* IP CONCEPTin Long Term Evolution
http://id.linkedin.com/in/sofian/http://babakhalid.com/
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CONTENTS
1. EXECUTIVE SUMMARY
2. OBJECTIVES
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EXECUTIVE SUMMARY
1. In the Next Generation Telecommunication (LTE), all communication devices will use IP as the identity.
2. IP will be used to define routing from one node to others and vice versa. IP is the 3rd layer in OSI standard. Layer 3 (Network layer) is used to bring packet from one node to other using logical address (Packet Forwarder/routing).
3. Allocation of IPV4 is limited. Therefore plan is needed and we can also divide IP network into some IP sub-network (subnetting)
4. IPv6 contain 128 bits (IPv4 only 32 bits). As the limitation of IP allocation, IPv6 will replace IPv4.
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OBJECTIVES
After this presentation, participants will know:
OSI layer applied in LTE How to do Subnetting Grouping BTS/NodeB in a VLAN IP Configuration in BSC/RNC/LTE
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OSI layer applied in LTE - Overview -
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OSI LAYER
Application: End User Interface (http, ftp, telnet, dns, etc)
Data format sent: ASCII, binary, JPEG, other compression, etc.
Open, maintain and terminate communication session: SQL, netbios, RPC, etc
How to deliver data reliable or unreliable, connectionless (UDP) or connection oriented (TCP). It has function: error & flow control, sequence number, acknowledgement.
Change data from Data link BITS
Bring packet from one node to other using logical address (Packet Forwarder /Routing)
Communication data between one node and others using Hardware Address (MAC, LLC, etc). It identify the topology used (PTP, PTM – FR/ATM, BUS, Token Rng, etc). Also function for error control and flow control.
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OSI LAYER IN LTEUser Plane & Control Plane
User Plane Protocol Stack
Control Plane Protocol Stack
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OSI LAYER IN UMTSCS & PS
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Layer 1
*Downlink Physical Layer Procedures
* Downlink Physical Layer Procedures
* For E-UTRA, the following downlink physical layer procedures are especially important:
Cell search and synchronization:
Scheduling:
Link Adaptation:
Hybrid ARQ (Automatic Repeat Request)
* Uplink Physical Layer Procedures* For E-UTRA, the following uplink physical layer procedures are especially important:
Random access
Uplink scheduling
Uplink link adaptation
Uplink timing control
Hybrid ARQ
*Uplink Physical Layer Procedures
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Air Interface Physical
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S1 Layer1
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X2 Layer1
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Layer 2
*Layer 2 The three sublayers are Medium access Control(MAC)Radio Link Control(RLC)Packet Data Convergence Protocol(PDCP)
[Source: E-UTRAN Architecture(3GPP TR 25.012 ]
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Packet Data Convergence Protocol
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Radio Link Control
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Medium Access Control
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Radio Resource Control
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Non Access Stratum Protocol
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Internet Protocol Overview
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Internet Protocol Overview
From Wikipedia:
The Internet Protocol (IP) is the principal communications protocol in the Internet protocol suite for relaying datagrams across network boundaries. This function of ROUTING enables internetworking, and essentially establishes the Internet.
Internet Protocol sends data packets with unreliable/connectionless (no warranty success or not)The responsibility is handled in upper layer.
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IP V4
Communication between TCP/IP network needs identity known as IP address.
- IP address contain 32 bits.- IP address divided into Network ID and Host ID
- 32 bits IP divided into 4 parts, each part has 8 bits.- Every 8 bits can be converted to decimal 0 to 255.
