system behavior. The menu is only available in monitor mode. depl-1230/0.2 Page: 99 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) Statistic counters beginning with “+” are counters which are taken over by standby OMM in case of a failover. All other counters will be reset to the defaults in case of a failover. For more details about the standby feature, see section 9.13. The following tasks can be performed: x Refresh all: request OMM update for all statistics counters. x Clear all: reset all statistics counters in OMM. If a statistics counter is selected in the table, it is shown in a detail panel. This detail panel provides all available information for this statistics counter. You can: x update this single statistics counter by pressing the Refresh button or x reset this single statistics counter by pressing the Clear button. depl-1230/0.2 Page: 100 (238) SIP–DECT OM System Manual Release 3.0 8.5.3 8 OM Management Portal (OMP) “SIP” Menu The SIP menu covers global settings for SIP signaling and RTP voice streams. The menu provides the settings in several tabs: Basic settings For a description of the parameters which can be set in the Basic settings tab, please refer to the description of the SIP page of the OMM Web service (see chapter 7.4.2). The corresponding parameters can be found there in the Basic settings and Registration traffic shaping page sections. Note that the Registration traffic Shaping – Timeout parameter (OMP) corresponds to the Waiting time parameter (OMM Web service). Advanced settings For a description of the parameters which can be set in the Advanced settings tab, please refer to the description of the SIP page of the OMM Web service (see chapter 7.4.2). The corresponding parameters can be found there in the Advanced settings page section. RTP settings For a description of the parameters which can be set in the RTP settings tab, please refer to the description of the SIP page of the OMM Web service (see chapter 7.4.2). The corresponding parameters can be found there in the RTP settings page section. depl-1230/0.2 Page: 101 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) DTMF settings For a description of the parameters which can be set in the DTMF settings tab, please refer to the description of the SIP page of the OMM Web service (see chapter 7.4.2). The corresponding parameters can be found there in the DTMF settings page section. Supplementary services For a description of the parameters which can be set in the Supplementary services tab, please refer to the description of the SIP page of the OMM Web service (see chapter 7.4.2). The corresponding parameters can be found there in the Supplementary Services page section. depl-1230/0.2 Page: 102 (238) SIP–DECT OM System Manual Release 3.0 8.5.4 8 OM Management Portal (OMP) “User administration” Menu In the User administration menu you configure the OMM user accounts. User administration menu in configuration mode The 3 user accounts “Full access”, “Read-only” and “Root (ssh only)” available via the User administration page of the OMM Web service (see chapter 7.4.3) can also be configured in the OMP. These are 3 predefined user accounts, which cannot be removed or renamed. Only the “Root (ssh only)” account can be deactivated. The permissions are fixed. This is consistent with the OMM WEB service. The meaning of the different account types is described in section 9.14.1. In addition, the OMP allows to create additional user accounts (login and password) and to assign specific permissions. The tasks which can be performed are mode-dependant. Configuration mode Monitor mode See chapter Create: create new user account 8.5.4.1 Configure: configure selected user account in detail panel 8.5.4.2 Show details: shows selected user account in detail panel Delete: delete selected user account depl-1230/0.2 8.5.4.3 8.5.4.4 Page: 103 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) 8.5.4.1 Creating New User Accounts It is possible to create additional user accounts (login and password) and to assign specific permissions. These accounts are mainly designed to have specific login data and permissions for applications which are using OM AXI to connect with the OMM. Note: Individual user accounts cannot be used for a login to the OMM Web service nor SSH. Adding individual user accounts is only possible in configuration mode. To add a user account proceed as follows: 1 In the Tasks bar click on the Create command. The New user account panel opens. It provides various tabs where the account data has to be entered. 2 Configure the user account, see parameter description below. 3 Press the OK button. The following parameters can be set in the tabs of the New user account panel: General For a description of the parameters which can be set in the General tab, please refer to the description of the User administration page of the OMM Web service (see chapter 7.4.3). depl-1230/0.2 Page: 104 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) Permissions The permissions for an individual user account can be set independent from any license status even if some of the permissions can only been used with an appropriate license. If an application connects with the OMM via OM AXI, then the permissions been sent from the OMM to the application is the result of the configured permissions for this account and the actual license status. For more information please see the OM Application XML Interface (OM AXI) specification /28/. The permissions have the following meaning: Permission Description Read Read OMM data (OM AXI get requests) Write Read OMM data (OM AXI set requests) Messaging info Sent messages with prio “Info” Messaging Sent messages with prio “Low”, “Normal” and “High” Messaging emergency Sent messages with prio “Emergency” Messaging locating Sent messages with prio “LocatingAlert” Locating Permission to query the position of PPs and to track PP positions Monitoring Permission to monitor various technical aspects of the mobility system 8.5.4.2 Changing a User Account Changing user accounts is only possible in configuration mode. To change the configuration of an existing user account proceed as follows: 1 Select the appropriate user account in the account table. 2 In the Tasks bar click on the Configure command. 3 Change the user account parameters, see parameter description in chapter 8.5.4.1. 4 Press the OK button. Please note: The predefined user accounts “Full access”, “Read-only” and “Root (ssh only)” user accounts cannot be renamed. Also their permissions are fixed and cannot be changed. 8.5.4.3 Viewing User Account Details You can view the configuration of a user account in monitor mode. Proceed as follows: 1 Select the appropriate user account in the table. 2 In the Tasks bar click on the Show details command. The user account data is displayed in the user account detail panel. 3 To close the user account detail panel press the Cancel button. depl-1230/0.2 Page: 105 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) 8.5.4.4 Deleting User Accounts Deleting user accounts is only possible in configuration mode. To delete one or more existing user accounts proceed as follows: 1 Select the appropriate account(s) in the user account table by activating the corresponding checkbox(es). 2 In the Tasks bar click on the Delete command. 3 Confirm the displayed prompt with OK. Please note: The predefined user accounts “Full access”, “Read-only” and “Root (ssh only)” user accounts cannot be removed. 8.5.5 “Data management” Menu The Data management menu provides access to data related to import and export features. The menu provides the settings in several tabs: x Automatic DB import (see chapter 8.5.5.1), x Automatic DB export (see chapter 8.5.5.2), x User data import (see chapter 8.5.5.3), x Manual DB import (see chapter 8.5.5.4), x Manual DB export (see chapter 8.5.5.5), x Maintenance (see chapter 8.5.5.6). 8.5.5.1 “Automatic DB import” Tab The automatic database (DB) import feature makes it easier to restore a prepared OMM database into an OMM for an initial configuration or for update reasons. Please note: An automatic import of a database leads to a reset of the OMM to take effect. depl-1230/0.2 Page: 106 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) In the Automatic DB import panel enter the following: 1 Startup only: Activate this option if the import should be started for an initial configuration. 2 Startup and periodically: If this option is activated, the OMM tries to import the configured database file during startup and at the configured time of day. 3 Time: Enter the time, the import should be started. Please note: An automatic database import at a configured time recommends the time synchronization with an NTP server. For NTP server configuration see chapter 9.5.4 and chapter 9.6. 4 Protocol: To import a database from an external server select the preferred protocol. The following protocols are supported: FTP, FTPS, HTTP, HTTPS, TFTP. 5 Server: Enter the IP address or the name of the external server. 6 User name, Password: If necessary, enter the account data of the server. 7 File: Enter the path and file name which include the OMM database. The database file for an automatic import has to be configured in an URL format like {ftp|ftps|http|https}://[[user:password@]server]/[directory/]file or tftp://[server]/[directory/]file.To be available at OMM startup time and to allow an initial configuration via automatic import, this URL has to be specified via DHCP (option 24, see chapter 9.5.4) or the OM Configurator (see chapter 9.6). If such a URL is given by DHCP depl-1230/0.2 Page: 107 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) or the OM Configurator, the OMM tries to import a configured database file automatically during the OMM startup. 8 Click OK to confirm the settings for the automatic import. For further information on the automatic database import process please refer to the chapter 7.4.6.2. 8.5.5.2 “Automatic DB export” Tab The automatic database export feature allows an automatic database backup to an external server for each configuration modification. Please note: For an automatic database export a time synchronization with an NTP server is mandatory. For NTP server configuration see chapter 9.5.4 and chapter 9.6. For a description of the parameters which can be set in the Automatic DB export tab, please refer to the corresponding description in the chapter 7.4.6.4. depl-1230/0.2 Page: 108 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) 8.5.5.3 “User data import” Tab The user data import feature allows the import of user data from an external provisioning server. 1 Active: Activate this option to enable the user data import feature. 2 Protocol: Select the preferred protocol. 3 Server: Enter the IP address or the name of the server. 4 User name, Password: If necessary, enter the account data of the server. 5 Path: Enter the path which includes the user data. 6 Click OK to confirm the settings for the user data import. For further information on the user data import please refer to the “OpenMobility Provisioning” user guide for details see /27/. depl-1230/0.2 Page: 109 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) 8.5.5.4 “Manual DB import” Tab Please note: A manual import of a database leads to a reset of the OMM to take effect. 1 Protocol: – To import a database from the file system the protocol FILE has to be selected. – To import a database from an external server select the preferred protocol (e.g. HTTP). 2 Server: Enter the IP address or the name of the external server. 3 User name, Password, Password confirmation (in case of import from an external server): If necessary, enter the account data of the server. 4 File (only if you have selected the FILE protocol): Enter the path and file name which include the OMM database or select a file by pressing the File button. 5 Press the Import button. depl-1230/0.2 Page: 110 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) 8.5.5.5 “Manual DB export” Tab 1 Protocol: Select the preferred protocol. If you want to export the database to the file system, select the FILE setting. 2 Server: Enter the IP address or the name of the server. 3 User name, Password, Password confirmation: If necessary, enter the account data of the server. 4 Directory (only if you have selected the FILE protocol): Select a directory by pressing the Directory button. 5 Press the Export button. depl-1230/0.2 Page: 111 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) 8.5.5.6 “Maintenance” Tab In the Maintenance panel you can configure and start a system dump. A file “sysdump.txt” is created in the selected directory. Press the Directory button to select the directory. Then press the Download button to start the system dump. depl-1230/0.2 Page: 112 (238) SIP–DECT OM System Manual Release 3.0 8.6 8 OM Management Portal (OMP) “Sites” Menu RFPs can be grouped into different sites. The Sites menu allows to configure/view the configured sites. An empty system has one predefined site (ID: 1) named “default”. Minimum one site is required by the system. A site consists of the following parameters: x ID: Identification number of the site. A value between 1 and 250 is possible. If no value is given, the OMM selects the next free ID. x Name: The name of the site. x Hi-Q Audio Technology: The capability Hi-Q TM audio technology must be enabled or disabled specific for every site. – In sites, which are configured to provide this functionality, exclusively RFP 35 / 36 / 37 and RFP 43 WLAN are applicable. – In sites without this capability, it is allowed to mix these new RFP-types with RFP 32 / 34 and RFP 42 WLAN. x Number of RFPs: The number of RFPs which are assigned to this site. The following tasks can be performed: x Create: create a new site in the General tab. x Configure: configure an existing site in the General tab. x Delete: delete selected sites. x Show details (only in monitor mode): shows configuration of a selected site in the General tab. depl-1230/0.2 Page: 113 (238) SIP–DECT OM System Manual Release 3.0 Note: 8.7 8 OM Management Portal (OMP) Only sites without assigned RFPs can be deleted. “Radio fixed parts” Menu RFPs can be configured and viewed in the Radio fixed parts menu. The Radio fixed parts menu provides the following entries: 8.7.1 Configuration mode Monitor mode See chapter Device list Device list 8.7.1 Paging areas 8.7.2 Enrolment 8.7.3 Export 8.7.4 Sync view 8.7.5 Statistics 8.7.6 “Device list” Menu In the Device list panel, all configured RFPs are listed in a table. The device list is available in configuration mode as well as in monitor mode. Device list in configuration mode The Active column shows the following states: depl-1230/0.2 Page: 114 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) x – DECT is not enabled and/or RFP not connected. x – DECT is enabled and RFP connected, but DECT has not been activated yet. x – DECT is enabled and RFP is connected, but RFP is not synchronized and searches for other synchronized RFPs. x Note: – DECT is enabled and RFP is connected and synchronized. If the Active column is not displayed, you can activate it in the Select columns dialog, see chapter 8.7.1.7. Device list in monitor mode The tasks which can be performed are mode-dependant. Configuration mode Monitor mode See chapter Create: create new RFP in detail panel 8.7.1.2 Configure: configure selected RFP in detail panel Show details: show selected RFP in 8.7.1.4 detail panel Delete: delete selected RFP 8.7.1.5 Show sync. relations: show synchronization relation for selected RFPs depl-1230/0.2 8.7.1.6 Page: 115 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) Select columns: select columns/parameters to be shown in RFP table Select columns: select columns/parameters to be shown in RFP table 8.7.1.7 Filter: show only RFP datasets in table which contain a special search string Filter: show only RFP datasets in table which contain a special search string 8.7.1.8 8.7.1.1 RFP Detail Panel The RFP detail panel is used for configuration/showing of RFP settings and creation of new RFP datasets. To call up the RFP detail panel x choose one of the commands in the task bar on the right of the Radio fixed parts panel (Create, Configure, or Show details) or x select the appropriate RFP in the RFP table and double-click the entry. The RFP detail panel contains the following parameter groups sorted in different tabs. “Status” tab This tab is only available in monitor mode. It shows system status information relating to the selected RFP. “General” tab This tab contains the general RFP parameters. depl-1230/0.2 Page: 116 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) “DECT” tab This tab contains the RFP's DECT parameters. “WLAN” tab This tab contains the RFP WLAN parameters. Settings in the WLAN tab apply to RFPs of the type “RFP (L) 42 WLAN” and “RFP (L) 43 WLAN” only. “Hardware” tab In monitor mode this tab shows hardware information of the selected RFP. depl-1230/0.2 Page: 117 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) RFP Hardware tab in monitor mode In configuration mode, the RFP hardware type can be set. 8.7.1.2 Adding New RFPs Adding new RFPs is only possible in configuration mode. To add an RFP to the list of known RFP proceed as follows: 1 In the task bar on the right of the Radio fixed parts panel click on the Create command. The New radio fixed part panel opens. It provides various tabs where the RFP data has to be entered, see chapter 8.7.1.1. 2 Configure the RFP, see parameter description below. 3 Press the OK button. The following parameters can be set in the tabs of the New radio fixed part panel: “General” tab x Name: The a name for the RFP. x MAC address: Each RFP is identified by its unique MAC address (6 bytes hex format, colon separated). Enter the MAC address, it can be found on the back of the chassis. x Site: If several sites exist (see chapter 0), select the site the RFP is assigned to. x Building, Floor, Room: For easier localization of the RFP you can enter data in these fields. depl-1230/0.2 Page: 118 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) “DECT” tab x DECT activated: The DECT functionality for each RFP can be switched on/off. x DECT cluster: If DECT is active the RFP can be assigned to a cluster. x Paging area: Enter the paging area, the RFP is assigned to. Note: The Paging area size is set in the DECT tab of the System settings menu (see chapter 8.5.1). The assignment between RFPs and paging areas can be changed in the Paging areas menu (see chapter 8.7.1.8). x Preferred synchronization source: Activate this checkbox if the RFP should be used as synchronization source for the other RFPs in the cluster. For background information on RFP synchronization please refer to chapter 9.2. x Reflective environment: Within areas containing lot of reflective surfaces (e.g. metal or metal coated glass) in an open space environment the voice quality of a DECT call can be disturbed because of signal reflections which arrive on the handset or RFP using multipath propagation. Calls may have permanent drop outs while moving and high error rates on the RFPs and handsets. For such environment Aastra has developed the DECT XQ enhancement into base stations (RFP 32 / 34 / 42 WLAN and RFP 35 / 36 / 37 / 43 WLAN) and the Aastra 600d / Aastra 650c handsets family. Using this enhancement by switching the Reflective environment flag on might reduce drop outs and cracking noise. As soon as Reflective environment is switched on, the number of calls on an RFP 32 / 34 / 42 WLAN or RFP 35 / 36 / 37 / 43 WLAN is reduced to 4 calls at the same time. Please note: The RFPs and handsets use more bandwidth on the Air Interfaces if the “Reflective environment“ is switched on. Therefore this shall only be used when problems sourced by metal reflections are detected. “WLAN” tab Settings in the WLAN tab apply to RFPs of the type “RFP (L) 42 WLAN” and “RFP (L) 43 WLAN” only. For details about WLAN configurations please see chapter 9.15. Please note: WLAN properties can only be set if the correct hardware type is configured in the Hardware tab. For a description of the parameters which can be set in the WLAN tab, please refer to the description of the Radio fixed parts page of the OMM Web service (see chapter 7.6.3). The corresponding parameters can be found there in the WLAN settings section. Note: Configuration of WLAN profiles is only possible with the OM Web service, see chapter 7.8.1. “Hardware” tab WLAN properties can only be set if the correct hardware type is configured. This can be done manually before an RFP connects with the OMM and an automatic detection is possible. depl-1230/0.2 Page: 119 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) 8.7.1.3 Changing RFPs Changing RFPs is only possible in configuration mode. To change the configuration of an existing RFP proceed as follows: 1 Select the appropriate RFP in the RFP table. 2 In the task bar on the right of the Radio fixed parts panel click on the Configure command. The RFP detail panel opens, see chapter 8.7.1.1. 3 Change RFP parameters, see parameter description in chapter 8.7.1.2. 4 Press the OK button. 8.7.1.4 Viewing RFP Details You can view the configuration of an RFP in monitor mode. Proceed as follows: 1 Select the appropriate RFP in the RFP table. 2 In the task bar on the right of the Radio fixed parts panel click on the Show details command. The RFP detail panel opens, see chapter 8.7.1.1. 3 To close the RFP detail panel press the Cancel button. 8.7.1.5 Deleting RFPs Deleting RFPs is only possible in configuration mode. To delete one or more existing RFPs proceed as follows: 1 Select the appropriate RFP(s) in the RFP table by activating the corresponding checkbox(es). 2 In the task bar on the right of the Radio fixed parts panel click on the Delete command. The Delete selected radio fixed part(s) dialog opens showing a confirmation prompt. 3 Confirm the displayed prompt with OK. Please note: License RFPs cannot be deleted. 8.7.1.6 Showing Synchronization Relations You can view the synchronization relations of an RFP in monitor mode. Proceed as follows: 1 Select the appropriate RFP in the RFP table. 2 In the task bar on the right of the Radio fixed parts panel click on the Show sync. relations command. The view switches to the Sync view menu . For further information see chapter 8.7.5. Note: depl-1230/0.2 At least two RFPs must be selected for showing their synchronization relations. Page: 120 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) 8.7.1.7 Selecting Columns You can adapt the parameters shown in the RFP table to your needs: 1 In the task bar on the right of the Radio fixed parts panel click on the Select columns command. The Select columns dialog opens. 2 Select the columns that shall be shown by activating the appropriate checkboxes. 3 Click the OK button. The RFP table will be adapted accordingly. 8.7.1.8 Filtering RFP Table You can filter the list of RFP datasets shown in the RFP table by using a filter. 1 In the task bar on the right of the Radio fixed parts panel click on the Filter command. The Filter dialog opens. 2 Enter the search string that serves as filter criterion. You can enter digits and characters. The search is case sensitive. 3 Click on the Filter button. The Filter dialog is closed and the RFP table will be adapted accordingly. 4 To reset the filter, click on the Filter command in the task bar on the right of the Radio fixed parts panel. 