| Frequently Asked Questions (FAQ) for the UCD/Net-SNMP package |
| ============================================================= |
| FAQ Author: Dave Shield |
| Net-SNMP Version: 5.4.4 SVN branch |
| Net-SNMP/UCD-SNMP Project Leader: Wes Hardaker |
| Email: net-snmp-coders@lists.sourceforge.net |
| |
| TABLE OF CONTENTS |
| ================= |
| |
| TABLE OF CONTENTS |
| GENERAL |
| What is it? |
| Where can I get it? |
| What documentation is available? |
| Are there binaries available? |
| What's the difference between UCD-SNMP and Net-SNMP? |
| What operating systems does it run on? |
| What happens if mine isn't listed? |
| Does it run on Windows? |
| How do I find out about new releases? |
| How can I find out what other people are doing? |
| How do I submit a patch or bug report? |
| Can I reuse the code in my commercial application? |
| What's the difference between SNMPv1, SNMPv2 and SNMPv3? |
| What's the difference between SNMPv2 and SNMPv2c? |
| Which versions of SNMP are supported in this package? |
| Can I use SNMPv1 requests with an SNMPv2 MIB (or vice versa)? |
| How can I monitor my system with SNMP? |
| Where can I find more information about network management? |
| What ports does SNMP use? |
| Is Net-SNMP thread safe? |
| APPLICATIONS |
| How do I add a MIB? |
| How do I add a MIB to the tools? |
| Why can't I see anything from the agent? |
| Why doesn't the agent respond? |
| I can see the system group, but nothing else. Why? |
| Why can't I see values in the <ENTERPRISE> tree? |
| The agent worked for a while, then stopped responding. Why? |
| Requesting an object fails with "Unknown Object Identifier" Why? |
| Why do I get "noSuchName" when asking for "sysUpTime" (or similar)? |
| Why do I sometimes get "End of MIB" when walking a tree, and sometimes not? |
| How do I use SNMPv3? |
| Why can't I set any variables in the MIB? |
| Variables seem to disappear when I try to set them. Why? |
| Why can't I change sysLocation (or sysContact)? |
| I get an error when trying to set a negative value - why? |
| I get an error when trying to query a string-indexed table value - why? |
| How should I specify string-indexed table values? |
| How do I send traps and notifications? |
| How do I receive traps and notifications? |
| How do I receive SNMPv1 traps? |
| Why don't I receive incoming traps? |
| My traphandler script doesn't work when run like this - why not? |
| How can the agent receive traps and notifications? |
| How big can an SNMP request (or reply) be? |
| How can I monitor my systems (disk, memory, etc)? |
| Applications complain about entries in your example 'snmp.conf' file. Why? |
| OK, what should I put in snmp.conf? |
| How do I specify IPv6 addresses in tools command line arguments? |
| PERL |
| What is the purpose of the Perl SNMP module? |
| Where can I get the Perl SNMP package? |
| How do I install the Perl SNMP modules? |
| But compiling this fails! Why? |
| Compiling the Perl module works OK, but 'make test' fails. Why? |
| Why can't mib2c (or tkmib) locate SNMP.pm? |
| Why can't mib2c (or tkmib) load SNMP.so? |
| Why can't tkmib locate Tk.pm? |
| Why does your RPM complain about missing Perl modules? |
| I've got a problem with the Net-SNMP module. Can you help? |
| MIBS |
| Where can I find a MIB compiler? |
| Why aren't my MIB files being read in? |
| Where should I put my MIB files? |
| What does "Cannot find module (XXX-MIB)" mean? |
| I'm getting answers, but they're all numbers. Why? |
| What does "unlinked OID" mean? |
| The parser doesn't handle comments properly. Why not? |
| How can I get more information about problems with MIB files? |
| What's this about "too many imported symbols"? |
| Do I actually need the MIB files? |
| AGENT |
| What MIBs are supported? |
| What protocols are supported? |
| How do I configure the agent? |
| How do I remove a MIB from the agent? |
| I've installed a new MIB file. Why can't I query it? |
| How do I add a MIB to the agent? |
| What's the difference between 'exec', 'sh', 'extend' and 'pass'? |
| What's the difference between AgentX, SMUX and proxied SNMP? |
| What is the purpose of 'dlmod'? |
| Which should I use? |
| Can I use AgentX when running under Windows? |
| How can I run AgentX with a different socket address? |
| How can I turn off SMUX support? |
| How can I combine two copies of the 'mib2' tree from separate subagents? |
| What traps are sent by the agent? |
| Where are these traps sent to? |
| How can I send a particular trap to selected destinations? |
| When I run the agent it runs and then quits without staying around. Why? |
| After a while the agent stops responding, and starts eating CPU time. Why? |
| How can I stop other people getting at my agent? |
| How can I listen on just one particular interface? |
| The agent is complaining about 'snmpd.conf'. Where is this? |
| Why does the agent complain about 'no access control information'? |
| How do I configure access control? |
| How do I configure SNMPv3 users? |
| The 'createUser' line disappears when I start the agent. Why? |
| What's the difference between /var/net-snmp and /usr/local/share/snmp? |
| My new agent is ignoring the old snmpd.conf file. Why? |
| Where should the snmpd.conf file go? |
| Why am I getting "Connection refused"? |
| Why can't I see values in the UCDavis 'extensible' or 'disk' trees? |
| Why can't I see values in the UCDavis 'memory' or 'vmstat' tree? |
| What do the CPU statistics mean - is this the load average? |
| How do I get percentage CPU utilization using ssCpuRawIdle? |
| What about multi-processor systems? |
| The speed/type of my network interfaces is wrong - how can I fix it? |
| The interface statistics for my subinterfaces are all zero - why? |
| Does the agent support the RMON-MIB? |
| What does "klread: bad address" mean? |
| What does "nlist err: wombat not found" (or similar) mean? |
| What does "Can't open /dev/kmem" mean? |
| The system uptime (sysUpTime) returned is wrong! |
| Can the agent run multi-threaded? |
| Can I use AgentX (or an embedded SNMP agent) in a threaded application? |
| COMPILING |
| How do I control the environment used to compile the software? |
| How do I control the environment used to compile the software under Windows? |
| Why does the compilation complain about missing libraries? |
| How can I reduce the memory footprint? |
| How can I reduce the installation footprint or speed up compilation? |
| How can I compile the project for use on an embedded system? |
| How can I compile the project to use static linking? |
| Why does 'make test' skip various tests? |
| Why does 'make test' complain about a pid file? |
| CODING |
| How do I write C code to integrate with the agent? |
| How does the agent fetch the value of a MIB variable from the system? |
| Mib2c complains about a missing "mib reference" - what does this mean? |
| Mib2c complains about not having a "valid OID" - what does this mean? |
| Why doesn't mib2c like the MIB file I'm giving it? |
| Mib2c ignores my MIB and generates a pair of 'mib-2' code files. Why? |
| What's the difference between the various mib2c configuration files? |
| Which mib2c configuration file should I use? |
| How can I have mib2c generate code for both scalars and tables? |
| Are there any examples, or documentation for developing MIB modules? |
| Where should I put the files produced by 'mib2c'? |
| Why doesn't my new MIB module report anything? |
| Why does the iterator call my get_{first,next} routines so often? |
| How can I get the agent to generate a trap (or inform)? |
| How can I get an AgentX sub-agent to generate a trap (or inform)? |
| How can I get the agent to send an SNMPv1 (or SNMPv2c) trap? |
| How can I get the agent to include varbinds with an SNMPv1 trap? |
| How can I get the agent to send an SNMPv1 enterprise-specific trap? |
| How can I get the agent to send an SNMPv3 trap (or inform)? |
| Why does calling 'send_v2trap' generate an SNMPv1 trap (or vice versa)? |
| How can I register a MIB module in a different (SNMPv3) context? |
| MISC |
| What ASN.1 parser is used? |
| What is the Official Slogan of the net-snmp-coders list? |
| |
| |
| GENERAL |
| ======= |
| |
| What is it? |
| ---------- |
| |
| - Various tools relating to the Simple Network Management Protocol |
| including: |
| |
| * An extensible agent |
| * An SNMP library |
| * tools to request or set information from SNMP agents |
| * tools to generate and handle SNMP traps |
| * a version of the unix 'netstat' command using SNMP |
| * a graphical Perl/Tk/SNMP based mib browser |
| |
| This package is originally based on the Carnegie Mellon University |
| SNMP implementation (version 2.1.2.1), but has developed significantly |
| since then. |
| |
| |
| |
| Where can I get it? |
| ------------------ |
| |
| Download: |
| - http://www.net-snmp.org/download/ |
| - ftp://ftp.net-snmp.org/pub/sourceforge/net-snmp/ |
| Web page: |
| - http://www.net-snmp.org/ |
| Sourceforge Project page: |
| - http://www.net-snmp.org/project/ |
| Mirrors (note that sourceforge download servers are mirrored themselves): |
| - US: ftp://ftp.freesnmp.com/mirrors/net-snmp/ |
| - Greece: ftp://ftp.ntua.gr/pub/net/snmp/net-snmp/ |
| |
| |
| What documentation is available? |
| ------------------------------- |
| |
| This FAQ (!) |
| README and individual READMEs for various platforms |
| README.thread (discusses threading issues) |
| INSTALL |
| PORTING |
| EXAMPLE.conf |
| man pages for the individual tools, files and the API |
| A guide for extending the agent |
| Tutorials for both ucd-snmp v4 and net-snmp v5 |
| at http://www.net-snmp.org/tutorial/ |
| and http://www.net-snmp.org/tutorial-5/ respectively |
| |
| Most of this documentation (plus archives of the mailing lists) |
| is also available on our web page: |
| |
| http://www.net-snmp.org/ |
| |
| There is also a Wiki (including a community-maintained version |
| of this FAQ) at |
| |
| http://www.net-snmp.org/wiki/ |
| |
| |
| |
| Are there binaries available? |
| ---------------------------- |
| |
| There are binaries for some versions/systems available under |
| the "net-snmp binaries" package on the SourceForge "Files" |
| page, which is linked to from the main project download web |
| page at http://www.net-snmp.org/download.html. |
| |
| These binaries are also available on the project FTP site, |
| with a link on the same web page. |
| |
| There is also a mirror at ftp://ftp.freesnmp.org/mirrors/net-snmp/ |
| |
| |
| |
| What's the difference between UCD-SNMP and Net-SNMP? |
| --------------------------------------------------- |
| |
| Not a great deal, really. |
| Although the project originally started at UC Davis (hence the name), |
| and it has always been based there, most of the contributors have had |
| little or no connection with this institution. |
| |
| The move to SourceForge was intended to provide a more flexible |
| environment for the project, and to distribute the administrative |
| workload more evenly. The change of name simply reflects this move, |
| which was the last remaining link with UC Davis. |
| |
| The 4.2.x line saw the last releases made using the ucd-snmp name, |
| and all releases on this line have been been bug-fixes only. Release |
| 5.0 was the first version released under the Net-SNMP name, and all |
| further development is being done on the 5.x code base. The 4.2.x |
| code line is now effectively closed down, as are the older 5.x branches. |
| |
| Much of the work done for the various 5.x releases has involved |
| some fairly significant changes to the code - in particular the |
| architecture of the agent. However attempts have been made to retain |
| backwards compatibility as much as possible, and most code written |
| for earlier releases should continue to work. The most visible |
| change from the 4.2.x UCD suite to the 5.x Net-SNMP releases was a |
| restructuring of the header file organisation - not least a change |
| from <ucd-snmp/xxx.h> to <net-snmp/yyy.h>. |
| |
| But given the maturity of the Net-SNMP code, this should be less |
| of a consideration for most current SNMP development projects. |
| |
| |
| |
| What operating systems does it run on? |
| ------------------------------------- |
| |
| Both the applications and the agent have been reported as running |
| (at least in part) on the following operating systems: |
| |
| * Linux (kernels 2.6 to 1.3) |
| * Solaris/SPARC (11 to 2.3), Solaris/Intel (10, 9) -- see |
| README.solaris |
| * HP-UX (11.31 to 9.01) -- see README.hpux11 |
| * Mac OS X (10.5 to 10.1) -- see README.osX |
| * NetBSD (2.0 to 1.0) |
| * FreeBSD (7.0 to 2.2) |
| * OpenBSD (4.0 to 2.6) |
| * BSDi (4.0.1 to 2.1) |
| * AIX (6.1, 5.3, 5.2, 5.1, 4.3.3, 4.1.5, 3.2.5) -- see README.aix |
| * IRIX (6.5 to 5.1) |
| * OSF (4.0, 3.2 and Tru64 Unix 5.1B) -- see README.tru64 |
| * SunOS 4 (4.1.4 to 4.1.2) |
| * Ultrix (4.5 to 4.2) |
| * Dynix/PTX 4.4 |
| * QNX 6.2.1A |
| |
| We have also been informed about a port to the Stratus VOS. |
| See http://ftp.stratus.com/vos/network/network.html for details. |
| |
| See the next question but one for the status of Windows support. |
| |
| Certain systems fail to compile particular portions of the agent. |
| These can usually be persuaded to compile (at the loss of some |
| functionality) by omitting the modules affected. |
| See the next question for more details. |
| |
| Also note that the presence of a particular configuration in this |
| list does not imply a perfect or complete implementation. This |
| is simply what various people have reported as seeming to work. |
| (Or more frequently, the configurations where people have reported |
| problems that we think we've subsequently fixed!) |
| |
| |
| |
| What happens if mine isn't listed? |
| --------------------------------- |
| |
| It's probably worth trying to compile it anyway. Unless your |
| system is significantly different to the supported configurations, |
| most of the code (library, applications and the agent infrastructure) |
| should probably compile with little or no difficulty. The most |
| likely source of problems will be MIB modules within the agent, |
| as this tends to be where the most system-specific code is found. |
| |
| If only a few modules fail to compile, try removing them from |
| the agent by running "configure --with-out-mib-module=xxx,yyy", |
| and re-compiling. If a large number of modules fail, then it |
| might be easier to start from a relatively bare system, using |
| "configure --enable-mini-agent --with-defaults". Then if this |
| minimal agent compiles and runs successfully, try adding each of |
| the missing mibgroups individually using the configure option |
| '--with-mib-module'. |
| |
| If configure fails with "invalid configuration" messages, or |
| you get completely stuck, contact the coders list for advice. |
| Similarly, if you manage to get this working on a new system, |
| please let us know of any code changes that you needed to make, |
| together with details of the hardware you're using, and what |
| versions of the operating system you've tried it on. The entry |
| 'host' in the file 'config.status' should show this information. |
| Oh, and congratulations! |
| |
| |
| |
| Does it run on Windows? |
| ---------------------- |
| |
| The suite should compile and run on Win32 platforms, including |
| the library, command-line tools and the basic agent framework. |
| Note that the agent now includes support for the MIB-II module, |
| but this requires Microsoft's Core Platform SDK. Instructions |
| for how to install this are given in README.win32. |
| |
| Pre-compiled binaries are available from the project web site. |
| |
| As of v5.4, the Net-SNMP agent is able to load the Windows SNMP |
| service extension DLLs by using the Net-SNMP winExtDLL extension. |
| |
| Some other Net-SNMP MIB modules, including the UCD pass-through |
| extensions, do not currently work under Windows. Volunteers to assist |
| with these missing modules are likely to welcomed with open arms :-) |
| |
| Further details of Windows support (currently Visual C++, MinGW |
| and Cygnus cygwin32) is available in the file README.win32. |
| |
| |
| |
| How do I find out about new releases? |
| ------------------------------------ |
| |
| There is a mailing list for these announcements |
| |
| net-snmp-announce@lists.sourceforge.net |
| |
| To be added to (or removed from) this list, visit |
| http://www.net-snmp.org/lists/net-snmp-announce/ |
| Or you can send a message to the address |
| net-snmp-announce-request@lists.sourceforge.net |
| with a subject line of 'subscribe' (or 'unsubscribe' as appropriate). |
| |
| Advance notice of upcoming releases are also made on the |
| net-snmp-users list (for "release candidates") for a week |
| or two before the full release, and on the net-snmp-coders |
| list (for "pre-releases") during the period prior to this. |
| |
| Major code revisions may be announced more widely, but these |
| lists are the most reliable way to keep in touch with the |
| status of the package. |
| |
| Patches to fix known problems are also made available via the web site: |
| |
| http://www.net-snmp.org/patches/ |
| |
| |
| |
| How can I find out what other people are doing? |
| ---------------------------------------------- |
| |
| There is a general purpose discussion list |
| |
| net-snmp-users@lists.sourceforge.net |
| |
| To be added to (or removed from) this list, visit |
| http://www.net-snmp.org/lists/net-snmp-users/ |
| Or you can send a message to the address |
| net-snmp-users-request@lists.sourceforge.net |
| with a subject line of 'subscribe' (or 'unsubscribe' as appropriate). |
| |
| To find out what the developers are doing, and to help them |
| out, please read the PORTING file enclosed with the package. |
| |
| There is also a #net-snmp IRC channel set up on the freenode.net |
| chat system. You can connect to this via chat.freenode.net. |
| See http://www.freenode.net/ for more information on getting |
| started with IRC. |
| Several core developers hang out on this channel on a fairly |
| regular basis. |
| |
| |
| |
| How do I submit a patch or bug report? |
| ------------------------------------- |
| |
| The best way to submit a bug report is via the bug database through |
| the interface found at |
| http://www.net-snmp.org/bugs/ |
| Be sure to include the version of the package that you've been working |
| with, the output of the command 'uname -a', the precise configuration |
| or command that triggers the problem and a copy of any output produced. |
| |
| Questions about using the package should be directed at the |
| net-snmp-users@lists.sourceforge.net mailing list. Note that this |
| mailing list is relatively busy, and the people answering these |
| questions are doing so out of the goodness of their hearts, and in |
| addition to their main employment. Please note the following: |
| |
| - use plain text mail, rather than HTML |
| - don't resend questions more than once |
| (even if no-one answered immediately) |
| - include full details of exact commands and error messages |
| ("I've tried everything, and it doesn't work" isn't much use!) |
| - do *NOT* send messages to -users and -coders mailing lists |
| (most developers read both anyway) |
| - don't mail the developers privately - keep everything on the list |
| |
| We can't promise to be able to solve all problems, but we'll |
| certainly try and help. But remember that this is basically an |
| unsupported package. It's Open Source, so if you need something |
| fixing badly enough, fundamentally it's up to you to do the work. |
| |
| All patches should be submitted to the patch manager at |
| http://www.net-snmp.org/patches/ |
| If possible, submit a bug report describing the patch as well |
| (referencing it by its patch number) since the patch manager |
| doesn't contain a decent description field. |
| |
| The best way to submit patch (diff) information is by checking out |
| the current code from the development git trunk, making your changes |
| and then running "git diff" or "git format-patch" after you're done. |