Dec: xxx . xxx . xxx . xxx Bit : xxxxxxxx.xxxxxxxx.xxxxxxxx.xxxxxxxx
Note: IPv6 has 128 bit
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IP V4 Classification
xxxxxxxx . xxxxxxxx . xxxxxxxx . xxxxxxxx
IP divided into 3 class
Class A:Network ID (8bit) Host ID (24 bit)0xxxxxxx xxxxxxxx.xxxxxxxx.xxxxxxxx
Class B:Network ID (16 bit) Host ID (16 bit)10xxxxxx.xxxxxxxx xxxxxxxx.xxxxxxxx
Class C:Network ID (8bit) Host ID (24 bit)110xxxxx.xxxxxxxx.xxxxxxxx xxxxxxxx
Note: IPv6 has 128 bit
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IP V4 Classification
Class
Bit awal
Jumlah Jaringan
Jumlah Host
Private IP address by International Assigned Number Authority (IANA)
A 1 - 126 126 16 777 214 10.0.0.0 sampai 10.255.255.255
B 128 - 191
16 384 65 534 172.16.0.0 sampai 172.31.255.255
C 192 - 223
2 097 152 254 192.168.0.0 sampai 192.168.255.255
Note: 127.0.0.0 is used for loopback address
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IP Netmask
Netmask bit Netmask Dec
1111 1111 255
1111 1110 254
1111 1100 252
1111 1000 248
1111 0000 240
1110 0000 224
1100 0000 192
1000 0000 128
To separate Network ID and Host ID, NETMASK is used with definition:
- Network ID use binary 1- Host ID use binary 0
Netmask natural:
11111111 00000000 00000000 00000000 = 255.0.0.011111111 11111111 00000000 00000000 = 255.255.0.011111111 11111111 11111111 00000000 = 255.255.255.0
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Broadcast Address & Network AddressBroadcast address is needed in a network.
Function of Broadcast Address:- To give information to the network for an existing service - Finding information in a network
192.168.1.0
192.168.1.1
192.168.1.2192.168.1.3 192.168.1.4
Local broadcast: 255.255.255.255
Directed broadcast: 192.168.1.255
Network ID: 192.168.1.01st Host: 192.168.1.1 : : : :Last host: 192.168.1.254IP broadcast: 192.168.1.255
Exercise
Jaringan Class First IP Last IP Broadcast IP
10.0.0.0 A 10.0.0.1 10.255.255.254 10.255.255.255
128.3.0.0 B 128.3.0.1 128.3.255.254 128.3.255.255
172.16.0.0 B 172.16.0.1 172.16.255.254 172.16.255.255
192.168.16.0 C 192.168.16.1 192.168.16.254 192.168.16.255
191.254.0.0 B 191.254.0.1 191.254.255.254 191.254.255.255
224.19.2.0 C 224.19.2.1 224.19.2.254 224.19.2.255
223.253.25.0 C 223.253.25.1 223.253.25.254 223.253.25.255
126.0.0.0 A 126.0.0.1 126.255.255.254 126.255.255.255
SUBNETTINGSubnetting diperlukan untuk membangun SUB-Jaringan dari Jaringan yang ada.Subnetting diperlukan untuk lebih mengefisiensikan/utilize alokasi IP address yang ada.
Tujuan Subnetting:
- Memadukan teknologi jaringan yang berbeda- Menghindari limitasi jumlah simpul dalam satu segmen- Mereduksi traffic yang disebabkan oleh broadcast atau pun collision
Jaringan di bawah ini bisa kita bagi menjadi beberapa sub-jaringan dengan menggunakan router.
192.168.1.0
192.168.1.1
192.168.1.2192.168.1.3 192.168.1.4
SUBNETTING
Dari gambar sebelumnya kita akan membagi IP jaringan 192.168.1.0 menjadi 4 buah sub-jaringan.
192.168.1.0 mempunyai Network ID = 192.168.1.0Broadcast ID = 192.168 1.255Host ID = 192.168.1.1-254
Karena ada 4 subjaringan maka langkah selanjutnya adalah memecah IP tersebut menjadi 4 bagian.
