Command-line options#

The SNMP Simulator suite consists of a handful of command-line tools that take command-line options.

Common options#

–debug-snmp#

The –debug-snmp option makes the daemon emitting detailed log of SNMP protocol related debugging. Debugging can be enabled for all or for just some of the SNMP engine subsystems by adding their names to the –debug-snmp option.

Recognized SNMP debugging options include:

  • io – report raw network traffic

  • msgproc – report SNMP message processing

  • secmod – report SNMP security module operations

  • mibbuild – report on MIB loading and processing

  • mibinstrum – report agent MIB operatrions

  • acl – report MIB access access control operations

  • proxy – report on SNMP version translation operations

  • app – application-specific debugging

  • all – enable full SNMP debugging

SNMP debugging is fully disabled by default.

–debug-asn1#

SNMP is backed by the ASN.1 for data representation and serialization purposes. The –debug-asn1 option makes the tools emitting detailed log of ASN.1 data de/serialization. Debugging can be enabled for either encoder or decoder, or for everything ASN.1 related by adding their names to the –debug-asn1 option.

Recognized ASN.1 debugging options include:

  • encoder – debug data serialization

  • decoder – debug data deserialization

  • all – enable full ASN.1 debugging

ASN.1 debugging is fully disabled by default.

–logging-method#

Some of the SNMP Simulator tools can log using one of the following methods. The default is stderr.

–logging-method=syslog#

The syslog logging method requires the following sub-options:

--logging-method=syslog:facility[:address[:port:[tcp|udp]]]]

Where:

  • facility – one of the recognized syslog service facilities

  • address – can be either an absolute path to a local socket or network address where syslog service is listening (optional)

  • port – if network address of the syslog service is used for address, port be a TCP or UDP port number (optional)

  • tcp or udp – TCP (stream) or UDP (datagram) protocol to use for syslog service communication (optional)

–logging-method=file#

The file logging method redirects daemon logging into a local file. The log file could be made automatically rotated based on time or size criteria.

The following sub-options are supported:

--logging-method=file:path[:criterion]

Where:

  • path – path to a log file

  • criterion – should consist of a number followed by one of the specifiers:

    • k – rotate when file size exceeds N kilobytes

    • m – rotate when file size exceeds N megabytes

    • g – rotate when file size exceeds N gigabytes

    • S – rotate when file age exceeds N seconds

    • M – rotate when file age exceeds N minutes

    • H – rotate when file age exceeds N hours

    • D – rotate when file age exceeds N days

–logging-method=stdout/stderr#

When stdout or stderr logging methods are used, daemon log messages are directed to either process standard output or standard error stream.

–logging-method=null#

The null logging method completely inhibits all daemon logging.

–log-level#

The –log-level option limits the minimum severity of the log messages to actually log.

Recognized log levels are:

  • debug – log at all levels

  • info - log informational and error messages only

  • error - log error messages only

SNMP command responders#

SNMP Simulator can be run as snmpsim-command-responder (full version) or snmpsim-command-responder-lite (lightweight version). Both programs take the following common command-line options.

Common command responders options#

The lightweight SNMP command responder implementation is limited to SNMP v1 and v2c protocol versions. Full SNMP command responder implementation supports all SNMP versions.

The following options are respected by both SNMP command responder applications.

–daemonize#

Unless –daemonize option is given, the daemon will remain an interactive process. With the –daemonize option, the daemon will detach itself from user terminal, close down standard I/O streams etc.

–process-user & –process-group#

It is generally safer to run daemons under a non-privileged user. However, it may be necessary to, at least, start SNMP Simulator parts as root to let the process bind to privileged ports (161/udp for SNMP by default).

In this case it may make sense to drop process privileges upon initialization by becoming –process-user belonging to –process-group.

–pid-file#

Especially when running in –daemonize mode, it might be handy to keep track of UNIX process ID allocated to the running daemon. Primarily, this can be used for killing or restarting the process.

The –pid-file option can be used to specify a disk file where daemon would store its PID.

Default is not to create PID file.

–cache-dir#

Specifies path to directory for temporary indices used for fast simulation data lookup. The indices for all .snmprec files will be built on process start unless they already exist and not outdated.

Default is $TEMPDIR/snmpsim.

–reporting-method#

SNMP command responder applications can collect and periodically emit various activity metrics.

The default is null that disables activity collection and reporting.

–reporting-method=fulljson#

The fulljson activity reporting method collects and reports highly detailed activity metrics. It may become expensive when simulating thousands of transport endpoints or SNMP agents.

The fulljson reporting method supports the following sub-options:

--reporting-method=fulljson:reports-dir

Where:

  • reports-dir – location on the filesystem where this reporting module should dump collected metrics.

–reporting-method=minimaljson#

The minimaljson activity reporting method collects and reports minimal activity metrics. Essentially, it collapses individual metrics for transport endpoints, agents, data files into one.

The minimaljson reporting method supports the following sub-options:

--reporting-method=minimaljson:reports-dir

Where:

  • reports-dir – location on the filesystem where this reporting module should dump collected metrics.

–variation-modules-dir#

Specifies path to the directory where SNMP simulator should look for variation modules. All modules found there will be imported and initialized for further use from the .snmprec files.