5 In the Filter dialog click on the Reset button. depl-1230/0.2 Page: 121 (238) SIP–DECT OM System Manual Release 3.0 8.7.2 8 OM Management Portal (OMP) “Paging areas” Menu The Paging area menu shows all configured RFPs in a tree structure consisting of two trees: x The left Unassigned RFPs tree contains all RFPs without an assigned paging area. x The right Paging areas tree shows all configured paging areas with RFPs assigned to these paging areas. All RFPs are shown including their site and optional hierarchy (building, floor, and room) settings. x RFPs can be moved by drag and drop from unassigned tree to paging area tree and vice versa, as well as between different paging areas inside the paging area tree. x Only one RFP node can be moved at once. x If a site or a hierarchy node is selected, all RFPs which are children of this node will be moved. x If a paging area is completely filled with RFPs, moving additional RFPs in that paging area is prevented. x If not all RFPs (selected by a site or hierarchy node) can be moved into a paging area, you will be asked if you want to move as much as possible RFPs or if the operation shall be cancelled. Note: depl-1230/0.2 The Paging area size is set in the DECT tab of the System settings menu (see chapter 8.5.1). Page: 122 (238) SIP–DECT OM System Manual Release 3.0 8.7.3 8 OM Management Portal (OMP) “Enrolment” Menu The Enrolment menu allows import of RFP datasets using a configuration file. For information about required configuration file format see chapter 11.7.2. 1 Press the File button. A file system dialog opens in which you can select the configuration file. 2 To check the results from reading the configuration file press the Show log file button. In case of file format errors these errors are listed here. If reading of configuration file is successful, all RFP datasets read are shown in a newly created table. This table contains, apart from some RFP parameters, the Status column which shows the current import status for every RFP dataset: – Not enrolled yet – Enrolment failed – OK (Enrolment successful) 3 Start the import by selecting one of the following commands: Add all: import all RFP datasets into the OMM. Add selected: import selected RFP datasets to the OMM. For selection activate the corresponding checkboxes in the RFP table. Remove all: remove all RFP datasets from table. The table will be hidden. Remove selected: remove selected RFP datasets from table. If the table is empty after removing of datasets, the table will be hidden. For selection activate the corresponding checkboxes in the RFP table. depl-1230/0.2 Page: 123 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) Show status: show import status of a selected RFP dataset. If enrolment failed for this RFP, a message describing the enrolment error is shown. 8.7.4 “Export” Menu The Export menu allows export of all RFPs enrolled to the OMM into an file using “*.csv” file format. The created file can be viewed externally with a standard spreadsheet application. All enrolled RFPs are shown in a table. The following tasks can be performed: x Export all: export all RFP datasets. x Export selected: export selected RFP datasets. x Select parameters: select RFP parameters which shall be written to csv file (select all RFP parameters or a subset of these parameters). x Select columns: select the columns thst shall be written to the csv file. When the export is started, a file system dialog will be opened and the export file name can be selected. If all parameters are selected for export, the export file can be re-imported using Enrolment (see chapter 8.7.3). For information about RFP export file format see Appendix, chapter 11.8). depl-1230/0.2 Page: 124 (238) SIP–DECT OM System Manual Release 3.0 8.7.5 8 OM Management Portal (OMP) “Sync view” Menu The Sync view menu allows to check the synchronization relations between RFPs in a graphical manner. Note: For background information on RFP synchronization please refer to chapter 9.2. To open the task panel for sync view press the arrow icon in the upper right corner of the sync view panel. The task panel is displayed on the right. The following tasks can be performed: x Show all RFPs: If this checkbox is activated, all configured RFPs are shown in the sync panel; else only selected RFPs are shown. x RFP positioning: If this checkbox is activated, RFP positions can be changed; else RFP positions are fixed. x Reset monitoring: reset all active sync view monitoring relations. x Image: select background image for sync panel. x Reset view: reset selected view (zero coordinates are reset to the left upper corner of the sync view panel). x Refresh RSSI: request new RSSI values from OMM for active sync relations. Viewing sync relations RFPs for which sync relations shall be shown, can be selected as follows: x Select (more than one) RFP in device list table (see chapter 8.7.1) or depl-1230/0.2 Page: 125 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) x Activate RFP mouse menu in sync view: Press the right mouse button while mouse cursor is on an RFP icon and select the Activate Monitoring command from the context menu. The color of the RFP icon indicates synchronization state of that RFP: x Grey: inactive x Red: not synchronized x Yellow: searching x Green: synchronized Sync relations between RFPs are represented by arrows. Viewing RSSI values The color of the arrows between RFPs is an indication of the RSSI value of the link: x Red: RSSI < -90 dBm x Orange: -90 dBm <= RSSI <= -70 dBm x Green: RSSI > -70 dBm If the mouse is moved over an RFP with monitoring activated, a tool tip with RSSI values will be opened. You can use the RSSI threshold slider to limit the display of values in the tool tip. depl-1230/0.2 Page: 126 (238) SIP–DECT OM System Manual Release 3.0 8.7.6 8 OM Management Portal (OMP) “Statistics” Menu The Radio fixed parts > Statistics menu provides information about RFP statistics counters. It contains: x an overview panel with all statistics counters (see chapter 8.7.6.1) and x several statistics group panels. In these groups statistics counter types which are related are pooled together (see chapter 8.7.6.2). The menu is only available in monitor mode. 8.7.6.1 RFP Statistics Overview The RFP statistics overview consists of two tables, left RFP ID table and right an overview of all RFP statistics counters. The following tasks can be performed: x Refresh RFP: request counter update by OMM for selected RFPs statistics counters. x Refresh all: request counter update by OMM for all RFP statistics counters. x Clear RFP: clear all RFP statistics counters on selected RFP. x Clear all: clear all RFP statistics counters. If an RFP is selected (left RFP ID table), the statistics counter table shows counter values of that RFP (right table). By selecting a statistics counter entry, a detail panel is opened which shows more detailed information of that counter. depl-1230/0.2 Page: 127 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) The detail panel for selected statistics counter shows values for total occurrence and occurrence in current and last week. You can clear the selected statistics counter on the selected RFP by pressing the Clear button. 8.7.6.2 RFP Statistics Group Panels The RFP statistics group panels divide RFP statistics counters into logical groups. This allows to view all statistics counters of a special group of all RFPs in one table. The following tasks can be performed: x Refresh RFP: request counter update by OMM for selected RFP. x Refresh all: request counter update by OMM for all counters. x Clear group RFP: clear counter group of selected RFP. x Clear group: clear counter group of all RFPs. depl-1230/0.2 Page: 128 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) x Clear RFP: clear all counters of selected RFP. /MyDocuments/.Oamp’. 8.9 “System features” Menu The System features menu provides the following entries: Configuration mode Monitor mode See chapter General settings General settings 8.9.1 Feature access codes (FAC) Feature access codes (FAC) 8.9.2 Alarm triggers Alarm triggers 8.9.3 Digit treatment Digit treatment 8.9.4 Directory Directory 8.9.5 XML applications XML applications 8.9.6 depl-1230/0.2 Page: 140 (238) SIP–DECT OM System Manual Release 3.0 8.9.1 8 OM Management Portal (OMP) “General settings” Menu The General settings menu allows to configure/view the FAC number prefix used for feature access codes and alarm triggers. 1 FAC number and prefix for alarm triggers: Enter a unique FAC number. 2 Press the OK button. 8.9.2 “Feature access codes” Menu The Feature access codes menu is used to configure/view the feature access codes parameters. depl-1230/0.2 Page: 141 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) The FAC number which introduces the feature access code (see also chapter 8.9.1) is displayed. For a description of the parameters which can be set in this menu see chapter 7.9.3. 8.9.3 “Alarm triggers” Menu The Alarm triggers menu allows to configure/view numerous alarm trigger datasets. There are two predefined alarm triggers (‘SOS and ’Man down‘) which can not be deleted. depl-1230/0.2 Page: 142 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) The following tasks can be performed: x Create: create alarm trigger (see chapter 8.9.3.1). x Configure: configure a selected alarm trigger (see chapter 8.9.3.2). x Delete: delete selected alarm triggers (see chapter 8.9.3.3). x Show details: shows parameters of a selected alarm trigger (see chapter 8.9.3.4). 8.9.3.1 Creating “Alarm triggers” In configuration mode you can create new alarm triggers. 1 Click Create. In the General tab enter the alarm trigger parameters. 2 Trigger ID: Enter the Trigger ID. The Trigger ID identifies the alarm scenario and also selects the source which triggers the alarm. depl-1230/0.2 Page: 143 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) 3 Feature access code: Enter the access code which should be assigned to the alarm trigger. 4 Comment: Enter a comment for the new trigger. 5 Prefix: This field displays the FAC number which introduces the feature access code (see also chapter 8.9.1). 6 Number: Enter the number to be called in case of this alarm trigger. 7 Press the OK button. 8.9.3.2 Configuring “Alarm triggers” In configuration mode you can configure an existing alarm trigger. 1 In the alarm trigger table click on the appropriate trigger entry. 2 Click Configure. The General tab is displayed showing the current trigger configuration. 3 Change the trigger parameters, see chapter 8.9.3.1. 4 Press the OK button. 8.9.3.3 Deleting “Alarm triggers” In configuration mode you can delete alarm triggers. The predefined alarm triggers (‘SOS and ’Man down‘) can not be deleted. 1 In the alarm trigger table click on one or more trigger entries. 2 Click Delete. 3 Confirm the displayed prompt with OK. 8.9.3.4 View “Alarm trigger” Details In monitor mode you can view the details of an alarm trigger. 1 In the alarm trigger table click on the appropriate trigger entry. 2 Click Show details. The General tab is displayed showing the trigger configuration. 3 Click Cancel to close the tab. 8.9.4 “Digit treatment” Menu The Digit treatment menu allows to configure the number manipulation that is provided by the digit treatment feature for LDAP corporate directories. depl-1230/0.2 Page: 144 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) For a description of tasks and parameters available in this menu, refer to chapter 7.9.1. depl-1230/0.2 Page: 145 (238) SIP–DECT OM System Manual Release 3.0 8.9.5 8 OM Management Portal (OMP) “Directory” Menu The Directory menu allows to configure the LDAP corporate directory services. For a description of tasks and parameters available in this menu, refer to chapter 7.9.2. 8.9.6 “XML applications” Menu The SIP–DECT XML terminal interface allows external applications to provide content for the user on the DECT handsets Aastra 600d / Aastra 650c display and much more. To make the XML terminal interface applications available for the handset user, the relevant hooks must be configured in the XML applications menu. There are 5 predefined hooks and 10 hooks which can be freely defined. The 5 predefined hooks are: x Call log: to replace the local call log x Redial list: to replace the local redial list x Presence: hook to reach a presence application x Server Menu: hook to reach a server menu x Action URIs: URI to be called in case of user/device events These hooks can be activated or deactivated but not deleted. Up to 10 additional hooks can be created dynamically. Please note: “Call log” and “Redial list” are replacing the local call log and redial list of the Aastra 600d / Aastra 650c if activated. Additionally the list access must be set depl-1230/0.2 Page: 146 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) to “automatic” or “PBX” on the handset in the settings / list access menu. If the list access is is set to “local”, the local list are used by the handset. An activated hook becomes available on a handset (incl. the cooresponding menu entry) after the next DECT location registration of the handset. This can be foreced by switching the handset off and on. The same applies if a hook shall be deactivated. The tasks which can be performed in the XML applications menu are mode-dependant. Configuration mode Monitor mode See chapter Create: create new XML hooks 8.9.6.1 Configure: configure selected XML hook in detail panel 8.9.6.2 Show details: shows selected XML hook in detail panel Delete: delete selected XML hook depl-1230/0.2 8.9.6.3 8.9.6.4 Page: 147 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) 8.9.6.1 Creating a New XML Hook Besides the 5 predefined XML hooks you can create up to 10 additional XML hooks. Adding individual XML hooks is only possible in configuration mode. To add an XML hook proceed as follows: 1 In the Tasks bar click on the Create command. The New XML application panel opens. 2 Configure the XML hook, see parameter description below. 3 Press the OK button. The following parameters can be set in the tabs of the New XML application panel: x Active: This setting activates or deactivated a configured XML application entry. x Name: The predefined hooks have fixed predefined names. A name has to be configured for the free defined hooks. The following parameters specify the URI: x Protocol: Select the protocol HTTP or HTTPS. x Server: Enter the IP address or the name of the server which provides the XML content. x User name: Enter the login user name if an authentication is required by the server. x Password, Password confirmation: Enter the password if the authentication is required by the server. x Path (and parameter): Enter the path and query of the URI. 8.9.6.2 Changing an XML Hook Changing XML hooks is only possible in configuration mode. To change the configuration of an existing XML hook proceed as follows: 1 Select the appropriate XML hook in the account table. 2 In the Tasks bar click on the Configure command. 3 Change the XML hook parameters, see parameter description in chapter 8.9.6.1. 4 Press the OK button. depl-1230/0.2 Page: 148 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) Please note: The 5 predefined XML hooks cannot be renamed. 8.9.6.3 Viewing XML Hook Details You can view the configuration of an XML hook in monitor mode. Proceed as follows: 1 Select the appropriate XML hook in the table. 2 In the Tasks bar click on the Show details command. The user account data is displayed in the user account detail panel. 3 To close the XML hook detail panel press the Cancel button. 8.9.6.4 Deleting XML Hooks Deleting XML hooks is only possible in configuration mode. To delete one or more existing XML hook proceed as follows: 1 Select the appropriate XML hook(s) in the table by activating the corresponding checkbox(es). 2 In the Tasks bar click on the Delete command. 3 Confirm the displayed prompt with OK. Please note: The 5 predefined XML hooks cannot be removed. depl-1230/0.2 Page: 149 (238) SIP–DECT OM System Manual Release 3.0 8.10 8 OM Management Portal (OMP) “License” Menu The License panel provides an overview on the currently used licenses. In configurator mode you can also import an activation or a license file: The license information is displayed in the following tabs: x General: shows general license status. x System: shows system license status. x Messaging: shows Integrated Messaging and Alerting Service (IMA) license status. x Locating: shows Locating license status. x G.729: provides information about how many G.729 channels are licensed and how many licenses are temporarily in use. To import an activation or a license file (only possible in configuration mode): 1 Press the File button to select the path and file name where the activation or license key is stored. 2 Afterwards press the Import button. For a detailed description on the OMM licensing model see chapter 4. 8.11 “General” Menu The General menu is available in all program situations. It contains following submenus: x Exit: Selecting this menu entry opens the exit dialog to close the OMP. depl-1230/0.2 Page: 150 (238) SIP–DECT OM System Manual Release 3.0 8 OM Management Portal (OMP) x Options: Selecting this menu entry opens the Options dialog (see below). “Options” dialog, “General” tab Language: You can select the OMP language. After changing the language, the OMP is automatically closed and has to be started again. The field User directory shows the path where the following files are saved if necessary: x System dump file “sys_dump.txt” x Expert console log file “spy.log” when the application terminates x Exception log file “exception.log” in case of a Java exception In the Warnings section you can activate/deactivate the display of warning messages in the OMP. “Options” dialog, “Expert console” tab In the Expert console tab you can enable several trace levels. The trace messages will be shown in the expert console which can be called up via the Help menu (see chapter 8.12). Moreover Additional class info can be enabled to show in which Java class the message has been generated. depl-1230/0.2 Page: 151 (238) SIP–DECT OM System Manual Release 3.0 8.12 8 OM Management Portal (OMP) “Help” Menu The Help menu is available in all program situations. It contains following submenus: x Expert console: Selecting this menu entry enable/disables the expert console. The expert console allows to trace OMP messages and to check the messages sent and received from the OMM. The expert console will be opened in a secondary window. x Info: Selecting this menu entry displays the End User License Agreement (EULA). x About AXI: Selecting this menu entry displays the About AXI dialog. This dialog compares the protocol version numbers which are provided by the OMM with the protocol version numbers supported by OMP. The warning icon shows a version mismatch. A version number “0.0.0” means the protocol element is not used by OMP. x About OMP: Selecting this menu entry displays the OMP version info and copyright. depl-1230/0.2 Page: 152 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects Configuration und Administration Aspects This chapter provides detailed information on various configuration and administration aspects regarding the SIP–DECT solution. 9.1 IP Signaling and Media Stream To establish a call between an IP Phone and a PP (e.g. Aastra 620d), the following IP streams must be established: x A signaling channel to and from the SIP phone. x A signaling channel to and from the OMM. x A control interface between the OMM and the RFP that has a connection to the PP (known as the primary RFP). x A Real Time Protocol (RTP) / Real Time Control Protocol (RTCP) connection between the SIP phone and the primary RFP. The following figure illustrates this scenario. To establish a call between two PPs, the same IP streams must be established like in the scenario before, except the IP phone is not involved. The following figure illustrates this scenario. depl-1230/0.2 Page: 153 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects A call from one PP to another that resides on the same RFP will loop back within the RFP if no media gateway is involved. So the call will not pass through to the Local Area Network (LAN). Although the voice packets will not impact LAN traffic, signal packets will. If the PP user is moving, the PP detects that another RFP has a better signal strength and, therefore, it starts the handover process. The media stream from the IP phone cannot move to the secondary RFP, so the primary RFP uses the LAN to direct the voice to the secondary RFP, as shown in the following figure. depl-1230/0.2 Page: 154 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects As the PP user moves into the next RFP zone of coverage, the PP detects that the RFP has a better signal strength. Again the media stream from the SIP phone cannot move to the secondary RFP, so the primary RFP uses the LAN to direct the voice to the new secondary RFP. 9.2 RFP Synchronization To guarantee a seamless handover if a caller moves from one RFP zone of coverage to another RFP zone of coverage, an accurate synchronization of the RFPs is necessary. The RFPs are synchronized over the air interface. The first RFP to complete startup will transmit a signal on the air for the other RFPs to synchronize from. If an RFP gets in sync, then it will transmit a signal on the air and will be the sync source for the next RFP. Only RFPs which can receive a synchronization signal will become synchronized. For the RFP to sync to another RFP the signal strength cannot drop below -70 dBm. You must consider this requirement during the site survey. depl-1230/0.2 Page: 155 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects As long as an RFP is not in sync, no calls can be established using this RFP. If an RFP loses the synchronization, the RFP does not accept new calls (“busy bit”). There is a delay of maximum 3 minutes until the active calls on this RFP are finished. Then it tries to get synchronized again. A SIP–DECT installation is more reliable if an RFP can receive the signal from more than only one RFP because the other signals are also used for synchronization. The sync-over-air solution is very reliable because all existing redundant paths are used for synchronization. Thus, hardware tolerances have only very little influence. No RFP has a key position. Only unfavorable setups without redundant synchronization paths can cause problems. Sometimes RFPs do not need to be synchronized, e.g. if they are in different buildings. These RFPs can be put into different clusters. RFPs in different clusters will not be synchronized with each other. Different clusters start up at the same time independently. 