| |
| (Please see http://www.net-snmp.org/wiki/index.php/Git for further |
| information on using git with the Net-SNMP project) |
| |
| If you're working from a source code distribution, and comparing old |
| and new versions of a code file, use "diff -u OLDFILE NEWFILE" |
| |
| |
| |
| Can I reuse the code in my commercial application? |
| ------------------------------------------------- |
| |
| The details of the COPYRIGHTs on the package can be found in the COPYING |
| file. You should have your lawyer read this file if you wish to use the |
| code in your commercial application. We will not summarize here what is |
| in the file, as we're not lawyers and are unqualified to do so. |
| |
| |
| |
| What's the difference between SNMPv1, SNMPv2 and SNMPv3? |
| ------------------------------------------------------- |
| What's the difference between SNMPv2 and SNMPv2c? |
| ------------------------------------------------ |
| |
| A full description is probably beyond the scope of this FAQ. |
| Very briefly, the original protocol and admin framework was |
| described in RFCs 1155-1157, and is now known as SNMPv1. |
| |
| Practical experience showed up various problems and deficiencies |
| with this, and a number of revised frameworks were developed to try |
| and address these problems. Unfortunately, it proved difficult to |
| achieve any sort of agreement - particularly over the details of |
| the administrative framework to use. |
| |
| There was less disagreement over the proposed changes to the |
| protocol operations. These included: |
| * increasing the range of errors that could be reported |
| * introducing "exception values" |
| (so a single missing value didn't affect |
| the other varbinds in the same request) |
| * a new GETBULK operation |
| (a supercharged GETNEXT) |
| * new notification PDUs |
| (closer in structure to the other request PDUs) |
| |
| Strictly speaking, it's this revised protocol (originally defined |
| in RFC 1905, and most recently in RFC 3416) that is "SNMPv2". |
| |
| The only framework based on this protocol that saw a significant |
| level of use was "Community-based SNMPv2" or "SNMPv2c" (defined |
| in RFC 1901). This retained the same administrative framework |
| as SNMPv1 (with all of the accompanying limitations), but using |
| the new protocol operations. |
| |
| More recently, a new administrative framework has been developed, |
| building on the various competing SNMPv2 proposals, and using the |
| same SNMPv2 protocol operations. This is SNMPv3, which is defined |
| in RFCs 3411-3418. It addresses some of the deficiencies of the |
| community-based versions, including significant improvements to |
| the security of SNMP requests (like it finally has some!). |
| SNMPv3 is now a full IETF standard protocol. |
| |
| Strictly speaking, SNMPv3 just defines a fairly abstract framework, |
| based around the idea of "Security Models" and "Access Control Models". |
| It's this combination of SNMPv3 plus accompanying models that actually |
| provides a working SNMP system. |
| However, the only models in common use are the "User-based Security |
| Model" (RFC 3414) and the "View-based Access Control Model" (RFC 3415). |
| So "SNMPv3" is frequently used to mean the combination of the basic |
| SNMPv3 framework with these two particular models. |
| This is also sometimes described as "SNMPv3/USM". |
| |
| |
| So in brief: |
| - SNMPv2c updated the protocol operations |
| but left the administrative framework unchanged. |
| - SNMPv3 updated the administrative framework |
| but left the protocol operations unchanged. |
| |
| |
| |
| Which versions of SNMP are supported in this package? |
| ---------------------------------------------------- |
| |
| This package currently supports the original SNMPv1 (RFC 1157), |
| Community-based SNMPv2 (RFCs 1901-1908), and SNMPv3 (RFCs 3411-3418). |
| The agent will respond to requests using any of these protocols, |
| and all the tools take a command-line option to determine which |
| version to use. |
| |
| Support for SNMPv2 classic (a.k.a. "SNMPv2 historic" - RFCs 1441-1452) |
| was dropped with the 4.0 release of the UCD-snmp package. |
| |
| |
| |
| Can I use SNMPv1 requests with an SNMPv2 MIB (or vice versa)? |
| ------------------------------------------------------------ |
| |
| Yes. |
| |
| The syntax used to specify a MIB file (better referred |
| to as SMIv1 or SMIv2) is purely concerned with how to define |
| the characteristics of various management objects. This is |
| (almost) completely unrelated to the versions of the protocol |
| used to operate on these values. So it is quite reasonable to |
| use SNMPv1 requests on objects defined using SMIv2, or SNMPv2 |
| (or SNMPv3) requests on objects defined using SMIv1. |
| |
| The one exception is objects of syntax Counter64, which are |
| only accessible using SNMPv2 or higher. SNMPv1 requests will |
| either treat such objects as an error, or skip them completely. |
| |
| Note that SMIv1 is effectively obsolete, and all new MIBs |
| should be written using SMIv2. |
| |
| |
| |
| How can I monitor my system with SNMP? |
| ------------------------------------- |
| |
| There are two main methods of using SNMP for monitoring. One is to regularly |
| query the SNMP agent for information of interest, graphing these values and/or |
| saving them for later analysis. That's not really the focus of the Net-SNMP |
| project - our tools are more low-level, single-shot commands. For this sort |
| of high-level management, you're really looking at a management console |
| application (such as Nagios or OpenNMS), or a data logging application |
| (such as RRDtool, or one of its front-ends - MRTG, Cacti, etc). |
| |
| The other approach is to configure the SNMP agent to monitor the relevant |
| information itself, and issue an alert when the values pass suitable limits. |
| See the section ACTIVE MONITORING in the snmpd.conf(5) man page for details. |
| |
| Note that this entry makes no reference as to _what_ you should monitor, or |
| what values might be significant. That's because it is impossible to provide |
| a universal answer to these questions. The information to monitor, and the |
| normal operating values will ultimately depend on your local environment. |
| SNMP is simply a tool to _help_ you manage your systems - it isn't a magic |
| panacea - you still have to think for yourself! |
| |
| |
| |
| Where can I find more information about network management? |
| ---------------------------------------------------------- |
| |
| There are a number of sites with network management information on |
| the World Wide Web. Some of the most useful are |
| |
| http://www.simpleweb.org/ |
| http://www.snmplink.org/ |
| http://www.mibdepot.com/ |
| |
| The SNMP Usenet newsgroup is now mostly defunct, but although the |
| FAQ hasn't been updated for a while, it still contains a large |
| amount of useful information relating to SNMP, including books, |
| software, other sites, how to get an enterprise number, etc, etc. |
| This is available from |
| |
| ftp://rtfm.mit.edu/pub/usenet/comp.protocols.snmp/ |
| |
| or via any of the Web sites above. |
| |
| |
| |
| What ports does SNMP use? |
| ------------------------ |
| |
| There are three main network ports (and one named socket), which are |
| typically used by SNMP. These are: |
| |
| - UDP port 161 - SNMP requests (GET* and SET) |
| - UDP port 162 - SNMP notifications (Traps/Informs) |
| - TCP port 705 - AgentX |
| - /var/agentx/master - AgentX |
| |
| However, these are simply the default "well-known" ports for these purposes, |
| and it is perfectly possible to accept requests on other ports. |
| |
| |
| |
| Is Net-SNMP thread safe? |
| ----------------------- |
| |
| Strictly speaking, no. However, it is possible to use the library within |
| a multi-threaded management application. This is covered in detail in |
| the file README.thread (shipped with the standard distribution), but can |
| be summarised as follows: |
| |
| - Call 'snmp_sess_init()' prior to activating any threads. |
| This reads in and parses MIB information (which isn't thread-safe) |
| as well as preparing a session structure for subsequent use. |
| |
| - Open an SNMP session using 'snmp_sess_open()' which returns an |
| opaque session handle, which is essentially independent of any |
| other sessions (regardless of thread). |
| |
| - Resource locking is not handled within the library, and is the |
| responsibility of the main application. |
| |
| The Net-SNMP agent has not been designed for multi-threaded use. It |
| should be safe to use the agent library to embed a subagent within a |
| threaded application as long as *all* SNMP-related activity (including |
| generating traps, and parsing MIBs) is handled within a single thread. |
| |
| The command-line tools shipped as part of the Net-SNMP distribution |
| are simple single-threaded applications, and are not designed for |
| multi-threaded use. Adapting these to a threaded model is left as |
| an exercise for the student. |
| The same holds true for the notification receiver (snmptrapd). |
| |
| Unfortunately, the SNMPv3 support was added about the same time as |
| the thread support and since they occurred in parallel the SNMPv3 |
| support was never checked for multi-threading correctness. It is |
| most likely that it is not thread-safe at this time. |
| |
| |
| APPLICATIONS |
| ============ |
| |
| How do I add a MIB? |
| ------------------ |
| |
| This is actually two separate questions, depending on whether you |
| are referring to the tools, or the agent (or both). |
| See the next question or the next section respectively. |
| |
| |
| |
| How do I add a MIB to the tools? |
| ------------------------------- |
| |
| Adding a MIB to the client-side tools has two main effects: |
| |
| - it allows you to refer to MIB objects by name |
| (rather than having to use the numeric OIDs) |
| - it allows the results to be displayed in a more immediately |
| meaningful fashion. Not just giving the object names, but |
| also showing named enumeration values, and interpreting table |
| indexes properly (particularly for string and OID index values). |
| |
| There are two steps required to add a new MIB file to the tools. |
| Firstly, copy the MIB file into the appropriate location: |
| |
| cp MY-MIB.txt /usr/local/share/snmp/mibs |
| (which makes it available to everyone on the system) |
| or |
| mkdir $HOME/.snmp |
| mkdir $HOME/.snmp/mibs |
| cp MY-MIB.txt $HOME/.snmp/mibs |
| (which makes it available to you only) |
| |
| Note that the location of the shared MIB directory may be different |
| from that given here - see the FAQ entry "Where should I put my MIB |
| files?" for more information. |
| |
| |
| Secondly, tell the tools to load this MIB: |
| |
| snmpwalk -m +MY-MIB ..... |
| (load it for this command only) |
| or |
| export MIBS=+MY-MIB |
| (load it for this session only) |
| or |
| echo "mibs +MY-MIB" >> $HOME/.snmp/snmp.conf |
| (load it every time) |
| |
| Note that the value for this variable is the name of the MIB |
| module, *not* the name of the MIB file. These are typically the |
| same (apart from the .txt suffix), but if in doubt, check the contents |
| of the file. The value to use is the token immediately before the |
| word DEFINITIONS at the start of the file. |
| |
| Or use the special value "all" to have the tools load all available |
| MIBs (which may slow them down, particularly if you have a large |
| number of MIB files. |
| |
| Note that you need *both* steps. |
| |
| |
| Adding a MIB in this way does *not* mean that the agent will |
| automatically return values from this MIB. The agent needs to be |
| explicitly extended to support the new MIB objects, which typically |
| involves writing new code. |
| See the AGENT section for details. |
| |
| Most of the tools (apart from 'snmptable') will work quite happily |
| without any MIB files at all - although the results won't be displayed |
| in quite the same way. Similarly, the agent doesn't need MIB files |
| either (other than to handle MIB object names in the configuration file). |
| |
| |
| |
| Why can't I see anything from the agent? |
| --------------------------------------- |
| |
| Fundamentally, there are two basic reasons why a request may go |
| unanswered. Either the management application does not like the |
| request (so never sends it), or the agent does not like the request |
| (so never responds). The simplest way to distinguish between the |
| two is to run the command with the command-line option '-d'. |
| |
| If this doesn't display a hex dump of the raw outgoing packet, then |
| it's the client side which is dropping the request. Hopefully you |
| should also see an error message, to help identify what's wrong. |
| |
| If this displays one or more outgoing dumps (but nothing coming back), |
| then the request is failing at the agent end. See the next entry for |
| more details. |
| |
| |
| There are three further possibilities to consider: |
| |
| One is that the agent may return a response to the original query, |
| but the management application may not like this response, and refuse |
| to display it. This is relatively unusual, and typically indicates |
| a flaw with the remote agent. (I hope you're not contemplating the |
| suggestion that the Net-SNMP command-line tools might contain bugs!) |
| |
| The typical symptoms of this would be that the '-d' option would |
| display a sequence of sending and received packet dumps, with the |
| same contents each time. Ask on the mailing list for advice. |
| |
| |
| Alternatively, the agent may simply not support the MIB objects being |
| requested. This is most commonly seen when using the "snmpwalk" tool |
| (particularly with SNMPv1). |
| |
| The symptoms here would be that '-d' would show two pairs of raw |
| packet dumps - one a GETNEXT request (A1 in the sending packet), |
| followed by a GET request (A0). Repeating the same request with the |
| "snmpgetnext" command-line tool should show the information (if any) |
| that the agent returned, which was then discarded by snmpwalk as |
| irrelevant. |
| |
| Note that this is how snmpwalk was designed to work. It is not an error. |
| |
| |
| Finally, it may be that the agent is simply taking too long to respond. |
| The easiest way to test for this is to add the command-line options |
| "-t 60 -r 0", which will send a single request (with no repetitions) |
| and wait for a minute before giving up. This ought to be long enough |
| for all but the most-overloaded agent, or inefficient MIB module! |
| |
| If this turns out to be the cause, then ask on the mailing list for |
| advice on options for improving the performance. |
| |
| |
| |
| Why doesn't the agent respond? |
| ----------------------------- |
| |
| Assuming that the tests outlined in the previous entry indicate that |
| the problem lies with the agent not responding, the obvious question |
| is "why not". |
| |
| Again, there are two basic possibilities - either the agent never |
| sees the request, or it receives it but is unwilling (or unable) to |
| process it. If the remote system is running the Net-SNMP agent, |
| then the easiest way to distinguish between these two cases is to |
| shut down the agent, and re-start it manually using the options |
| -f -Le -d |
| Then send the same query as before. This should display raw dumps of |
| packets seen (or sent) by the agent, just as with the client side in |
| the previous entry. |
| |
| |
| If the agent does not display anything, then it is simply not receiving |
| the requests. This may be because they are being blocked by network |
| or local firewall settings ('iptables -L'), or the agent may not be |
| listening on the expected interfaces ('netstat -a'). |
| |
| This is most commonly encountered when running queries from a remote |
| host, particularly if the same request succeeds when run on the same |
| system as the agent itself. |
| |
| |
| If the agent displays a dump of the incoming request, but nothing going |
| out, then the most likely cause is access control settings. See the |
| relevant entries in the AGENT section for details. Note that if the agent |
| receives an SNMPv1 or SNMPv2c request with a unknown community string, |
| then it will not return an error response - the request is simply discarded. |
| |
| Another possibility is that the request may be rejected by settings in |
| /etc/hosts.{allow,deny}. Again, '-d' will display an incoming packet |
| dump but no corresponding outgoing response. However in this situation, |
| the agent should also log a message that the request is being refused. |
| |
| |
| Running the agent with '-d' can also help identify situations where the |
| agent *is* responding to the request, but only after a long delay. This |
| would be indicated by a series of incoming packet dumps (showing various |
| retries from the client side), followed by several outgoing dumps - possibly |
| long after the client tool has given up in disgust. |
| See the entry |
| The agent worked for a while, then stopped responding. Why? |
| later in this section. |
| |
| |
| |
| I can see the system group, but nothing else. Why? |
| -------------------------------------------------- |
| |
| This is almost definitely due to the access configuration of the agent. |
| Many pre-configured systems (such as most Linux distributions) will only |
| allow access to the system group by default, and need to be configured |
| to enable more general access. |
| |
| The easiest way to test this is to try a GETNEXT request on one of |
| the other standard groups |
| e.g. |
| snmpgetnext ..... interfaces |
| |
| If the agent responds with "hrSystemUptime.0" or "end of MIB", then it |
| is clearly configured in this way. See the entries on access control |
| in the AGENT section for more information. |
| |
| |
| |
| Why can't I see values in the <ENTERPRISE> tree? |
| ----------------------------------------------- |
| |
| If you can see most of the standard information (not just the system and |
| hrSystem groups), but not in the vendor-specific 'enterprises' tree, then |
| once again there are several possible causes. |
| |
| Firstly, it's possible that the agent does not implement this particular |
| enterprise tree. Remember that adding a MIB to the client tools does |
| *not* automatically add support for these object to the agent. See the |
| AGENT section for more information. |
| |
| |
| Alternatively, it may be that the agent does implement some or all of this |
| enterprise tree, but the access control settings are configured to block |
| access to it. |
| |
| The simplest way to checks whether the agent implements a given portion |
| of the OID tree is to run |
| |
| snmpwalk .... nsModuleName |
| |
| and look for index values that fall in the area of interest. |
| (Always assuming that you have access to this particular section |
| of the Net-SNMP enterprise tree, of course!) |
| |
| Checking the access control settings can be done by examining the tables |
| vacmAccessTable and vacmViewTreeFamilyTable. Note that these are used |
| to configure access control for *all* versions of SNMP - not just SNMPv3. |
| |
| |
| The third possibility is that simply isn't any information in the specified |
| tree. For example, several of the tables in the UCDavis enterprise tree |
| (such as prTable, extTable, dskTable and fileTable) require explicit |
| configuration in the snmpd.conf file. If you query this particular tables |
| without the necessary configuration entries, then they will be empty. |
| |
| |
| Finally, if you can't see anything from *any* enterprise-specific tree, |
| then this may be down to how you are asking for the information. By |
| default, if "snmpwalk" is run without an explicitly starting OID, then |
| it will display the contents of the 'mib-2' tree, containing most of the |
| IETF-standard management information supported by the agent. |
| |
| When the agent reaches the end of this tree, it will return the first |
