Authors: Vance Shipley and Serge Aleynikov
In the following examples we will assume we are logged in as the user otpuser and working from a home directory of otpuser. Create a subdirectory to contain the configuration files of the agent named snmp/agent/conf and another for the working files named snmp/agent/db.
Code listing 2.1: Create the Agent Configuration and Database Directories
$ mkdir -p snmp/agent/conf
$ mkdir -p snmp/agent/db
The snmp/agent/conf/agent.conf file defines the information for this agent. The IP address and port which the agent will respond to must be provided as well as a unique identifier called an engineID. The maximum size of a packet must also be provided.
$ cat > snmp/agent/conf/agent.conf
{intAgentIpAddress, [127,0,0,1]}.
{intAgentUDPPort, 4000}.
{snmpEngineID, "agent's engine"}.
{snmpEngineMaxMessageSize, 484}.
^D
Note: Control-D to terminate
The snmp/agent/conf/standard.conf file defines the information for the system being managed. Here we will use the sysObjectID for the Ericsson OTP application. If you are creating an agent to manage your own embedded system you may want to apply for a private enterprise number assignment and create your own sysObjectID for your network element.
$ cat > snmp/agent/conf/standard.conf
{sysName, "SNMP Quick Start HowTo Demo"}.
{sysDescr, "Erlang/OTP Agent"}.
{sysContact, "[email protected]"}.
{sysLocation, "5th Floor machine room, rack 21A"}.
{sysObjectID, [3,6,1,4,1,193,19]}. % {ericsson otp}
{sysServices, 72}.
{snmpEnableAuthenTraps, enabled}.
^D
$
The snmp/agent/conf/community.conf file defines the communities for the system being managed. It is required for SNMPv1 or SNMPv2c.
$ cat > snmp/agent/conf/community.conf
{"public", "public", "initial", "", ""}.
^D
$
The snmp/agent/conf/vacm.conf file defines the views for VACM. This determines what access rights users have to areas of the MIBS. Here we will define access rights for the community defined above.
$ cat > snmp/agent/conf/vacm.conf
{vacmSecurityToGroup, v2c, "initial", "initial"}.
{vacmSecurityToGroup, usm, "initial", "initial"}.
{vacmAccess, "initial", "", any, noAuthNoPriv, exact, "restricted", "", "restricted"}.
{vacmAccess, "initial", "", usm, authNoPriv, exact, "internet", "internet", "internet"}.
{vacmAccess, "initial", "", usm, authPriv, exact, "internet", "internet", "internet"}.
{vacmViewTreeFamily, "internet", [1,3,6,1], included, null}.
{vacmViewTreeFamily, "restricted", [1,3,6,1], included, null}.
^D
$
Create the snmp/agent.config system configuration file to be used when we start the node to run the agent. Here we define the required application environment variables. The paths to the subdirectories we created earlier are given so the agent application can find it's configuration files and persistent database.
$ cat > snmp/agent.config
[{snmp,
[{agent,
[{config, [{dir, "snmp/agent/conf/"}]},
{db_dir, "snmp/agent/db/"}]}]}].
^D
$
The configuration in snmp/agent.config will be used when we start the emulator with the -config snmp/agent commandline option.
$ erl -sname agent -config snmp/agent
Eshell V5.9 (abort with ^G)
(agent@myhost)1> application:start(snmp).
=ERROR REPORT==== 10-Feb-2012::15:15:31 ===
** Configuration error: [FRAMEWORK-MIB]: missing context.conf file => generating a default file
=INFO REPORT==== 10-Feb-2012::15:15:31 ===
[ snmp : agent : snmp_user_based_sm_mib : <0.45.0> ]
USM: Incomplete configuration. Generating empty usm.conf.
ok
Note: The system will create some missing files for us.
The agent is now running using SNMPv1, SNMPv2c and SNMPv3.
(agent@myhost)2> {value, OID} = snmpa:name_to_oid(sysName).
{value,[1,3,6,1,2,1,1,5]}
(agent@myhost)2> % We need to add a '0' to the OID to access the value
(agent@myhost)3> snmpa:get(snmp_master_agent, [OID ++ [0]]).
["SNMP Quick Start HowTo Demo"]
Directories
Create a subdirectory to contain the configuration files of the manager named snmp/manager/conf and another for the working files named snmp/manager/db.