9.2.1 Initial Synchronization Procedure To avoid synchronization problems and to speed up the synchronization on system startup, an initial synchronization procedure will be used. For every cluster the following synchronization stages are defined. x Synchronization stage 0 - If at least one preferred RFP was configured, the synchronization process will wait up to 30 seconds for an incoming startup message of such a preferred RFP. Receiving a message will finishing stage 0 and the synchronization process jumps to stage 1. depl-1230/0.2 Page: 156 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects - If no message was received within the 30 seconds this stage will be terminated and the next stage will be started. - If no preferred RFP was configured, this stage will be ignored. x Synchronization stage 1 - If a preferred RFP was determined in stage 0, this one will be the synchronization source for the next upcoming RFPs. Otherwise the first RFP which sends a startup message will be the synchronization source for the next upcoming RFPs. - In this stage only RFPs reporting an RSSI value better than -65 dBm will be permitted to do a synchronization. - If an RFP has done its synchronization, this RFP will be also a synchronization source for other upcoming RFPs. - The initial timeout for this stage is 30 seconds. Whenever an RFP has finished its synchronization in this stage a new stage timeout value will be calculated. - If no RFP comes up within the timeout time or if all the upcoming RFPs do not fit the RSSI threshold, this stage will be terminated and the next stage will be started. x Synchronization stage 2 - The behavior of this stage is identical to stage 1, but an RSSI threshold value of -70 dBm is significant. x Synchronization stage 3 - The behavior of this stage is identical to stage 1, but an RSSI threshold value of -75 dBm is significant. x Synchronization finished - No more RSSI threshold value is significant. All the RFPs which failed the stage conditions above, are now permitted to do a synchronization. The last level “synchronization finished” will be achieved either all registered RFPs of this cluster are synchronized or the timer of stage 3 expires. 9.2.2 Checking the Synchronization of a Network For every cluster a periodically check of the synchronization of the network is done. If the network is split into at least two subnets, all the RFPs of the lesser subnet(s) will be resynchronized. While doing initial synchronization procedure this check is deactivated. You can check the RFP synchronization using the Sync view menu of the OM Management Portal (OMP), see chapter 8.7.5. 9.3 RFP Channel Capacity On air the RFP has 12 available time slots, 8 can have associated DSP resources for media streams. All DECT time slots are used for control signaling, SW download over air, messaging and bearer handover independent of associated DSP resources. If all 8 media stream channels are used the RFP announces a “busy bit”. In that case the PPs determine whether another RFP has an appropriate signal strength. If so, the PP will handover to that RFP. Once the handover has been completed, the RFP will then lower its “busy bit”. depl-1230/0.2 Page: 157 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects Whenever the busy state is announced a log entry is made to the system logs. If the announcement of busy raises in a specific area, a further RFP should be installed to double the number of media streams available for calls. Notes on Hi-Q connections Each Hi-Q connection uses, compared to conventional narrowband, the double capacity on the DECT air interface. Due to this fact, four Hi-Q connections (instead of eight) can be established via one RFP. It is not possible to have DECT XQ audio combined with Hi-Q audio within the same connection. 9.4 Network Infrastructure Prerequisites To establish and maintain an SIP–DECT installation, a network infrastructure is assumed, which comprises at least the following components: x RFPs x PPs x IP PBX/media server (e.g. Asterisk) x TFTP server Depending on the operational modes the following services should be provided: x DHCP x TFTP x SNTP x DNS x LDAP x Syslog daemon Notes on network infrastructure prerequisites x In NA outdoor RFPs may only be installed with the antennas shipped with the units. No other antennas or cabling are permitted. In EMEA the outdoor RFPs are shipped without antennas and you may use the units with one of the optional antennas (separate order no.). x A TFTP server is no longer required for boot of an RFP (L) 35/36/37 IP or RFP (L) 43WLAN. x TFTP, FTP(S), HTTP(S) are supported for RFP (L) 35/36/37 IP or RFP (L) 43WLAN software update. 9.5 SIP–DECT Startup This chapter contains detailed information on the startup (booting) process of the SIP–DECT solution. For booting an RFP (L) 32/34 IP or RFP (L) 42 WLAN, there must be at least one TFTP server on the attached network to load the OMM/RFP application software. depl-1230/0.2 Page: 158 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects RFP (L) 35/36/37 IP or RFP (L) 43 WLAN uses the internal flash to start the boot image. A fileserver is only needed for software update over the network, please see chapter 9.11.5. The essential network settings can be alternatively: x Communicated by a DHCP server at startup time. x Configured on the RFP with the OM Configurator tool (see chapter 9.6). The settings made by the OM Configurator will be saved permanently in the internal flash memory of each OMM/RFP. 9.5.1 TFTP and DHCP Server Requirements TFTP server requirements The RFP gets the boot image file from a TFTP server. The requirement list for the used TFTP server is defined as follows: x The support of RFC 1350 /1/ is mandatory. x To accelerate the download of a boot image file, it is possible to increase the packet size of the transmitted TFTP packets from 512 bytes per packet to 1468 bytes per packet. To use this optional feature, the TFTP server has to support RFC 2347 /3/ and RFC 2348 /4/. x To reduce the overall download time of the RFPs in a system, it is possible to use TFTP multicast download. To use this optional feature, the TFTP server has to support RFC 2090 /2/ and RFC 2349 /5/. To use the TFTP multicast option, the attached network has to support multicast too. Furthermore a support of IGMP, RFC 2236 /6/ is required. Note: If many RFPs loading the boot image simultaneously, the network load could increase significant. To balance the network load or for backup reasons, it is possible to configure more than one TFTP server in a network. DHCP server requirements A DHCP server needs to support RFC 2131 /9/. The TFTP and DHCP server need not to reside on the same host. 9.5.2 Booting Steps Booting is performed in two steps: 1 Starting the boot process. 6 Starting the application. Booter startup The RFP has only a little standalone application built into the flash. This software realizes the so called net boot process. On startup each RFP tries to determine its own IP address and other settings of the IP interface from the configuration settings in the internal flash memory. If no settings are available or these settings are disabled, the RFP tries to determine these settings via DHCP. The RFP gets the application image file from the TFTP server. depl-1230/0.2 Page: 159 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects Application startup After starting the application image the RFP checks the local network settings in its internal flash memory once again. If no settings are available or if they are disabled, it starts a DHCP client to determine the IP address of the OMM and other application startup settings. Depending on the given settings the following service applications will be started in these phase: OMM (OpenMobility Manager), SNTP, SNMP. There is no difference in booting that RFP which is chosen to be running in OMM mode from those which are in the RFP only mode. The decision is driven by the OMM IP address, which is read x within the local network settings, if active; x via DHCP request; x RFP configuration file (see 9.8). The RFP which has the same IP address as the dedicated OMM IP address will be the RFP which the OMM application runs on. 9.5.3 Booter Startup The SIP–DECT Release 2.0 (and higher) includes a booter version 3.4 with the following new features: x VLAN can be configured via the OM Configurator without a static IP configuration. This means that the first DHCP request will be done by using VLAN. x To balance the network load, up to three TFTP servers can be configured. This can be done using the OM Configurator (local setting) or using the DHCP option 150. Before starting the download, the TFTP server will be selected randomly by the booter. But, if the option “Preferred TFTP server” was set by the OM Configurator, the option “TFTP server address” will specify the TFTP server to use. No randomly selection will be done in this case. x To reduce the number of TFTP packets sent by the TFTP server, the packet size can be increased. This will be done by using a TFTP option (see 9.5.1 “TFTP server requirements”). x Multicast TFTP download is possible if the TFTP server and the connected network support this. x To indicate the actual state of the booter, the four LEDs of the RFP will be used (see 9.5.5). 9.5.3.1 DHCP Client Within the initial boot process the DHCP client supports the following parameters: x IP address mandatory x Net mask mandatory x Gateway mandatory x Boot file name mandatory x TFTP server mandatory x Public option 224: “OpenMobility” mandatory depl-1230/0.2 Page: 160 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects x VLAN-ID optional x TFTP server list optional 9.5.3.1.1 DHCP Request The DHCP client sends the vendor class identifier (code 60) “OpenMobility” and requests the following options in the parameter request list (code 55): x Subnet mask option (code 1) x Router option (code 3) x VLAN ID option (code 132) x TFTP server list (code 150) x Public option 224 (code 224) (string “OpenMobility”) x Public option 225 (code 225) (VLAN ID, not relevant for SIP–DECT) x Public option 226 (code 226) (not relevant for SIP–DECT) 9.5.3.1.2 DHCP Offer The DHCP client selects the DHCP server according to the following rules: x The public options (code 224) has a value equal to the string “OpenMobility”, or x the file field in the DHCP message has a sub string equal to “ip_rfp.cnt”. If none of the two rules above match, the DHCP offer is ignored. Information retrieved from the DHCP offer: x The IP address to use is taken from the yiaddr field in the DHCP message. x The IP net mask is taken from the subnet mask option (code 1). x The default gateway is taken from the router option (code 3). x The TFTP server IP address is taken from the siaddr field in the DHCP message and additionally DHCP option 150, if available. x The boot image filename is taken from the file field in the DHCP message, if this field is empty the default filename “iprfp.bin” is used. 9.5.3.1.3 Retries If the DHCP client does not get an appropriate DHCP offer, a new DHCP request is send after 1 second. After 3 DHCP requests are sent the DHCP client will sleep for 60 seconds. During this time the booter will accept a local configuration with the OM Configurator. This cycle will repeat every 3 minutes until either all the required DHCP options are provided or the system is manually configured using the OM Configurator tool. 9.5.3.2 TFTP Client The TFTP client will download the application image from the TFTP server. Both TFTP server and the name of the application image are supplied via the DHCP client. The application image is checksum protected. depl-1230/0.2 Page: 161 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects 9.5.3.3 Booter Update Each application SW comes with the latest released booter SW. The application SW will update the booter automatically. Please note: After an upgrade from an older OpenMobility Release (< 2.0) to an OpenMobility Release 2.x the booter of the RFPs will be updated to Version 3.4.x. The OpenMobility Configurator 2.x is required to configure RFPs with this new booter version. If you downgrade the RFP to an older release, the booter will not downgrade automatically. 9.5.4 Application Startup After successfully downloading and starting the application the RFP checks the local network settings in its internal flash memory once again. If no settings are available or if they are disabled, it starts a DHCP client to determine the IP address of the OMM and other application startup settings. 9.5.4.1 DHCP Client The DHCP client is capable of receiving broadcast and unicast DHCP replies. Therefore the flags field is 0x0000. The DHCP request contains the well-known magic cookie (0x63825363) and the end option (0xFF). Parameters The following parameters will be supported within this step: Option / Field Meaning Mandatory yiaddr IP address of the IP-RFP yes siaddr Parameter named “Boot Server Host Name” with value yes as the IP address of the TFTP server File Parameter named “Bootfile Name” with value of the path (optional) and name of the application image. For exampleiprfp2g.tftp. yes code 1 Subnet mask yes code 3 Default Gateway yes code 6 Domain Name Server no code 15 Domain Name no code 42 IP address of a NTP server no code 43 Vendor Specific Options yes code 66 URL specifies the protocol, server and path to access the RFP configuration files (see 9.8). no public option 224 Parameter named magic_str must be set to value "OpenMobility". yes depl-1230/0.2 Page: 162 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects Vendor specific options The Vendor Specific Options consist of: Vendor Specific Option Meaning Length Mandatory option 10 ommip1: Used to select the IP-RFP who should reside the Open Mobility Manager (OMM). yes option 14 syslogip: IP address of a Syslog Daemon no option 15 syslogport: Port of a Syslog Daemon no option 17 Country: Used to select the country in which the OMM resides. This enables country specific tones (busy tone, dial tone, …). no option 18 ntpservname: Name of a NTP Server no option 19 ommip2: Used to select a secondary IP-RFP who should reside the standby Open Mobility Manager (OMM). This option must be given if the OMM Standby feature should be used (see chapter 9.13). no option 24 rsturl: Restore URL URL for an automatic OMM Database import (see chapter 7.4.6.2 and chapter 8.5.5.1) no Example An example of the minimal contents for the Option 43 parameter value would be: 0a 04 C0 A8 00 01 where “C0 A8 00 01” represents “192.168.0.1” for the OMM IP. The option 43 contains a string of codes in hex the format is “option number” “length” “value” in this example 0a = option 10 (ommip1) 04 = following value is 4 blocks long C0 A8 00 01 = 192.168.0.1 If there is more than one option, add the next option at the end of the previous one. Depending of the DHCP server you need to end the option 43 with FF. Country specific tones Tones for the following countries are supported: Country code Country Germany Great Britain Switzerland Spain Italy Russia Belgium depl-1230/0.2 Page: 163 (238) SIP–DECT OM System Manual Release 3.0 Netherlands 10 Czechoslovakia 11 Austria 12 Denmark 13 Slovakia 14 Finland 15 Hungary 16 Poland 17 Belarus 18 Estonia 19 Latvia 20 Lithuania 21 Ukraine 22 Norway 24 Sweden 25 Taiwan 100 North America 101 France 102 Australia 9 Configuration und Administration Aspects 9.5.4.2 Configuration using DHCP The DHCP client of the RFP familiy requests serveral parameters that are used to configure the RFP. The DHCP client vendor class identifier (option 60) is different for the different RFP generations: x The second generation Hardware RFP (L) 32/34 IP / RFP (L) 42 WLAN use “OpenMobility”. x The third generation RFP (L) 35/36/37 IP / RFP (L) 43 WLAN use “OpenMobility3G”. Please note: The first lot of RFP (L) 35/36/37 IP / RFP (L) 43 WLAN comes with a prefieldtrial software on board which uses “OpenMobility” as DHCP client vendor class identifier. After update to SIP-DECT 3.0RC3 or later the DHCP client vendor class identifier is “OpenMobility3G”. BOOTP/DHCP Option Meaning Type Remarks siaddr IP address of the TFTP server 4 octets Only mandatory for RFP (L) 32/34 IP / RFP (L) 42 WLAN because of the NETBOOT process; optional for RFP (L) 35/36/37 IP/ depl-1230/0.2 Page: 164 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects RFP (L) 43 WLAN SW update File Path to the boot image server by the TFTP server N octets Only mandatory for RFP (L) 32/34 IP / RFP (L) 42 WLAN because of the NETBOOT process; optional for RFP (L) 35/36/37 IP/ RFP (L) 43 WLAN SW update 150 TFTP server list N * 4 octets Only used by the NETBOOT process of the RFP (L) 32/34 IP / RFP (L) 42 WLAN, optional 224 Magic String “OpenMobilitySIPDECT” * The client uses this option to select the server, mandatory * The magic string “OpenMobilitySIP-DECT” instead of “OpenMobility” (as defined in SIPDECT 2.x) makes sure that a SIP-DECT software is loaded into the RFP (L) 35/36/37 IP/ RFP (L) 43 WLAN even an different, non-SIP-DECT SW is previously installed and running. 9.5.4.3 Selecting the Right DHCP Server The DHCP client requests its own IP address using code 50. The DHCP client will select the DHCP server that offers the currently used IP address. Additionally the mandatory options must be offered otherwise the DHCP offer is ignored by the DHCP client. If no matching reply was received, the DHCP client resends the request 2 times after 1 second. Then the DHCP client will wait for 1 minute before resending 3 requests again. If the DHCP client cannot accept an DHCP offer within 3 minutes the RFP is rebooted. 9.5.5 RFP LED Status RFP (L) 32/34 IP RFP (L) 42 WLAN RFP 32/34 NA RFP (L) 43 WLAN RFP (L) 35/36 IP depl-1230/0.2 Page: 165 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects LED 1 Info / Booter; LED 2 System; LED 1 Info / Booter; LED 2 System LED 3 DECT; LED 4 (unused) LED 3 DECT; LED 4 WLAN The following tables show the LED status of an RFP according to the different states. A red respectively orange colored field in the table means that the LED glows permanently in red or orange. A split field with e.g. the specification 1s/1s means that the LED is flashing with a frequency of one second LED red on and one second LED off. Grey means that the LED is off. 9.5.5.1 Booter LED Status RFP (L) 35/36/37 IP, RFP (L) 43 WLAN The RFP (L) 35/36/37 IP and RFP (L) 43 WLAN booter uses LED1 for signaling its activity. After power up the LED 1 (INFO) is turned on red continuously. The successful start of the boot image is signaled by turning on LED 1 orange. Frage von Commando an Aastra: Wo sind die LED am Outdoor RFP 37 IP? Auf den bisher uns bekannten Fotos sind keine LED zu sehen… RFP (L) 32/34 IP, RFP 32/34 NA, RFP (L) 42 WLAN depl-1230/0.2 Page: 166 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects The following table illustrates the different meaning of the LEDs while the booter is active. LED1 (INFO) Booter LED2 (OMM / SYSTEM) LED3 (DECT) LED4 (WLAN) cont. Power connected cont. cont. 1s 1s 1,9s 0,1s 0,25s 0,25s 0,25s 0,25s 0,25s 0,25s 0,25s 0,25s 3,9s 0,1s cont. cont. Wait for OMM Configurator Input DHCP cont. cont. cont. DHCP failed, wait for OMM Configurator Input TFTP download after DHCP TFTP download after local configuration cont. cont. TFTP download after DHCP Multicast cont. cont. TFTP download after local configuration and multicast cont. cont. cont. TFTP failed, wait for OMM Configurator Input Now, the kernel / application is running: LED1 will never be RED 9.5.5.2 Application LED Status The following tables illustrate the different meaning of the LEDs while the application is starting or active. RFP (L) 35/36/37 IP, RFP (L) 43 WLAN LED1 (INFO) Kernel RFPM LED2 (OMM / SYSTEM) kernel boot phase (inflator, …) cont. 1s 1s DHCP phase 1,85s 0,1s DHCP failure (idle loop) 0,5s 0,5s obtaining external configuration 0,85s 0,1s external configuration failure cont. Ready Up&Running + RFP houses OMM 1,85s 0,15s RFP general depl-1230/0.2 LED3 (DECT) LED4 (WLAN) 1s 1s OMM connect phase Page: 167 (238) SIP–DECT OM System Manual Release 3.0 LED1 (INFO) 9 Configuration und Administration Aspects LED2 (OMM / SYSTEM) 1,85s LED3 (DECT) LED4 (WLAN) OMM connection failure (idle loop) 0,15s Up&Running (OMM connected) cont. 1,85s 0,15s Up&Running + OMM warning 1,85s 0,15s Up&Running + OMM failure RFP DECT DECT not configured on this RFP cont. DECT inactive (not synced yet) 1,85s 0,15s cont DECT 'on air' 1,85s 0,15s DECT + call active 1,85s 0,15s DECT + call active +busy bit RFP WLAN cont. WLAN not configured on this RFP 1,85s 0,15s WLAN inactive yet cont. 1,85s 0,15s License Reboot request cont. cont. WLAN 'on air' WLAN + assoc. clients cont. WLAN failure (e.g. 10 Mbit uplink) cont. cont. Branding mismatch (RFP not functional) cont. cont. RFP will reboot RFP (L) 32/34 IP, RFP 32/34 NA, RFP (L) 42 WLAN LED1 (INFO) LED2 (OMM / SYSTEM) LED3 (DECT) LED4 (WLAN) Now, the kernel / application is running: LED1 will never be RED Kernel RFPM depl-1230/0.2 kernel boot phase (inflator, …) cont. 1s 1s DHCP phase 1,9s 0,1s DHCP failure (idle loop) 0,5s 0,5s obtaining external configuration Page: 168 (238) SIP–DECT OM System Manual Release 3.0 LED1 (INFO) 0,9s 9 Configuration und Administration Aspects LED2 (OMM / SYSTEM) LED3 (DECT) LED4 (WLAN) external configuration failure 0,1s cont. 1,9s RFP general Ready Ready + OMM reside on this RFP 0,1s 1s 1s 1,9s 0,1s OMM connect phase OMM connection failure (idle loop) Ready (OMM connected) cont. 1,9s 0,1s Ready + OMM has a warning 1,9s 0,1s Ready + OMM has an error RFP DECT DECT not configured on this RFP cont. 1,9s DECT inactive (not synced yet) 0,1s cont DECT 'on air' 1,9s 0,1s DECT + call active 1,9s 0,1s DECT + call active +busy bit RFP WLAN cont. 1,9s 0,1s WLAN inactive yet cont. 1,9s License depl-1230/0.2 cont. cont. WLAN not configured on this RFP 0,1s WLAN 'on air' WLAN + assoc. clients cont. WLAN failure (e.g. 10 Mbit uplink) cont. Branding mismatch (RFP not functional) Page: 169 (238) SIP–DECT OM System Manual Release 3.0 9.6 9 Configuration und Administration Aspects State Graph of the Start-up Phases Power ON wait until Ethernet link is up Timeout or OMM Configurator input received base station reboot if new configuration is received by OMM Configurator wait 6 seconds for OMM Configurator input wait 60 seconds for OMM Configurator input No OMM Configurator input Check for Local Configuration active but no VLAN configured active and VLAN configured enable configured VLAN ID VLAN ID is in use TFTP Server list no offer or offer not ok. after retry. Inactive If only VLAN is configured DHCP If DHCP offer with VLAN code received Offer is valid multiple Servers are configured Only one server is configured contact this server contact Servers from List TFTP Download send read request failed / timeout yes Server offer Multicast TFTP IGMP join group no TFTP Download failed No other Server available Download failed. retry other configured servers Download failed only one Server configured other TFTP Server configured Start Application Phase depl-1230/0.2 Page: 170 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects Start Application Phase Check for Local Configuration DHCP inactive DHCP no answer or offer not okay (try 3 minutes) active enable configured parameter valid offer received failed if no valid config is available on this RFP Check for RFP config file not set config file server is set download and apply RFP config files apply config files (overwrite local parameter) Application init Check for OMM IP failed this RFP is OMM start OMM application RFP application connect to OMM connect to OMM failed apply config from OMM init configured applications failed syslog SNMP DECT WLAN Failure e.g. connection to OMM lost up & running 9.7 any time major config change of local configuration Static Local Configuration of an RFP (OM Configurator) As an alternative to DHCP configuration, the RFPs/OMM may be individually statically configured using the OM Configurator tool. Note: The OM Configurator requires the Java Runtime Environment version 1.6 or higher. The settings, which are configured on the RFP with the tool OM Configurator, will be saved permanently in the internal flash memory of the RFP. depl-1230/0.2 Page: 171 (238) SIP–DECT OM System Manual Release 3.0 Note: 9 Configuration und Administration Aspects An initial configuration of the RFPs (L) 35/36/37 IP / RFP (L) 43 WLAN via the OM Configurator tool requires a login and password. The default login and password is “omm” and “omm”. No login is required for the initial configuration of the previous RFP family (RFPs (L) 32/34 IP / RFP (L) 42 WLAN. With the