| enterprise-specific value, 'snmpwalk' will recognise that this marks the |
| end of the (implicit) requested tree, and stop. No enterprise-specific |
| information will be displayed. |
| |
| To walk the whole tree, and see *all* the information that the |
| agent supports, specify a starting point of '.iso' or '.1'. |
| To walk a specific enterprise subtree, specify the root of this tree |
| as the starting point - e.g: |
| |
| snmpwalk -v1 -c public localhost UCD-SNMP-MIB::ucdavis |
| |
| There is more information about particular UCD-specific subtrees in |
| the AGENT section. |
| |
| |
| |
| The agent worked for a while, then stopped responding. Why? |
| ----------------------------------------------------------- |
| |
| There are three basic possibilities: |
| - the agent has crashed |
| - it is hanging |
| - it is temporarily overloaded |
| |
| Detecting whether the agent has crashed should be fairly straighforward. |
| If you can reliably reproduce this crash (e.g. by sending a particular |
| SNMP request), then contact the coders list for advice. |
| It's the other two cases that are probably more significant. |
| |
| To tell the difference between these two, try leaving the agent |
| undisturbed for a while, and then probe it using a single 'snmpget' |
| request, specifying a longer timeout (e.g. '-t 120'). If it now |
| responds, then something was probably sending requests (including |
| duplicate retries) faster than the agent could process them, and it |
| was building up a backlog. Try adjusting the timeout period and retry |
| frequency of these client requests, or look at improving the efficiency |
| of the implementation of the relevant MIB objects. |
| |
| If the agent remains unresponsive (particularly if the load on the |
| system is steadily climbing), then it's probably hanging, and all |
| you can really do is restart the agent. If you can identify what |
| causes this to happen, then contact the coders list for advice. |
| |
| |
| |
| Requesting an object fails with "Unknown Object Identifier" Why? |
| ---------------------------------------------------------------- |
| |
| If a general snmpwalk shows a particular entry, but asking for it more |
| specifically gives a "sub-identifier not found:" or "Unknown Object |
| Identifier" error, then that's a problem with the tool, rather than |
| the agent. |
| |
| Firstly, make sure that you're asking for the object by the right name. |
| Object descriptors are case-sensitive, so asking for 'sysuptime' will |
| not be recognised, but 'sysUpTime' will. |
| |
| Alternatively, the object may be defined in a MIB that hasn't been |
| loaded. Try loading in all the MIB files: |
| |
| snmpget -m ALL -v1 -c public localhost sysUpTime.0 |
| |
| or specify the name of the appropriate MIB explicitly: |
| |
| snmpget -v1 -c public myhost SNMPv2-MIB::sysUpTime.0 |
| |
| Note that this uses the name of the *module*, not the name of the file. |
| However, if 'snmpwalk' displays the object by name, this is unlikely to |
| be the cause, and you should look closely at the exact object name you |
| are using. In particular, see the next entry. |
| |
| |
| |
| Why do I get "noSuchName" when asking for "sysUpTime" (or similar)? |
| ------------------------------------------------------------------ |
| |
| Assuming that you do have access to this object, the most likely cause |
| is forgetting the instance subidentifier. |
| |
| If you try walking the 'system' group (or any other part of the MIB tree), |
| you should notice that all of the results have a number after the object |
| name. This is the "instance subidentifier" of that particular MIB instance. |
| |
| For values in tables (such as the sysORTable), this acts as an index into |
| the table - a very familiar concept. But *all* SNMP values will display an |
| instance number, whether or not they are part of a table. For non-table |
| objects ("scalars"), this instance subidentifier will always be '0', |
| and it *must* be included when making a GET request. |
| |
| Compare the following: |
| |
| $ snmpget -v1 -c public localhost sysUpTime |
| Error in packet |
| Reason: (noSuchName) There is no such variable name in this MIB. |
| This name doesn't exist: system.sysUpTime |
| |
| $ snmpget -v1 -c public localhost sysUpTime.0 |
| system.sysUpTime.0 = Timeticks: (69189271) 8 days, 0:11:32.71 |
| |
| This is a little less obscure when using SNMPv2c or v3 requests: |
| |
| $ snmpget -v 2c -c public localhost sysUpTime |
| system.sysUpTime = No Such Instance currently exists |
| |
| |
| |
| Why do I sometimes get "End of MIB" when walking a tree, and sometimes not? |
| -------------------------------------------------------------------------- |
| |
| This depends on which MIB modules are supported by the agent you are |
| querying and exactly what you're asking for. |
| |
| Note that a tree is walked by repeatedly asking for "the next entry" until |
| all the values under that tree have been retrieved. However, the agent has |
| no idea that this is what's happening - all it sees is a request for "the |
| next entry after X". |
| |
| If the object X happens to be the last entry in a sub-tree, the agent will |
| provide the next object supported (as requested) even though this will be |
| in a different subtree. It's up to the querying tool to recognise that |
| this last result lies outside the area of interest, and simply discard it. |
| |
| If the object X happens to be the last entry supported by the agent, it |
| doesn't have another object to provide, so returns an "end of MIB" |
| indication. The Net-SNMP tools report this with the message above. |
| |
| But in either case, the actual information provided will be the same. |
| |
| |
| |
| How do I use SNMPv3? |
| ------------------- |
| |
| The simplest form of SNMPv3 request is unauthenticated and unencrypted |
| (noAuthNoPriv). It simply requires a user name, and would look something |
| like: |
| |
| snmpget -v 3 -l noAuthNoPriv -u dave localhost sysUpTime.0 |
| |
| However this approach foregoes the security protection which is the |
| main advantage of using SNMPv3 (and the agent must also be explicitly |
| configured to allow unauthenticated requests from that user). |
| |
| The most common form of SNMPv3 request is authenticated but not encrypted |
| (authNoPriv). This specifies the pass phrase to authenticate with: |
| |
| snmpget -v 3 -l authNoPriv -u dave -A "Open the Door" |
| localhost sysUpTime.0 |
| |
| A fully secure (i.e. encrypted) request (authPriv) would also specify |
| the privacy pass phrase: |
| |
| snmpget -v 3 -l authPriv -u dave -A "Open the Door" |
| -X "Bet you can't see me" localhost sysUpTime.0 |
| |
| In practise, most of these would probably be set via configuration |
| directives in a personal $HOME/.snmp/snmp.conf file (note, *not* the |
| agent's snmpd.conf file). |
| The equivalent settings for the third example would be: |
| |
| defSecurityName dave |
| defSecurityLevel authPriv |
| defAuthPassphrase "Open the Door" |
| defPrivPassphrase "Bet you can't see me" |
| |
| If the AuthPassphrase and the PrivPassphrase are the same, then you |
| can use the single setting |
| defPassphrase "Open the Door and see me" |
| instead. |
| |
| See the AGENT section for how to configure the agent for SNMPv3 access. |
| |
| |
| |
| Why can't I set any variables in the MIB? |
| ---------------------------------------- |
| |
| There are three possible reasons for this: |
| |
| Many MIB objects are defined as "read-only" and inherently cannot be |
| changed via SET requests. Attempts to do so will typically be rejected |
| by the 'snmpset' command without ever being sent to the agent. |
| |
| Of those objects that can in principle be changed, the agent may not |
| include the code necessary to support SET requests. (GET and GETNEXT |
| are much easier to handle - particularly for objects relating to the |
| internals of the underlying operating system). |
| |
| Even if SET support has been implemented, the agent may not be configured |
| to allow write access to this object. |
| |
| Ready-installed distributions (such as those shipped with Linux) tend |
| to be configured with read-only access to part of the mib tree (typically |
| just the system group) and no write access at all. |
| |
| To change this, you will need to set up the agent's access control |
| configuration. See the AGENT section for more details. |
| |
| Note that neither the community string "public" nor "private" can be |
| used to set variables in a typical default configuration. |
| |
| |
| |
| Variables seem to disappear when I try to set them. Why? |
| -------------------------------------------------------- |
| |
| This is actually the same as the previous question - it just isn't |
| particularly obvious, particularly when using SNMPv1. A typical |
| example of this effect would be |
| |
| $ snmpget -v1 -c public localhost sysLocation.0 |
| sysLocation.0 = somewhere nearby |
| |
| $ snmpset -v1 -c public localhost sysLocation.0 s "right here" |
| Error in packet. |
| Reason: (noSuchName) There is no such variable name in this MIB. |
| This name doesn't exist: sysLocation.0 |
| |
| Trying the same request using SNMPv2 or above is somewhat more informative: |
| |
| $ snmpset -v 2c -c public localhost sysLocation.0 s "right here" |
| Error in packet. |
| Reason: notWritable |
| |
| The SNMPv1 error 'noSuchName' actually means: |
| |
| "You can't do that to this variable" |
| |
| rather than "this variable doesn't exist". |
| It may be the case that it doesn't exist at all. It may exist but you |
| don't have access to it (although different administrative credentials |
| might be accepted). Or it may exist, but you simply can't perform that |
| particular operation (e.g. changing it). |
| Similarly, the SNMPv2 error 'notWritable' means "not writable in this |
| particular case" rather than "not writable under any circumstances". |
| |
| If you are sure that the object is both defined as writable, and has been |
| implemented as such, then you probably need to look at the agent access |
| control. See the AGENT section for more details. |
| But see the next entry first. |
| |
| |
| |
| Why can't I change sysLocation (or sysContact)? |
| ---------------------------------------------- |
| |
| There is one final possibility to consider for why a SET request might |
| be rejected. |
| |
| The values for certain MIB objects (including 'sysLocation' and 'sysContact') |
| can be configured via the snmpd.conf file. If this is done, then these |
| particular objects become read-only, and cannot be updated via SET commands, |
| even if the access control settings would otherwise allow it. |
| |
| This may seem perverse, but there is good reason for it. If there is a |
| configuration setting for one of these objects, then that value will be |
| used whenever the agent re-starts. If the object was allowed to be updated |
| using SET, this new value would be forgotten the next time the agent was |
| re-started. |
| |
| Hence the Net-SNMP agent rejects such requests if there's a value configured |
| via the 'snmpd.conf' file. If there isn't such a config setting, then the |
| write request will succeed (assuming suitable access control settings), and |
| the new value will be retained the next time the agent restarts. |
| |
| |
| |
| I get an error when trying to set a negative value - why? |
| -------------------------------------------------------- |
| |
| This is a different problem. What's happening here is that the |
| routine that parses the arguments to the 'snmpset' command is seeing |
| the '-' of the new value, and treating it as a command-line option. |
| This normally generates an error (since digits typically aren't valid |
| command line options). |
| |
| The easiest way to solve this is include the "end-of-option" |
| indicator '--' in the command line, somewhere before the new value |
| (but after all of the options, obviously). For example: |
| |
| snmpset -v 2c -c public localhost -- versionRestartAgent.0 i -1 |
| |
| (This command will still fail, since -1 isn't an acceptable value for |
| this particular object, but that's not the point here!) |
| |
| |
| |
| I get an error when trying to query a string-indexed table value - why? |
| ---------------------------------------------------------------------- |
| |
| The Net-SNMP library will normally try to interpret string-based |
| index values, and display them in a meaningful manner: |
| |
| $ snmpgetnext .... vacmGroupName |
| vacmGroupName.3."dave" = theWorkers |
| |
| The command-line tools will also accept string-valued indexes within |
| an OID, and convert them into the appropriate numeric form before |
| sending an SNMP request. However the Unix shell will typically |
| swallow the quotes around the string index value, before the SNMP |
| tools can get a chance to interpret them. |
| |
| The answer is to escape the quotes, to protect them from the shell, |
| and allow them to be passed through to the OID parser: |
| |
| snmpget .... vacmGroupName.3.\"dave\" |
| or |
| snmpget .... 'vacmGroupName.3."dave"' |
| |
| |
| Another alternative is to avoid trying to specify the index value as |
| a string, and provide the numeric subidentifiers directly: |
| |
| snmpget .... vacmGroupName.3.4.100.97.118.101 |
| |
| (where '3' indicates SNMPv3, '4' is the length of the string index, |
| followed by the ASCII values of the individual characters). |
| |
| The command-line option '-Ob' will display the results of querying |
| a string-indexed table in this format: |
| |
| $ snmpgetnext -Ob .... vacmGroupName |
| vacmGroupName.3.4.100.97.118.101 = theWorkers |
| |
| |
| |
| How should I specify string-indexed table values? |
| ------------------------------------------------ |
| |
| There's one other aspect of string-indexed tables that can cause |
| problems - the difference between implicit- and explicit-length |
| strings, and how to represent these when making an SNMP query. |
| |
| The most common style of string index uses an explicit length, |
| followed by the individual ASCII character values: |
| |
| "dave" = 4.'d'.'a'.'v'.'e' |
| |
| (as shown in the previous entry). |
| |
| However if the string index is defined in the MIB file as IMPLIED |
| (or if it has a fixed length, such as a physical ethernet address), |
| then the length subidentifier is omitted, and the index simply |
| consists of the character values: |
| |
| "dave" = 'd'.'a'.'v'.'e' |
| |
| Note that IMPLIED index objects can only appear as the *last* index |
| for a table. |
| |
| The Net-SNMP library uses double quotes (i.e. "dave) to indicate an |
| explicit length string index value, and single quotes (i.e. 'dave') |
| to indicate an implicit length one. If you use the wrong style of |
| quotes, then the resulting OID will be incorrect, and you'll get |
| confusing results to your query. |
| |
| |
| |
| How do I send traps and notifications? |
| --------------------------------------- |
| |
| Traps and notifications can be sent using the command 'snmptrap'. |
| The following examples generate the generic trap 'warmStart(1)' and a |
| (dummy) enterprise specific trap '99' respectively: |
| |
| snmptrap -v 1 -c public localhost "" "" 1 0 "" |
| snmptrap -v 1 -c public localhost "" "" 6 99 "" |
| |
| The empty parameters "" will use suitable defaults for the relevant |
| values (enterprise OID, address of sender and current sysUptime). |
| |
| An SNMPv2 or SNMPv3 notification (either trap or inform) takes |
| the OID of the trap to send: |
| |
| snmptrap -v 2c -c public localhost "" UCD-SNMP-MIB::ucdStart |
| snmptrap -v 2c -c public localhost "" .1.3.6.1.4.1.2021.251.1 |
| |
| (These two are equivalent ways of specifying the same trap). Again, |
| the empty parameter "" will use a suitable default for the relevant |
| value (sysUptime). |
| |
| Any of these commands can be followed by one or more varbinds, |
| using the same (OID/type/value) syntax as for 'snmpset': |
| |
| snmptrap -v 2c -c public localhost "" ucdStart sysContact.0 s "Dave" |
| |
| Generating traps from within the agent, or other applications, is |
| covered in the AGENT and CODING sections. |
| |
| You should also read the snmptrap tutorial at |
| http://www.net-snmp.org/tutorial-5/commands/snmptrap.html |
| which will help you understand everything you need to know about traps. |
| |
| |
| |
| How do I receive traps and notifications? |
| ---------------------------------------- |
| |
| Handling incoming traps is the job of a "notification receiver". |
| The Net-SNMP suite include the tool 'snmptrapd' to act in this role. |
| This can log traps to a file or via the syslog mechanism, forward them |
| to another notification receiver and/or invoke a specified command |
| whenever a particular notification is received. |
| |
| Logging notifications would be done by starting snmptrapd as: |
| snmptrapd -Ls 7 (log to syslog using 'LOCAL7') |
| or |
| snmptrapd -f -Lo (log to standard output) |
| |
| Invoking a command to process a received notification uses one or |
| more 'traphandle' directives in the configuration file 'snmptrapd.conf'. |
| A typical configuration might look something like: |
| |
| traphandle .1.3.6.1.6.3.1.5.1 /path/to/page_me up |
| traphandle .1.3.6.1.4.1.2021.251.1 /path/to/page_me up |
| traphandle .1.3.6.1.4.1.2021.251.2 /path/to/page_me down |
| traphandle default /path/to/log_it |
| |
| where 'page_me' and 'log_it' are the commands to be run. |
| |
| Forwarding notifications to another receiver would be done using |
| similar 'snmptrapd.conf' directives: |
| |
| forward .1.3.6.1.4.1.8072.4.0.3 10.0.0.1 |
| forward default 10.0.0.2 |
| |
| There's a tutorial with more details on the web site at |
| http://www.net-snmp.org/tutorial-5/commands/snmptrap.html |
| |
| |
| |
| How do I receive SNMPv1 traps? |
| ----------------------------- |
| |
| Directives in the 'snmptrapd.conf' file use the (SNMPv2) snmpTrapOID |
| value to identify individual notifications. This applies to *all* |
| versions of SNMP - including SNMPv1 traps. See the co-existence spec |
| (RFC 2576) for details of mapping SNMPv1 traps to SNMPv2 OIDs. |
| |
| Note that the first traphandle directive in the previous entry uses |
| the OID corresponding to the SNMPv1 'coldStart' trap. |
| |
| |
| |
| Why don't I receive incoming traps? |
| ---------------------------------- |
| |
| Starting with net-snmp 5.3, snmptrapd will no longer automatically |
| accept all incoming traps. It must be configured with authorized |
| SNMPv1/v2c community strings and/or SNMPv3 users. Non-authorized |
| traps/informs will be dropped. |
| Please refer to the snmptrapd.conf(5) manual page for details. |
| |
| |
| |
| My traphandler script doesn't work when run like this - why not? |
| --------------------------------------------------------------- |
| |
| If a traphandler script works fine when run manually from the |
| command line, but fails or generates an error when triggered by |
| an incoming notification, then there are two likely causes. |
| |
| Firstly, the interactive shell environment may not be precisely |
| the same as that for programs executed by the snmptrapd daemon. |
| In particular, it's quite possible that the PATH environmental |
| variable may not include all the additional directories that are |
| commonly set up for a personal login configuration. To avoid this |
| problem (particularly for traphandler shell scripts), it's worth |
| giving the full path to all programs used within the script. |
| |
| Secondly, the snmptrapd daemon may not always recognise the |
| appropriate interpreter to use for a particular trap handler. |
| If this is the case, then you can specify this interpreter |
| explicitly as part of the trap handle directive: |
| |
| traphandle default /usr/bin/perl /usr/local/bin/log_it |
| |
| In this case, it's almost certain that you'll also |
| need to give the full path to the traphandle script (as shown) |
| |
| |
| |
| How can the agent receive traps and notifications? |
| ------------------------------------------------- |
| |
| It can't. |