$ mkdir -p snmp/manager/conf
$ mkdir -p snmp/manager/db
The snmp/manager/conf/manager.conf file defines the information for this manager. The IP address and port which the manager will use must be provided as well as a unique identifier called an engineID. The maximum size of a packet must also be provided.
$ cat > snmp/manager/conf/manager.conf
{port, 5000}.
{address, [127,0,0,1]}.
{engine_id, "manager's engine"}.
{max_message_size, 484}.
^D
$
The snmp/manager/conf/users.conf file defines the manager users. A manager user is implemented in a callback module. Here we will define a simple manager user using the default module.
$ cat > snmp/manager/conf/users.conf
{"simple_user", snmpm_user_default, undefined}.
^D
$
The snmp/manager/conf/agents.conf file defines the agents the manager will use. Here we'll define one agent; the one we started above. For now we'll define it to use SNMPv2c.
$ cat > snmp/manager/conf/agents.conf
{"simple_user", "otp agent", "public", [127,0,0,1], 4000, "agent's engine",
infinity, 484, v2, v2c, "initial", noAuthNoPriv}.
^D
$
Create the snmp/manager.config system configuration file to be used when we start the node to run the manager. Here we define the required application environment variables. The paths to the subdirectories we created earlier are given so the manager application can find it's configuration files and persistent database.
$ cat > snmp/manager.config
[{snmp,
[{manager,
[{config, [{dir, "snmp/manager/conf/"},
{db_dir, "snmp/manager/db/"}]}]}]}].
^D
$
Startup
The configuration in snmp/manager.config will be used when we start the emulator with the -config snmp/manager commandline option.
$ erl -sname manager -config snmp/manager
Eshell V5.9 (abort with ^G)
(manager@myhost)1> application:start(snmp).
ok
Verifying Configuration
Code listing 5.2: List Users
(manager@myhost)2> snmpm:which_users().
["simple_user"]
Code listing 5.3: List Agents
(manager@myhost)3> snmpm:which_agents().
["otp agent"]
Code listing 5.4: Verify Agent Configuration
(manager@myhost)5> snmpm:agent_info("otp agent", community).
{ok,"public"}
(manager@myhost)6> snmpm:agent_info("otp agent", engine_id).
{ok,"agent's engine"}
Here we will send an SNMP query to the (possibly remote) agent and return the result. We will make the request using the OID for sysName as above.
(manager@myhost)7> snmpm:sync_get("simple_user", "otp agent", [[1,3,6,1,2,1,1,5,0]]).
{ok,{noError,0,
[#varbind{oid = [1,3,6,1,2,1,1,5,0],
variabletype = 'OCTET STRING',
value = "SNMP Quick Start HowTo Demo",org_index = 1}]},
4992}
Note: In the above example we have previously used the shell command rr/1 to load the record definitions so that the output is parsed with record field names. E.g. rr("lib/erlang/lib/snmp-/include/").
User Based Security Model (USM) With SNMPv3 the agent and manager may share a secret for authentication using either MD5 or SHA. RFC 2274 specifies an algorithm to generate a localized key using a passphrase and engineID. This localized authentication key is defined in the agent's and manager's usm.conf file.
The snmp application can be used to generate a localized key.
$ erl
Eshell V5.9 (abort with ^G)
1> application:start(crypto).
ok
2> snmp:passwd2localized_key(md5, "The quick brown fox jumps over the lazy dog.", "agent's engine").
[40,165,209,16,245,231,199,157,53,56,248,82,228,181,160,143]
When authentication is used it is also possible to ensure privacy of the transmitted information. A shared secret is used to encrypt the scopedPDU using DES.
Code listing 6.2: Generating a Localized Privacy Key for the Agent
4> snmp:passwd2localized_key(md5, "Pack my box with five dozen liquor jugs.", "agent's engine").
[4,11,162,206,20,118,62,83,28,129,124,10,66,5,100,136]
Security Data Configuration
The snmp/agent/conf/usm.conf file defines the security data for each user of an agent. Here we have chosen MD5 based authentication and DES encryption privacy.
Code listing 6.3: Create the USM Configuration File for the Agent
$ cat > snmp/agent/conf/usm.conf
{"agent's engine", "simple_user", "initial", zeroDotZero,
usmHMACMD5AuthProtocol, "", "",
usmDESPrivProtocol, "", "", "",
[40,165,209,16,245,231,199,157,53,56,248,82,228,181,160,143],
[4,11,162,206,20,118,62,83,28,129,124,10,66,5,100,136]}.