launch of SIP–DECT 3.0 the appropriate OM Configurator especially for the stream ‘SIP-DECT’ must be used for the local configuration of RFPs. There are two modes of operation. x The OM Configurator is used to set a VLAN ID but other parameters are still requested via DHCP. OR x All parameters are set via the OM Configurator and DHCP is not used anymore. The parameters configurable via the OM Configurator comply with the DHCP option, please see chapter 9.5.4 for details. depl-1230/0.2 Page: 172 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects On systems with multiple Ethernet adapters select the interface to use for the configuration of the RFPs. To configure an RFP, at least the MAC address and all mandatory options (see table below) have to be set. The MAC address must be entered in a format such as xx-xx-xxxx-xx-xx. If the RFP has already an IP address, enter this address in the IP address field. In this case you can reach the RFP from outside the local LAN segment. This setting is optional. To set additional parameters, press the Add parameter button and choose the desired parameter. Please note: Select the yes checkbox for the RFP to Use local configuration otherwise DHCP will be used. Press the Send configuration button to transmit the parameters to an RFP. Boot parameters (comply with DCHP options) Parameter Type Meaning Use local configuration mandatory The parameter defines whether the local configuration settings should be used when booting or not. IP Address mandatory IP address of the RFP Net mask mandatory Subnet mask of the IP network depl-1230/0.2 Page: 173 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects TFTP Server Address Only mandatory for RFP (L) 32/34 IP / RFP (L) 42 WLAN because of the NETBOOT process; Optional for RFP (L) 35/36/37 IP / RFP (L) 42 WLAN SW update IP address of the TFTP server, set to 0.0.0.0 is not used TFTP File Name Only mandatory for RFP (L) 32/34 IP / RFP (L) 42 WLAN because of the NETBOOT process; Optional for RFP (L) 35/36/37 IP / RFP (L) 42 WLAN SW update The boot file be read from the TFTP server. TFTP server list Only used by the RFP (L) 32/34 IP / RFP (L) 42 WLAN, optional List of additional TFTP servers to load the boot file Preferred TFTP server Only used by the RFP (L) 32/34 IP / RFP (L) 42 WLAN, optional Try to load the boot file from ‘TFTP Server Address’ as first. OMM IP Address mandatory IP address of the OpenMobility Manager Router addresses optional IP address of Default gateway DNS Addresses optional IP address of DNS server DNS Domain optional Domain name of the network Broadcast Address optional The broadcast address for that network 2nd OMM IP Address optional IP address of the standby OMM Country optional Defines the country in which the OMM resides to handle country specific call progress tones. NTP Server Address optional IP address of an NTP Server NTP Server Name optional Name of an NTP Server VLAN ID optional VLAN identifier Use VLAN and DHCP optional The parameter defines whether only the local VLAN configuration settings should be used when booting or not. Syslog IP Address optional Destination IP address for the syslog Syslog Port optional Destination port for the syslog Restore URL optional URL for an automatic OMM Database import (see chapter 7.4.6.2 and depl-1230/0.2 Page: 174 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects chapter 8.5.5.1) Configuration file server optional URL of a server with configuration files (ipdect.cfg| .cfg) alternatively/in addition to OM Configurator settings. Syntax: {ftp|ftps|http|https}://[user:password@] server/[directory/] or tftp://server/[directory/] Core dump* * can not be set via DHCP optional In case of an system error the RFP creates core dump files and transfers them using TFTP to the folder configured in the TFTP file name. The configuration can only be set after powering up or at the retry phase (LED flashing 0.25 Hz) or in kernel mode, please see chapter 9.5 for details. The OM Configurator tool waits 2 seconds and retries transmitting the data 3 times. If you want to read the configuration parameters from an RFP, set the MAC address and the IP address additionally and press the List configuration button. All parameters will be listed in the OM Configurator tool. Press the Reset configuration button to clean all input fields and additional parameters. Since the OpenMobility version 1.5, login data can be used to prevent against unauthorized configuration changes. If authorization is used, mark the Login checkbox and enter the user name and the password into the fields User and Password. This OM Configurator is backward compatible to previous OpenMobility versions without login support. A forgotten password could not be recovered but deleted using the Factory defaults button. Send the displayed cookie to the OpenMobility manufacturer support. After receiving the password reset key from the support, enter it into the Enter reset key dialog. This will delete the complete local configurations from the internal flash memory of the RFP, too! Please note: With the password reset all local configurations inclusively possible existing OpenMobility configurations will be deleted. An RFP outside the local LAN segment could also work as proxy. Mark the as proxy checkbox to enable this functionality. Then the MAC address will be used to address an RFP in the LAN segment of the proxy RFP. Scanning for available RFPs and configuration of multiple RFPs via a configuration file could be used also with the proxy mechanism. depl-1230/0.2 Page: 175 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects Use the Scan button to search for available RFPs in the local LAN segment or via the proxy mechanism in outside LAN segments. All MAC addresses of the found RFPs will be displayed in the left RFP list. The status LEDs and the update button are disabled after scanning for RFPs. The list of RFPs could be saved by using the Save RFPs button. This enables an administrator to edit the configuration data of multiple RFPs via a text editor or a spread sheet application like described in section 11.7.3. depl-1230/0.2 Page: 176 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects The prepared configuration file can be loaded using the Load config. button. Log files with status information about parsing and executing the configuration file and data are stored into the same directory. Use the Run configs button to start the iterative configuration of multiple RFPs using the prepared and loaded configuration file. The LEDs will display whether the configuration has succeeded or failed. See the log file content for further information. If the configuration has failed for an RFP, the configuration could be repeated using the update button beside the LEDs. Note: depl-1230/0.2 Note that the login and proxy data will be used for the whole configuration file! Page: 177 (238) SIP–DECT OM System Manual Release 3.0 9.8 9 Configuration und Administration Aspects RFP Configuration Files RFP (L) 35/36/37 IP / RFP (L) 43 WLAN configuration files A new configuration parameter specifies the location of the software that will be installed into the flash of an RFP (L) 35/36/37 IP / RFP (L) 43 WLAN and activated by the OpenMobility Manager. OM_SwImageUrl=ftp://172.30.207.21/openmobility/SIP-DECT_3.0.dnld TFTP, FTP(S), HTTP(S) are supported for an RFP (L) 35/36/37 IP / RFP (L) 43 WLAN software update, please see section 9.11.5. RFP (L) 32/34 IP / RFP (L) 42 WLAN configuration files IP-RFPs support two RFP configuration files which are downloaded from a server to get configuration settings. There is one common file “ipdect.cfg” for all RFPs and there is one file specific file “ .cfg” for every single IP-RFP. The RFP requests the “ipdect.cfg” file if an URL is given. The RFP specific .cfg is requested if this is indicated in the common “ipdect.cfg” file. It is possible that all RFPs request “ipdect.cfg” and only selected RFPs request the .cfg to have a specific configuration on some RFPs. Standard IP settings Standard IP settings which are necessary to have access to the RFP configuration files are configured via DHCP (see chapter 9.5) or OM Configurator (see chapter 9.6). These are: x IP address x Net mask x Gateway (i.e. router) x Boot file name x TFTP server x Public option 224: “OpenMobility” (to identify the relevant DHCP offer) x Domain Name Server (optional) x Domain Name (optional) x URL to the RFP configuration files All other parameters can be set by using an RFP configuration file even if standard DHCP options or OM Configurator parameters exist. Configuration file source A TFTP / FTP(S) / HTTP(S) URL specifies the protocol, server and path to access the RFP configuration files. The URL can include account data if appropriate. Syntax: {ftp|ftps|http|https}://[user:password@]server/[directory/] or tftp://server/[directory/] The URL configuration is done via DHCP option code 66 or the OM Configurator. x “ipdect.cfg” is mandatory if an URL is given by DHCP option code 66 or local static configuration via the OM Configurator. depl-1230/0.2 Page: 178 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects x “ .cfg” is mandatory if it is indicated in the “ipdect.cfg” that a “ .cfg” exists for the RFP. (There is a key word to indicated that a “ .cfg” exists for every RFP.) Mandatory means: if a file can not be loaded then the RFP will not start. This is relevant for the following scenarios: x RFP boot / startup (after power on, SW update, …), x a change of the URL. Parameter settings priority Some parameters can be set via DHCP / OM Configurator or by using the files “ipdect.cfg” or “ .cfg”. If a parameter is provided by more than one of the possible ways, the last setting has priority. There is the following order: x DHCP / OM Configurator x ipdect.cfg x .cfg It is also possible to remove settings. Times when RFP configuration times are read The configuration files are read by the RFP application e.g. during startup as shown by the following figure. depl-1230/0.2 Page: 179 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects Configuration files are read by the RFP application at the following times: x RFP reboot, x Restart of an application e.g. OMM, x DHCP renew and DHCP bound, x Configuration changes via OM Configurator, x RFP configuration file update check. RFP configuration file update check RFP configuration file update check has the following characteristics: x The interval is configurable in the RFP configuration files (minimum interval: 5 minutes; maximum interval: 7 days). x Default interval: 24 hours. x Both RFP configuration files are checked if relevant. What if the configuration file(s) cannot be retrieved x The RFP continues operation with the last successfully retrieved configuration file(s). x The RFP will retry to get the configuration files, starting with an interval of 1 minute and doubling this interval with each retry, not exceeding the update check interval (either default or configured). x If the RFP is using DHCP, a renew of the lease is scheduled so that possible changes in DHCP configuration will be detected. x Failures in getting the configuration files is reported via Syslog. Handling of parameter changes A change of a parameter (DHCP / OM Configurator, RFP config files) does not necessarily mean a change of the RFP configuration because the parameter could be covered up or previously set by using an alternative way. Example 1: IP address of a Syslog Daemon has been changed in “ipdect.cfg” but is covered up by “ .cfg” in which this parameter has not been changed. Example 2: A parameter is new in “ .cfg” but has been set previously in “ipdect.cfg” with the same parameter value. Only if a parameter change causes a change of RFP configuration as a sum of e.g. DHCP / OM Configurator, “ipdect.cfg” and “ .cfg” then the RFP will perform an configuration update procedure. Depending on the changed parameter an RFP configuration update is done: x On the fly without any service interruption e.g. IP address of a Syslog Daemon has been changed. x With an application restart e.g. OMM IP address has been changed. depl-1230/0.2 Page: 180 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects Configuration file syntax ############################################################################## # sample configuration file for the OpenMobility system # retrieved via the net using file transfer protocols # like tftp, ftp or http ############################################################################## # comments are starting with the hash sign: "#" ############################################################################## ## # BOOL variables support the following values # YES Y 1 TRUE (case does not matter) # NO N 0 FALSE (case does not matter) # other values are interpreted as false ############################################################################## # configuration files check interval # time interval for checking the remote cfg files in seconds # minimum value is 300 (5 minutes) # maximum value is 604800 (7 days) OM_ConfigCheckInterval=500 ############################################################################## # personal configuration files # personal configuration files have the following name # .cfg, where .cfg is of the form # e.g. 003042ABCDEF.cfg # all RFPs will also load the .cfg file OM_PersonalConfigAll=1 # BOOL # DO load the individual file for the RFP with mac 003042FFF0D0 # no matter what OM_PersonalConfigAll says OM_PersonalConfig_003042FFF0D0=y # DO NOT load the individual file for the RFP with mac 003042ABCDEF # no matter what OM_PersonalConfigAll says OM_PersonalConfig_003042ABCDEF=n # BOOL ############################################################################## # OpenMobility system # the OpenMobilityManager IP addresses OM_ManagerIpAddress1=172.30.205.17 OM_ManagerIpAddress2=172.30.205.18 OM_ManagerRestoreDbUrl=ftp://172.30.207.21/pub/backup.txt OM_ManagerCountry=2 ############################################################################## # SYSLOG OM_SyslogIpAddress=172.30.207.20 OM_SyslogPort=10115 ############################################################################## # NTP OM_NtpServerName=de.pool.ntp.org OM_NtpServerIPAddress=131.188.3.220 130.149.17.21 ############################################################################## # MISC # transfer core files to the following url location OM_CoreFileTransfer=ftp://172.30.206.21/pub # currently not implemented ############################################################################## 9.9 RFP (L) 35/36/37 IP / RFP (L) 43 WLAN Software Update The software checks several locations for a software update (software different from the currently active software). If found then the software is copied to the flash leaving the running depl-1230/0.2 Page: 181 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects software intact. After successful installation the OMM is informed about the different software. Activation of the software is then managed by the active OMM. RFPs that do not have a connection to the OMM activate and start the software immediately. Locations for SW update are: x Attached USB mass storage device with a software image iprfp3g.dnld in its root. The USB mass storage device must be formatted using the vfat32 file system. x If ipdect.cfg supplies the OM_SwImageUrl variable then the URI is used to get the boot image. Please see chapter 9.8. x TFTP server, path and file configured using the OM Configurator or via DHCP. 9.10 802.1Q Support The IP RFPs support VLANs according to IEEE 802.1Q. VLAN can be administered x on a per port basis of the LAN switch assuming that the IP RFPs are connected to a single port of a switched Ethernet environment, or x by advising a VLAN ID to the IP RFP matching the VLAN they should operate in. VLAN tagging has only to be set to IP RFPs’ in the last case. The whole section refers to that case. With this, also 802.1p priority within Ethernet frames is enabled. The scope of the following description is only the VLAN tagging and obtaining the VLAN ID. Quality of Service mechanisms like 802.1p priority and DiffServ are not in the scope of this section. VLAN implementation notes referring to IP RFPs: x IP RFPs are not able to support VLAN ID 0 as described later in this section. Any other valid VLAN ID can be configured. x If a VLAN ID is configured all traffic from an IP RFP will be tagged with this VLAN ID. x The VLAN ID configured for a IP RFP is also used for the OMM running on this IP RFP. x Once a VLAN ID is set to the IP RFP, incoming frames are only accepted if they are tagged as well. Therefore the switch port has to be configured as a tagged trunk for this VLAN. x The VLAN configurations can be done using DHCP or the interface for the local static configuration, the OM Configurator. x The usage of VLAN does influence the boot up process of the IP RFP because the VLAN configuration takes place during the boot up phase. x The default setting is not to tag the traffic. 802.1Q tagging is enabled if the VLAN ID is set. If no VLAN ID is set 802.1Q is disabled. Why not VLAN ID 0 ? VLAN ID 0 means that the IP RFP’s traffic belongs to the port/native VLAN. The Ethernet switch port to which the IP RFP is connected must be configured to accept 802.1Q tagging for this to work and the switch must interpret VLAN ID 0 as the port/native VLAN ID per the IEEE 802.1Q standard. The packets from the IP RFP are tagged with VLAN ID 0 and the packets send to the IP RFP are tagged with the port/native VLAN ID. This scenario does not work, because the IP RFP depl-1230/0.2 Page: 182 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects supports only one VLAN ID in both directions. That means the VLAN ID in receive direction has to be the same as in send direction. 9.10.1 Boot Phase of IP RFPs (DHCP) Because the IP RFP does not know about VLAN during the beginning of the start up, two DHCP scopes are required. This applies regardless of the Ethernet switch being used. The following scenario with arbitrary VLAN Ids’ details the steps an IP RFP would go through in a typical dual-VLAN implementation. Step A. DHCP scope within the native VLAN: 1 IP RFP boots up and obtains an address on the native VLAN. 2 The data VLAN DHCP option 132 directs the IP RFP to go to voice VLAN. Step B. DHCP scope within the voice VLAN: 1 IP RFP releases the data VLAN address and obtains an address on the voice VLAN and all other parameters. The voice VLAN does not have the DHCP option 132, because a IP RFP already on the voice VLAN does not need to be directed to go there. 2 IP RFP is operational on the voice VLAN. If a reboot or power cycle occurs, the IP RFP returns to step A. If an IP RFP cannot obtain an address on the voice VLAN, due to network or DHCP problems then the IP RFP falls back automatically to untagged frames (native VLAN). To avoid the DHCP scope within the native VLAN the VLAN ID to be used can be set permanently via OMC without losing the ability to provide other parameter via DHCP, please see section 0 Static Local Configuration Of An RFP. 9.10.2 Boot Phase of IP RFPs (Local Configuration) The PC running the OM Configurator has to be a member of the native VLAN for the 1st configuration, later on within the voice VLAN set. If a wrong or unknown VLAN ID is set, you can overwrite or read the configuration using no VLAN tag on the switch port in the first 6 seconds after the RFP is connected to a power supply / PoE. After 6 seconds the RFP apply the local configurations and start using the parameters. 9.11 Installing OMM in Host Mode In this case the OMM software has to be installed on a PC running with Red Hat Linux. The network parameters with which the OMM works in this mode depend on this PC’s network configuration. Once started, OMM works permanently on the PC. In case of fatal error or PC restart, OMM will restart automatically. depl-1230/0.2 Page: 183 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects Please note: Check that the versions of the OMM and RFP software on your SIP–DECT installation are the same. Note that the OMM in host mode is not supported on virtual machines. 9.11.1 System Requirements The Linux PC OMM requires the following configuration: x Red Hat© Enterprise Linux 6 for x86 server x Server HW minimum: - Processor : Dual Core Intel® Xeon® 3065, 2.33GHz, 4MB cache - Bus 1333 MHz - Memory : 2GB DDR2 SDRAM 667 MHz - Hard disk: 80 GB SATA 7200 rpm - 1 Gbit/s Ethernet interface 9.11.2 Installing the OMM Software The OMM software for Linux Redhat x86 server is provided in form of a self-extracting executable file e.g. “SIP-DECT_3.0.bin”. This binary file comprises two Red Hat© packages: x SIP-DECT-OMM- .i586.rpm OpenMobility Manager software. x SIP-DECT -HANDSET- .i586.rpm Software for Aastra 610d/620d/630d and Aastra 650c handsets The Aastra 610d/620d/630d and Aastra 650c handset software can be updated via the Air interface, see chapter 9.17. A separate software package can also be provided for specific updates of the handset software. IMPORTANT : Log on as user root to install and/or update OMM. If you do not login as root to open the OMM console, the path to ommconsole is not set and you have to enter the whole path “/usr/sbin/ommconsole” to start the OMM console. Command syntax For extraction and automatic standard installation SIP-DECT_3.0.bin For extraction and automatic standard installation SIP-DECT_3.0.bin -f For extraction of RFP packages only SIP-DECT_3.0.bin –x RPM packages can also be installed manually. For a first OMM type installation rpm –i SIP-DECT-OMM- .i586.rpm depl-1230/0.2 Page: 184 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects For an OMM software update (see chapter 9.12) rpm –U SIP-DECT-OMM- .i586.rpm For Aastra 610d/620d/630d and Aastra 650c handset software installation rpm –i SIP-DECT-HANDSET- .i586.rpm To delete a software release rpm –e SIP-DECT-HANDSET and rpm –e SIP-DECT-OMM To check an installed release rpm –qi SIP-DECT-OMM or rpm –qi SIP-DECT- HANDSET After the installation phase, start OMM by running the command “/etc/init.d/sip-dect-omm start” depl-1230/0.2 Page: 185 (238) SIP–DECT OM System Manual Release 3.0 9.11.3 9 Configuration und Administration Aspects Configuring the Start Parameters The basic data for initializing OMM is stored in the file “/etc/sysconfig//SIP-DECT”. It can be edited to modify the OMM interface. ############################################## # OMM configuration file ############################################## # if you use a different interface for omm activate/correct parameter below #OMM_IF="eth0" OMM_CONFIG_FILE=/opt/SIP-DECT/tmp/omm_conf.txt #if you use OMM resiliency for OMM activate parameter below with OMMs IP adresses #OMM_RESILIENCY="192.168.0.1:192.168.0.2" # Automatic OMM database import: # TFTP / FTP / HTTP(S) URL specifies the import server and file #RST_URL=ftp://download-url.com/directory/file.dat # country tones: # VS_COUNTRY_DEU = 1, VS_COUNTRY_GBR = 2, VS_COUNTRY_CHE = 3, VS_COUNTRY_ESP = 4, VS_COUNTRY_FRA = 5, VS_COUNTRY_ITA = 6, # VS_COUNTRY_RUS = 7, VS_COUNTRY_BEL = 8, VS_COUNTRY_NLD = 9, VS_COUNTRY_CZE = 10, VS_COUNTRY_AUT = 11, VS_COUNTRY_DNK = 12, # VS_COUNTRY_SVK = 13, VS_COUNTRY_FIN = 14, VS_COUNTRY_HUN = 15, VS_COUNTRY_POL = 16, VS_COUNTRY_BLR = 17, VS_COUNTRY_EST = 18, # VS_COUNTRY_LVA = 19, VS_COUNTRY_LTU = 20, VS_COUNTRY_UKR = 21, VS_COUNTRY_NOR = 22, VS_COUNTRY_EUN = 23, VS_COUNTRY_SWE = 24, # VS_COUNTRY_TWN = 25 COUNTRY="2" 9.11.4 Parameters Description OMM_IF Interface for communicating with the RFPs (by default: eth0) OMM_CONFIG_FILE Directory containing the OMM configuration file (by default: /etc/omm_conf.txt) OMM_RESILIENCY In case of OMM redundancy, enter the two IP addresses of the OMMs. See also section 9.13. Restore URL Restore URL for an automatic OMM database import (see chapter 7.4.6.2) COUNTRY Country tone schema Specific Commands – Troubleshooting The OMM software has been installed but does not work automatically when the PC starts. The command below stops or starts OMM manually (User root): /etc/init.d/sip-dect [start|stop|restart]. The command line interface for OMM is accessible via telnet on port 8107. Malfunction To check whether OMM is working, see the list of procedures for the “SIP-DECT” process. If OMM does not start, delete the lock file “/var/lock/subsys/SIP-DECT”. depl-1230/0.2 Page: 186 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects To delete the OMM configuration remove the OMM configuration file “/opt/SIPDECT/tmp/omm_conf.txt” (by default). 