| |
| The primary purpose of an SNMP agent is to handle requests for |
| information from management applications. In SNMP terminology, |
| it acts as a "command responder". |
| |
| It may also issue traps to report significant events or conditions |
| ("notification generator"). But responding to such notifications |
| is a significantly different role, and this is handled by a separate |
| application ('snmptrapd'). Note that it is perfectly possible (even |
| normal) for both agent and trap receiver to run on the same host. |
| |
| |
| |
| How big can an SNMP request (or reply) be? |
| ----------------------------------------- |
| |
| The protocol definition specifies a "minimum maximum" packet size |
| (484 bytes for UDP), which all systems must support, but does not |
| attempt to define an upper bound for this maximum size. This is left |
| to each individual implementation. |
| |
| The UCD software used a fixed size buffer of 1472 bytes to hold the |
| encoded packet, so all requests and responses had to fit within this. |
| The Net-SNMP releases handle packet buffers rather differently, and |
| are not subject to the same fixed restrictions. |
| |
| |
| |
| How can I monitor my systems (disk, memory, etc)? |
| ------------------------------------------------ |
| |
| In general, the Net-SNMP suite consists of relatively low-level |
| tools, and there is nothing included that is designed for high-level, |
| long-term monitoring of trends in network traffic, disk or memory |
| usage, etc. |
| |
| There are a number of packages available that are designed for this |
| purpose. Two of the most widely used are MRTG (http://www.mrtg.org/) |
| and RRDtool (http://oss.oetiker.ch/rrdtool/). There are also several |
| frontends built on top of RRDtool, including Cacti (http://www.cacti.net/) |
| and Cricket (http://cricket.sourceforge.net/). There are details of |
| how to set up Cricket to monitor some of the UCD extensions at |
| http://www.afn.org/~jam/software/cricket/ |
| |
| We have also set up a page that describes in detail how MRTG |
| can be set up to monitor disk, memory and cpu activity at |
| http://www.net-snmp.org/tutorial-5/mrtg/index.html |
| |
| There is also a web-based network configuration system "Net-Policy", |
| based upon SNMP. This is not strictly connected to the Net-SNMP project, |
| but a number of the core developers are also involved with that system. |
| See http://net-policy.sourceforge.net for more details. |
| |
| |
| |
| Applications complain about entries in your example 'snmp.conf' file. Why? |
| -------------------------------------------------------------------------- |
| |
| There *is* no example 'snmp.conf' shipped with the standard distribution. |
| |
| The configuration file 'EXAMPLE.conf' is designed as a config for |
| the agent, and should be installed as 'snmpd.conf' (note the 'd'). |
| The file 'snmp.conf' is intended for general configuration options, |
| applicable to all applications (via the SNMP library). |
| Rename (or merge) the 'snmp.conf' file to 'snmpd.conf', and this |
| should fix the problem. |
| |
| See the AGENT section or the 'snmpd.conf(5)' man page for more information |
| about what should go in this file. |
| |
| |
| |
| OK, what should I put in snmp.conf? |
| ---------------------------------- |
| |
| This is used to set common configuration values for most of the |
| applications, to avoid having to specify them every time. Examples |
| are the SNMPv3 settings mentioned above, defaults for which MIBs to |
| load and where from (see the second entry in this section), |
| and the default SNMP version, port and (if appropriate) community |
| string to use. |
| |
| Some of these (such as MIB information), might be best put in a |
| shared snmp.conf file (typically /usr/local/share/snmp/snmp.conf or |
| /etc/snmp/snmp.conf) to apply to all users of the system. Others |
| (particularly the SNMPv3 security settings), are more likely to refer |
| to a particular user, and should probably go in a personal snmp.conf |
| file (typically $HOME/.snmp/snmp.conf). |
| |
| See 'snmpget -H' and/or the snmp.conf(5) man page for more details. |
| |
| You can also use the "snmpconf" command to help you generate your |
| snmp.conf configuration file (just run it and answer its questions). |
| |
| |
| |
| How do I specify IPv6 addresses in tools command line arguments? |
| --------------------------------------------------------------- |
| |
| IPv6 addresses pose a particular problem for the Net-SNMP command |
| line tools, which parse host names into pieces. In particular, normally |
| if you specify a simple host name, it assumes you want UDP in IPv4 on |
| port 161. By default, these two commands are actually the same: |
| |
| snmpget 127.0.0.1 sysUpTime.0 |
| snmpget udp:127.0.0.1:161 sysUpTime.0 |
| |
| However, for IPv6 this causes a problem because IPv6 addresses also use |
| a colon to separate addressing parts. Thus you need to enclose the address |
| in square brackets ( [ and ] ). |
| Because most shells use these brackets too, you also likely need to quote it: |
| |
| snmpget 'udp6:[::1]:161' sysUpTime.0 |
| |
| |
| |
| PERL |
| ==== |
| |
| What is the purpose of the Perl SNMP module? |
| ------------------------------------------- |
| |
| Short, comprehensive (but ultimately unhelpful) anwer - to provide a |
| perl interface for SNMP operations. |
| |
| Longer, incomplete (but more useful) answer - there are probably two |
| main uses for the Perl SNMP module. The first is for developing client |
| management applications, using perl to send SNMP requests, and manipulating |
| or displaying the results. As such, this is a straight alternative to |
| various other SNMP toolkits currently available (for both perl and other |
| programming languages). |
| |
| The second is as a means for extending the functionality of the Net-SNMP |
| agent, by implementing new MIB modules. This is an alternative to the |
| other script-based extension mechanisms, but is more tightly bound to the |
| Net-SNMP agent (and hence more efficient), while still avoiding the need |
| to write C code. |
| |
| It is also possible to use the perl SNMP module in the snmpd.conf file, |
| or to process incoming notifications, but the above are probably the |
| two primary uses. |
| |
| |
| |
| Where can I get the Perl SNMP package? |
| ------------------------------------- |
| |
| Joe Marzot's excellent Perl 'SNMP' module, is included in the Net-SNMP |
| source releases. It can be found located in the perl/SNMP subdirectory |
| of the source tree. This is accompanied by a number of Perl modules |
| grouped together under the NetSNMP namespace. |
| |
| The basic SNMP module (though not the NetSNMP additions), can also |
| be found at any Comprehensive Perl Archive Network (CPAN) mirror site, |
| under modules/by-module/SNMP. To find the CPAN site nearest you, |
| please see http://www.cpan.org/SITES.html. |
| |
| These Perl modules need to be used in conjunction with a compatible |
| version of the Net-SNMP library. Consult the README file in the SNMP |
| Perl distribution to find out which version of the library it needs. |
| |
| |
| |
| How do I install the Perl SNMP modules? |
| -------------------------------------- |
| |
| Assuming you have a reasonably new (and properly configured) Perl system, |
| this should be simply: |
| |
| cd perl |
| perl Makefile.PL |
| (press RETURN when prompted for host and community) |
| make |
| make test |
| make install (probably as root) |
| |
| |
| It might be possible to install the basic module using |
| |
| perl -MCPAN -e shell ; "install SNMP" |
| |
| but this has not been reliably tested, and very much relies on |
| having the correct version of the Net-SNMP library. |
| |
| There may also be appropriate pre-compiled versions of the Perl modules |
| available from the Net-SNMP project website, or your O/S vendor. |
| |
| |
| |
| But compiling this fails! Why? |
| ----------------------------- |
| |
| The Perl module tends to delve quite deeply into the internals of the |
| main Net-SNMP library, and so is quite sensitive to changes within the |
| library. It's important to use the correct version of the module, that |
| corresponds to the version of the library you have installed. If you're |
| working with a Net-SNMP source distribution, the appropriate versions of |
| the Perl modules are shipped as part of the source code, but you *must* |
| have run "make install" on the main Net-SNMP distribution *first*. |
| |
| If you're working with a ready-installed version of the library, make |
| sure you obtain a compatible version of the Perl module. |
| |
| Note that the Perl modules will be compiled using the compiler |
| (and compiler settings) used for compiling the original perl binary, |
| *not* those used for compiling the Net-SNMP (or UCD) library. |
| If these are different (e.g. 'gcc' used for one and 'cc' for the other) |
| then this may well cause problems. It's much safer to use a consistent |
| environment for both. This issue is discussed in greater detail in |
| the README.solaris file. |
| |
| Also note that the v5 Net-SNMP suite *must* be configured to provide |
| shared libraries in order for the Perl modules to work correctly. This |
| is not necessary with the v4 UCD-SNMP libraries. |
| |
| |
| |
| Compiling the Perl module works OK, but 'make test' fails. Why? |
| -------------------------------------------------------------- |
| |
| That's difficult to answer in general. |
| Some of the Perl tests are rather picky, so this may simply be |
| some minor inconsistency between your precise setup, and the |
| expectations of the test environment. |
| |
| Check that you are working with the Perl distribution that matches |
| the SNMP libraries (use the 'perl/SNMP' in preference to CPAN), and |
| that you have installed the main libraries successfully (uninstall |
| any old versions if you're having trouble). |
| |
| If all this looks OK, and if most of the tests pass, then it's |
| probably safe to run 'make install' anyway. Probably. |
| |
| |
| |
| Why can't mib2c (or tkmib) locate SNMP.pm? |
| ----------------------------------------- |
| |
| That's probably because the SNMP Perl module hasn't been installed. |
| It's not part of the standard Perl distribution, nor is it included |
| in the default Fedora Linux installation (for example). |
| You'll need to install it yourself. |
| |
| See the second entry in this section. |
| |
| |
| |
| Why can't mib2c (or tkmib) load SNMP.so? |
| --------------------------------------- |
| |
| This is probably the same problem. Either the SNMP module |
| hasn't been installed, or it's the wrong version. See the |
| previous questions. |
| |
| |
| |
| Why can't tkmib locate Tk.pm? |
| ---------------------------- |
| |
| Tk.pm is another Perl package that needs to be installed before tkmib |
| will run. It's also available on Perl CPAN. We suggest using version |
| "Tk800.011" or later. It can be installed by issuing the command: |
| |
| perl -MCPAN -e shell ; "install Tk" |
| |
| |
| |
| Why does your RPM complain about missing Perl modules? |
| ----------------------------------------------------- |
| |
| This has been particularly noted on RedHat 9, complaining about the |
| module "perl(Term::ReadKey)" - even if this is actually present (e.g. |
| having been installed directly from CPAN). In fact, this is not |
| specific to Perl modules - the same issue can potentially arise with |
| other RPM dependencies. |
| |
| The problem is that the RPM mechanism keeps a local database of what |
| software packages have been installed, and checks this for any other |
| features that this RPM requires. If software is installed "manually" |
| rather than via rpm packages, then it will not appear in this database. |
| Attempting to install another RPM that rely on this functionality will |
| then complain about the "missing" package, because the RPM system doesn't |
| know that's it's actually available. |
| |
| The ideal solution is to *always* install software using a consistent |
| mechanism (which may involve building RPMs locally, or looking for a |
| suitable pre-built version). |
| |
| Failing this, it's possible to tell the "rpm" command to ignore such |
| dependencies, and install the package anyway. Try: |
| |
| rpm -i --nodeps {package} |
| |
| In this situation, it's then up to you to make sure that any other |
| necessary packages *are* actually present on the system. |
| |
| |
| |
| I've got a problem with the Net-SNMP module. Can you help? |
| ---------------------------------------------------------- |
| |
| Sorry, despite the similar-sounding name, the Net-SNMP (or Net::SNMP) |
| module is nothing to do with this package, or the NetSNMP modules. |
| Net::SNMP is a "pure-perl" implementation of SNMP support, developed |
| by David Town. The developers of the (C-based) Net-SNMP suite do |
| not have any significant experience in using this particular module, |
| and you'll probably be better off asking for help via CPAN or some |
| other perl-related forum. |
| |
| |
| |
| MIBS |
| ==== |
| |
| Where can I find a MIB compiler? |
| ------------------------------- |
| |
| That depends what you mean by a "MIB compiler". There are at least two |
| types of tool that are commonly referred to by this name. |
| |
| The first is a tool to check MIB files for validity. With the Net-SNMP |
| software, this functionality is mostly integrated within the MIB parser, |
| and hence included in all the applications. The tool 'snmptranslate' is |
| probably the most appropriate for this purpose. |
| |
| Note that the parser is fairly forgiving (see 'What ASN.1 parser is used' |
| below), so this should not be regarded as a stamp of approval. For a |
| more rigourous validation, use a tool such as 'smilint', or the on-line |
| interface at http://wwwsnmp.cs.utwente.nl/ietf/mibs/validate/ |
| |
| The second type of "MIB compiler" is one to turn a MIB specification |
| into C code, specifically one designed to aid agent implementation. The |
| command 'mib2c' is an example of such a tool for the Net-SNMP agent. |
| See the CODING section for more information. |
| |
| |
| |
| Why aren't my MIB files being read in? |
| ------------------------------------- |
| |
| There are two basic likely causes - either the library isn't attemping to |
| load these particular MIB files, or it's trying to load them but can't |
| locate them. |
| |
| By default, the Net-SNMP library loads a specific subset of MIB files. |
| This list is set when the suite is first configured and compiled, and |
| basically corresponds to the list of modules that the agent supports. |
| (This is a simplification, but is a reasonable first approximation). |
| |
| In order to load additional MIB files, it is necessary to add them to this |
| default list. See the FAQ entry "How do I add a MIB to the tools?" for |
| more information about how to do this. |
| |
| |
| Alternatively, the tools may be looking in the wrong place. The directory |
| where the library looks for MIB files is also set when the software is |
| first configured and compiled. If you put new MIB files in the wrong |
| location, then the library won't be able to find them (and will complain). |
| |
| This problem may arise when switching from a vendor-supplied distribution |
| to one compiled from source (or vice versa). |
| See the next entry for more information. |
| |
| |
| |
| Where should I put my MIB files? |
| ------------------------------- |
| |
| If you've compiled the package from source (or are using binaries |
| from the project website), then you should probably put new MIB |
| files in the directory /usr/local/share/snmp/mibs |
| |
| If you are using vendor-supplied binaries, then the MIB files |
| may well be located somewhere else (e.g. /usr/share/snmp/mibs, |
| /opt/snmp/mibs, or /etc/sma/snmp/mibs). Have a look for where |
| existing MIB files are installed, and try adding your MIBs to |
| the same directory. |
| |
| If you compiled the source yourself, but specified a different |
| --prefix value when running configure, then the location of the |
| MIB directory will be {prefix}/share/snmp/mibs. |
| |
| If you're still not sure where to put your MIB files, try running |
| the command |
| |
| snmpget -Dparse-mibs 2>&1 | grep directory |
| |
| This will display the location(s) where the library is looking |
| for MIB files. |
| |
| |
| |
| What does "Cannot find module (XXX-MIB)" mean? |
| --------------------------------------------- |
| |
| If this error is only generated for one or two modules, then it's |
| likely that the named modules are not being found - perhaps they're |
| not installed in the correct location, are not readable, or the |
| name being used is incorrect. See the previous entries and the entry |
| "How do I add a MIB to the tools?" for more details. |
| |
| Note that the name reported is the name of the MIB *module*, which is |
| not necessarily the same as the name of the file. |
| |
| |
| If there are a large number of such errors, then it's more likely |
| that either the MIB files haven't been installed at all. If you are |
| compiling from source, then it is necessary to run "make install" in |
| order to set up the full run-time environment. |
| |
| Otherwise, see the previous entry to check whether the MIBs are installed |
| in the correct location for the tools to find them. |
| |
| |
| |
| I'm getting answers, but they're all numbers. Why? |
| ------------------------------------------------- |
| |
| This is related to the previous questions. Remember, the results that |
| you receive from an agent do not depend on which MIBs are loaded by the |
| client tools - purely on how the agent was compiled and configured. |
| |
| Because the tools don't necessarily read in every MIB file they can find |
| (and the relevant MIB file may not be available anyway), it is quite |
| possible for results from an agent to refer to modules that have not |
| been loaded (particularly with GETNEXT requests, or when walking a tree). |
| |
| The results will be reported correctly, but won't be translated to use |
| named identifiers (or display the values in the most appropriate manner). |
| To fix this, add the missing MIB files to the list of MIBs to be loaded. |
| See the previous entries and the entry "How do I add a MIB to the tools?" |
| for more information. |
| |
| |
| |
| What does "unlinked OID" mean? |
| ----------------------------- |
| |
| This means that the library has been able to find the MIB module, |
| and parse the individual objects defined in it, but is having problems |
| linking them together into a consistent tree. In particular, it |
| can't find an object corresponding to the name within the braces |
| (i.e. the 'xxx' in '{xxx 99}'). |
| |
| This is probably due either to a typo in this name (remember that |
| names are case sensitive, so a reference to 'xxx' will *not* match |
| a definition of 'Xxx'), or else the name is defined in another MIB |
| file, and this dependency is missing from the IMPORT clause of this |
| MIB file. |
| |
| |
| |
| The parser doesn't handle comments properly. Why not? |
| ---------------------------------------------------- |
| |
| The way that comments are handled in a MIB file is subtly different |
| to the equivalent syntax in most typical programming languages, and |
| this difference can catch out the unwary. In particular, there are |
| two common situations which can lead to problems. |
| |
| The first scenario is where the MIB designer has attempted to "comment |
| out" an unwanted line that already contains a comment: |
| |
| -- broken ::= { myMIB 1 } -- This isn't working yet |
| |
| The assumption here is that a comment continues to the end of the line. |
| Unfortunately, this is not correct. A comment will continue either to |
| the end of the line, *or* the next occurance of a pair of dashes. |
| |
| Thus in this case, the definition of "broken" is commented out (as |
| intended) but the following text ("This isn't working yet") is treated |