192.168.1.0 =11000000.10101000.00000001.00000000Karena 4 subnet = 22 maka jumlah bit untuk subnet = 2
11000000.10101000.00000001.00000000
Simplenya 256/4 ~= 64Sehingga didapat IP jaringan 4 subjaringan:- 192.168.1.0- 192.168.1.64- 192.168.1.128- 192.168.1.192
192.168.1.0
192.168.1.128
192.168.1.64
192.168.1.192
SUBNETTING
Sub Network 1Network ID = 192.168.1.0 =11000000.10101000.00000001.00000000Broadcast ID = 192.168.1.63Host ID = 192.168.1.1-62
Sub Network 2Network ID = 192.168.1.64 =11000000.10101000.00000001.01000000Broadcast ID = 192.168.1.127Host ID = 192.168.1.65-126
Sub Network 3Network ID = 192.168.1.128 =11000000.10101000.00000001.10000000Broadcast ID = 192.168.1.191Host ID = 192.168.1.129-190
Sub Network 4Network ID = 192.168.1.192 =11000000.10101000.00000001.11000000Broadcast ID = 192.168.1.255Host ID = 192.168.1.193-254
192.168.1.0
192.168.1.128
192.168.1.64
192.168.1.192
Exercise
1. Pada jaringan Class B & C dibutuhkan 50 subnet dengan masing2 dapat mempunyai 4 hosts.Berapa subnet bits yang dibutuhkan? Bisakah?
Class B (172.16.0.0 = 10110000.00010000.00000000.00000000)Karena 50 ~ 64 = 26 maka bit subnet yang dibutuhkan adalah 6 bit.Sisa 10 bits HOST10110000.00010000.00000000.00000000
Class C (192.168.1.0 = 11000000.10101000.00000001.00000000)Karena 50 ~ 64 = 26 maka bit subnet yang dibutuhkan adalah 6 bit.Sisa 2 bits HOST11000000.10101000.00000001.00000000
2. Dari data di atas berapa subnet-mask nya?
Ingat!! - Network ID use binary 1- Host ID use binary 0
Maka subnet-mask adalah:Class B: 11111111.11111111.11111100.00000000 = 255.255.252.0
Class C: 11111111.11111111.11111111.11111100 = 255.255.255.252
Exercise
3. Tentukan IP subnet/sub-jaringan dari Class B & C tersebut? Class B: 172.16.0.0 = 10110000.00010000.00000000.00000000172.16.4.0 = 10110000.00010000.00000100.00000000172.16.8.0 = 10110000.00010000.00001000.00000000172.16.12.0 = 10110000.00010000.00001100.00000000
:::
172.16.252.0 = 10110000.00010000.11111100.00000000
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TOPOLOGY
GSM & UMTS IP TOPOLOGY
INTERFACE IP ALLOCATION
SYSTEM INTERFACE IP
2G Abis 10.48-54.x.x
Gb 10.5.x.x
AoIP CP 10.2.x.x
AoIP UP 10.4.x.x
3G IuB direct to RNC 10.13.x.x
IuB 10.176-182.x.x
IuPS CP/UP 10.6.x.x
IuCS CP 10.2.x.x
IuCS UP 10.4.x.x
IuR 10.29.x.x
OAM NodeB 10.129.x.x10.13-15.x.x10.32.x.x10.39.x.x
IP ROUTING IN BSC/RNC
- IP ROUTING (IPRT) should be created from BSC/RNC to other nodes to establish connection.- For checking whether connection is open between BSC/RNC with other nodes we can use PING command.- If no RTO found then we can create IP routing and UP/CP connection
DSTIP = IP SubnetDSTMASK = SubnetmaskNEXTHOP = IP router
INTERFACE IPWe can know how many BTS grouped in a VLAN from IPRT command.