9.11.5 Upgrade from OMM Version 2.x to 3.x in Host Mode To update a OMM system from version 2.x to 3.x, you must delete the old OMM software package rpm –e omm_ffsip-OMM omm_ffsip-HANDSET and install the SIP-DECT_3.0.bin software. In this case the installation routine copies automaticly the OMM database. If there are changes in start parameters you can copy the old saved config file from /etc/sysconfig/omm_ffsip.rpmsave to /etc/sysconfig/SIP-DECT. 9.12 Updating the OMM To prevent a full breakdown of the DECT network for large systems during an update, a new mechanism has been introduced. The procedures for updating an existing DECT installation with a new software depend on x is a single OMM or standby OMM installation used and x is the OMM running on an RFP or PC. The OMM “standby” feature is described in section 9.13. Especially for installations using a standby OMM this new update mechanism allows an update of the RFPs with a minimum impact to the DECT services. All RFPs check the availability of new boot image file automatically when: x the DHCP lease is refreshed, x the RFP lost the connection to the OMM, x one of the service applications running on the RFP must be restarted, and x an RFP configuration file update check is done (see chapter 9.8). As soon as an RFP detects a new boot image file on the TFTP server it notifies this to the OMM. The OMM keeps track when it is save to restart an RFP in order to leave the DECT service synchronal. RFPs scheduled for restart are marked with a yellow sign within the Web service (see chapter 7.6.1) or in a separate column within the OM Management Portal (OMP), see chapter 8.7.1.1. 9.12.1 Updating a Single OMM Installation In case of a single OMM installation, a breakdown of the DECT network during the update procedure is unavoidable. Please note: Updating a single OMM installation will cause a breakdown of the DECT network during the update procedure. For the update replace the boot image file on the TFTP server(s) with the new one. depl-1230/0.2 Page: 187 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects OMM in RFP mode If the OMM is running on an RFP force the update of this RFP by pressing the Update button on the System settings web page (see chapter 7.4.1.2). The RFP checks the boot image file on the TFTP server and reboots if a new one is found. OMM in host mode (on Linux PC) If the OMM is running on a dedicated Linux PC, install the new software as described in section 9.11.2 on that PC with the command “SIP-DECT_3.0.bin”. This stops automatically the running OMM and installs the new software. After the installation phase, restart the OMM by running the command “/etc/init.d/sip-dect-omm start”. As soon as the RFPs lost the connection to the OMM (because of the update), the RFPs detects that a new image file is on the TFTP server and reboots with the new image file. 9.12.2 Updating a Standby OMM Installation Please note: Updating a standby OMM installation will cause a switch over between both OMMs. All active calls will be dropped. For the update replace the boot image file on the TFTP server(s) with the new one. OMM in RFP mode Force the update by pressing the Update button on the System settings web page (see chapter 7.4.1.2). The OMM-RFP checks the boot image file on the TFTP server and initiates an update procedure, if a new image file has been found. The automated update procedure performs the following steps: 1 Reboot the RFP residing the standby OMM. 2 Reboot the RFP residing the active OMM which causes a failover to the standby OMM. 3 Reboot all other RFPs that are able to find the new boot image file one by one. This is managed by the new active OMM. This procedure reduces the downtime of the SIP–DECT system to a minimum due to the optimized failover. Please note: Please be aware that a minimum downtime of the system can only be reached if the system was in a stable working state when initiating the update and the IP infrastruckture guarantees a fast update of the OMM RFPs e.g. no 64kbit/s line to donload the SW into the RFP. A RFP typically laods the SW from a server within 12 seconds in a LAN environment. OMM in host mode (on Linux PC) For an update with a minimum impact to the DECT service do the following: 1 Replace the boot image file on the TFTP server(s). 2 Manually update the standby OMM. a) Stop the OMM service. b) Install the new SW. depl-1230/0.2 Page: 188 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects c) Start the OMM service. d) Wait at least 30 seconds before you go on with updating the active OMM. 3 Manually update the active OMM. a) Stop the OMM service. b) Install the new SW. c) Wait at least 30 seconds. d) Start the OMM service. Please note: A one by one update of RFPs is not possible if the signaling interface between the OMM and the RFP has been changed. Please see the release notes delivered with the software. To enforce an update of the whole DECT system at once, deactivate / update both OMMs simultaneously. The RFPs will lost the connection to both OMMs and will automatically restart with the new boot image file. 9.13 OMM Standby To perform OMM standby, two OpenMobility Managers have to be provided in an OMM network. One is working as the active OMM, and the other one is working as the standby OMM. In the event that the RFP designated as the OMM fails, the other RFP, designated as the secondary OMM automatically assumes the role of the OpenMobility Manager. How OMM Standby Works During system start-up, each IP-RFP retrieves either one (if no standby OMM is configured) or two (if OMM Standby is configured) OMM IP addresses and both try to connect to each other. The active OMM will serve all connections from RFPs or handsets. During normal operations, both the active and the standby OMM are in contact and monitor each other’s operational state. They continually exchange their current standby states and the standby OMM receives a copy of any configuration changes on the active OMM. Provided that both OMMs are in contact with each other, their databases are synchronized automatically. If the primary OMM fails, the OMM responsibilities are taken over by the standby OMM to maintain operation. A “No Standby” warning is displayed on the OMM web interface, indicating that there are no longer two functioning OMMs in the network or cluster. Configuration changes are done unsafe in this situation. If the active OMM fails, the inactive OMM recognizes this and begins to act as the active OMM, and the web service is started. If the connection between the two OMMs fails, the network or cluster essentially breaks into two operational parts. The standby OMM now becomes the active OMM. At this point, the two OMMs cannot detect one another and, therefore, cannot synchronize. When the connection between the two OMMs is re-established, the synchronization of the OMMs forces one OMM to become the standby OMM again. Once the recently failed OMM returns to service and becomes the inactive OMM, it does not resume the role of active OMM. depl-1230/0.2 Page: 189 (238) SIP–DECT OM System Manual Release 3.0 9.13.1 9 Configuration und Administration Aspects Configuring OMM Standby Each RFP of the DECT system have to be configured with two OMM IP addresses. This both OMM addresses can be either configured via DHCP (see chapter 9.5.1) or with the OM Configurator (see chapter 9.6). 9.13.2 Fail Over Situations Fail over occurs under following circumstances: x An OMM error occurs on the active OMM. x The RFP acting as the active OMM is shut down or rebooted at the SSH console. x The OMM is rebooted in the web browser menu. x The active OMM is unreachable. The standby OMM becomes the active OMM under following circumstances: x The configured SIP Proxy/Registrar is reachable. x The other OMM has a larger IP Address while no OMM is active and both OMMs are in contact with each other (normally at system startup). When the OMMs get in contact again: x Both OMMs check which one ran for a longer period. That one will become the active OMM. The other one falls back to the standby one. 9.13.3 Fail Over Failure Situations Fail over failure occurs under following circumstances: The IP connection between OMMs fails and the configured SIP Proxy/Registrar is unreachable. In this case the active OMM shall wait until the SIP Proxy/Registrar is reachable. The following state diagram shows the OMM Standby states: depl-1230/0.2 Page: 190 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects “OMM sync OK” means: OMMs are synchronized with each other and are able to exchange their operational states “OMM sync NOK” means: OMMs are not synchronized with each other and are not able to exchange their operational states *1) In this state the DECT air interface might not be in a definite state as both OMMs are active but cannot connect with each other! This is caused by IP network failures and cannot be handled by the SIP-DECT system in a proper automatic way. In such a scenario it is not predetermined which RFP connects with which of the 2 OMMs. The DECT network can split-up into two unsynchronized DECT sub-networks. This can cause voice quality and handover problems. With these new states (“… SIP inactive”) the OMM standby mechanism takes care in the start up phase that all SIP users does not become active if the PBX is not reachable. This avoids a possible double SIP registration when the PBX and the other OMM is reachable again before both OMMs negotiate with each other which OMM becomes the active one. The double SIP registrations might cause a user not to be reachable when his latest SIP registration came from that OMM that was negotiated to be the inactive one and the SIP registrar cannot handle 2 or more simultaneous registrations (non-forking proxy). depl-1230/0.2 Page: 191 (238) SIP–DECT OM System Manual Release 3.0 9.13.4 9 Configuration und Administration Aspects Specific Standby Situations Some aspects have to looked at in case of OMM state changes when they are unsynchronized. 9.13.4.1 How A Standby OMM Becomes Active As the above figure shows in case of an unsynchronized OMM state the standby OMM has to decide whether to become active or not. For this purpose the OMM tries to contact the configured SIP proxy and registrar. The OMM starts a SIP registration for the handset with the lowest phone number and sends an OPTIONS request to the configured proxy. If there is an answer the SIP proxy/registrar will be considered as reachable and the OMM becomes active. 9.13.4.2 Handling When Both OMMs Are Not Synchronized In an unsynchronized OMM Standby state the connection between the OMMs is broken. In case of a network problem both OMMs might be in this state. During this time an inconsistent OpenMobility system is working with some constraints. The Web service will warn with the warning “No Standby” for both OMMs in this situation and possible made configuration changes are not save. In any case, when both OMMs get in contact again with each other, the longer running one becomes the active one and that will overwrite the database file in the standby OMM. Configurations made in this becoming standby OMM would be lost! 9.13.4.3 Two DECT Air Interfaces In case of both OMMs are in an unsynchronized and active state they are fully working. RFPs which lose connection to the OMM because of the network break down might connect to the other OMM. Two DECT air interfaces will be present but are working parallel. Note: Both air interfaces are using the same PARK. So it can not determined to which OMM a location registration succeeds. For PPs different situations are possible: x They do not notice this situation: - active calls stay established, depending on network conditions; - PPs can make and receive new calls, depending on an available PBX connection; - PPs can do handover to RFPs connected to the same OMM; - PPs can call PPs that are registered to the other OMM x They lose their RFP base station and perform a new location registration: - active calls are broken; - PPs can make and receive new calls, depending on an available PBX connection; - PPs can do handover to RFPs connected to the same OMM; - PPs can call PPs that are registered to the other OMM; depl-1230/0.2 Page: 192 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects x They lose their RFP base station and search the DECT network without finding another one: - active calls are broken; - PPs stay in searching for network until an air interface is available again. Note: Handover between PPs located to RFPs which are controlled by different OMMs is not possible. When the OMMs get in contact again with each other this inconsistent OpenMobility system situation will end. 9.14 Managing Account Data for System Access Each RFP provides different independent access types: x the OMM Web service/HTTPS interface (see chapter 7); x the OMP (see chapter 8); The OMM Web service and the OMP are mainly used for configuration and administration. x the OM Configurator (see chapter 9.6); The OM Configurator is mainly used for static local configuration of an RFP. x the SSH user shell (see chapter 10.3.5). The SSH user shell is mainly used from experts for diagnosis. Each of this these access types uses the same account data. The account data can be altered at the User account page of the OMM Web service (see chapter 7.4.3). The OMM delivers all the necessary account data to all connected RFPs. The RFPs save the account data inside their permanent memory. This has some implications: x An RFP out of the box uses the default account data as long as this RFP is not connected to the OMM. x An RFP which was connected for at least one time with the OMM uses the account data from the OMM. x When the account data are changed on the OMM, any not connected RFPs will continue to use the older passwords. 9.14.1 Account Types There are three different account types: x Full access: This access type is the “normal” access for all the configuration. Using this access it is allowed to configure the OMM and each RFP. On the SSH interface of an RFP this access type allows login for debug information e. g. 'pinging an other RFP to check visibility. The factory setting for this account is Name: 'omm' Password: 'omm' Active: 'n/a' depl-1230/0.2 Page: 193 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects x Read-only access: As the name suggests this access type is not allowed to configure any item of the OMM installation. This access type can only be used on the OM Web service. The account can be deactivated. The factory setting for this account is Name: 'user' Password: 'user' Active: 'yes x Root (SSH only) access: This access type is only applicable on the SSH interface of an RFP. Its purpose is to get detailed information e. g. parameters from the kernel. The access using this account type is not reachable from other hosts hence a login using the full access type is necessary. The factory setting for this account is Name: 'root' Password: '22222' Active: 'n/a' Please note: It is highly recommended not to use the “Root (SSH only) access” account type. It is meant for technical support only. 9.14.2 Potential Pitfalls When an RFP is configured via the OM Configurator and is taken out of an installation, the RFP may become unusable: x When this RFP comes up, it finds a valid configuration in its permanent memory. It will hence skip DHCP for booting. x But when this configuration is not valid anymore (e.g. the TFTP server has a new IP address meanwhile), the RFP isn't able to complete the boot and is hence not able to connect to the OMM. x The RFP will not get newer passwords from the OMM. It is therefore recommended to switch of the OM Configurator before taking an RFP out of an installation. But nevertheless the OM Configurator allows to reset the permanent memory of an RFP (the Aastra support must be connected). 9.15 WLAN Configuration (RFP (L) 42 WLAN / RFP (L) 43 WLAN only) 9.15.1 WLAN configuration steps The correct configuration of an RFP with a WLAN interface requires the correct configuration of the DECT part. The second step is to specify the regulatory domain of the WLAN network at the System settings page of the OMM web service (see chapter 7.4.1). Regulatory Domain Country 0x10: FCC USA, Australia 0x20: IC Canada 0x30: ETSI Europe (excluding Spain, France) depl-1230/0.2 Page: 194 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects 0x31: SPAIN Spain 0x32: FRANCE France 0x40: MKK Japan 0x41: MKK1 Japan (MKK1) This setting depends on the country and is prescribed by the laws of that country. Only the setting prescribed for that country must be used. The third step is to specify the WLAN parameters in a profile (see chapter 7.8.1). The WLAN profile determines the name (SSID) of the WLAN network and other parameters. The encryption and authentication procedures are especially important and must be planned carefully beforehand. The access point can be assigned to a VLAN that conforms to 802.1q. All the data that is received from and that is to be forwarded to the WLAN clients is then carried by the configured VLAN. All other data, such as VoIP packets, configuration data or authentication data (Radius), is given the VLAN tag configured for the RFP. The switch port of the network component to which the access point is connected must be configured as a trunk port. Note: 9.15.2 The RFP (L) 42 WLAN and RFP (L) 43 WLAN must be connected at least via a 100BaseT Ethernet link in order to activate the RFP’s WLAN function. Optimizing the WLAN Beacon Interval Transmitting beacons requires transmission channel capacity. A shorted beacon interval increases the WLAN network's ability to detect signals, thus improving its availability. At the same time, it increases the network's ability to adjust the mutually negotiated signal strength. A longer beacon interval saves WLAN air time and also reduces the power consumption of mobile WLAN clients. RTS Threshold If the network throughput is low or if many retransmissions occur, the RTS/CTS handshake can be activated by reducing the RTS threshold value below 1500 byte. This can improve depl-1230/0.2 Page: 195 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects throughput, especially in environments where reflection and attenuation cause problems for HF. Fragmentation Threshold In environments where there is lot of interference and poor radio quality, reducing the fragment size below 1500 bytes can improve the effective throughput. However, transmitted data frames have to be fragmented, which means a higher load on the RFP’s processor. DTIM Period The DTIM period specifies the interval between transmissions of the broadcast and multicast packets. All WLAN clients must be active during this interval. Increasing the DTIM period lowers the clients power consumption slightly. Not all programs can manage the increase in response times, however. Channel Allocation Every WLAN RFP must be configured to a channel. You should ensure that the channel settings do not overlap. WLAN RFPs within range of each other should be configured at least five channels apart. When the radio field is planned, the WLAN RFPs of foreign WLANs that may be operating in the vicinity must be taken into account. When planning the radio coverage for a two-dimensional area, please bear in mind that the distance between any two base stations operating on the same frequency must be at least twice their range. The range can be adjusted by lowering the output power level. depl-1230/0.2 Page: 196 (238) SIP–DECT OM System Manual Release 3.0 9.15.3 9 Configuration und Administration Aspects Securing the WLAN In order to ensure that communication in the WLAN network is secure, several measures need to be taken. Firstly, data packets transmitted via the openly visible radio interface must be encrypted, and secondly, all WLAN components that provide services should have to authenticate themselves. There are different encryption methods available which you configure within the WLAN profile (see chapter 7.8.1). However, only the recent WiFi protected access (WPA) encryption offers sufficient security against possible intruders. You should not use the (older) WEP encryption for your company LAN. Especially with larger WLAN installations, the single shared secret offered by WPA-personal may not be sufficient for your security requirements, because any person that connects to the WLAN needs to know the same shared secret. For this reason, you should also setup RADIUS authentication that is supported by all RFP 42/L42 devices. A Radius Server (Remote Authentication Dial In User Service) handles 802.1x Authentication, thus authorize different WLAN clients with an individual username / password combination to log in. We recommend to use a Radius Server with EAP-TLS (e.g. FreeRadius or MS Windows 2003 IAS Server) and a Certificate Authority (CA). The RADIUS authentication takes place between the RADIUS server and the RADIUS client, with the WLAN RFP to pass-through this communication. You should refer to the documentation that comes with your RADIUS product for details on how to setup, maintain and operate the RADIUS system. 9.16 SNMP Configuration To manage a larger RFP network, an SNMP agent is provided for each RFP. This will give alarm information and allow an SNMP management system (such as HP Open View) to manage this network. The SNMP agents can be configured in the SNMP menu of the OM Web service, see chapter 7.4.5. All SNMP agents are configured by the OMM. Additional parameters, that are valid for the individual RFP (e.g. “sysLocation” and “sysName”) are generated. The “sysLocation” parameter corresponds to the location configured via the OMM web interface. The “sysName” parameter is generated using the MAC address and the RFP device type (e.g. RFP (L) 43 WLAN). The RFP uptime can be requested by reading the “sysUpTime” parameter. This value indicates how long the RFP application software is running. It does not indicate the uptime of the operating system which does not correspond to the operational RFP state. The SNMP agent responds to SNMPv1-read and SNMPv2c-reads requests for the standard MIB-II objects. The Management Information Base (MIB-II) contains 11 object groups. The agent receives both SNMPv1 and SNMPv2c traps. It sends a “coldStart” trap when it first starts up. It also sends an enterprise-specific trap “nsNotifyShutdown” when it stops. When the SNMP agent receives an SNMP request using an unknown community name, it sends an “authenticationFailure” trap. The SNMP agent also generates an enterprise-specific trap “nsNotifyRestart” (rather than the standard “coldStart” or “warmStart” traps) after being reconfigured. depl-1230/0.2 Page: 197 (238) SIP–DECT OM System Manual Release 3.0 9.17 9 Configuration und Administration Aspects Download Over Air The “Download Over Air” feature allows updating the handset firmware without any user interaction or interruption of the telephony services over the existing DECT air interface. This features is currently available for the handset types Aastra 600d and Aastra 650c. The PP firmware is part of each OpenMobility software package which is delivered by Aastra. The PP firmware is delivered in the package file “aafon6xxd.dnld”. This package file must be put on the same tftp server and path where the OMM-RFP gets his boot image file (e.g. iprfp3g.dnld). 