| as an active part of the MIB, and will generate an error. |
| |
| |
| The second scenario is where a line of dashes has been used to mark |
| out separate parts of a MIB file. Depending on the exact number of |
| dashes used, this may still result in a syntactically valid MIB file, |
| but has a 1-in-4 possibility of triggering an error. This means that |
| this particular situation can be particularly difficult to spot! |
| |
| |
| Most of the Net-SNMP applications have a command-line option (-Pc) which |
| will work around this problem by treating the whole line as a comment. |
| But this is not strictly legal, and the offending MIB file should really |
| be corrected. |
| |
| |
| |
| How can I get more information about problems with MIB files? |
| ------------------------------------------------------------ |
| |
| The command 'snmptranslate' is used to translate between numeric |
| and symbolic forms of OIDs. It uses the same MIB parsing routines |
| as the commands that actually communicate with a network management |
| agent, but can be used standalone. As such, it is a useful tool |
| for identifying problems with reading in MIB files. |
| |
| In particular, the following options may be useful in |
| identifying problems: |
| -Pw warns about conflicting symbols |
| -PW prints more verbose warnings about other problems as well |
| (in both cases, ignore the 'xmalloc' reports) |
| -T provides sub-options for various views of these entries |
| |
| There are other '-P' options to control various aspects of MIB parsing. |
| See the 'snmptranslate(1)' and 'snmpcmd(1)' man pages for more details, |
| or the tutorial at |
| http://www.net-snmp.org/tutorial-5/commands/snmptranslate.html |
| |
| For a more rigourous validation, use a tool such as 'smilint', or the |
| on-line interface at http://wwwsnmp.cs.utwente.nl/ietf/mibs/validate/ |
| |
| |
| |
| What's this about "too many imported symbols"? |
| --------------------------------------------- |
| |
| Any MIB file starts with an (optional) list of identifiers that |
| it "imports" from other files. The parser handles this using |
| a fixed size buffer to hold the import information. |
| There are two circumstances in which this can result in the |
| error message shown above. |
| |
| Firstly, if the MIB file refers to an unusually large number |
| of external identifiers. Handling this case requires a (trivial) |
| patch to the parsing code. Contact the coders list for advice. |
| (This is extremely rare - the only example that |
| we've come across is the Cabletron Trap MIB). |
| |
| Much more common is a syntax error in the IMPORTS clause of the |
| MIB file in question. In particular, check that this section ends |
| in a semicolon, before going on to the main MIB object definitions. |
| |
| |
| |
| Do I actually need the MIB files? |
| -------------------------------- |
| |
| Probably not. |
| The MIB files play two main roles - they are used to translate |
| between numeric OIDs and the corresponding textual names, and |
| they define the structure and syntax of the relevant MIB objects. |
| |
| This second role is perhaps best thought of in terms of a design |
| document. It's vital while developing an application (typically |
| the MIB module or handler within the agent), since it defines |
| what the application (MIB) must actually do. But once the code |
| has been written, the design document becomes redundent. |
| The agent then has the same information hardcoded into it |
| (literally!), and no longer needs the MIB file. |
| |
| The translation task is not strictly necessary - SNMP will |
| operate fine without any MIB files at all, as long as you're |
| happy to work with numeric OIDs throughout, and know which MIB |
| objects you're interested in. But it's much easier to work with |
| the (hopefully) meaningful names, enumeration tags and the like, |
| and to view the description of a particular object. |
| This requires having the relevant MIB files installed and loaded. |
| |
| |
| Since the agent needs MIBs the least and some systems are memory |
| restricted, it is possible to completely disable loading these MIBs |
| as well as remove the code that does the parsing by using the |
| --disable-mib-loading flag to configure. |
| |
| However, note that certain snmpd.conf tokens actually make use |
| of mib information so they won't be as easily usable. |
| |
| |
| |
| AGENT |
| ===== |
| |
| What MIBs are supported? |
| ----------------------- |
| |
| The following MIBs are supported (at least in part and on some systems): |
| |
| - MIB-2 General network statistics |
| (RFC 1213 and subsequent revisions) |
| - Host Resources (RFC 1514 and 2790) |
| - SNMPv3 framework (RFCs 2571-5, 3411-3418) |
| (including USM, VACM, Target |
| and Notification MIBs) |
| - DisMan Event and Schedule MIBs |
| - MTA-MIB (sendmail) |
| - private UCD/Net-SNMP agent extensions |
| (monitor specified processes and disks, |
| memory, CPU, load average, + extending |
| the agent using shell commands) |
| |
| See README.agent-mibs for details. |
| |
| Not all MIB modules are included by default on all systems. Some of |
| these may need to be explicitly requested when the software is first |
| configured and built, while others may not be available on all |
| architectures. |
| |
| There are a few other MIB implementations distributed as part of the |
| source tarball, but these are basically unsupported and most of the |
| core developers have little or no experience with using them. |
| |
| |
| |
| What protocols are supported? |
| ---------------------------- |
| |
| The agent supports all three current versions of SNMP (v1, v2c and v3), |
| over both UDP and TCP transports, as well as acting as a SMUX (RFC 1227) |
| master agent, AgentX (RFC 2741) in both master and subagent roles, and |
| SNMP proxying. |
| |
| |
| |
| How do I configure the agent? |
| ---------------------------- |
| |
| That's a somewhat ambiguous question, as there are two very different |
| stages where it is possible to "configure" the agent. |
| |
| Firstly, you can determine what capabilities and defaults are included |
| within the library and agent, at the time that the software is first |
| built. This uses suitable flags to the 'configure' script, before |
| compiling the source. |
| As far as the agent is concerned, the most significant option is |
| '--with-mib-modules' (or '--with-out-mib-modules') to control which |
| MIBs will be supported by the agent. See the next few entries for |
| details. |
| |
| You can also control various aspects of the agent behaviour (and the |
| information it returns) at run time, via the 'snmpd.conf' configuration |
| file. Various aspects of this are touched on throughout this FAQ. Or |
| see the snmpd.conf(5) manual page for full details. |
| The "snmpconf" script can help in creating this config file. |
| Start off with 'snmpconf -g basic_setup' to get you going. |
| |
| |
| |
| How do I remove a MIB from the agent? |
| ------------------------------------ |
| |
| Deleting the text file for a MIB does not affect the agent (other than |
| to prevent it from recognising MIB object names in the config files). |
| It's necessary to tell the agent not to activate the relevant code that |
| actually implements these objects. There are three ways to do this: |
| |
| 1) re-run 'configure' to exclude the given MIB module(s) from the |
| build configuration, then recompile and reinstall: |
| |
| ./configure --with-out-mib-modules=path/to/unwanted .... |
| make |
| make install |
| |
| This specifies the path to the module code file, relative to |
| the 'agent/mibgroup' directory. Clearly, this approach is |
| only possible if you are working with a source distribution. |
| |
| 2) disable the MIB at runtime |
| |
| snmpd -I -unwanted |
| |
| Note that this relies on knowing which modules are used to |
| implement the relevant MIB objects. If you're not sure, |
| you could try walking the 'nsModuleName' MIB object, which |
| indicates the module responsible for each particular range |
| of OIDs. |
| You can also check which MIB modules are loaded by getting |
| the agent to report them as they are initialised: |
| |
| snmpd -Dmib_init -H |
| |
| From this information, it should then be fairly obvious which |
| modules to disable. |
| |
| 3) use access control to exclude the mib from the view used to |
| query the agent: |
| |
| view almostEverything included .1 |
| view almostEverything excluded unwantedMib |
| |
| rocommunity public default -V almostEverything |
| |
| This approach can also be used with the full com2sec/group/access |
| configuration directives (e.g. with versions earlier than 5.3, |
| which don't support the above mechanism). |
| |
| |
| |
| I've installed a new MIB file. Why can't I query it? |
| ---------------------------------------------------- |
| |
| Installing a new MIB file will not magically enable the agent to know |
| what values to report for the objects defined in that MIB. It's |
| necessary to have some code which can provide the relevant information. |
| The next few entries, and the CODING section address this issue in more |
| detail. |
| |
| |
| |
| How do I add a MIB to the agent? |
| ------------------------------- |
| |
| Adding a MIB essentially involves writing some code to implement the |
| objects defined in the new MIB. There are three basic approaches that |
| can be used to do this: |
| |
| - The agent can invoke an external command or shell script to |
| return the necessary information. There are several possible |
| variations on this approach - see the next entry for details. |
| |
| - The agent can pass the request off to another (sub-)agent, |
| which already implements the required MIB. Again, there are |
| several ways of doing this - including AgentX, SMUX and |
| proxied SNMP. See the next entry but one for details. |
| |
| - You can write code to implement the new MIB objects, and |
| include this within the agent. This is most commonly C |
| (or C++) code, although the agent can also support MIB modules |
| implemented in perl. |
| See the next section (CODING) for more details. |
| |
| Note that there is no visible difference between external commands, |
| subagents, and modules implemented within the main agent itself. |
| Tools querying the agent will see a single MIB structure. |
| |
| |
| |
| What's the difference between 'exec', 'sh', 'extend' and 'pass'? |
| --------------------------------------------------------------- |
| |
| 'exec' will run the specified command and return the exit status and |
| output. Any arguments are passed directly to the command, with no |
| special interpretation. |
| |
| 'sh' is similar, but invokes a shell to run the command line given. |
| This means that quoted arguments will be recognised as such, and also |
| allows redirection, and other similar shell interpretation. The results |
| are returned in exactly the same way. |
| |
| 'extend' is also similar, but provides a richer and more flexible MIB |
| framework - both for configuring the exact command to be run, and for |
| displaying the results. |
| |
| None of these mechanisms require the command to have any knowledge of |
| SNMP, or the fact that they are being used in this manner. But the |
| output is returned in a fixed format, and it is up to the receiving |
| application to interpret this appropriately. |
| |
| |
| 'pass' is a more general mechanism for implementing arbitrary MIB |
| objects. The specified command will be invoked for any request within |
| the named MIB subtree, and passed details of the requested OID. It |
| should return the information relevant to the requested OID. |
| |
| 'pass-persist' is similar, but the command will continue running |
| even after the initial request has been answered. These two mechanisms |
| can be used to implement a particular MIB, following the correct MIB |
| structure (as opposed to the fixed format of exec/sh/extend). |
| |
| All of these mechanisms are described in the 'snmpd.conf(5)' man page, |
| in the section entitled "Extending Agent Functionality". |
| |
| |
| |
| What's the difference between AgentX, SMUX and proxied SNMP? |
| ----------------------------------------------------------- |
| |
| All three are protocols that can be used to make two or more agents |
| appear as one to the querying application. In each case, one agent |
| takes the role of "master", and delegates requests to one of the others |
| as and where this is appropriate. The differences between them mainly |
| relate to how data is represented, and the mechanisms for communication |
| between master and subagents. |
| |
| SMUX and proxy SNMP both essentially use the standard SNMP packet format. |
| The main difference is that a proxy SNMP subagent need not be aware that |
| it is acting in such a role. It typically listens on a non-standard port, |
| and simply receives requests as usual, forwarded from the master agent |
| (rather than directly). The main issue to be aware of is that such requests |
| will appear to come from the local host, and this may affect how the access |
| control mechanisms need to be set up. |
| |
| SMUX uses a similar packet format, but the subagent "registers" with |
| the master agent, providing a suitable password. The Net-SNMP (and UCD) |
| agent includes the possibility of acting as a SMUX master agent, but the |
| suite does not include a subagent API. Note that support for SMUX is not |
| included by default, and needs to be explicitly enabled by running: |
| |
| --with-mib-modules=smux |
| |
| before re-compiling the agent. |
| See the file 'agent/mibgroup/README.smux' for details. |
| |
| AgentX uses a more compact (and simpler) packet format, with a richer |
| range of administrative commands, and provides a more flexible and reliable |
| extension mechanism. The Net-SNMP agent can be used in both master and |
| subagent roles, and the agent library can also be used to embed an AgentX |
| subagent within another application. |
| See the file 'README.agentx' for details. |
| |
| AgentX support is included by default, but needs to be explicitly |
| activated in the master agent. Do this by adding the line |
| |
| master agentx |
| |
| to the snmpd.conf file before starting the agent. |
| |
| |
| |
| What is the purpose of 'dlmod'? |
| ------------------------------ |
| |
| Most of the MIB information supplied by the Net-SNMP agent is provided |
| by C-coded implementation modules, and the choice of which modules to |
| include is usually made when the agent is first built. Adding new |
| MIB modules would therefore require re-compiling the agent. This is |
| not always convenient - particularly when working with a production |
| system, and/or pre-installed binaries. |
| |
| Dynamically loaded modules are a means of including a MIB implementation |
| module within the main SNMP agent (or an AgentX subagent) without needing |
| to re-compile and re-link the agent binary. Instead, details of the |
| module(s) to load are specified in the configuration file, and the agent |
| locates the files listed, and merges them in at run time. |
| |
| See http://www.net-snmp.org/tutorial-5/toolkit/dlmod/ for more information. |
| |
| |
| |
| Which extension mechanism should I use? |
| -------------------------------------- |
| |
| That's not easy to answer in general. |
| |
| If there's an existing agent that already implements the desired new |
| MIB, then it makes sense to re-use that, via whatever extension protocol |
| that agent might support. Note that the SMUX protocol has essentially |
| been superceded by AgentX, which provides a fuller and more reliable |
| mechanism than either SMUX or proxied SNMP. So ideally, this would |
| be the preferred extension approach. |
| But if the target subagent only supports SMUX or basic SNMP, then that |
| would dictate the extension protocol to use. |
| |
| Implementing the module in C within the main agent (directly or via |
| dlmod) is probably the most efficient and reliable, closely followed |
| by embedded perl (or python) extensions. These have the advantage of |
| minimal overheads between the code implementing the MIB module, and |
| the agent framework, and no inter-process communication issues. But |
| this does assume that there's a suitable mechanism for retrieving the |
| necessary information. |
| |
| If the new MIB is monitoring or managing some other subsystem, external |
| to the agent, then it may be necessary to embed a subagent within the |
| subsystem itself - particularly if there's no suitable public API to |
| retrieve the necessary information. In this case, AgentX is probably |
| the most appropriate way forward. |
| Alternatively, you could implement the missing public management API |
| for that subsystem, and develop a module within the main agent instead. |
| |
| |
| |
| Can I use AgentX when running under Windows? |
| ------------------------------------------- |
| |
| Yes, but there are a couple of things to be aware of. |
| |
| Firstly, by default the AgentX master listens on the Unix domain |
| socket '/var/agentx/master', which doesn't work under Windows. |
| You'll need to tell it to listen on a TCP port, either by using |
| the command-line option "-x localhost:705", or by adding the |
| directive "agentxSocket localhost:705" to the snmpd.conf file. |
| |
| Secondly, be aware that the security of AgentX connectivity is not |
| particularly strong. The examples given here would allow any process |
| running on the local machine to register as an AgentX subagent. The |
| more obvious settings "-x 705" or "agentxSocket 705" would allow |
| a system *anywhere* on the network (or even from remote networks) to |
| register as an AgentX subagent. This could potentially be used to |
| hijack the agent, or provide false information. |
| |
| |
| |
| How can I run AgentX with a different socket address? |
| ---------------------------------------------------- |
| |
| There are two sides to an AgentX connection, and they need to |
| agree about which socket address to use. So if you want to use |
| a different socket, you need to configure both parties accordingly. |
| |
| The socket that the Net-SNMP master agent uses to listen for AgentX |
| registrations (and send appropriate requests) can be specified using |
| the option '-x'. |
| The command |
| "snmpd -x tcp:localhost:705 ...." |
| would start the agent listening on the TCP port 705 for connections |
| from the local system. |
| The same effect can also be obtained by adding the line |
| agentxsocket localhost:705 |
| to the file 'snmpd.conf'. |
| |
| The same option can be used with the Net-SNMP agent when running in |
| This also holds when the Net-SNMP agent is running in |
| "subagent" mode, to specify the socket to register with (and receive |
| requests from). |
| So a subagent might connect to the master agent above (both running |
| on the same host), using: |
| "snmpd -X -x tcp:localhost:705 ...." |
| |
| A subagent running embedded within some other application will |
| typically not understand the same command-line options, so would |
| need to set the same configuration programmatically: |
| |
| netsnmp_ds_set_string(NETSNMP_DS_APPLICATION_ID, |
| NETSNMP_DS_AGENT_X_SOCKET, "tcp:localhost:705"); |
| |
| With the example subagent code from the Net-SNMP tutorial, this line |
| would be added immediately before the 'init_agent' call. |
| |
| The same approach can also be used to listen on a different named |
| socket, using: |
| agentxsocket /tmp/agentx |
| agentxperms 770 770 myuser mygroup |
| or |
| snmpd -x /tmp/agentx .... |
| or |
| netsnmp_ds_set_string(NETSNMP_DS_APPLICATION_ID, |
| NETSNMP_DS_AGENT_X_SOCKET, "/tmp/agentx"); |
| as appropriate. |
| |
| |
| |
| How can I turn off SMUX support? |
| ------------------------------- |
| |
| Normally, you would use the command-line option '-I -{module}' to |
| disable the initialisation of a particular MIB module within the |
| agent. Unfortunately, it's not currently possible to turn off SMUX |
| support this way. |