Default search path is dependent on the platform. On Linux it is:

  • $HOME/.snmpsim/variation

  • /usr/snmpsim/variation

  • /usr/share/snmpsim/variation

  • <program dir>/variation

–variation-module-options#

Some variation modules accept configuration options. These options could be given in the form of :-separated positional arguments:

--variation-module-options=<module[=alias][:args]

If the same variation module needs to be used with different set of configuration parameters, one or more aliases could be created. Each instance of the variation module could then be referenced from the .snmprec files by alias.

Example:

--variation-module-options=sql=mydb:dbtype:sqlite3,database:/tmp/snmpsim.db

–force-index-rebuild#

Force rebuilding indices for all the .snmprec files regardless of their age and status. With this option, the rebuild happens on every snmpsim-command-responder process startup.

The default is off.

–validate-data#

Normally, SNMP simulator does not evaluate simulation values configured in the .snmprec files (however it evaluates the OIDs when building look up indices). With this option SNMP simulator will also evaluate simulation data on process startup.

The default is off.

–max-varbinds#

Maximum number of SNMP objects to serve in response to the GETBULK command per each requested variable-binding.

The default is 64.

–transport-id-offset#

With SNMP, transport endpoints (network addresses and ports) are identified by OIDs. Each kind of network transport (e.g. IPv4-over-UDP) has its own OID prefix, while the instances of it are identified by a longer OID.

When snmpsim-command-responder is asked to initialize a transport endpoint, it will take the prefix OID and append a single sub-OID number starting from this offset.

The default is one.

–data-dir#

Specifies path to the directory where SNMP simulator should look for simulation data in form of .snmprec, .snmprec.bz2, .snmpwalk or .sapwalk files. All files found beneath –data-dir will be considered as sources of SNMP simulation data and their paths will be used for SNMP configuration purposes.

Default search path is dependent on the platform. On Linux it is:

  • $HOME/.snmpsim/data

  • /usr/snmpsim/data

  • /usr/share/snmpsim/data

  • <program dir>/data

–agent-udpv4-endpoint#

Bind SNMP agent to the given UDP-over-IPv4 transport endpoint in the form of IP:port.

Each occurrence of this option creates a new transport endpoint. All SNMP engines created afterwards (by –v3-engine-id option) up to the next –agent- option will reside behind this transport endpoint.

$ snmpsim-command-responder --agent-udpv4-endpoint=127.0.0.1:161

Note

Binding ports less than 1024 on UNIX requires superuser privileges.

–agent-udpv6-endpoint#

Bind SNMP agent to the given UDP-over-IPv6 transport endpoint in the form of [IP]:port.

Each occurrence of this option creates a new transport endpoint. All SNMP engines created afterwards (by –v3-engine-id option) up to the next –agent- option will reside behind this transport endpoint.

$ snmpsim-command-responder --agent-udpv4-endpoint=[::1]:161

Note

Binding ports less than 1024 on UNIX requires superuser privileges.

Full version command responder options#

Full version of SNMP command responder is based on SNMPv3 architecture, it is capable of handling all SNMP versions i.e. 1, 2c qnd 3.

Full version of SNMP command responder understand all options of the lite version, plus the following SNMPv3-specific options.

–args-from-file#

All command-line options to snmpsim-command-responder could be stored in a file and passes through this option. File could be easier to manage, and does not impose any limit on the length of the command line.

–v3-only#

SNMP simulator serves simulation data over both SNMP v1/v2c and SNMPv3 protocols. With the –v3-only flag in effect, SNMPv1/v2c agents will not be configured what saves a bit of memory and startup time.

Default is to configure SNMPv1/v2c and SNMPv3.

–v3-engine-id#

SNMP engine identifier that creates a new, independent instance of SNMP engine. All the following –v3- options up to another –v3-engine-id option apply to the SNMP engine being configured.

snmpsim-command-responder --v3-engine-id=0102030405070809 ...

Note

The -v3-engine-id option expects a hex string or auto for automaic value.

The default is an autogenerated value.

–v3-context-engine-id#

SNMP entity can have access to many instances of the same collection of MIB objects. Each such collection is called context. A context is identified by the Context Engine ID and a Context Name that identifies the specific context.

In other words, to identify an individual item of SNMP management information, four elements are required:

  1. a ContextEngineID

  2. a ContextName

  3. an object type, and

  4. its instance identification

The default for –v3-context-engine-id option is the same value as –v3-engine-id.

–v3-user#

SNMP USM user name to use for SNMPv3 authentication and authorization purposes.

–v3-auth-key#

SNMP USM message authentication key.

Note

Must be 8 or more characters.

–v3-auth-proto#

SNMPv3 message authentication protocol to use. Valid values are:

ID

Algorithm

Reference

NONE

RFC3414

MD5

HMAC MD5

RFC3414

SHA

HMAC SHA-1 128

RFC3414

SHA224

HMAC SHA-2 224

RFC7860

SHA256

HMAC SHA-2 256

RFC7860

SHA384

HMAC SHA-2 384

RFC7860

SHA512

HMAC SHA-2 512

RFC7860

–v3-priv-key#

SNMP USM message encryption key.

Note

Must be 8 or more characters.

–v3-priv-proto#

SNMPv3 message encryption protocol to use. Valid values are:

ID

Algorithm

Reference

NONE

RFC3414

DES

DES

RFC3414

AES

AES CFB 128

RFC3826

AES192

AES CFB 192

RFC Draft

AES256

AES CFB 256

RFC Draft

AES192BLMT

AES CFB 192 Blumenthal

RFC Draft

AES256BLMT

AES CFB 256 Blumenthal

RFC Draft

3DES

Triple DES EDE

RFC Draft