9.17.1 How “Download Over Air” Works If the “Download over Air” feature is activated, the OMM acts as a download server which provides the firmware for downloads. The PP sends its actual firmware version within the DECT attachment procedure. If the firmware version does not match the version provided by the OMM, the PP will be queued into the update-queue. Later on the queued PPs will be paged to establish a download connection. After the connection is established, the OMM sends its actual PP firmware version and the PP will request a handset description file. After receiving the handset description file, the PP decides which files are missing or need to be updated. If files are missing or need to be updated the PP initiates the download procedure. The OMM takes care of the following download scenarios automatically: x If a handsets becomes unreachable e.g. when the handset is switched off, the OMM will update the handset when the PP becomes available again. x The OMM will take care of the software download while the user is moving between base stations (roaming) and location areas. x The OMM has the capability of resuming a download from the point where it was last disrupted. e.g. the user goes out of coverage area during download or the handset runs out of battery power. x The OMM updates new handsets subscribed to the system. x While the handset is barred (e.g. low battery or “Download over Air“ is disabled at the local menu), the download will be postponed. The download happens without any user intervention. During the download, the telephony services, the roaming- and handover procedures are still available. The download stops automatically when e. g. the PP leaves the coverage area or the RFP gets busy. The download resumes automatically when the stop cause is solved. The Aastra 610d/620d/630d/650c handsets have two partitions in the internal flash memory to hold 2 different software versions. During the download the new firmware is written to one partition and the PP is running from the other partition. After the download is successfully completed, the new firmware will be activated when the handset is in the idle state. The download of a single PP with a firmware of 1 MB lasts approximately 90 minutes. The number of PPs which can be downloaded depends on the available system resources. The “Download over Air” service is delayed after a system startup for a while to become the whole DECT system active. This may last several minutes. depl-1230/0.2 Page: 198 (238) SIP–DECT OM System Manual Release 3.0 9.17.2 9 Configuration und Administration Aspects How to configure “Download Over Air” In the following, the configuration of the “Download Over Air” feature is described by using the OM Web service. The feature can also be configured using the OM Management Portal (OMP). Therefore, links to the corresponding OMP settings are also given, but without screenshots. The “Download over Air” feature can be activated or deactivated on the System Settings” web page. In the OMP, the “Download over Air” feature is activated/deactivated in the Miscellaneous tab of the Data management menu (see chapter 8.5.5.6). Please note: Before a new handset firmware package is put on a tftp server, the “Download over Air” feature must be deactivated. After the copy or installation the “Download over Air” feature can be activated again. If the “Download over Air feature” is activated, the status of the “Download over Air” service together with some statistics is presented in the Portable parts section on the Status web page. depl-1230/0.2 Page: 199 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects The handset firmware container for handset firmware update over the air includes packages for the Aastra 600d and Aastra 650c handsets. The available versions are also displayed on the Status web page. Please note: The entry of “Loading firmware from” on the OpenMobility Manager Status web page is only updated on restart of the OpenMobility Manager. Changing the location while the OpenMobility Manager is running has no effect. The individual download status of each PP is presented on the Portable part web page. The different icons and texts of the Download column have the following meaning: Icon depl-1230/0.2 Meaning Page: 200 (238) SIP–DECT OM System Manual Release 3.0 9 Configuration und Administration Aspects Impossible to download the firmware to that handset (e.g. noAastra 610d/620d/630d/650c) The PP is paged to establish a download connection. In case of a successful connection establishment the PP calculates the number of bytes to download. This may last several seconds. xx kbytes left The download is ongoing and xx kbytes are left. The firmware of this PP is up to date. The PP is queued in the update-queue for updating (pending). Warning. The download is barred because of one of the following reasons: – The PP is busy (temporary status). – The battery power is lower than 50% and the PP is not connected to the docking station or the USB-Interface. – This is not the master download system. A PP can be enrolled on several OpenMobility systems. The first system to which the handset will be enrolled is the “master system”. The PP downloads only from the “master system”. A different “master system” can be chosen inside the local menu of the handset. – The download is disabled in the local menu of the handset. The specific reason is shown as a tooltip. Error The download failed because of one of the following reasons: – checksum error, – file system error, – error while writing firmware to flash, – version mismatch, – error while expanding firmware container. The specific reason is shown as a tooltip. Info The download is not possible because of: – the handset is not reachable, – the handset is detached. The specific reason is shown as a tooltip. In the OMP, the “Download over Air” service status is displayed in the Status menu (see chapter 8.4). depl-1230/0.2 Page: 201 (238) SIP–DECT OM System Manual Release 3.0 10 Maintenance 10.1 Site Survey Measurement Equipment 10 Maintenance If a SIP–DECT installation has to be planned, a sufficient distribution of the RFPs is necessary which fulfills the requirements for reliable synchronization and connectivity to the Portable Parts. The site survey kit may help you. It comprises: x One measuring RFP with its own power supply. x A tripod and a battery for the RFP. x Two reference PPs with chargers. x Battery chargers. x Optional a measuring handset which can monitor other makers DECT radio sources. 10.2 Checking the Aastra DECT 142 / Aastra 142d Handset Firmware Version You can display the version information of the Aastra DECT 142 / Aastra 142d handset with a few keystrokes. Check the firmware version to determine whether an update is required to overcome any user issues. 1 Press the Menu soft key. 7 Select System (only to highlight). 8 Press OK. 9 Select Version Number. 10 Press OK. The display will show the software and the hardware version of the Aastra DECT 142 / Aastra 142d handset. 10.3 Diagnostic 10.3.1 Aastra DECT 142 / Aastra 142d Site Survey Mode You can set the Aastra DECT 142 / Aastra 142d handset in “site survey mode” with a few keystrokes. In this mode the phone will display the RFPs and the actual field strength of the receiving signal in dBm. 1 Press the Menu soft key. 11 Enter the following key sequence “R***76#”. 12 Select Site Survey. 13 Press OK. 14 To leave the site survey mode switch the phone off and on again. The following display is shown on the Aastra DECT 142 / Aastra 142d handset: depl-1230/0.2 Page: 202 (238) SIP–DECT OM System Manual Release 3.0 10 Maintenance PARK: 1F-10-FF-F0-21 RFPI RFP ID: 02* 10FFF21 02 Frame error FE PP: FP: Field strength -dBm 50 57 RFP ID RPN 02 01 00 Menu 50 Phonebook RFP ID: 02* *The ID of RFP to which the PP is currently associated to. In this example the PP is currently connected to the RFP with the number 02. The RFPs 01 and 00 are also visible. The number “10FFF221 02” on the upper right side refers to the PARK (Example 1F-10-F2-21) of the SIP–DECT system and to the RFP to which the phone is currently connected to. 10.3.2 Aastra DECT 142 / Aastra 142d Auto Call Test Mode You can set the Aastra DECT 142 / Aastra 142d handset to “auto call test mode” with a few keystrokes. In this mode the phone will call a specified number cyclically. You can use this feature to generate traffic for test purposes. This mode is also active if the phone is on the charger. 1 Press the Menu soft key. 15 Enter the following key sequence “R***76#”. 16 Select Auto Call Test. 17 Press OK. 18 Enter the phone number to call. 19 Press OK. 20 Enter a number of seconds between two calls. 21 Press OK. 22 Enter a number of seconds a call shall be active. 23 Press OK. The test will be started automatically. 24 To stop the test, switch the phone off and on again. 10.3.3 Aastra DECT 142 / Aastra 142d Auto Answer Test Mode You can set the Aastra DECT 142 / Aastra 142d handset to “auto answer test mode” with a few keystrokes. In this mode the phone will answer incoming calls automatically. You can use this feature together with phones in the “auto call test mode” (see chapter 10.3.2) for test purposes. This mode is also active if the phone is on the charger. depl-1230/0.2 Page: 203 (238) SIP–DECT OM System Manual Release 3.0 10 Maintenance 1 Press the Menu soft key. 25 Enter the following key sequence “R***76#”. 26 Select Auto Answer. 27 Press OK. 28 Enter a number of seconds the phone shall ring before it will answer the call. 29 Press OK. 30 Enter a number of seconds a call shall be active. 31 Press OK. The test will be started automatically. 32 To stop the test switch the phone off and on again. 10.3.4 Syslog The OpenMobility Manager and the RFPs are capable of propagating Syslog messages conforming to RFC 3164 (see /13/). This feature together with the IP address of a host collecting these messages can be configured. Syslog has to be enabled by: x DHCP using the public options 227 and 228. x Setting the syslog daemon server and port via the web interface. To set up the syslog via DHCP or the OM Configurator has the advantage that syslogs are available in earlier states of the RFP startup. The level of syslog messages in the default state allows the user to have control over the general system state and major failures. depl-1230/0.2 Page: 204 (238) SIP–DECT OM System Manual Release 3.0 10.3.5 10 Maintenance SSH user shell Each RFP offers a lot of commands within the SSH shell. Most of them are useful for diagnostic and may help experts to resolve failures. Note: Some commands can harm the system operation. The SSH access of an RFP is open if x the RFP is connected to an OMM and the “Remote Access” is switched on or x the RFP is not connected to an OMM. To activate the SSH access of an RFP which has a connection to an OMM, activate the Remote access checkbox on the OMM System settings web page (see also chapter 7.4.1). Æ In the OMP, the SSH access is activated/deactivated in the General tab of the System settings menu (see chapter 8.5.1). 10.3.5.1 Login To log in to the SSH user shell: 1 Open SSH session to the IP DECT base station with the “Full access” user name. 33 Enter the password for the “Full access” account (see also 9.14.1). The output should look like: Welcome to IP RFP OpenMobility SIP Only Version 2.1.x last reset cause: hardware reset (Power-on reset) omm@172.30.206.94's password: omm@172.30.206.94 > depl-1230/0.2 Page: 205 (238) SIP–DECT OM System Manual Release 3.0 10 Maintenance 10.3.5.2 Command Overview Type help to get a command overview: Command Description exit,quit,bye Leave session ommconsole OMM console ip_rfpconsole RFP console rfpmconsole RFP manager console wlanconsole WLAN console wpaconsole WPA console flash Shows information from flash link Shows status of ethernet interface ldb View / set local configuration (OmConfigurator) setconsole Duplicate messages to console noconsole Do not duplicate messages to console dmesg Messages from last boot logread Last messages su Switch to user root ping Well known ping traceroute Well known traceroute free Well known free ps Well known ps top Well known top ifconfig Well known ifconfig uptime Well known uptime reboot Well known reboot date Well known date (time in UTC) rfpm_console RFP manager console wlan_console WLAN console 10.3.5.3 OMM Console On Linux Server You can call the OMM console on the Linux server which runs the OMM using the “ommconsole” command. Log on as user root as it is necessary to install and/or update OMM. IMPORTANT : If you not login as root to open the OMM console then the path to ommconsole is not set and you have to enter the whole path “/usr/sbin/ommconsole” to start the OMM console. depl-1230/0.2 Page: 206 (238) SIP–DECT OM System Manual Release 3.0 10 Maintenance 10.3.5.4 RFP Console Commands If you type ip_rfpconsole you are able to use the following commands on each RFP: Command Description Displays Command Help Table help Displays Command Help Table logger Send a string to the syslog daemon deftrc Resets all trace settings to default dsp Shows channel config dump Creates system state dump file /tmp/sys_dump.txt.gz mem Show memory and heap exit Leave this console heap Shows heap buffer statistics lec Adjust linear echo canceler parameters media Display state of media channels mutex Lists all created MXP mutexes omms Shows connection status to OMM(s) queues Lists all created MXP queues reset Resets the IPRFP application resume Resume bmc activity rsx Allows RSX connection to BMC via TCP sem Lists all created MXP semaphores spy Set/display spy levels: [ ] suspend Suspend bmc activity tasks Lists all running MXP tasks voice Displays the state of voice handling wlan Configure wlan card on cmdline runtime Report the process runtime lu10 Lu10 SDU <-> PDU converter (RFP (L) 35/36/37 IP and RFP (L) 43 WLAN only) mroute Display media routes Please note: The “spy” command enables you to increase the level of syslog messages. This should be only used by instructions of the support organization because it can harm the system operation. depl-1230/0.2 Page: 207 (238) SIP–DECT OM System Manual Release 3.0 10 Maintenance 10.3.5.5 OMM Console Commands If you have opened the session on the OMM RFP and you type “ommconsole”, you are able to use the following OpenMobility Manager (OMM) related commands: Command Description Displays Command Help Table adb Automatic DB export and import (ADB) console cmi CMI commands cnf Show configuration parameters cron Display pending cron jobs help Displays Command Help Table logger Send a string to the syslog daemon deftrc Resets all trace settings to default dlc DECT Data Link Control dm Download Over Air Manager dsip DSIP commands epr External provisioning task (EPR) console mem Show memory and heap exit Leave this console fts Requesting FTS to download file gmi DECTnet2 Inter Working Unit heartbeat Configure heartbeat mechanism for IP-RFPs ima IMA commands ipc Displays socket communication ipl Displays connected RFPs iplfilter Configures for which RFPs spy messages shall be generated mon Toggle monitor functionality msm Display states within MediaStreamManagement mutex Lists all created MXP mutexes nwk DECT network layer omi OMI commands queues Lists all created MXP queues rfp Radio Fixed Part Control rfpd Radio Fixed Part Debug rfps Radio Fixed Part Statistic rping Requests one or more RFPs to ping a host rspy Remote configure spy levels on IP-RFPs rsx Toggles RSX debug port on RFPs depl-1230/0.2 Page: 208 (238) SIP–DECT OM System Manual Release 3.0 10 Maintenance rtt Set event flag for high RTT values / clears values sem Lists all created MXP semaphores spy Set/display spy levels: [ ] standby Displays redundant OMMs stat Statistic sync Commands for RFP synchronisation tasks Lists all running MXP tasks tzone Time zone commands uptime Displays system uptime ver Version information wlan Display states within Wireless LAN Management axi AXI commands runtime Report the process runtime upd Displays update status of RFPs xml XML browser task (XML) console Please note: The “spy” command enables you to increase the level of syslog messages especially for subsystems of the OMM. This should be only used by instructions of the support organization because it can harm the system operation. 10.3.6 Core File Capturing If there some fatal error on the OMM and the software is breaking down, the OMM is able to generate memory dump. If you send these generated core files to the support, you help them to resolve this failures. The OMM is able to store these core files on a TFTP server in your local network. To enabling core file creation write on the OMM command line: ldb core=yes ldb core_srv=server-ip – TFTP server IP address ldb core_path=path – file path on TFTP server (must be writeable) If no ldb_core_srv and ldb_core_path is given, the OMM tries to write the core files to the TFTP server and path where the OMM/RFP application was downloaded. After restarting the OMM, the core files are automatically transferred to the TFTP server. Please note: The TFTP server must allow writing new files, this is usually not standard. To disable core file capturing writer on command line: ldb core=. depl-1230/0.2 Page: 209 (238) SIP–DECT OM System Manual Release 3.0 10.3.7 10 Maintenance DECT Monitor Please note: The DECT Monitor has been replaced by OMP but the DECT Monitor can still be used without warrenty for SIP–DECT installations with a standard PARK and up to 256 RFPs’ all within paging area 0. For a better error detection in the SIP–DECT system the DECT Monitor can be used. The DECT Monitor is an MS Windows based stand alone program. It provides the possibility to give a real time overview of the current IP DECT base station and telephone states in the SIP–DECT system. The following features are provided by the DECT Monitor: x Reading out of the DECT configuration of an SIP–DECT system. x Configuration can be stored in an ASCII file. x Display of DECT transactions IP DECT base station <–> telephone in clear tabular form with highlighting of handover situations. Real-time display. x Display of further events concerning the status or actions of IP DECT base stations and telephones of the SIP–DECT system. x All events can also be recorded in a log file. x Display of the synchronization relations between the RFPs. x Monitoring of systems with up to 256 IP DECT base stations and 512 PPs. x Reading out and display of IP DECT RFP statistics data, either for a single IP DECT RFP or for all IP DECT RFPs. x Display of DECT central data of the SIP–DECT system. The DECT Monitor program can only be used when the DECT monitor checkbox is activated on the flag in the OMM System settings web page (see also chapter 7.4.1). Please note: Because of security, the DECT monitor flag is not stored permanently in the internal flash memory of the OMM/RFP. After a reset the DECT monitor flag is disabled. depl-1230/0.2 Page: 210 (238) SIP–DECT OM System Manual Release 3.0 10 Maintenance The DECT monitor program is used together with the SIP–DECT system. When the program is started, the user is requested to enter the IP address of the IP DECT RFP or the server running the OpenMobility Manager (OMM) software. There can be several reasons for an unsuccessful link establishment: x Operation of DECT monitor is not enabled inside the OMM. Use the OMM web service to enable DECT monitor operation. x IP address is not correct. It has to be the address of the RFP the OMM is running on. x A link routed to the RFP is not supported. The program displays the IP address which was used last time. When the program is started, a link to the OMM is automatically established and the program window shows all user configured child windows and tables. When all links have been established, the DECT data of the system are automatically read out and entered in the tables “RFP-Table” and “PPTable”. This procedure is called “Config Request”. Next, the defined trace options (Event Mask) are sent to the OMM. The options which are sent to the OMM are always those which were active the last time the program was exited. If the trace option “Transaction establish/release” is activated, the OMM will deliver all existing transactions. Following this, the OMM system delivers the desired trace data. The user can either communicate with the program interactively (see below) or he can simply activate a log file in which to record the data. Following this initialization, the user can carry out the following modifications: x The trace settings can be modified using the menu item Options-Event Mask. Transmission to the OMM takes place after confirmation of the settings with OK. x A Config Request can be sent again to the OMM. x A log file can be activated. x By means of various dialogs, the configuration data of the telephones, RFPs and control modules can be displayed and stored in ASCII files. The following information is displayed dynamically in the tables: x Transactions between telephone and DECT system. These are displayed in both tables. Simple transactions are displayed in black on a white background; during handover, both transactions involved are displayed in white on a red background. depl-1230/0.2 Page: 211 (238) SIP–DECT OM System Manual Release 3.0 10 Maintenance x The Location Registration and Detach events are displayed in the tables for approx. 1-2s after their occurrence (light green background), if possible. There is no display in the FP table if there is no column free for display. If the event has already been displayed, it can be overwritten at any time. The events are not displayed if they occur during an on-going transaction. Irrelevant of whether the events are displayed in the tables, they are always entered in the FP/PP-Events window and in the log file (provided that this is open). The following color scheme is used for display of the RFPs in the RFP table: x RFP gray-blue: IP DECT base station is not active (not connected or disturbance). x RFP black: IP DECT base station is active. The data of an RFP are displayed in a dialogue box after clicking on the respective RFP field in the RFP table. The statistics data of the RFP can be called up from this dialogue box. The following color scheme is used for display of the telephone in the PP table: x PP black: Handset is enrolled. It is assumed that the telephone can be reached. x PP blue: Handset can presumably not be reached. Detach was received, or when an attempt was made to reach a telephone, the handset did not answer. x PP gray blue: Handset not enrolled. The data of a telephone are displayed in a dialog box after clicking on the respective telephone field in the FP table. The Sync Info child window contains all IP DECT base stations and shows their synchronization and relation states to each other. Selecting the IP DECT base stations with the right mouse button, the user can change visibility views and can even force a resynchronization of an IP DECT base station. There are several optional child windows selectable. They are all listed below and give some more information about the SIP–DECT systems. Mostly they are statistics and for internal use only. depl-1230/0.2 Page: 212 (238) SIP–DECT OM System Manual Release 3.0 10 Maintenance depl-1230/0.2 Page: 213 (238) SIP–DECT OM System Manual Release 3.0 11 Appendix 11.1 Declaration of Conformity 11 Appendix The CE mark on the product certifies its conformity with the technical guidelines for user safety and electromagnetic compatibility, valid from the date of issue of the relevant Declaration of Conformity pursuant to European Directive 99/5/EC. The Declaration of Conformity can be viewed on the Aastra homepage. 