| |
| The safest approach is to run |
| configure --with-out-mib-modules=smux |
| and recompile the agent. |
| |
| If this is not possible, an alternative workaround might be to have |
| the agent bind the SMUX socket to an invalid IP address, using a |
| snmpd.conf line such as: |
| |
| smuxsocket 1.0.0.0 |
| |
| The agent may complain at startup, but it won't accept any incoming |
| SMUX requests. |
| |
| If the agent complains about not recognising the "smuxsocket" |
| token, then you're out of luck. You'll either have to recompile |
| from source, or use local firewall rules to block connections |
| to port 199. |
| |
| |
| |
| How can I combine two copies of the 'mib2' tree from separate subagents? |
| ----------------------------------------------------------------------- |
| |
| This is the purpose of the SNMPv3 'context' field. Register the MIB |
| module a second time in a non-default context (see the relevant entry |
| in the CODING section for details), and specify this context when |
| querying the agent. The MIB module can use this context information |
| to determine which set of information to report. |
| Or you could register two completely different handlers for the same |
| OID (using different contexts), and the agent will invoke the appropriate |
| code. This holds for both MIB modules implemented within the main agent, |
| or AgentX subagents - the same approach will work for both. |
| |
| Contexts can also be used with proxied SNMP requests - just specify |
| the option '-Cn {context}' as part of the "proxy" entry. See the |
| 'snmpd.conf(5)' man page for details. |
| |
| It's currently not possible to support parallel MIB trees when using |
| SNMPv1 or SNMPv2c. In principle, it should be possible to use the |
| community string in a similar way, but this has not (yet) been implemented. |
| |
| This mechanism is only available with the v5 Net-SNMP agent. The v4 |
| UCD agent does not support contexts at all. Sorry about that. |
| |
| Another way to handle this would be to tweak one of the subagents to |
| use a different set of (non-standard) OID assignments - perhaps by |
| relocating the whole of the subtree to another (private) OID. This |
| is not ideal, but should work with all configurations. |
| |
| |
| |
| What traps are sent by the agent? |
| -------------------------------- |
| |
| The Net-SNMP agent sends a 'coldStart(0)' trap when it first starts up, |
| and an enterprise-specific trap 'nsNotifyShutdown' when it stops. It |
| generates an enterprise-specific trap 'nsNotifyRestart' (rather than |
| the standard 'coldStart(0)' or 'warmStart(1)' traps) on receiving a HUP |
| signal - typically after being re-configured. It can also be configured |
| to send an 'authenticationFailure(4)' trap when it receives an SNMPv1 |
| (or SNMPv2c) request using an unknown community name. |
| |
| The agent does not send 'linkUp' or 'linkDown' traps by default. It can |
| be configured to do this using the directive 'linkUpDownNotifications'. |
| See the 'snmpd.conf(5)' man page (under ACTIVE MONITORING) for details. |
| |
| Similarly, it does not generate traps by default when one of the |
| monitored characteristics (disk usage, running processes, etc) enters or |
| leaves an error state. This can be configured using the 'defaultMonitors' |
| directive (again documented under ACTIVE MONITORING). |
| |
| |
| |
| Where are these traps sent to? |
| ----------------------------- |
| |
| With all these alerts, the agent needs to be told where to send them, |
| specifying the type of notification (v1 or v2 trap, or v2 inform) and |
| the community name to use. This uses the snmpd.conf directives 'trapsink', |
| 'trap2sink' and 'informsink' for the destination type, and 'trapcommunity' |
| for the community name. SNMPv3 destinations can be configured using the |
| directive 'trapsess'. See the 'snmpd.conf(5)' man page for details. |
| |
| Note that the type of trap generated is totally determined by these |
| directives - irrespective of which API call was used to trigger sending |
| the trap. See the trap-related entries in the CODING section for details. |
| |
| Note also that you typically only want *one* of the settings: |
| |
| trapsink localhost |
| trap2sink localhost |
| informsink localhost |
| |
| Including two (or all three) of these lines in the snmpd.conf file will |
| will result in multiple copies of every notifications being sent for |
| each call to 'send_easy_trap()' (or 'send_v2trap()'). |
| This is probably not what was intended! |
| |
| |
| |
| How can I send a particular trap to selected destinations? |
| ---------------------------------------------------------- |
| |
| This is not currently possible. All notifications will be sent to |
| all configured destinations. The agent does not (currently) support |
| notification filtering. |
| |
| There is a preliminary implementation of the snmpNotifyFilterTable |
| which is designed to allow this sort of selective trap direction. |
| However this is not currently active. (The tables are present and |
| can be manipulated and updated, but the information is not consulted) |
| Documentation on how to use this mechanism will appear once the |
| functionality is working properly. |
| |
| |
| |
| When I run the agent it runs and then quits without staying around. Why? |
| ----------------------------------------------------------------------- |
| |
| Firstly, are you certain that this is what is happening? |
| |
| The normal operation of the agent is to 'fork' itself into the background, |
| detaching itself from the controlling terminal so that it will continue |
| running even when you log out, and freeing the command line for subsequent |
| use. This looks at first sight as if the agent has died, but using 'ps' |
| to show all processes should reveal that the agent is still running. |
| |
| To prevent this behaviour (such as when attempting to debug the agent), |
| you can start it with the '-f' flag. This suppresses the fork, and the |
| agent will run as a 'normal' command. It's also often useful to use the |
| '-Le' (or '-L') flag, to log messages to stderr. |
| |
| On the other hand, if 'ps' shows that the agent is not running, then |
| this is an error, and probably show that something went wrong in |
| starting the agent up. Check the agent log file for any error messages, |
| or run it with '-f -Le' and see what it reports. |
| |
| One possible cause might be an existing agent (or some other process) |
| that's already listening on the SNMP port. Trying to start a second |
| agent will fail with an error about "opening the specified endpoint". |
| |
| If you're starting the agent as a non-root user, then this may also |
| fail with the very same error. By default, the agent (and trap handler) |
| will attempt to listen on the standard SNMP port 161 (or 162 for the |
| trap handler). These are defined as "privileged ports", and processes |
| will need to be running as root in order to open them. |
| |
| One way to tackle this is to start the agent as root, but use the -u |
| option to switch to run as another user once the port has been opened. |
| Alternatively, you can specify a different port to use instead. |
| Anything greater than 1024 is available to non-root users. In this case, |
| you'll also need to specify the same port when issuing client commands. |
| |
| |
| |
| After a while the agent stops responding, and starts eating CPU time. Why? |
| -------------------------------------------------------------------------- |
| |
| This is basically the same problem described in the APPLICATIONS |
| section, in the entry |
| The agent worked for a while, then stopped responding. Why? |
| |
| See that entry for details. |
| |
| |
| |
| How can I stop other people getting at my agent? |
| ----------------------------------------------- |
| |
| Firstly, are you concerned with read access or write access? |
| |
| As far as changing things on the agent is concerned, there is relatively |
| little that can actually be altered (see the entry "Why can't I set |
| any variables in the MIB?" above). |
| |
| If you are using the example config file, this is set up to allow |
| read access from your local network, and write access only from the |
| system itself (accessed as 'localhost'), both using the community name |
| specified. You will need to set appropriate values for both NETWORK |
| and COMMUNITY in this file before using it. |
| This mechanism can also be used to control access much more precisely. |
| (see the next few questions for details) |
| |
| Other options include: |
| - Blocking access to port 161 from outside your organisation |
| (using filters on network routers) |
| - Using kernel-level network filtering on the system itself |
| (such as IPTables) |
| - Configuring TCP wrapper support ("--with-libwrap") |
| This uses the TCP 'libwrap' library (available separately) |
| to allow/deny access via /etc/hosts.{allow,deny} |
| |
| For strict security you should use only SNMPv3, which is the secure |
| form of the protocol. However, note that the agent access control |
| mechanisms does not restrict SNMPv3 traffic by location - an SNMPv3 |
| request will be accepted or rejected based purely on the user |
| authentication, irrespective of where it originated. Source-based |
| restrictions on SNMPv3 requests would need to use one of the "external" |
| mechanisms listed above. |
| |
| |
| |
| How can I listen on just one particular interface? |
| ------------------------------------------------- |
| |
| Normally, the agent will bind to the specified port on all interfaces |
| on the system, and accept requests received from any of them. However, |
| if a particular port (or ports) is specified when the agent is first |
| started, then it will only listen for requests on these particular |
| ports. |
| For example: |
| snmpd 127.0.0.1:161 |
| |
| would listen (on the standard port) on the loopback interface only, and: |
| |
| snmpd 10.0.0.1:6161 |
| |
| would listen on port 6161, on the (internal network) interface with |
| address 10.0.0.1. To listen on both of these interfaces (and no others) |
| provide a list of all the desired addresses: |
| |
| snmpd 127.0.0.1:161 127.0.0.1:6161 |
| |
| The AgentX port option ('-x') works in much the same way. |
| |
| |
| |
| The agent is complaining about 'snmpd.conf'. Where is this? |
| ----------------------------------------------------------- |
| |
| It doesn't exist in the distribution as shipped. You need to |
| create it to reflect your local requirement. |
| To get started, you can either just create this file manually, |
| or run snmpconf to help you create one. At the very least, you |
| will need some form of access control configuration, if the agent |
| is to be of any use whatsoever. This can be as simple as: |
| |
| rocommunity public |
| |
| See the snmpd.conf(5) manual page or relevant entries in this |
| FAQ for further details. |
| |
| |
| |
| Why does the agent complain about 'no access control information'? |
| ------------------------------------------------------------------ |
| |
| Although an SNMP agent may support a wide range of management |
| information, it is not necessarily appropriate to report the whole |
| of this to every SNMP management station who asks for it. Some |
| information may be sensitive, and should restricted to authorized |
| administrators only. SNMP therefore includes mechanisms for |
| controlling who has access to what information - both in terms of |
| what can be seen, and (even more importantly) what can be changed. |
| |
| By default, the Net-SNMP agent starts up with a completely empty |
| access control configuration. This means that *no* SNMP request |
| would be successful. It is necessary to explicitly configure |
| suitable access control settings, based on who should be granted |
| access in that particular environment. |
| |
| If there are no access control entries configured (perhaps because |
| no snmpd.conf configuration file has been loaded, or it contains no |
| access control settings), then the agent will not respond to any |
| SNMP requests whatsoever. This is almost certainly not what was |
| intended, so the agent reports this situation. |
| |
| See the next entry for how to configure access control settings. |
| |
| |
| |
| How do I configure access control? |
| --------------------------------- |
| |
| The simplest way is to use the configure directives: |
| |
| rocommunity public (for SNMPv1/2c) |
| rwcommunity private |
| or |
| rouser user1 (for SNMPv3) |
| rwuser user2 |
| |
| These specify the community names or security names to accept for |
| read-only and read-write access to the whole of the supported MIB tree. |
| (Obviously you should change these names to match your requirements - |
| which is a particularly good idea in the case of 'rwcommunity'!) |
| |
| Note that you should *not* specify the same community name for both |
| rocommunity and rwcommunity directives. The rwcommunity setting |
| automatically provides read access, and having both lines (with the |
| same community name) may result in unexpected behaviour. |
| Only use both settings when specifying *different* community names. |
| The same holds true for rouser and rwuser. |
| |
| The two community directives can be restricted to only allow requests |
| from particular sources, and all four can be restricted to a particular |
| subtrees or (from v5.3) a named view. See 'snmpd.conf(5)' for details. |
| |
| |
| |
| How do I configure SNMPv3 users? |
| ------------------------------- |
| |
| There are three ways to configure SNMPv3 users: |
| |
| 1) Stop the agent, and add the line |
| |
| createUser {myUser} MD5 {myPassword} DES |
| |
| to the file /var/net-snmp/snmpd.conf (where {myUser} and |
| {myPassword} are the appropriate values for username and password, |
| _without_ the braces!). Then re-start the snmpd agent. |
| |
| 2) Stop the agent, run the command |
| |
| net-snmp-config --create-snmpv3-user |
| |
| and follow the prompts given. This will create an entry |
| in the /var/net-snmp/snmpd.conf file similar to the above. |
| Then re-start the snmpd agent. |
| |
| 3) Make sure the agent is running, and will respond to an SNMPv3 |
| request (using an existing user with the desired authentication |
| and privacy protocols). Then use the 'snmpusm' command to clone |
| this template user, and change the password. |
| |
| |
| See the access control entries above and the file 'README.snmpv3' |
| for more details about how to use SNMPv3 users, |
| |
| Note that simply having a 'rouser' or 'rwuser' line does *not* |
| automatically create the corresponding SNMPv3 user. You will need |
| the above 'createUser' line (or an equivalent 'usmUser') as well. |
| |
| |
| |
| The 'createUser' line disappears when I start the agent. Why? |
| ------------------------------------------------------------- |
| |
| This is deliberate. |
| |
| The agent removes the (human-readable) 'createUser' directive, and |
| replaces it with an equivalent 'usmUser' entry. This contains the |
| same information, but in a form that's only meaningful internally. |
| Not only is the passphrase no longer visible in the config file, it |
| has actually been converted to a key that is only valid on this |
| particular system. If someone stole the configuration file, they |
| could not use the information from the usmUser entry to access any |
| of your other agents (even if the usernames and passwords were the same). |
| |
| |
| |
| What's the difference between /var/net-snmp and /usr/local/share/snmp? |
| --------------------------------------------------------------------- |
| |
| The /var/net-snmp location is primarily used for information set |
| during the running of the agent, which needs to be persistent between |
| one run of the agent and the next. Apart from "createUser" (see |
| the previous entry), you shouldn't need to touch this file. |
| |
| All other user-provided configuration should go in the traditional |
| location (typically /usr/local/share/snmp/snmpd.conf or /etc/snmp). |
| |
| |
| |
| My new agent is ignoring the old snmpd.conf file. Why? |
| ----------------------------------------------------- |
| |
| The most likely explanation is that the new version of the agent is |
| looking in a different location than the previous one. This is commonly |
| experienced when replacing a ready-installed version (e.g. from a vendor |
| distribution), with the current release installed from the source. |
| |
| Try moving the old config file to the new location, and restart the agent. |
| If you're not sure where this should go, see the next entry. |
| |
| |
| |
| Where should the snmpd.conf file go? |
| ----------------------------------- |
| |
| The default location for this file with the basic distribution is |
| /usr/local/share/snmp/snmpd.conf (or PREFIX/share/snmp/snmpd.conf). |
| Ready-installed versions often look for the file as /etc/snmpd.conf, |
| or /etc/snmp/snmpd.conf. |
| |
| If you are still not sure, try running the command |
| |
| snmpd -f -Le -Dread_config 2>&1 | grep "config path" |
| |
| The first line of output will display the list of locations where |
| the agent is looking for configuration information. |
| |
| |
| |
| Why am I getting "Connection refused"? |
| ------------------------------------- |
| |
| This is actually nothing to do with the access control mechanism |
| (though that's an understandable mistake). This is the result of |
| the TCP wrapper mechanism using the files 'hosts.allow' and 'hosts.deny' |
| to control access to the service. Some distributions may come with |
| this enabled automatically - otherwise you need to explicitly activate |
| this by running |
| configure --with-libwrap |
| and recompiling the agent. |
| |
| If TCP wrappers are enabled, and both hosts.allow and hosts.deny are |
| empty, then all requests will be rejected (with "Connection refused"). |
| The simplest way to avoid this problem and allow incoming requests is |
| to add the line |
| |
| snmpd: ALL |
| |
| to the file /etc/hosts.allow. Be aware that doing this removes one |
| level of protection and allows anyone to try and query your agent. |
| The agent's own access control mechanisms can still be used to restrict |
| what - if anything - they can see. |
| |
| If you do wish to use the TCP wrappers to restrict access, it's sensible |
| to have an explicit entry: |
| |
| snmpd: ALL |
| |
| in the file /etc/hosts.deny, which makes it crystal clear that access |
| to the SNMP agent has been denied. This mechanism can also be used to |
| restrict access to specific management hosts, using a hosts.deny entry |
| such as: |
| |
| snmpd: ALL EXCEPT 127. |
| |
| which will allow connections from localhost, and nothing else. |
| |
| Note that personal firewalls, such as the Linux iptables mechanism, |
| may have a similar effect (though typically this won't be logged). |
| See the earlier entry |
| Requests always seem to timeout, and don't give me anything back. Why? |
| |
| |
| |
| Why can't I see values in the UCDavis 'proc' or 'disk' trees? |
| ------------------------------------------------------------------ |
| |
| Both these trees are designed to report precisely those things that |
| have been explicitly configured for monitoring. If there are no |
| relevant configuration entries in the snmpd.conf file, then these |
| tables will be empty. See the snmpd.conf manual page and the |
| EXAMPLE.conf file for details on configuring the agent. |
| |
| Optionally, run snmpconf -g monitoring to help you set up this |
| section of the snmpd.conf file. |
| |
| |
| |
| Why can't I see values in the UCDavis 'memory' or 'vmstat' trees? |
| ---------------------------------------------------------------- |
| |
| These trees do not need any explicit configuration, and should |
| be present automatically. |
| |
| However the C code necessary to implement these particular MIB |
| modules are not supported on all operating systems. These trees |
| will be omitted on any system for which there is no underlying |