^D
$
The snmp/manager/conf/usm.conf file defines the security data for each manager user on each agent.
$ cat > snmp/manager/conf/usm.conf
{"agent's engine", "simple_user", "initial",
usmHMACMD5AuthProtocol, [40,165,209,16,245,231,199,157,53,56,248,82,228,181,160,143],
usmDESPrivProtocol, [4,11,162,206,20,118,62,83,28,129,124,10,66,5,100,136]}.
^D
$
Earlier we configured the manager to use SNMPv2c to contact the agent. Here we'll replace that with an SNMPv3 USM configuration using MD5 authentication and DES privacy.
$ cat > snmp/manager/conf/agents.conf
{"simple_user", "otp agent", "public", [127,0,0,1], 4000, "agent's engine",
infinity, 484, v3, usm, "initial", authPriv}.
^D
$
Note: The crypto application is required for authentication/privacy.
$ erl -sname agent -config snmp/agent
Eshell V5.9 (abort with ^G)
(agent@myhost)1> application:start(crypto).
ok
(agent@myhost)2> application:start(snmp).
ok
Code listing 6.7: Load the User Table
(agent@myhost)3> Dir = code:priv_dir(snmp) ++ "/mibs/",
(agent@myhost)3> snmpa:load_mibs([Dir ++ "SNMP-USER-BASED-SM-MIB"]).
ok
(agent@myhost)4> snmp_user_based_sm_mib:configure("snmp/agent/conf").
Note: You may add the snmp application environment variable {mibs, ["<path-to-snmp>/priv/mibs/SNMP-USER-BASED-SM-MIB"]} to the agent.config file to automatically load on start.
$ erl -sname manager -config snmp/manager
Eshell V5.9 (abort with ^G)
(manager@myhost)1> application:start(crypto).
ok
(manager@myhost)2> application:start(snmp).
ok
(manager@myhost)3> snmpm:load_mib(code:priv_dir(snmp) ++ "/mibs/SNMPv2-MIB").
ok
(manager@myhost)4> snmpm:sync_get("simple_user", "otp agent", [[sysName,0]]).
=INFO REPORT==== 10-Feb-2012::22:31:31 ===
SNMPM default user callback received handle_inform:
TargetName: "otp agent"
SnmpReport: {noError,0,
[{varbind,[1,3,6,1,6,3,15,1,1,2,0],'Counter32',0,1}]}
UserData: undefined
{error,{timeout,1305755172}}
(manager@myhost)5> snmpm:sync_get("simple_user", "otp agent", [[1,3,6,1,2,1,1,5,0]]).
{ok,{noError,0,
[#varbind{oid = [1,3,6,1,2,1,1,5,0],
variabletype = 'OCTET STRING',
value = "SNMP Quick Start HowTo Demo",org_index = 1}]},
4632}
Note: The initial query does not contain the correct snmpEngineBoots and snmpEngineTime values and so is discarded by the agent. Subsequent queries will be properly authenticated.
Note: The otp_mib instrumentation uses mnesia.
(agent@myhost)1> application:start(mnesia).
ok
(agent@myhost)2> application:start(snmp).
ok
Code listing 7.2: Loading the OTP MIB
(agent@myhost)3> otp_mib:load(snmp_master_agent).
ok
(manager@myhost)1> application:start(snmp).
ok
Here we use the OID for otp.erlNodeName.1 to query the nodename of the agent's Erlang/OTP node.
(manager@myhost)2> snmpm:load_mib(code:priv_dir(otp_mibs) ++ "/mibs/OTP-MIB").
ok
(manager@myhost)3> snmpm:sync_get("simple_user", "agent's engine", [[erlNodeName,1]]).
{ok,{noError,0,
[#varbind{oid = [1,3,6,1,4,1,193,19,3,1,2,1,1,1,2,1],
variabletype = 'OCTET STRING',value = "agent@myhost",
org_index = 1}]},
4926}
If we run the os_mon application more info is available.
(agent@myhost)4> application:start(sasl).
ok
(agent@myhost)5> application:start(os_mon).
ok
(agent@myhost)6> os_mon_mib:load(snmp_master_agent).
ok
Note: SASL progress reports were hidden for our example.
To demonstrate the information managed with the OTP-MIB I've used the net-snmp application from a Unix shell prompt to walk the OTP MIB.