11.2 Communications Regulation Information for Aastra 142d, Aastra 600d 11.2.1 FCC Notices (U.S. Only) This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Modifications not expressly approved by this company could void the user's authority to operate the equipment. NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: x Reorient or relocate the receiving antenna. x Increase the separation between the equipment and receiver. x Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. x Consult the dealer or an experienced radio/TV technician for help. Health and Safety Information Exposure to Radio Frequency (RF) Signals: The wireless phone is a radio transmitter and receiver. It is designed and manufactured not to exceed the emission limits for exposure to radio frequency (RF) energy set by the Federal Communications Commission (FCC) of the U.S. Government. These limits are part of comprehensive guidelines and establish permitted levels of RF energy for the general population. The guidelines are based on the safety standards previously set by both U.S. and international standards bodies. These standards include a substantial safety margin designed to assure the safety of all persons, regardless of age and health. depl-1230/0.2 Page: 214 (238) SIP–DECT OM System Manual Release 3.0 11 Appendix This device and its antenna must not be co-located or operating in conjunction with any other antenna or transmitter. This EUT has been shown to be capable of compliance for localized specific absorption rate (SAR) for uncontrolled environment/general population exposure limits specified in ANSI/IEEE Std. C95.1-1992 and had been tested in accordance with the measurement procedures specified in FCC/OET Bulletin 65 Supplement C (2001) and IEEE 1528-2003. 11.2.2 Industry Canada (Canada only, not for Aastra 600d) Operation of this device is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. Privacy of communications may not be ensured when using this telephone. Exposure to Radio Frequency (RF) Signals: The wireless phone is a radio transmitter and receiver. It is designed and manufactured not to exceed the emission limit for exposure to radio frequency (RF) energy set by the Ministry of Health (Canada), Safety Code 6. These limits are part of comprehensive guidelines and established permitted levels of RF energy for the general population. These guidelines are based on the safety standards previously set by international standard bodies. These standards include a substantial safety margin designed to assure the safety of all persons, regardless of age and health. This device and its antenna must not be co-located or operating in conjunction with any other antenna or transmitter. This device has been shown to be capable of compliance for localized specific absorption rate (SAR) for uncontrolled environment / general public exposure limits specific in ANSI/IEEE C95.1-1992 and had been tested in accordance with the measurement procedures specified in IEEE 1528-2003. 11.3 Communications Regulation Information for RFP 32, RFP 34 and RFP 35 11.3.1 FCC Notices (U.S. Only) This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Modifications not expressly approved by this company could void the user's authority to operate the equipment. NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a depl-1230/0.2 Page: 215 (238) SIP–DECT OM System Manual Release 3.0 11 Appendix particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: x Reorient or relocate the receiving antenna. x Increase the separation between the equipment and receiver. x Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. x Consult the dealer or an experienced radio/TV technician for help. Exposure to Radio Frequency (RF) Signals: The wireless phone is a radio transmitter and receiver. It is designed and manufactured not to exceed the emission limits for exposure to radio frequency (RF) energy set by the Federal Communications Commission (FCC) of the U.S. Government. These limits are part of comprehensive guidelines and establish permitted levels of RF energy for the general population. The guidelines are based on the safety standards previously set by both U.S. and international standards bodies. These standards include a substantial safety margin designed to assure the safety of all persons, regardless of age and health. This device and its antenna must not be co-located or operating in conjunction with any other antenna or transmitter. The radiating element of the RFP should be installed during operating at a separation distance greater than 20 cm between user and device. The device comply with the requirements for routine evaluation limits. 11.3.2 Industry Canada (Canada only) Operation of this device is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. Privacy of communications may not be ensured when using this telephone. Exposure to Radio Frequency (RF) Signals: The wireless phone is a radio transmitter and receiver. It is designed and manufactured not to exceed the emission limit for exposure to radio frequency (RF) energy set by the Ministry of Health (Canada), Safety Code 6. These limits are part of comprehensive guidelines and established permitted levels of RF energy for the general population. These guidelines are based on the safety standards previously set by international standard bodies. These standards include a substantial safety margin designed to assure the safety of all persons, regardless of age and health. This device and its antenna must not be co-located or operating in conjunction with any other antenna or transmitter. The radiating element of the RFP should be installed during operating at a separation distance greater than 20 cm between user and device. This device comply with the requirements for routine evaluation limits. depl-1230/0.2 Page: 216 (238) SIP–DECT OM System Manual Release 3.0 11.4 11.5 11 Appendix Abbreviations AC Authentication Code ADPCM Adaptive Differential Pulse Code Modulation DECT Digital Enhanced Cordless Telecommunication DHCP Dynamic Host Configuration Protocol DSP Digital Signal Processor FCC Federal Communications Commission GAP Generic Access Profile OM IMA Integrated Messaging and Alerting Service IPEI International Portable Equipment Identity HTTP Hyper Text Transfer Protocol OAM&P Operation, Administration, Maintenance & Provisioning OM OpenMobility OM AXI OM Application XML Interface OMC OM Configurator OML OM Locating OMM OpenMobility Manager OMP OM Management Portal PARK Portable Access Rights Key PP Portable Part (DECT handset or device) SNMP Simple Network Management Protocol TFTP Trivial File Transfer Protocol RFP DECT Radio Fixed Part (DECT base station) RTCP Real Time Control Protocol RTP Real Time Protocol Definitions Aastra DECT 142 / Aastra 142d Handset In the context of the SIP–DECT solution, an Aastra DECT 142 Handset, Aastra 142d and Portable Part (PP) are interchangeable. In consideration of differences in regulatory requirements between North America and all other areas of the world exist two different PP variants which use specific frequency bands and field strengths: - Aastra DECT 142: For use in North America and Canada only. - Aastra 142d: For global use. depl-1230/0.2 Page: 217 (238) SIP–DECT OM System Manual Release 3.0 11 Appendix Asterisk Asterisk is a complete Open Source PBX in software. It runs on Linux, BSD and MacOSX and provides many features. Asterisk supports voice over IP in many protocols, and can interoperate with almost all standards-based telephony equipment. Base station Please see: RFP or Radio Fixed Part DECT Digital Enhanced Cordless Telecommunication The standard (ETS 300 175) essentially specifies the air interface, known as the radio interface. Voice and data can both be transmitted via this interface. Its technical key characteristics for Europe are: - Frequency range: approx. 1880 – 1900 MHz (approximately 20 MHz bandwidth) - carrier frequencies (1728 kHz spacing) with 12 time slots each - Doubling the number of time slots (to 24) using the TDMA process - Net data rate per channel of 32 kbps (for voice transmission using ADPCM) - Voice coding using the ADPCM method Its technical key characteristics for North American are: - Frequency range: approx. 1920 – 1930 MHz (approximately 10 MHz bandwidth) - 5 carrier frequencies (1728 kHz spacing) with 12 time slots each) - Doubling the number of time slots (to 24) using the TDMA process - Net data rate per channel of 32 kbps (for voice transmission using ADPCM) - Voice coding using the ADPCM method GAP Generic Access Profile The GAP standard (ETS 300 444) is based on the same technology as DECT, but is limited to the most important basic features. This standard was created in order to allow telephones of different vendors to be used on any type of DECT system. It thus represents the smallest common denominator of all manufacturer-specific variants of the DECT standard. - An important limitation in the GAP standard is that external handover is not possible. For this reason connection handover is used, which is supported by GAP terminals. - The operation of GAP-capable telephones is comparable to that of analogue terminals. For example, features can be called up via ‘*’ and ‘#’ procedures. Handover depl-1230/0.2 A handover is similar to roaming, but occurs during an ongoing call. A handover normally takes place “in the background”, without disrupting the call (seamless handover). Page: 218 (238) SIP–DECT OM System Manual Release 3.0 IPEI 11 Appendix International Portable Equipment Identity - 13-digit identification code for PPs - Example: 00019 0592015 3 (the final digit is the checksum). - The code is represented in decimal form. - This code is globally unique. PARK Portable Access Rights Key Access code for the Portable Part. This code determines whether a PP can access a particular DECT system. Used for unique selection of a dedicated the system from a handset at enrolment/subscription time. Labeled on the OpenMobility CD and unique to each SIP– DECT deployment. 11.6 Radio Fixed Part (RFP) An RFP provides a DECT radio cell and terminates the radio link from the portable DECT device. One or more RFPs build the area of radio coverage. Roaming While in motion, the PP performs ongoing measurements to determine which RFP is best received. The one that can be best received is defined as the active RFP. To prevent the PP from rapidly switching back and forth between two RFPs that have similar signal strength, certain threshold values are in effect. References /1/ RFC 1350, The TFTP Protocol, Revision 2, July 1992 /2/ RFC 2090, TFTP Multicast Option, February 1997 /3/ RFC 2347, TFTP Option Extension, May 1998 /4/ RFC 2348, TFTP Block size Option, May 1998 /5/ RFC 2349, TFTP Timeout Interval and Transfer Size Options, May 1998 /6/ RFC 2236, Internet Group Management Protocol, Version 2, November 1997 /7/ RFC 1889, RTP: A Transport Protocol for Real-Time Applications, January 1996 /8/ RFC 2030, Simple Network Time Protocol (SNTP) Version 4 for IPv4, IPv6 and OSI, October 1996 /9/ RFC 2131, Dynamic Host Configuration Protocol, March 1997 /10/ RFC 2327, SDP: Session Description Protocol, April 1998 /11/ RFC 2474, Definition of the Differentiated Service Field (DS Field) in the IPv4 and IPv6 Headers, December 1998 /12/ RFC 2617, HTTP Authentication: Basic and Digest Access Authentication, June 1999 /13/ RFC 3164, The BSD Sys Log Protocol, August 2001 /14/ RFC 2833, RTP Payload for DTMF Digits, Telephony Tones and Telephony Signals, May 2000 /15/ RFC 3261, Session Initiation Protocol (SIP), June 2002 depl-1230/0.2 Page: 219 (238) SIP–DECT OM System Manual Release 3.0 11.7 11 Appendix /16/ RFC 3264, An Offer/Answer Model with Session Description Protocol (SDP), June 2002 /17/ RFC 3420, Internet Media Type message/sipfrag, November 2002 /18/ RFC 3515, The Session Initiation Protocol (SIP) Refer method, April 2003 /19/ RFC 3665, The Session Initiation Protocol (SIP) Basic Call Flow Examples, December 2003 /20/ RFC 3842, A Message Summary and Message Waiting Indication Event Package for the Session Initiation Protocol (SIP), August 2004 /21/ RFC 3891, The Session Initiation Protocol (SIP) “Replaces” Header, September 2004 /22/ RFC 3892, The Session Initiation Protocol (SIP) Referred-By Mechanism, September 2004 /23/ RFC 4566, SDP: Session Description Protocol /24/ Compendium “OpenMobility SIP–DECT 3.0 Solution; Installation & Administration” /25/ SIP–DECT; OM Locating Application; Installation, Administration & User Guide /26/ SIP–DECT; OM Integrated Messaging & Alerting Application; Installation, Administration & User Guide /27/ SIP–DECT; OM Handset Sharing & Provisioning; User Guide /28/ SIP–DECT; Aastra 610d, 620d, 630d; Messaging & Alerting Applications; User Guide Issue 4 /29/ Aastra 610d, 620d, 630d SIP–DECT User’s Guide Issue 4 /30/ aad-0384 OM Application XML Interface specification (OM AXI) /31/ RFC 2782, A DNS RR for specifying the location of services (DNS SRV) /32/ RFC 3262, Reliability of Provisional Responses in the Session Initiation Protocol (SIP) /33/ RFC 3311, The Session Initiation Protocol (SIP) UPDATE Method /34/ SIP–DECT XML terminal interface specification Pre-Configuration File Rules The following file format description can be used to administrate the RFP and PP configuration with external applications, e.g. an external configuration management tool or a PBX communications system. The framework of the text file follows strictly defined rules. The main framework is divided in two parts: 1 An instruction section is used to drive a generic data creation for those fields not filled within data sequence section. 2 A data sequence section defines data record fields. Each of them are explicitly set. Layout rules in detail are: x Comments start with “#”. x Each record is terminated by the regular expressions “\r” or “\n”. depl-1230/0.2 Page: 220 (238) SIP–DECT OM System Manual Release 3.0 11 Appendix x Instruction settings are made like: = . x Data sequence sections starts with the key word “data_sequence”. This key word is always mandatory to proceed the file. All instructions have to be written before this row. x Data sequence record fields are separated by colon “;”. Colons have also to be set for empty fields if at least one follows which is not empty. Otherwise a position mismatch of fields will occur. x If fields have several values assigned (that may be true for a few local RFP configuration fields like “ntp_address”), they must be separated by comma “,”. Notes: x Because of data sequence fields are separated by colon the content of that section can possibly be generated by a *.csv export of Excel Sheet and copied into the configuration file. x Instructions are only proceeded on those fields which are left empty within the data sequence section. 11.7.1 PP Configuration File (OMM Database) 11.7.1.1 Supported Instructions Instruction Explanation start_number Numbers can be generated automatically. This instruction defines the start value. no_of_number If “start_number” is given, this instruction defines the maximum of numbers which are generated. ac (authentication code) If set to “number”, “ac” will be equal to number. additional_pin sip_user sip_pw sos_number mandown_number locatable localization tracking If a value is advised, it will be taken as a start number which will be increased for each new record. If these instructions are set, the value will be taken as default value for the empty corresponding field within the data sequence section records. SOS/Mandown denote the user specific numbers. The Locatable, Localization, and Tracking flags are ignored by Web import. 11.7.1.2 Data Section Fields The data section contains the following field order: 1 Number 2 Name 3 AC depl-1230/0.2 Page: 221 (238) SIP–DECT OM System Manual Release 3.0 11 Appendix 4 IPEI 5 Additional ID 6 Sip user name 7 Sip password 8 SOS number 9 Mandown number 10 Locatable (ignored by Web import and always set to “inactive”) 11 Localization (ignored by Web import and always set to “inactive”) 12 Tracking (ignored by Web import and always set to “inactive”) 13 Description1 (ignored by Web import and always set to “”) 14 Description2 (ignored by Web import and always set to “”) 11.7.1.3 Example The following screen shot shows a PP configuration. This corresponds to the given configuration file. PP configuration file: depl-1230/0.2 -----------------------# instruction section: -----------------------# -- start_number = { } -- no_of_number = { } -- ac = {<""number"">, } -- additional_pin = {<""number"">, } -- sip_user = {<""number"">, } -- SIP password = {<""number"">, } -- SOS number = { ) -- Mandown number -- Locatable (ignored by Web import and always set to inactive) -- Localization (ignored by Web import and always set to inactive) -- Tracking (ignored by Web import and always set to inactive) Page: 222 (238) SIP–DECT OM System Manual Release 3.0 11 Appendix start_number = 5401 no_of_number = 10 ac = 1001 additional_pin = number sip_user = number sip_pw = number sos_number=5002 mandown_number=5002 ---------------------# data sequence: ---------------------# 1. number 2. name 3. AC 4. IPEI 5. additionalId 6. SIP user 7. SIP password 8. sos no 9. mandown no 10. locatable (ignored by Web import and always set to inactive) 11. localization (ignored by Web import and always set to inactive) 12. tracking (ignored by Web import and always set to inactive) 13. descr1 (ignored by Web import and always set to "") 14. descr2 (ignored by Web import and always set to "") data_sequence;;;;;;;;;;;;; # 1. number;2. name;3. AC;4. IPEI ;5. additionalId;6. SIP user;7. SIP password;8. sos no;9. mandown no;10. locatable;11. localization;12. tracking;13. descr1;14. descr2 101;PP 1;;0081008625768;;;;;;;;;; 104;PP 4;;0007701154842;;;;;;;;;; ;Kiel Phone1;;0127105395099;5401;5401;5401;30;30;;;;; ;Karl May;;;;;;;;;;;; ;Karl Valentin;;;;;;;;;;;; ;Karl Heinz;;;;;;;;;;;; ;Radi Radenkowicz;;;;;;;;;;;; ;Radi Rettich;;;;;;;;;;;; ;Wadi Wade;;;;;;;;;;;; Parse log about import / instruction processing OK: OK: OK: OK: OK: OK: OK: start_number = 5401 ac = 1001 additional_pin = number sip_user = number sip_pw = number sos_number = 5002 mandown_number = 5002 OK: no_of_number = 10 Section processing: […] 11.7.2 RFP Configuration File / Central (OMM Database) Import of RFP configurations using files is possible with Web Service or OMM Management portal. depl-1230/0.2 Page: 223 (238) SIP–DECT OM System Manual Release 3.0 11 Appendix 11.7.2.1 Supported Instructions All instructions are taken as common value which are set to all records of data sequence section of that file if the corresponding field is empty. Instruction Explanation active Activation of DECT: {‘0’ or ‘false ’= inactive, ‘1’ or ‘true’ = active } cluster Cluster, the RFP is referred to - RFP-OMM: {1..256}, PC-OMM: {1..2048} paging_area Paging area, the RFP is referred to: {‘unassigned, ’0’..’127’} Ignored by WEB import and always set to ‘0’ (Paging area 0) sync_source Synchronization source: {‘0’ or ‘false ’= inactive, ‘1’ or ‘true’ = active } refl_env Reflective environment: {‘0’ or ‘false ’= no, ‘1’ or ‘true’ = yes } site Site Id: {1..250} wlan_profile Reference key to an existing WLAN profile wlan_antenna Antenna settings: {0=diversity, 1, 2} wlan_channel_bg WLAN channel: {0..14 (size depends on regulatory domain) } wlan_power WLAN power: {6, 12, 25, 50,100 (in percent)} wlan_act Activation of WLAN: {‘0’ or ‘false ’= inactive, ‘1’ or ‘true’ = active } Note: Web import allows currently only ‘0’ or ‘1’ for Boolean parameters. 