| code. Currently, they are only supported on Linux, HP-UX (memory |
| only), Solaris, BSDi (vmstat on BSDi4 only), Dynix, FreeBSD, NetBSD |
| and OpenBSD. |
| If you want to help port it to other systems, let us know. |
| |
| Note that these subtrees only report the current usage when |
| explicitly queried. They do *not* automatically generate traps |
| when the usage strays outside the configured bounds. |
| See the earlier FAQ entry |
| What traps are sent by the agent? |
| or the snmpd.conf section on active monitoring, for more information. |
| |
| |
| |
| What do the CPU statistics mean - is this the load average? |
| ---------------------------------------------------------- |
| |
| No. Unfortunately, the original definition of the various CPU |
| statistics was a little vague. It referred to a "percentage", |
| without specifying what period this should be calculated over. |
| It was therefore implemented slightly differently on different |
| architectures. |
| |
| The 5.4 release has clarified the situation, and standardised on |
| calculating these percentages over a minute. The relevant MIB |
| descriptions have been updated to make the desired behaviour |
| more explicit. |
| |
| The Net-SNMP agent also includes "raw counters", which can be used |
| to calculate the percentage usage over any desired period. This is |
| the "right" way to handle things in the SNMP model. The original |
| percentage objects have been deprecated, and may possibly be removed |
| in a future release of the agent. |
| |
| Note that this is different from the Unix load average, which is |
| available via the loadTable, and is supported on all architectures. |
| |
| |
| |
| How do I get percentage CPU utilization using ssCpuRawIdle? |
| ----------------------------------------------------------- |
| |
| This one of the "raw counters" mentioned in the previous entry. |
| You need to take two readings of this object and look at the |
| difference between them. That difference divided by the total |
| number of 'ticks' between the two readings (where one tick is |
| probably 0.01 seconds) will give you the percentage utilization |
| over that period. |
| |
| |
| |
| What about multi-processor systems? |
| ---------------------------------- |
| |
| The CPU objects (both percentages and raw counters) were designed to |
| monitor the overall CPU activity of a system, and typically reflect |
| whatever the underlying operating system reports for the (single) |
| CPU statistics information. How these are handled for a multi-CPU |
| system will differ from one O/S to another, and will need |
| to be investigated for each system individually. |
| |
| The htProcessorTable was designed to handle monitoring multi-CPU |
| machines, but the Net-SNMP implementation has up to now treated |
| most systems (with the honourable exception of Solaris, and more |
| recently Linux) as implicitly single-CPU. |
| |
| With the 5.4 release, there is now a cleaner framework for reporting |
| on multi-CPU equipment, and it is hoped that an increasing number |
| of systems will be able to report suitable processor information. |
| Also with the 5.4 release, for the first time the agent will report |
| the hrProcessorLoad value properly, which should provide some simple |
| per-CPU statistics. |
| |
| |
| |
| The speed/type of my network interfaces is wrong - how can I fix it? |
| ------------------------------------------------------------------- |
| |
| Some operating systems will provide a mechanism for determining |
| the speed and type of network interfaces, but many do not. In such |
| cases, the agent attempts to guess the most appropriate values, |
| usually based on the name of the interface. |
| |
| The snmpd.conf directive "interface" allows you to override these |
| guessed values, and provide alternative values for the name, type |
| and speed of a particular interface. This is particularly useful |
| for fast-ethernet, or dial-up interfaces, where the speed cannot be |
| guessed from the name. |
| |
| See the snmpd.conf(5) man page for details. |
| |
| |
| |
| The interface statistics for my subinterfaces are all zero - why? |
| ---------------------------------------------------------------- |
| |
| Unfortunately, most kernels that support multiple logical |
| interfaces on a single physical interface, don't keep separate |
| statistics for each of these. They simply report the overall |
| statistics for the physical interface itself. |
| |
| There's no easy way around this problem - the agent can only |
| report such information as is available. If the kernel doesn't |
| keep track of these figures, the agent can't report them. |
| |
| Sorry! |
| |
| |
| |
| Does the agent support the RMON-MIB? |
| ----------------------------------- |
| |
| Not really. |
| |
| There is an "Rmon" code module included within the agent source |
| code tree, but this is best thought of as a template for the |
| RMON-MIB statistics groups, rather than a full implementation. |
| |
| With most MIBs, the hardest part of implementing the MIB is often |
| getting hold of the data to report. This is definitely true of the |
| RMON-MIB, which relies on gathering (and analysing) a potentially |
| large quantity of network traffic. The Rmon code distributed with |
| the Net-SNMP agent code avoids this problem, by using random data. |
| |
| Some of the functionality of the RMON-MIB, such as the alarm and |
| event groups, has since been superseded by the work of the DisMan |
| IETF working group. The Net-SNMP agent does implement these (more |
| general) MIB modules. But the statistics gathering aspects of |
| the RMON-MIB are not readily available. |
| |
| Note too that none of the core developers have any significant |
| experience with this code, and the person who originally wrote it |
| is no longer active on the mailing lists. So there's no point in |
| asking on the lists whether these modules work or not. You've got |
| the source - how badly do you need this functionality? |
| |
| |
| |
| What does "klread: bad address" mean? |
| ------------------------------------- |
| |
| This means that the agent was unable to extract some of the |
| necessary information from the kernel structures. This is |
| possibly due to: |
| - either looking in the wrong place for kernel information |
| (check the value of KERNEL_LOC) |
| - an error in the implementation of part of the MIB tree |
| for that architecture. Try and identify which |
| OID is generating the error, and contact the |
| list 'net-snmp-coders@lists.sourceforge.net' |
| Remember to tell us what architecture you have! |
| |
| |
| |
| What does "nlist err: wombat not found" (or similar) mean? |
| ---------------------------------------------------------- |
| |
| This means that the agent wasn't able to locate one of the |
| kernel structures it was looking for. This may or may not |
| be important - some systems provide alternative mechanisms |
| for obtaining the necessary information - Solaris, for example, |
| can produce a whole slew of such messages, but still provide |
| the correct information. |
| This error only occurs if you have used the flag |
| '--enable-debugging' as part of the initial configuration. |
| Reconfigure the agent with '--disable-debugging' and these |
| messages will disappear. (It won't fix the underlying problem, |
| but at least you won't be nagged about it). |
| |
| |
| |
| What does "Can't open /dev/kmem" mean? |
| ------------------------------------- |
| |
| This device is normally restricted to just being accessible by root |
| (or possibly by a special group such as 'kmem' or 'sys'). The agent |
| must be able to read this device to obtain the necessary information |
| about the running system. |
| Check that the agent was started by root, and is running with UID 0 |
| (or suitable GID if appropriate). The agent will normally continue |
| to run without this level of access permission, but won't be able to |
| report values for many of the variables (particularly those relating |
| to network statistics). |
| |
| |
| |
| The system uptime (sysUpTime) returned is wrong! |
| ----------------------------------------------- |
| |
| Oh no it's not. |
| The defined meaning of 'sysUpTime' is |
| "the time ... since the *network management* |
| portion of the system was re-initialized." |
| |
| In other words, when the snmp agent was started, not when the |
| system itself last booted. This latter information is available |
| in the Host Resources MIB as "hrSystemUpTime.0" |
| Note that even if the full Host Resources is not supported on |
| your system, it's worth configuring in the system portion using |
| |
| '--with-mib-modules=host/hr_system' |
| |
| and recompiling. This particular group is reasonably likely to work, |
| even if some of the other more architecture-specific groups don't. |
| |
| |
| |
| Can the agent run multi-threaded? |
| -------------------------------- |
| |
| Short answer - no. |
| Longer answer - not easily. |
| |
| Net-SNMP within a single thread of an threaded application is fine, |
| as long as *all* snmp code is kept within the same thread. This lets |
| you add SNMP support to an existing threaded application. |
| |
| If you are concerned with the time taken for to process requests for |
| a particular agent, object or subtree, and you want the agent to |
| continue to respond to other requests in the meantime, there are |
| two options. |
| |
| The first method is using AgentX sub-agents. If you have several |
| tables, each implemented by a separate subagent, then a single |
| request for entries from each of the tables will be processed |
| in parallel (and the agent will continue to respond to other |
| requests while it waits for the subagents to return the necessary |
| information). But a request for several objects from the same |
| table will be passed off to the relevant subagent, where it will |
| (normally) be processed serially. |
| |
| The second method is to use delegated requests + IPC to another |
| process. If takes a long time to retrieve a value for a given object, |
| then the object handler could do whatever necessary to start or |
| communicate with another (non-SNMP) process/thread to actually |
| retrieve the value, and mark the request as delegated. |
| The main agent (or subagent) can then receive and process other |
| requests while waiting for the delegated request to finish. |
| Dealing with resource contention is all up to you. |
| |
| All of this only applies to the GET family of requests. A SET |
| request will block until all pending GET requests have finished, |
| and then will not accept new requests until the SET is complete. |
| |
| Adding full multi-thread support directly to the agent would be |
| nice. We just need someone with time/money to do/sponsor the work. |
| |
| |
| |
| Can I use AgentX (or an embedded SNMP agent) in a threaded application? |
| ----------------------------------------------------------------------- |
| |
| With care. |
| |
| As mentioned in the earlier "thread-safe" FAQ entry, the Net-SNMP |
| agent (including the AgentX subagent) has not been designed for |
| threaded operation. In particular, it makes use of various global |
| variables without attempting to protect them against simultaneous |
| use. This means that it is *NOT* safe to have SNMP or AgentX |
| related processing in two separate threads. This also applies to |
| handling GET (and SET) processing in one thread, and generating traps |
| in another. This is still vulnerable to the usual threading problems. |
| |
| However, as long as *all* of the SNMP-related activity is limited |
| to the one thread, then there should be no reason why this cannot |
| safely communicate with other threads within the same application, |
| using private (thread-safe) mechanisms. |
| |
| But in terms of the Net-SNMP-provided code, the agent (and AgentX |
| subagent) should *not* be regarded as thread-safe. |
| |
| |
| |
| COMPILING |
| ========= |
| |
| How do I control the environment used to compile the software? |
| ------------------------------------------------------------- |
| |
| The basic mechanism for compiling the Net-SNMP project software is to |
| run "configure", followed by "make" (to compile it), "make test" (to |
| check that it's working properly) and then "make install" (to install |
| the files into the correct locations - which typicalyl needs to be done |
| as root. |
| |
| The primary role of "configure" is to determines various aspects about |
| the system that the software is being compiled on. However there are |
| also a number of options to configure which can be used to control |
| various aspects of the compilation environment. |
| |
| The most common options are "--with-mib-modules" and "--with-out-mib-modules" |
| which control the set of MIB module code files that are included within |
| the agent binary. Adding or removing these modules will affect what MIB |
| information the agent can return. |
| See the entry "How do I add a MIB to the agent?" for more details. |
| |
| |
| The configure script can also specify the compiler to use for compiling |
| the source code (e.g. "configure --with-cc=cc"), the flags passed to |
| this compiler (e.g. "configure --with-cflags=-g"), or to the linker |
| (e.g. "configure --with-ldflags=-Bstatic"), and various other aspects of |
| the build environment. |
| Run "configure --help" for a full list. |
| |
| |
| |
| How do I control the environment used to compile the software under Windows? |
| --------------------------------------------------------------------------- |
| |
| If you are compiling the project within the MinGW or Cygwin environments, |
| then these use the same "configure" mechanism as Unix-based systems. See |
| the previous entry for more information. |
| |
| If you are compiling the project from within Visual Studio, then this does |
| not use the standard configure mechanism. Instead, there is a separate |
| "Configure" script within the 'win32' directory. This can be used enable |
| or disable various aspects of the build environment, such as support for |
| encryption or IPv6. |
| Run "Configure --help" for more information |
| |
| Note that this script does not include an equivalent of "--with-mib-modules" |
| for extending the MIB information supported by the agent. Instead, this |
| needs to be done by tweaking the build environment manually. See the file |
| README.win32 for more details of this, and various other aspects of building |
| the project on Windows systems. |
| |
| |
| |
| Why does the compilation complain about missing libraries? |
| --------------------------------------------------------- |
| |
| This has been seen in a number of guises over the years - most commonly |
| on Linux systems (although the problem may also occur elsewhere). The |
| underlying problem is that typical installation may not always include |
| the full set of library links required for building the Net-SNMP software. |
| |
| This problem can usually be fixed by installing the missing packages |
| (typically the development version of a package that is already there). |
| |
| Examples of this that we have come across include: |
| |
| -lelf elfutils-devel (later renamed to elfutils-libelf-devel) |
| -lbz2 bzip2-devel |
| -lselinux libselinux-devel |
| -lcrypto openssl/openssl-devel |
| -lbeecrypt libbeecrypt/beecrypt/beecrypt-devel. |
| |
| These are the names of the RedHat/Fedora RPMs. Other distributions |
| or O/S's may use different names, but the basic idea should be the |
| same. |
| |
| If the compilation is complaining about a missing .so file, then an |
| alternative quick fix is to add the missing symbolic link, using |
| something like: |
| ln -s libelf.so.1 /usr/lib/libelf.so |
| |
| giving the appropriate generic library name from the error message, |
| and the correct number for whichever version of this library you |
| have installed. |
| |
| If the compilation is complaining about a .la file, then you should |
| install the relevant development package, as listed above. |
| |
| |
| |
| How can I reduce the memory footprint? |
| -------------------------------------- |
| |
| In order to reduce the memory footprint (for instance, to |
| embed the snmpd into a device), the following configure options |
| could be used. |
| |
| '--disable-debugging' |
| This turns off the compilation of all debugging statements. |
| |
| '--enable-mini-agent' '--with-out-mib-modules=examples/ucdDemoPublic' |
| This creates an agent with just the essential MIB modules included. |
| NOTE: If you need additional MIB modules, then simply add them |
| using the option '--with-mib-modules=...' but this will of course |
| increase the memory footprint. |
| |
| '--with-transports=UDP' |
| This option specifies the transport domains to include. |
| For a simple standalone agent, just UDP should be sufficient. |
| (Although the 'disman' and 'agentx' modules may require the |
| Callback, TCP and/or Unix transport domains as well). |
| |
| '--without-kmem-usage' |
| This can be used in order to omit the code that operates on the |
| /dev/kmem interface. Clearly, this option cannot be used when |
| one of the configured MIB modules depends on it. |
| |
| '--with-mibdirs=' and '--with-mibs=' |
| These options tell the agent not to load any MIB modules. |
| This doesn't affect the size of libraries or application |
| binaries, but will reduce the memory footprint during runtime. |
| |
| '--disable-mib-loading' |
| This can be used in order to omit the code that loads and |
| parses the MIB files altogether. This will reduce both the |
| runtime memory footprint, and the binary sizes. |
| |
| Once the agent (snmpd) has been linked, you might also try running |
| 'strip snmpd' to remove un-necessary debug/symbol information. |
| |
| |
| |
| How can I reduce the installation footprint or speed up compilation? |
| ------------------------------------------------------------------- |
| |
| The following configure options may also be useful: |
| |
| --disable-agent Do not build the agent (snmpd). |
| --disable-applications Do not build the apps (snmpget, ...). |
| --disable-manuals Do not install the manuals. |
| --disable-scripts Do not install the scripts (mib2c, ...). |
| --disable-mibs Do not install the mib files. |
| --disable-mib-loading Do not include code that parses and |
| manipulates the mib files. |
| |
| |
| |
| How can I compile the project for use on an embedded system? |
| ----------------------------------------------------------- |
| |
| Although this is definitely a Frequently Asked Question on the project |
| mailing lists, it hasn't really been a Frequently _Answered_ Question. |
| The basic problem is that none of the core development team have much |
| involvement or experience with embedded systems. And although we have |
| repeatedly put out a plea for implementation reports and advice, this |
| has not so far been particularly successful. So the first thing to say |
| is that the following suggestions should be treated with a greater than |
| usual level of suspicion. |
| |
| The second thing to say is that compiling the Net-SNMP project for use |
| on an embedded system typically means compiling the *agent* (rather than |
| the trap receiver, or command-line tools). So that is what this entry |
| will concentrate on. |
| |
| There are three main aspects to consider: |
| - how to compile the code, |
| - *what* code to compile, and |
| - how to install the resulting agent binary. |
| |
| The Net-SNMP project uses the standard "configure" mechanism, so the |
| usual cross-compilation options are available - in particular "--host" |
| and "--target". It is also possible to specify the compiler and linker |
| to use ("--with-cc" and "--with-ld"), and any special flags to pass |
| to them ("--with-cflags" and "--with-ldflags"). There shouldn't be |
| anything particularly special about compiling the Net-SNMP code, so |
| see the documentation for your target environment for more information. |