$ snmpwalk -c public -v2c 127.0.0.1:4000 otp
OTP-MIB::erlNodeName.1 = STRING: agent@myhost
OTP-MIB::erlNodeMachine.1 = STRING: BEAM
OTP-MIB::erlNodeVersion.1 = STRING: 5.9
OTP-MIB::erlNodeRunQueue.1 = Gauge32: 0
OTP-MIB::erlNodeRunTime.1 = Counter32: 430
OTP-MIB::erlNodeWallClock.1 = Counter32: 112176
OTP-MIB::erlNodeReductions.1 = Counter32: 1329646
OTP-MIB::erlNodeProcesses.1 = Gauge32: 84
OTP-MIB::erlNodeInBytes.1 = Counter32: 7958884
OTP-MIB::erlNodeOutBytes.1 = Counter32: 1684165
OTP-MIB::applName.1.1 = STRING: otp_mibs
OTP-MIB::applName.1.2 = STRING: os_mon
OTP-MIB::applName.1.3 = STRING: snmp
OTP-MIB::applName.1.4 = STRING: mnesia
OTP-MIB::applName.1.5 = STRING: sasl
OTP-MIB::applName.1.6 = STRING: stdlib
OTP-MIB::applName.1.7 = STRING: kernel
OTP-MIB::applDescr.1.1 = STRING: SNMP managment information base for Erlang/OTP nodes.
OTP-MIB::applDescr.1.2 = STRING: CPO CXC 138 46
OTP-MIB::applDescr.1.3 = STRING: SNMP CXC 138 13
OTP-MIB::applDescr.1.4 = STRING: MNESIA CXC 138 12
OTP-MIB::applDescr.1.5 = STRING: SASL CXC 138 11
OTP-MIB::applDescr.1.6 = STRING: ERTS CXC 138 10
OTP-MIB::applDescr.1.7 = STRING: ERTS CXC 138 10
OTP-MIB::applVsn.1.1 = STRING: 1.0.7
OTP-MIB::applVsn.1.2 = STRING: 2.2.8
OTP-MIB::applVsn.1.3 = STRING: 4.21.4
OTP-MIB::applVsn.1.4 = STRING: 4.6
OTP-MIB::applVsn.1.5 = STRING: 2.2
OTP-MIB::applVsn.1.6 = STRING: 1.18
OTP-MIB::applVsn.1.7 = STRING: 2.15
OTP-OS-MON-MIB::loadMemorySystemWatermark.0 = INTEGER: 80
OTP-OS-MON-MIB::loadMemoryErlProcWatermark.0 = INTEGER: 5
OTP-OS-MON-MIB::loadSystemTotalMemory."agent@myhost" = Gauge32: 3045288000 bytes
OTP-OS-MON-MIB::loadSystemUsedMemory."agent@myhost" = Gauge32: 2129992000 bytes
OTP-OS-MON-MIB::loadLargestErlProcess."agent@myhost" = STRING: <0.6.0>
OTP-OS-MON-MIB::loadLargestErlProcessUsedMemory."agent@myhost" = Gauge32: 142328 bytes
OTP-OS-MON-MIB::loadCpuLoad."agent@myhost" = INTEGER: 19
OTP-OS-MON-MIB::loadCpuLoad5."agent@myhost" = INTEGER: 22
OTP-OS-MON-MIB::loadCpuLoad15."agent@myhost" = INTEGER: 23
OTP-OS-MON-MIB::loadOsWordsize."agent@myhost" = Gauge32: 32
OTP-OS-MON-MIB::loadSystemTotalMemory64."agent@myhost" = Counter64: 3045288000 bytes
OTP-OS-MON-MIB::loadSystemUsedMemory64."agent@myhost" = Counter64: 2129992000 bytes
OTP-OS-MON-MIB::loadLargestErlProcessUsedMemory64."agent@myhost" = Counter64: 142328 bytes
OTP-OS-MON-MIB::diskAlmostFullThreshold.0 = INTEGER: 80
OTP-OS-MON-MIB::diskDescr.1.1 = STRING: /
OTP-OS-MON-MIB::diskKBytes.1.1 = Gauge32: 243862672 kbytes
OTP-OS-MON-MIB::diskCapacity.1.1 = INTEGER: 79
Traps and Notifications The snmp/agent/conf/notify.conf file contains information about SNMP trap definitions.