For example, Abis IP is set from 10.48.x.x to 10.54.x.xFrom the CFGMML (LST IPRT) we got:
For IP Subnet=10.48.0.32, DSTMASK=255.255.255.224 (11111111.11111111.11111111.11100000) #HOST = 25 -2 = 32IP HOST/BTSIP = 10.48.0.32.0-62IP BROADCAST=10.48.0.63
Other example for RNC CFGMML:
For IP Subnet=10.176.2.0, DSTMASK=255.255.255.0 (11111111.11111111.11111111.00000000) #HOST = 28 -2 = 254IP NODEBIP = 10.176.2.1-254IP BROADCAST=10.176.2.255
IP BTS/NODEB/OAM NODEB
In Huawei we can check the IP address of BTS:
SET BTSIP:BTSID=0, IDTYPE=BYID, BSCIP="10.49.6.4", BTSIP="10.49.7.38", BTSCOMTYPE=PORTIP, HOSTTYPE=SINGLEHOST, CFGFLAG=NULL, BTSGWIPSWITCH=OFF;SET BTSIP:BTSID=1, IDTYPE=BYID, BSCIP="10.49.6.4", BTSIP="10.49.7.39", BTSCOMTYPE=PORTIP, HOSTTYPE=SINGLEHOST, CFGFLAG=NULL, BTSGWIPSWITCH=OFF;SET BTSIP:BTSID=2, IDTYPE=BYID, BSCIP="10.49.6.4", BTSIP="10.49.6.102", BTSCOMTYPE=PORTIP, HOSTTYPE=SINGLEHOST, CFGFLAG=NULL, BTSGWIPSWITCH=OFF;SET BTSIP:BTSID=3, IDTYPE=BYID, BSCIP="10.49.6.4", BTSIP="10.48.70.69", BTSCOMTYPE=PORTIP, HOSTTYPE=SINGLEHOST, CFGFLAG=NULL, BTSGWIPSWITCH=OFF;SET BTSIP:BTSID=4, IDTYPE=BYID, BSCIP="10.49.6.4", BTSIP="10.49.6.207", BTSCOMTYPE=PORTIP, HOSTTYPE=SINGLEHOST, CFGFLAG=NULL, BTSGWIPSWITCH=OFF;SET BTSIP:BTSID=5, IDTYPE=BYID, BSCIP="10.49.6.4", BTSIP="10.49.7.40", BTSCOMTYPE=PORTIP, HOSTTYPE=SINGLEHOST, CFGFLAG=NULL, BTSGWIPSWITCH=OFF;SET BTSIP:BTSID=6, IDTYPE=BYID, BSCIP="10.49.6.4", BTSIP="10.49.6.166", BTSCOMTYPE=PORTIP, HOSTTYPE=SINGLEHOST, CFGFLAG=NULL, BTSGWIPSWITCH=OFF;SET BTSIP:BTSID=7, IDTYPE=BYID, BSCIP="10.49.6.4", BTSIP="10.49.6.38", BTSCOMTYPE=PORTIP, HOSTTYPE=SINGLEHOST, CFGFLAG=NULL, BTSGWIPSWITCH=OFF;SET BTSIP:BTSID=8, IDTYPE=BYID, BSCIP="10.49.6.4", BTSIP="10.49.6.39", BTSCOMTYPE=PORTIP, HOSTTYPE=SINGLEHOST, CFGFLAG=NULL, BTSGWIPSWITCH=OFF;SET BTSIP:BTSID=9, IDTYPE=BYID, BSCIP="10.49.6.4", BTSIP="10.49.6.103", BTSCOMTYPE=PORTIP, HOSTTYPE=SINGLEHOST, CFGFLAG=NULL, BTSGWIPSWITCH=OFF;
For NodeB IP address, we can get it from
ADD ADJNODE:ANI=100, NAME="JKP102", NODET=IUB, TRANST=IP, NODEBID=100;ADD ADJNODE:ANI=103, NAME="JKP100", NODET=IUB, TRANST=IP, NODEBID=103;ADD ADJNODE:ANI=104, NAME="JKP506", NODET=IUB, TRANST=IP, NODEBID=104;ADD ADJNODE:ANI=105, NAME="JKB118", NODET=IUB, TRANST=IP, NODEBID=105;ADD ADJNODE:ANI=106, NAME="JKB114", NODET=IUB, TRANST=IP, NODEBID=106;ADD ADJNODE:ANI=107, NAME="JKP007", NODET=IUB, TRANST=IP, NODEBID=107;ADD ADJNODE:ANI=108, NAME="JKP109", NODET=IUB, TRANST=IP, NODEBID=108;
ADD IPPATH:ANI=100, PATHID=1, IPADDR="10.176.0.4", PEERIPADDR="10.176.22.230", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=EF, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=100, PATHID=2, IPADDR="10.176.0.4", PEERIPADDR="10.176.22.230", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=AF43, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=100, PATHID=3, IPADDR="10.176.0.4", PEERIPADDR="10.176.22.230", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=AF23, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=100, PATHID=4, IPADDR="10.176.0.4", PEERIPADDR="10.176.22.230", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=AF13, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=103, PATHID=1, IPADDR="10.176.0.4", PEERIPADDR="10.176.22.229", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=EF, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=103, PATHID=2, IPADDR="10.176.0.4", PEERIPADDR="10.176.22.229", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=AF43, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=103, PATHID=3, IPADDR="10.176.0.4", PEERIPADDR="10.176.22.229", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=AF23, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=103, PATHID=4, IPADDR="10.176.0.4", PEERIPADDR="10.176.22.229", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=AF13, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=104, PATHID=1, IPADDR="10.176.0.4", PEERIPADDR="10.176.6.68", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=EF, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=104, PATHID=2, IPADDR="10.176.0.4", PEERIPADDR="10.176.6.68", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=AF43, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=104, PATHID=3, IPADDR="10.176.0.4", PEERIPADDR="10.176.6.68", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=AF23, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=104, PATHID=4, IPADDR="10.176.0.4", PEERIPADDR="10.176.6.68", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=AF13, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=105, PATHID=1, IPADDR="10.176.0.4", PEERIPADDR="10.176.44.69", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=EF, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=105, PATHID=2, IPADDR="10.176.0.4", PEERIPADDR="10.176.44.69", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=AF43, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=105, PATHID=3, IPADDR="10.176.0.4", PEERIPADDR="10.176.44.69", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=AF23, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=105, PATHID=4, IPADDR="10.176.0.4", PEERIPADDR="10.176.44.69", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=AF13, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=106, PATHID=1, IPADDR="10.176.0.4", PEERIPADDR="10.176.52.197", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=EF, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=106, PATHID=2, IPADDR="10.176.0.4", PEERIPADDR="10.176.52.197", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=AF43, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=106, PATHID=3, IPADDR="10.176.0.4", PEERIPADDR="10.176.52.197", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=AF23, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;ADD IPPATH:ANI=106, PATHID=4, IPADDR="10.176.0.4", PEERIPADDR="10.176.52.197", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=AF13, PEERMASK="255.255.255.255", TXBW=15000, RXBW=15000, PATHCHK=DISABLED, ITFT=IUB, TRANST=IP, TRMLOADTHINDEX=2;
IP CONNECTION for UP & CP
For User Plane, to deliver data in IP network between BSC & Other NE is set in below command:
ADD IPPATH:ANI=0, PATHID=0, IPADDR="10.4.19.4", PEERIPADDR="10.4.1.0", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=QoS, PEERMASK="255.255.255.0", TXBW=400000, RXBW=400000, PATHCHK=DISABLED, ITFT=A, TRMLOADTHINDEX=2;ADD IPPATH:ANI=0, PATHID=1, IPADDR="10.4.19.4", PEERIPADDR="10.4.3.0", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=QoS, PEERMASK="255.255.255.0", TXBW=400000, RXBW=400000, PATHCHK=DISABLED, ITFT=A, TRMLOADTHINDEX=2;ADD IPPATH:ANI=0, PATHID=2, IPADDR="10.4.19.4", PEERIPADDR="10.4.21.0", VLANFLAG=DISABLE, CARRYFLAG=NULL, PATHT=QoS, PEERMASK="255.255.255.0", TXBW=400000, RXBW=400000, PATHCHK=DISABLED, ITFT=A, TRMLOADTHINDEX=2;
IPADDR is IP address of Interface Port in BSC/RNCPEERIPADDR is IP address of Other NE (MSS, MGW, SGSN, GGSN, etc)
For Control Plane, connection will establish if Stream Control Transmission Protocol link is set.SCTP is Transport Layer protocol (same like TCP/UDP),
ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=0, APP=M3UA, PEERPN=6088, LOCIP1="10.2.6.131", PEERIP1="10.2.6.150", LOCPN=6088, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=62, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=1, APP=M3UA, PEERPN=6089, LOCIP1="10.2.6.131", PEERIP1="10.2.6.150", LOCPN=6089, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=62, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=2, APP=M3UA, PEERPN=6090, LOCIP1="10.2.6.131", PEERIP1="10.2.6.150", LOCPN=6090, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=62, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=3, APP=M3UA, PEERPN=6091, LOCIP1="10.2.6.131", PEERIP1="10.2.6.150", LOCPN=6091, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=62, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=4, APP=M3UA, PEERPN=6092, LOCIP1="10.2.6.131", PEERIP1="10.2.7.150", LOCPN=6092, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=62, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=5, APP=M3UA, PEERPN=6093, LOCIP1="10.2.6.131", PEERIP1="10.2.7.150", LOCPN=6093, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=62, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=6, APP=M3UA, PEERPN=6094, LOCIP1="10.2.6.131", PEERIP1="10.2.7.150", LOCPN=6094, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=62, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=7, APP=M3UA, PEERPN=6095, LOCIP1="10.2.6.131", PEERIP1="10.2.7.150", LOCPN=6095, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=62, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=20, APP=M3UA, PEERPN=6008, LOCIP1="10.6.226.132", PEERIP1="10.6.224.130", LOCPN=2905, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=62, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=21, APP=M3UA, PEERPN=6008, LOCIP1="10.6.228.132", PEERIP1="10.6.224.131", LOCPN=2905, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=62, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=22, APP=M3UA, PEERPN=7024, LOCIP1="10.6.226.132", PEERIP1="10.6.224.162", LOCPN=2905, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=62, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=23, APP=M3UA, PEERPN=7024, LOCIP1="10.6.228.132", PEERIP1="10.6.224.163", LOCPN=2905, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=62, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=24, APP=M3UA, PEERPN=2916, LOCIP1="10.6.226.132", PEERIP1="10.6.224.66", LOCPN=2905, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=62, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=25, APP=M3UA, PEERPN=2916, LOCIP1="10.6.228.132", PEERIP1="10.6.224.67", LOCPN=2905, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=62, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=30, APP=M3UA, PEERPN=2905, LOCIP1="10.29.1.4", PEERIP1="10.29.17.4", SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=SERVER, DSCP=48, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=31, APP=M3UA, PEERPN=2906, LOCIP1="10.29.1.4", PEERIP1="10.29.17.4", SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=SERVER, DSCP=48, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=32, APP=M3UA, PEERPN=2905, LOCIP1="10.29.1.4", PEERIP1="10.29.19.4", SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=SERVER, DSCP=48, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=33, APP=M3UA, PEERPN=2906, LOCIP1="10.29.1.4", PEERIP1="10.29.19.4", SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=SERVER, DSCP=48, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=34, APP=M3UA, PEERPN=2905, LOCIP1="10.29.1.4", PEERIP1="10.29.18.4", SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=SERVER, DSCP=48, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=35, APP=M3UA, PEERPN=2906, LOCIP1="10.29.1.4", PEERIP1="10.29.18.4", SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=SERVER, DSCP=48, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=36, APP=M3UA, PEERPN=2905, LOCIP1="10.29.1.4", PEERIP1="10.29.2.4", LOCPN=2905, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=48, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=37, APP=M3UA, PEERPN=2905, LOCIP1="10.29.1.4", PEERIP1="10.29.2.4", LOCPN=2906, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=48, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=38, APP=M3UA, PEERPN=2905, LOCIP1="10.29.1.4", PEERIP1="10.29.1.10", LOCPN=2910, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=62, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;ADD SCTPLNK:SRN=0, SN=0, SCTPLNKN=39, APP=M3UA, PEERPN=2905, LOCIP1="10.29.1.4", PEERIP1="10.29.1.10", LOCPN=2911, SWITCHBACKHBNUM=10, LOGPORTFLAG=NO, MODE=CLIENT, DSCP=62, RTOMIN=150, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=1000, MAXASSOCRETR=4, MAXPATHRETR=2, CHKSUMTX=NO, CHKSUMRX=NO, CHKSUMTYPE=CRC32, MTU=800, CROSSIPFLAG=UNAVAILABLE, SWITCHBACKFLAG=YES, BUNDLINGFLAG=NO, VLANFLAG1=DISABLE, VLANFLAG2=DISABLE, TSACK=200;
IP IN LTE
IPV6
IPV6 compared to IPv4 has some advantages:
- Larger address space (contain 128 bits), means 2^128 = 3.4 x 10^38 IP address can be defined- Multicasting
THANK YOU