11.7.2.2 Data Section Fields The data section contains the following field order: 1 MAC address 2 Name 3 DECT activated 4 DECT cluster 5 Paging area (ignored by Web import and always set to “0”, PA0) 6 Preferred sync. 7 Reflective env. 8 Site ID (if left empty then set to the lowest Site ID) 9 Building (ignored by Web import and always set to “”) 10 Floor (ignored by Web import and always set to “”) 11 Room (ignored by Web import and always set to “”) 12 WLAN profile 13 WLAN antenna 14 WLAN channel 15 WLAN power 16 WLAN activated depl-1230/0.2 Page: 224 (238) SIP–DECT OM System Manual Release 3.0 11 Appendix 11.7.2.3 Example The following screenshot shows an RFP enrolment data import dialog that is shown if the corresponding configuration file is imported. RFP configuration file/central: ############################################################################## # instruction section: ############################################################################## #active Activation of DECT: {'0' or 'false '= inactive, '1' or 'true' = active} #cluster Cluster, the RFP is referred to: {1..256} (RFP OMM) or {1..2048} (PC OMM) #paging_area Ignored by Web import and always set to "0" (PA0) Paging area, the RFP is referred to: {'unassigned, '0'..'127'} #sync_source Synchronisation source: '0' or 'false '= inactive, '1' or 'true' = active} #refl_env Reflective environment: '0' or 'false '= no, '1' or 'true' = yes} #site Site Id: {1..250} #wlan_profile Reference key to an existing WLAN profile #wlan_antenna Antenna settings: {0=diversity, 1, 2} #wlan_channel_bg WLAN channel: {0..14 (size depends on regulatory domain) } #wlan_power WLAN power = { 6, 12, 25, 50,100 (in percent)} #wlan_act Activation of WLAN: '0' or 'false '= inactive, '1' or 'true' = active} #Note: Web import allows only "0" or "1" for Boolean ############################################################################## active=1 cluster=100 refl_evc=1 site=1 depl-1230/0.2 Page: 225 (238) SIP–DECT OM System Manual Release 3.0 11 Appendix ############################################################################## data_sequence ############################################################################## #MAC address;Name;DECT activated;DECT cluster;Paging area;Preferred sync.; #Reflective env.;Site ID;Building;Floor;Room;WLAN profile;WLAN antenna; #WLAN channel;WLAN power;WLAN activated 00:30:42:0D:97:1A;R451P31a03054;1;1;0;0;0;1;31;4;;;;;; 00:30:42:0D:95:D8;R439 SWT 31A-0-3-1-2;1;1;0;1;0;1;31;4;;;;;; 00:30:42:0C:BD:7B;R440 P31a-03-07-4;1;1;0;0;0;3;31;4 00:30:42:0D:95:CE;Patchschrank Kueche;1;1;0;0;0;3;31;4 00:30:42:0D:95:CC;R414 OpenMob lab;1;2;0;0;0;3;; 00:30:42:0D:95:CA;R414 OpenMob lab;1;2;0;0;0;3;31;4 00:30:42:0C:BD:DD;R403 System test lab;1;2;0;0;0;3;31;4 00:30:42:0D:95:DB;R451 P31a-4-2-15-8;1;1;0;0;0;1;31;4 00:30:42:0D:95:D9;R439 P31a-4-2-12-13;1;1;0;0;0;3;31;4 00:30:42:0D:95:D6;R447 P31a-4-2-13-18;1;1;0;0;0;3;31;4 00:30:42:0D:95:E7;R447 P31a-4-2-14-13;1;1;0;0;0;1;31;4 00:30:42:0D:22:5A;R433 P31a-4-2-11-10;1;1;0;0;0;3;31;4 00:30:42:0C:BD:68;R433 P31a-4-2-11-13;1;1;0;0;0;1;31;4 00:30:42:0B:92:FC;R443 Test board;1;1;0;0;0;1;31;4 00:30:42:FF:F0:D0;plexiglas;1;1;0;0;0;1;; 00:30:42:0D:27:7D;R434 P31M-0-1-5-19;1;1;0;0;0;3;31;4 00:30:42:0A:C9:62;R439 Decke re.;1;1;0;0;0;1;; 00:30:42:0D:E3:F6;R436 Wand oben ln;1;1;0;0;0;1;; 00:30:42:08:31:5F;R434 Decke ln. Tür;1;1;0;0;0;1 00:30:42:08:31:64;R440 Decke re Fnstr;1;1;0;0;0;1 Parse log about import / instruction processing depl-1230/0.2 Page: 226 (238) SIP–DECT OM System Manual Release 3.0 11.7.3 11 Appendix RFP Configuration File / Local (OM Configurator) 11.7.3.1 Supported Instructions All instructions are taken as common value which are set to all records of data sequence section of that file if the corresponding field is empty. Instruction Explanation active Local configuration active: {0=inactive(use DHCP instead), 1=active} net_mask Net mask tftp_server IP address of TFTP server tftp_file Path and name of boot file omm_1 OMM IP address omm_2 IP address of backup OMM gateway Default gateway dns_server Up to two DNS server IP addresses dns_domain local DNS domain ntp_address Up to two NTP server IP addresses ntp_name Up to two NTP server names syslog_addr IP address of syslog daemon syslog_port Listen port of syslog daemon core Flag to enable core dumps use_vlan VLAN is enabled srvlst List of further tftp server broadcast_addr local broadcast address vlan_id VLAN Id country Country code preferred_tftp tftp_server is preferred import_url URL config_file_server configuration server 11.7.3.2 Data Section Fields The data section contains the following field order: 1 MAC address of RFP 34 Local configuration active flag 35 IP address of RFP 36 Net mask depl-1230/0.2 Page: 227 (238) SIP–DECT OM System Manual Release 3.0 11 Appendix 37 TFTP server 38 TFTP_FILE 39 OMM IP address 40 IP address of backup OMM 41 Default gateway 42 DNS server 43 DNS domain 44 NTP server IP address 45 NTP server name 46 Syslog daemon IP address 47 Syslog listen port 48 Core 49 Use VLAN 50 Server list 51 Broadcast address 52 VLAN Id 53 Country code 54 Preferred TFTP server 55 Import URL 56 Configuration file server 11.7.3.3 Example RFP configuration file/local (OM Configurator): # --------------------# # instruction section # # --------------------# active = 1 net_mask = 255.255.0.0 tftp_server= 172.30.200.92 tftp_file = iprfp2g.tftp omm_1 = 172.30.111.188 omm_2 = 172.30.11.181 gateway = 172.30.0.2 dns_server = 172.30.0.4,172.30.0.21 dns_domain = aastra.de ntp_addr = 192.53.103.108,192.53.103.104 ntp_name = ptbtime1.ptb.de,ptbtime2.ptb.de syslog_addr= 172.30.200.92 core = 0 use_vlan = 1 srvlist = 172.30.0.4,172.30.0.21 broadcast_addr = 172.30.255.255 vlan_id = 4 country = 1 preferred_tftp = 1 depl-1230/0.2 Page: 228 (238) SIP–DECT OM System Manual Release 3.0 11 Appendix import_url = https://server/importfiles/ommxy_conf.gz config_file_server = https://server/configfiles/ # --------------# # data sequence # # --------------# # 1. MAC_ADDR ! no instruction supported ! # 2. ACTIVE_FLAG # 3. RFPADDR ! no instruction supported ! # 4. NET_MASK # 5. TFTP_SERVER # 6. TFTP_FILE # 7. OMM1 # 8. OMM2 # 9. GATEWAY #10. DNS_SERVER #11. DNS_DOMAIN #12. NTP_ADDR #13. NTP_NAME #14. SYSLOG_ADDR #15. SYSLOG_PORT #16. CORE #17. USE_VLAN #18. SRVLIST #19. BROADCAST_ADDR #20. VLAN_ID #21. COUNTRY #22. PREFERRED_TFTP #23. IMPORT_URL #24. CONFIG_FILE_SERVER data_sequence 00-30-42-01-01-01;;172.30.111.1 00-30-42-02-02-02;;172.30.111.2 Parse log about import / instruction processing ok: ok: ok: ok: ok: ok: ok: ok: ok: ok: ok: ok: not ok: ok: ok: ok: ok: ok: ok: ok: ok: active = 1 net_mask = 255.255.0.0 tftp_server = 172.30.200.92 tftp_file = iprfp2g.tftp omm_1 = 172.30.111.188 omm_2 = 172.30.11.181 gateway = 172.30.0.2 dns_server = 172.30.0.4,172.30.0.21 dns_domain = Aastra.com ntp_addr = 192.53.103.108,192.53.103.104 ntp_name = ptbtime1.ptb.de,ptbtime2.ptb.de syslog_addr = 172.30.200.92 set: syslog_port core = 0 use_vlan = 1 srvlist = 172.30.0.4,172.30.0.21 broadcast_addr = 172.30.255.255 vlan_id = 4 country = 1 preferred_tftp = 1 import_url = https://server/importfiles/ommxyz_conf.gz config_file_server = https://server/configfiles/ :parsing ok: processing of section: data_sequence […] create data: depl-1230/0.2 Page: 229 (238) SIP–DECT OM System Manual Release 3.0 11 Appendix […] RFP configuration: […] 11.8 RFP Export File Format General RFP export files are created by OMM Management Portal in ‘csv’-file format which can be easily viewed by a spreadsheet application. Export file contains all or a part of the following parameters: x MAC address x Location name x DECT active x Cluster x Paging area x Synchronisation source x Reflective environment x Site x Building x Floor x Room x WLAN profile reference x WLAN antenna x WLAN Channel_bg x WLAN power x WLAN active Example Following example RFP export file contains all exportable RFP parameters and is reimportable by OMM Management Portal. ################################################## # RFP data export file: '/home/user/example.csv' # Date: 24.09.10 Time: 15:58:19 ################################################## # Exported parameters: # MAC address # Name # DECT activated # DECT cluster # Paging area # Preferred sync. # Reflective env. # Site ID # Building # Floor # Room # WLAN profile # WLAN antenna depl-1230/0.2 Page: 230 (238) SIP–DECT OM System Manual Release 3.0 11 Appendix # WLAN channel # WLAN power # WLAN activated ################################################## MAC address;Name;DECT activated;DECT cluster;Paging area;Preferred sync.;Reflective env.;Site ID;Building;Floor;Room;WLAN profile;WLAN antenna;WLAN channel;WLAN power;WLAN activated data_sequence 00:30:42:0E:71:41;License RFP 1; true;1;0;false;true;1;B1;F1;R1;1;0;;100;false 00:30:42:0E:26:F1;License RFP 2; true;1;0;false;false;1;B1;F2;R1;1;0;;100;false 00:30:42:0E:75:59;License RFP 3; true;1;0;true;false;1;B1;F2;R2;1;0;;100;false depl-1230/0.2 Page: 231 (238) SIP–DECT OM System Manual Release 3.0 11.9 11 Appendix Protocols and Ports Protocol HTTPS server tcp server HTTP server (redirect tcp server to https) OpenMobility Manager Server port Client port 443 or as configured any 80 or as configured any HTTP/HTTPS client for the SIP–DECT XML terminal interface tcp 80/443 > 1024 RFP control protocol tcp server 16321 any OMM Standby tcp server 16322 any OM AXI tcp server 12622 any DECTnet monitor tcp server 8106 any LDAP tcp client 389 or as configured >=1024 (see note) TFTP client udp 69 / given by server >=1024 (see note) HTTP client tcp 80 or as configured >=1024 (see note) HTTPS client tcp 443 or as configured >=1024 (see note) explicit FTPS client tcp 21 or as configured >=1024 (see note) implicit FTPS client tcp 990 or as configured >=1024 (see note) OM AXI server TCP tcp server 12621 any OM AXI server TLS tcp server 12622 any SIP udp 5060 as configured Telnet (OMM console, Linux PC based OMM only) tcp server localhost 8107 localhost any Note: depl-1230/0.2 Unbound ports start at port 1024. Page: 232 (238) SIP–DECT OM System Manual Release 3.0 11 Appendix Protocol IP-RFP Server port Client port HTTP/HTTPS client for the SIP–DECT XML terminal interface tcp 80/443 > 1024 RFP control protocol tcp client 16321 >=1024 (see note) HTTP server (redirect tcp server to OMM web server (http)) 80 or as configured any SSH server tcp server 22 any DHCP client udp 67 68 TFTP client udp 69 / given by server >=1024 (see note) OMCFG server udp 64000 64000 NTP client udp 123 123 Syslog client udp 514 or as configured 514 DNS client udp 53 >=1024 (see note) SNMP agent (server) udp 161 any SNMP trap agent (client) udp >=1024 (see note) 162 RSXport (debug only) tcp server 38477 any RTP/RTCP (server) udp any Range of [RTP port base + 71] even ports for RTP, odd ports for RTCP. Port base is 16320 or as configured. RTP/RTCP (client) udp any Note: depl-1230/0.2 Range of [RTP port base + 71] even ports for RTP, odd ports for RTCP. Port base is 16320 or as configured. Unbound ports start at port 1024. Page: 233 (238) SIP–DECT OM System Manual Release 3.0 12 12 Index Index 802.1Q support .................................... 182 Configuration tools................................. 30 Aastra 142d ........................................... 15 OM Configurator .............................. 171 Auto answer test mode .................... 203 OM Management Portal (OMP) ......... 94 Auto call test mode .......................... 203 OMM Web service ............................. 41 Checking firmware ........................... 202 Country specific tones ......................... 163 Site survey mode ............................. 202 DECT authentication code..................... 24 Aastra 600d ........................................... 15 dSetting (OMM Web service)............. 71 Software........................................... 184 Setting (OMM Web service)............... 45 Aastra 650c............................................ 15 Setting (OMP) .................................. 135 Software........................................... 184 DECT Monitor ................................ 45, 210 Account Data ....................................... 193 DECT XQ............................................... 27 Account Types ..................................... 193 Setting (OMM Web service)............... 66 Alphanumeric dialing ............................. 28 Setting (OMP) .................................. 119 Auto answer test mode ........................ 203 DHCP Auto call test mode .............................. 203 Boot phase (IP RFPs) ...................... 183 Auto-create on subscription Client................................................ 162 Enabling (OMP) ................................. 99 Country specific tones ..................... 163 Status indication (OMM Web service) 75 Parameters ...................................... 162 Status indication (OMP) ..................... 96 RPF Configuration ........................... 164 Beacon interval .................................... 195 Server requirements ........................ 159 Capacities Server selection ............................... 165 OMM .................................................. 14 Capacities Setup ................................................. 17 Vendor specific options.................... 163 SIP–DECT ......................................... 13 Digit treatment ....................................... 87 CAT-iq.................................................... 26 Entries................................................ 88 Channel allocation ............................... 196 LDAP ................................................. 87 Cluster ................................................... 11 Download over air.......................... 26, 198 Overview............................................ 29 Activating (OMM Web service) .......... 45 Setting (OMM Web service)............... 66 Activating (OMP)........................ 99, 112 Setting (OMP) .................................. 119 DTIM period ......................................... 196 Configuration files Import PP files ................................... 72 PP .................................................... 135 Import RFP files (OMM Web concole 67 RFP.............................................. 45, 99 Import RFP files (OMP) ................... 123 WLAN settings ................................... 83 Import user data files ....................... 109 depl-1230/0.2 Encryption Enrolment PP (pre-configuration file rules) ....... 221 PP files (OMM Web service).............. 72 RFP (description)............................. 178 RFP files (OMM Web service) ........... 67 RFP (file syntax) .............................. 181 RFP files (OMP)............................... 123 RFP (pre-configuration file rules).... 223, 227 User data files (OMP) ...................... 109 EULA ............................................. 93, 152 Page: 234 (238) SIP–DECT OM System Manual Release 3.0 12 Index Fragmentation threshold...................... 196 Alarm triggers .................................. 142 G.729 codec .......................................... 34 Enabling (OMM Web service) ............ 46 GAP phones .......................................... 16 Enabling (OMP) ................................. 99 Hi-Q™ audio technology........................ 26 PP settings (OMP) ........................... 136 Host mode ..................................... 29, 183 OM Configurator .................................. 171 Indoor RFPs....................................... 8, 10 Boot parameters .............................. 173 IPEI Boot phase (IP RFPs) ...................... 183 Setting (OMM Web service)............... 71 OM Management Portal (OMP) ............. 94 Setting (OMP) .................................. 135 OMM IPEI (subscription) ................................. 76 Console command (host mode)....... 206 Isolated sites.......................................... 29 Console commands ......................... 208 LDAP ..................................................... 87 DECT settings (OMM Web service)... 45 Server ................................................ 90 DECT settings (OMP) ........................ 99 License General settings (OMM Web service) 44 Built-in license (medium system) ....... 38 General settings (OMP) ..................... 99 Built-in license (small system) ........... 38 Host mode ............................... 183, 188 EULA (OMM Web service) ................ 93 Net parameters (OMM Web service) . 44 EULA (OMP).................................... 152 Net parameters (OMP) ...................... 99 G. 729 violations ................................ 36 Overview............................................ 11 General violations .............................. 36 Protocols and ports.......................... 232 Menu (OMM Web service)................. 92 Restart ............................................... 46 Menu (OMP) .................................... 150 RFP mode.................................. 11, 188 Model ................................................. 34 RFP-based......................................... 11 Restrictions ........................................ 36 Selection ............................................ 22 Standard license (large system) ........ 39 Software........................................... 184 Standard license (small system) ........ 38 Start parameters .............................. 186 Status (OMM Web service)................ 42 Syslog ................................................ 46 Status (OMP) ..................................... 97 System requirements ....................... 184 Update License.................................. 35 Tasks ................................................. 12 Uploading license file......................... 37 Time zone .......................................... 46 Locating application ........................... 8, 29 Update ....................................... 47, 187 PP settings (OMP) ........................... 136 WLAN settings (OMM Web service) .. 46 Login Account types .................................. 193 WLAN settings (OMP) ....................... 99 OMM database OMM Web service ............................. 41 Export (OMM Web service) ............... 58 OMP................................................... 94 Export (OMP)........................... 108, 111 SSH user shell ................................. 205 Import (OMM Web service)................ 56 Logout Import (OMP) ........................... 106, 110 OMM Web service ............................. 42 OMM standby ...............see Standby OMM OMP................................................... 95 OMM Upgrade ..................................... 187 Messaging ......................................... 8, 29 OMM Web service ................................. 41 depl-1230/0.2 Page: 235 (238) SIP–DECT OM System Manual Release 3.0 12 Index Modes ................................................ 95 SIP authentication (OMM Web service) ....................................................... 72 Options ............................................ 151 SIP authentication (OMP) ................ 134 OpenMobility Manager................see OMM SOS number (OMM Web service) ..... 72 Outdoor RFPs.................................... 8, 10 SOS number (OMP) ........................ 137 Paging areas Subscription with configured IPEI (OMM Web service) .................................. 76 OMP Configuration ................................... 122 Overview............................................ 29 Size.................................................... 99 PARK Subscription with configured IPEI (OMP) ..................................................... 138 Voice mail number ..................... 72, 137 Indication (OMM Web service) .......... 45 Wildcard subscription (OMM Web service) .......................................... 76 Indication (OMP).......................... 96, 99 Wildcard subscription (OMP) ........... 138 Portable Part...................................see PP Provisioning ....................................... 8, 29 Portable part user login type.................. 45 Creating (unbound) devices (OMP) . 133 PP Creating (unbound) users (OMP) .... 132 Additional ID (OMM Web service) ..... 71 User data import (OMP)................... 109 Additional ID (OMP) ......................... 134 Additional settings............................ 137 Viewing unbound PP data (OMM Web service) .......................................... 70 Configuration file.............................. 221 Radio coverage.. see RFP synchronization DECT authentication code (OMM Web service) .......................................... 71 Radio Fixed Part .......................... see RFP DECT authentication code (OMP) ... 135 RFP Reflective environment ........see DECT XQ DECT settings (OMP) ...................... 135 Channel Capacity ............................ 157 Delete subscription (OMM Web service) ....................................................... 71 Console commands ......................... 207 Delete subscription (OMP)............... 136 Download over air (OMM Web service) ....................................................... 45 Download over air (OMP) .......... 99, 112 Encryption........................................ 136 General settings (OMM Web service) 71 General settings (OMP) ................... 134 Import configuration files.................... 72 Import user data files ....................... 109 IPEI (OMM Web service) ................... 71 IPEI (OMP) ...................................... 135 Locating settings.............................. 136 ManDown number (OMM Web service) ....................................................... 72 DECT settings (OMM Web service)... 66 DECT settings (OMP) .............. 117, 119 Export file format.............................. 230 General settings (OMM Web service) 65 General settings (OMP) ........... 116, 118 Hardware information (OMP) ........... 117 Hardware settings (OMP) ................ 119 LED Status....................................... 165 RSSI values ..................................... 126 Status indication (OMM Web service) 63 Status indication (OMP) ........... 114, 116 Viewing sync relations ..................... 125 WLAN settings (OMM Web service) .. 66 WLAN settings (OMP) ............. 117, 119 ManDown number (OMP) ................ 137 RFP 32 IP / RFP L32 IP........................... 8 Messaging settings .......................... 136 RFP 34 IP / RFP L34 IP........................... 8 RFP 35 IP / RFP L35 IP......................... 10 depl-1230/0.2 Page: 236 (238) SIP–DECT OM System Manual Release 3.0 12 Index RFP 36 IP / RFP L36 IP......................... 10 Standby OMM........................................ 28 RFP 37 IP / RFP L37 IP......................... 10 Configuration ................................... 190 RFP 42 WLAN / RFP L42 WLAN............. 8 Installation update............................ 188 RFP 43 WLAN / RFP L43 WLAN........... 10 OMM Console Commands .............. 209 RFP software update ........................... 181 Overview.......................................... 189 RFP synchronization...................... 28, 155 Protocol and Port ............................. 232 Preferred synchronization source (OMM Web service) .................................. 66 Status indication (OMM Web service) 42 Preferred synchronization source (OMP) ..................................................... 119 Sync view (OMP) ............................. 125 RSSI values ......................................... 126 RTS threshold...................................... 195 Seamless handover ..................... see RFP Synchronisation SIP Advanced settings (OMM Web service) ....................................................... 49 Advanced settings (OMP) ................ 101 Basic settings (OMM Web service).... 48 Basic settings (OMP) ....................... 101 DTMF settings (OMM Web service) .. 50 DTMF settings (OMP) ...................... 102 General settings (OMM Web service) 47 General settings (OMP) ................... 101 PP Authentication (OMM Web service) ....................................................... 72 Status indication (OMP) ..................... 97 Startup Application ....................................... 160 Booter .............................................. 159 Statistics ................................................ 99 Subscription ........................................... 74 Wildcard subscription (OMM Web service) .......................................... 76 Wildcard subscription (OMP) ........... 138 With IPEI (OMM Web service) ........... 76 With IPEI (OMP) .............................. 138 Sync relations ...................................... 125 Syslog messages................................. 204 System Requirements ......................... 184 TFTP Server requirements ........................ 159 Setup ................................................. 17 Troubleshooting ........... 186, 190, 194, 209 User administration PP authentication (OMP) ................. 134 OMM Web service ............................. 51 Registration traffic shaping ................ 51 OMP................................................. 103 RTP settings (OMM Web service) ..... 50 UTF-8............................................... 27, 28 RTP settings (OMP)......................... 101 Voice mail number ................................. 28 Supplementary services (OMP) ....... 102 System wide (OMM Web service) ..... 46 SIP-DECT XML terminal interface . 30, 146 Wildcard subscription............................. 76 Site survey mode ................................. 202 WLAN .................................................... 29 SNMP .................................................... 30 Clients................................................ 86 Configuration ................................... 197 Configuration ................................... 194 General settings................................. 55 Menu.................................................. 78 Menu.................................................. 54 Profiles............................................... 78 Trap handling..................................... 55 Securing........................................... 197 SSH user shell ..................................... 205 WLAN profile Commands ...................................... 206 General settings................................. 82 Login ................................................ 205 Key settings ....................................... 84 Multiple SSID (SSID2 – SSID4) ......... 84 depl-1230/0.2 Page: 237 (238) SIP–DECT OM System Manual Release 3.0 depl-1230/0.2 12 Index QoS settings ...................................... 84 Security settings ................................ 83 Radius settings .................................. 84 XML applications ........................... 30, 146 Page: 238 (238)
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