$ cat > snmp/agent/conf/notify.conf
{"MyFirstCoolTrap", "tag1", trap}.
^D
$
The snmp/agent/conf/target_addr.conf file contains information about SNMP Target Address Definitions. Note that TagList can contain multiple Tags separated by spaces.
$ cat > snmp/agent/conf/target_addr.conf
{"MyFirstCoolTrap", [127,0,0,1], 162, 5000, 3, "tag1", "MyCoolTrapParams", "agent's engine"}.
^D
$
The snmp/agent/conf/target_params.conf file contains information about SNMP Target Parameters Definitions.
$ cat > snmp/agent/conf/target_params.conf
{"MyCoolTrapParams", v2c, v2c, "initial", noAuthNoPriv}.
^D
$
Now it's time to create a MIB file that defines a test trap. While it is possible to reference traps in existing MIB files, we are going to beef up this tutorial by creating a sample MIB.
$ mkdir -p snmp/agent/mibs
$ cat > snmp/agent/mibs/MY-TRAP-MIB.mib
MY-TRAP-MIB DEFINITIONS ::= BEGIN
IMPORTS
MODULE-IDENTITY, NOTIFICATION-TYPE
FROM SNMPv2-SMI
NOTIFICATION-GROUP
FROM SNMPv2-CONF
sysContact, sysName, sysLocation
FROM SNMPv2-MIB
otpModules, otpApplications
FROM OTP-REG
;
testMIBModule MODULE-IDENTITY
LAST-UPDATED "200506100000Z"
ORGANIZATION "IDT"
CONTACT-INFO "Serge Aleynikov ([email protected])"
DESCRIPTION "Experimental MIB module."
::= { otpModules 10 }
testMIB OBJECT IDENTIFIER ::= { otpApplications 1000 }
testMIBConformance
OBJECT IDENTIFIER ::= { testMIB 1 }
testMIBTraps OBJECT IDENTIFIER ::= { testMIB 2 }
testMIBMyFirstCoolTrap NOTIFICATION-TYPE
OBJECTS {
sysContact,
sysName,
sysLocation
}
STATUS current
DESCRIPTION
"This event is sent when an OTP user is desperately
trying to get the SNMP traps working."
::= { testMIBTraps 1 }
testMIBTrapGroups
OBJECT IDENTIFIER ::= { testMIBConformance 2 }
testMIBTrapGroup NOTIFICATION-GROUP
NOTIFICATIONS { testMIBMyFirstCoolTrap }
STATUS current
DESCRIPTION
"The notification which is generated from EVA."
::= { testMIBTrapGroups 4 }
END
^D
$
Let's start a trap daemon so that we can verify that traps are getting sent
$ sudo snmptrapd -P -F "%02.2h:%02.2j TRAP%w.%q from %A\n %v\n%" -m "snmp/agent/mibs/MY-TRAP-MIB.mib"
Once this is done, we are ready to compile our MIB and send a sample trap
(agent@myhost)7> snmpc:compile("snmp/agent/mibs/MY-TRAP-MIB", [{il, ["otp_mibs/priv/mibs/"]}]).
{ok, "snmp/agent/mibs/MY-TRAP-MIB.bin"}
(agent@myhost)7> snmp:load_mibs(snmp_master_agent, ["/path/to/.../snmp/agent/mibs/MY-TRAP-MIB"]).
ok
(agent@myhost)8> snmpa:send_notification(snmp_master_agent, testMIBMyFirstCoolTrap, no_receiver, "DrpManager", "", []).
{send_trap,testMIBMyFirstCoolTrap,"DrpManager",[],no_receiver,[]}
The following output appears in the snmptrapd terminal window
2005-06-10 16:12:27 UCD-snmp version 4.2.4 Started.
16:12 TRAP0.0 from 0.0.0.0
system.sysUpTime.0 = Timeticks: (92244) 0:15:22.44
.iso.org.dod.internet.snmpV2.snmpModules.snmpMIB.snmpMIBObjects.snmpTrap.snmpTrapOID.0 =
OID: enterprises.ericsson.otp.otpApplications.testMIB.testMIBTraps.testMIBMyFirstCoolTrap
system.sysLocation.0 = 5th Floor machine room, rack 21A
system.sysName.0 = SNMP Quick Start HowTo Demo
system.sysContact.0 = [email protected]