| (And please let us know if there *is* anything special that should be |
| mentioned here!) |
| |
| If the aim is simply to generate an SNMP agent to run on the target |
| system, it's probably not necessary to compile the command-line tools |
| or trap receiver. The configure option "--disable-applications" will |
| omit these elements. See the previous entry for other potentially |
| relevant useful options. |
| |
| Unfortunately, the SNMP agent (and in particular, the code for individual |
| MIB modules) is the most system-specific part of the Net-SNMP software. |
| It may prove necessary to disable particular MIB modules if they do not |
| compile successfully, or attempt to use the wrong system-specific APIs. |
| This can be done using the configure option "--with-out-mib-modules". |
| Alternatively, the option "--enable-mini-agent" will omit all but the |
| core MIB module code. Additional modules can then be added individually |
| using "--with-mib-modules". |
| |
| Further information about how to deal with problems with individual MIB |
| modules is reliant on suitable reports being forthcoming from the wider |
| Net-SNMP community. The ball is in your court! |
| |
| Finally, installing the agent binary is _not_ simply a matter of copying |
| the "snmpd" file onto the target system. The agent typically relies on |
| a number of additional libraries (and possibly the presence of assorted |
| MIB files, unless this has been explicitly omitted). It is normally |
| necessary to run "make install", before copying the installed framework |
| to the target system. |
| |
| If the install destination needs to be different to the eventual location |
| on the target system, this can be handled using the configure options |
| "--prefix" (for the target location) and "--with-install-prefix" (for the |
| temporary install location). Alternatively, this can be handled as part |
| of the install command: |
| make install prefix={target location} INSTALL_PREFIX={temp location} |
| |
| Alternatively, if the agent is compiled with static linking (and no MIB |
| files), then it may be possible to simply copy the agent binary across to |
| the target system. See the next entry for details. |
| |
| |
| |
| How can I compile the project to use static linking? |
| --------------------------------------------------- |
| |
| For totally static net-snmp executables, use |
| configure --with-ldflags=-Bstatic |
| |
| To compile your application with static libraries (eg for easier |
| debugging), and to link to a non-installed build directory, try the |
| following Makefile fragment: |
| |
| NETSNMPDIR=/usr/local/build/snmp/full-clean-cvs-V5-1-patches |
| NETSNMPCONFIG=$(NETSNMPDIR)/net-snmp-config |
| |
| NETSNMPBASECFLAGS := $(shell $(NETSNMPCONFIG) --base-cflags) |
| NETSNMPINCLUDES := $(shell $(NETSNMPCONFIG) --build-includes $(NETSNMPDIR)) |
| # base flags after build/src include, in case it has /usr/local/include |
| NETSNMPCFLAGS=$(NETSNMPINCLUDES) $(NETSNMPBASECFLAGS) |
| |
| NETSNMPBASELIBS := $(shell $(NETSNMPCONFIG) --base-agent-libs) |
| NETSNMPEXTLIBS := $(shell $(NETSNMPCONFIG) --external-agent-libs) |
| NETSNMPLIBDIRS := $(shell $(NETSNMPCONFIG) --build-lib-dirs $(NETSNMPDIR)) |
| NETSNMPLIBDEPS := $(shell $(NETSNMPCONFIG) --build-lib-deps $(NETSNMPDIR)) |
| LIB_DEPS=$(NETSNMPLIBDEPS) |
| LIBS=$(NETSNMPLIBDIRS) -Wl,-Bstatic $(NETSNMPBASELIBS) -Wl,-Bdynamic $(NETSNMPEXTLIBS) |
| |
| STRICT_FLAGS = -Wall -Wstrict-prototypes |
| CFLAGS=-I. $(NETSNMPCFLAGS) $(STRICT_FLAGS) |
| |
| This replaces the standard Makefile section, which will used installed |
| libraries: |
| |
| NETSNMPCONFIG=net-snmp-config |
| |
| # uncomment this if you have GNU make |
| #NETSNMPCFLAGS := $(shell $(NETSNMPCONFIG) --base-cflags) |
| #NETSNMPLIBS := $(shell $(NETSNMPCONFIG) --agent-libs) |
| NETSNMPCFLAGS=`$(NETSNMPCONFIG) --base-cflags` |
| NETSNMPLIBS=`$(NETSNMPCONFIG) --agent-libs` |
| |
| LIBS=$(NETSNMPLIBS) |
| |
| |
| |
| Why does 'make test' skip various tests? |
| --------------------------------------- |
| |
| Some of the tests are only relevant to particular operating systems, |
| or rely on specific areas of functionality. The test framework will |
| check whether the relevant elements are available before running the |
| relevant tests, and will skip them if these modules have been omitted |
| from the build environment (or do not apply to the current system). |
| |
| One example of this are the tests T053agentv1trap, T054agentv2ctrap, |
| T055agentv1mintrap, T056agentv2cmintrap and T113agentxtrap, which |
| rely upon functionality from the NET-SNMP-EXAMPLES-MIB implementation. |
| This module is not included in the default agent configuration, so the |
| test framework will skip these tests. |
| To include them, run |
| "configure --with-mib-modules=examples/example" |
| and re-compile. |
| |
| |
| |
| Why does 'make test' complain about a pid file? |
| ----------------------------------------------- |
| |
| Typically it says something like: |
| |
| cat: cannot open /tmp/snmp-test-1-8694/*pid* |
| |
| It's trying to tell you the port is blocked - typically because |
| another copy of the agent is still running, left over from from a |
| previous testing run. |
| |
| If you type 'ps -ef' you should notice an orphaned process like: |
| |
| snmpd -d -r -U -P /tmp/snmp-test-5-27295/snmpd.pid... |
| |
| Kill this process. |
| |
| This could be happening for several reasons including: |
| |
| 1. You are trying to do concurrent runs of 'make test'. |
| |
| 2. On a slow machine, the agent might be taking too long to |
| start up. Try changing the value of the variable SNMP_SLEEP |
| in testing/RUNTESTS from 1 to something higher - say 3 or 5. |
| |
| |
| |
| CODING |
| ====== |
| |
| How do I write C code to integrate with the agent? |
| ------------------------------------------------- |
| |
| There are three main methods for integrating external C code |
| within the agent. The code can be compiled directly into the |
| agent itself, it can be loaded dynamically while the agent is |
| running, or it can be compiled into a separate application |
| (a "subagent") which communicates with the main master agent. |
| All three approaches have been touched on elsewhere within this FAQ. |
| |
| As far as the module code is concerned, all three mechanisms |
| use exactly the same module API. So a module developed for use |
| directly within the agent, could also be included within a subagent, |
| or loaded dynamically with no (or minimal) code changes needed. |
| |
| Most of this section is concerned with more detailed aspects |
| of developing such code - including the 'mib2c' tool, which can |
| handle generating a basic code framework for implementing a |
| given set of MIB objects. |
| |
| |
| |
| How does the agent fetch the value of a MIB variable from the system? |
| -------------------------------------------------------------------- |
| |
| That's typically the hardest bit of implementing a new MIB module, |
| and is the one thing that 'mib2c' can't help with. It very much |
| depends on the MIB variable concerned (and often the underlying |
| operating system as well). |
| |
| Relatively few MIB modules are completely self-contained, with all |
| the information held internally within the agent, and all updates |
| being done via SNMP requests. Such MIB modules can be implemented |
| fairly easily. |
| |
| More commonly, the agent needs to provide an SNMP-based interface to |
| information held elsewhere, perhaps in the operating system kernel or |
| some other application. Handling this is much more complex - since |
| a lot depends on what mechanisms are provided for retrieving (and |
| possibly updating) this information. The mib2c tool can generate code |
| for processing SNMP requests, based on some internal cache of management |
| information, but it cannot help with populating this cache with the |
| underlying data. That is up to the MIB implementer. |
| |
| See the existing MIB modules in the Net-SNMP source tree for various |
| examples of assorted approaches to this task. |
| |
| |
| |
| Mib2c complains about a missing "mib reference" - what does this mean? |
| --------------------------------------------------------------------- |
| |
| This basically means that it hasn't loaded the MIB file containing |
| the definition of the MIB subtree you're trying to implement. This |
| might be because it hasn't been installed, the name is wrong, or |
| (most likely), because it isn't in the default list. See the MIBS |
| section for more details, or the next entry for suitable invocations |
| of 'mib2c'. |
| |
| |
| |
| Mib2c complains about not having a "valid OID" - what does this mean? |
| --------------------------------------------------------------------- |
| |
| This probably means that you gave it the name of a MIB file (or |
| module), rather than the name of an object defined in that file. |
| Mib2c expects the name of a 'root' object, and will generate a |
| template for the sub-tree starting from there. |
| |
| If you've got a file 'MY-MIB.txt', defining the MIB module |
| 'MY-MIB' which contains a subtree based on the object 'myMib', |
| then you should invoke mib2c as |
| "mib2c .... myMib" |
| rather than |
| "mib2c .... MY-MIB.txt" |
| or "mib2c .... MY-MIB" |
| |
| Note that you'll probably also have to add your MIB to the list of |
| MIBs that are loaded automatically, in order for mib2c to recognise |
| the name of this object. So the command would typically be |
| "MIBS=+MY-MIB mib2c .... myMib" |
| or "MIBS=ALL mib2c .... myMib" |
| |
| |
| |
| Why doesn't mib2c like the MIB file I'm giving it? |
| ------------------------------------------------- |
| |
| This is most likely the same problem as the previous entry. Mib2c |
| takes the name of a MIB _object_, not the name of a file (or MIB |
| module). Try using the name of the MODULE-IDENTITY definition. |
| |
| Another possibility is that the MIB may contain syntax errors. |
| Try running it through 'snmptranslate' or a dedicated SMI |
| validation tool (such as 'smilint' or the on-line interface at |
| http://wwwsnmp.cs.utwente.nl/ietf/mibs/validate/) |
| |
| |
| |
| Mib2c ignores my MIB and generates a pair of 'mib-2' code files. Why? |
| --------------------------------------------------------------------- |
| |
| This is usually a sign of the same problem as the previous entries, |
| giving mib2c the name of the file containing the MIB (or of the MIB |
| itself), rather than an object within it. |
| |
| Earlier versions of mib2c didn't detect this situation, and merrily |
| constructed a template for a default starting point of the mib-2 node. |
| |
| More recent versions complain about not having a valid OID instead. |
| |
| |
| |
| What's the difference between the various mib2c configuration files? |
| ------------------------------------------------------------------- |
| |
| Most of the mib2c config files are concerned with implementing |
| MIB tables, and generate various alternative code templates. |
| These basically fall into four distinct categories. |
| |
| 'mib2c.raw-table.conf' is the lightest of the templates, and |
| just provides a fairly basic table framework. Most of the work |
| of implementing the table - detecting which row is required for a |
| given request, retrieving or updating the relevant column values, |
| and interacting with the underlying subsystem - are all left to |
| the MIB programmer. |
| |
| The second group of templates - 'table_data', 'container' and |
| 'tdata' - all share the same basic model (although the internal |
| details are rather different). The MIB implementer should define a |
| data structure to represent a row of the table, and the helper then |
| takes care of holding the table internally, as a collection of such |
| per-row data structures. This includes identifying which row is |
| required for a given request. Retrieving or updating the appropriate |
| column value is left to the MIB programmer, although the generated |
| framework includes most of the necessary code. |
| Allied to this is a fourth "internal data" mib2c configuration |
| file ('create-dataset') which handles the individual columns as |
| well. This is the closest to a Plug-and-Play configuration, and |
| the MIB implementer only needs to be concerned with any special |
| processing, such as linking the table with the underlying subsystem. |
| |
| The third style of mib2c config assumes that the table data is |
| held externally to the helper - either within the MIB module code |
| itself, or in the external subsystem. The generated code framework |
| includes routines to "iterate" through the rows of the table, with |
| the iterator helper simply deciding which row is required for a |
| particular request. Once again, the MIB programmer must handle |
| retrieving or updating the appropriate column value, although the |
| generated framework includes most of the necessary code. |
| There is a variant of this config ('iterate_access') which works |
| in basically the same way. However this tries to separate out the |
| standard processing, from the code that needs to be amended by the |
| programmer for retrieving and updating the individual column values. |
| |
| This is also the idea behind the final table-oriented mib2c config |
| template - 'mib2c.mfd.conf' (or "MIBs for Dummies"). This is a much |
| more flexible framework, which can be used with either internally |
| held data, or iterating through an external representation. The |
| distinguishing feature of this framework is that it separates out |
| standard and table-specific processing, at a much finer level of |
| detail than the others. |
| |
| |
| The other mib2c config templates are concerned with implementing |
| scalar objects ('scalar', 'int_watch'), code to generating traps |
| ('notify'), and various specialised requirements. There is also a |
| template ('old-api') to generate code suitable for the previous v4 |
| UCD agent - though this is not particularly complete or reliable. |
| It's probably better to use a pure v4 mib2c environment (or switch |
| wholeheartedly to the v5 style). |
| |
| |
| |
| Which mib2c configuration file should I use? |
| ------------------------------------------- |
| |
| The answer to that heavily depends on the characteristics of the |
| MIB objects being implemented. Of the handler-based table frameworks, |
| 'tdata' is more appropriate for tables that can be stored (or a copy |
| cached) within the agent itself, while 'iterate' is more relevant to |
| reporting data from outside the agent. |
| The raw interface is only suitable in very specific circumstances, |
| so it's probably sensible to start with one of the other frameworks |
| first, and only look at this if none of the alternatives seem to work. |
| |
| The decision between the handler-based configs and MfD is more a |
| matter of the style of programming to use. Most of the frameworks |
| define a single handler routine to process an incoming request, so |
| all of the code is listed together, with the MIB programmer inserting |
| table-specific processing into this single block of code. |
| The MfD provides a series of individual object-specific routines, |
| each concerned with one very specific task, and hides as much as |
| possible from the programmer. |
| |
| If you like to understand the broad thrust of what's happening, |
| then one of the handler-based approaches would be the best choice. |
| If you prefer to concentrate on the nitty-gritty of a given table, |
| and are happy to trust that the rest of the processing will work |
| correctly, then the MfD framework would be more appropriate. |
| |
| For implementing a group of scalar objects, then the choice is |
| simple - use 'mib2c.scalar.conf'. Similarly, for generating traps |
| or informs, use 'mib2c.notify.conf'. But note that this only assists |
| with the code to actually generate the trap. It does not address the |
| issue of _when_ to send the trap. See the FAQ entry "How can I get |
| the agent to generate a trap?" for more information. |
| |
| |
| |
| How can I have mib2c generate code for both scalars and tables? |
| -------------------------------------------------------------- |
| |
| This uses a very powerful tool called a "text editor" :-) |
| |
| The mib2c tool uses separate configuration files to generate code |
| for scalar objects, and for tables. This means that it's not possible |
| to automatically generate a single code file that supports both scalars |
| and tables. |
| |
| Instead, the two code files need to be generated separately, and |
| then combined manually. This will typically mean copying the handler |
| routines for the scalar object(s) into the table file, and adding the |
| code to register these handler(s) to the table initialisation routine. |
| |
| |
| |
| Are there any examples, or documentation for developing MIB modules? |
| ------------------------------------------------------------------- |
| |
| Many of the MIB modules shipped with the Net-SNMP agent still |
| use the v4 "traditional" MIB module API, but an increasing number |
| use one of the newer v5 helper-based handlers. All of these can |
| be found under 'agent/mibgroup' |
| |
| The 'tdata' helper is used in the new DisMan Event, Expression |
| and Schedule MIB modules (see 'disman/{event,expr,schedule}/*'). |
| The similar 'dataset' helper is used in the older DisMan Event |
| MIB implementation (see 'disman/mteEvent*') and the Notification |
| Log MIB (see 'notification-log-mib/*'), used by 'snmptrapd' to |
| log incoming traps. |
| |
| The basic iterator handler is used in the TCP and UDP table |
| implementations (mibII/tcpTable & mibII/udpTable), VACM context |
| handling (mibII/vacm_context) and various tables relating to agent |
| internals (agent/*). These show a number of different approaches |
| to using the iterator helper, so it's worth comparing them. |
| |
| The two examples/netSnmpHostsTable* modules provide a contrast |
| between the iterator and iterator_access helpers. |
| |
| There are several examples based on the MfD framework (see |
| '{if,ip,tcp,udp}-mib/'). Much of this code is not intended to |
| be viewed directly, but individual files are clearly commented |
| to distinguish between internal implementation and public code. |
| |
| The Net-SNMP agent does not currently include any MIB modules |
| using the array-user container-based helper. The best examples |
| of this are to be found in the net-policy project. |
| See http://net-policy.sourceforge.net/ |
| |
| |
| |
| Where should I put the files produced by 'mib2c'? |
| ------------------------------------------------ |
| |
| If you're using the main source tree to compile your new module, then |
| put these two files (mymib.[ch]) in the directory 'agent/mibgroup'. |
| You should then re-run configure to add in your new module |
| configure --with-mib-modules=mymib |
| and recompile. |
| |
| If you've got a number of new modules to add, it might be |
| sensible to put them all into a single subdirectory of 'mibgroup'. |
| Then create a header file, listing the individual components. |
| This might look something like: |
| |
| config_require(mymib/myObjects) |
| config_require(mymib/myTable) |
| config_require(mymib/myOtherTable) |
| |
| If this was saved as the file 'mymib.h', then the same configure |
| line given above, would pull in all three modules. See the current |
| contents of 'agent/mibgroup' for examples of this. Note that the |
| MfD framework will generate a similar grouping automatically. |
| |
| |
| |
| Why doesn't my new MIB module report anything? |
| --------------------------------------------- |
| |
| There are probably four main reasons why a new MIB module isn't working. |
| Either it hasn't been included in the running agent, the code is present |
| but hasn't been initialised, the module has been initialised but the |
| handler isn't being called, or there's a problem with the module code itself. |
| |
| To check whether the code files are being compiled, the easiest approach is |
| simply to look at the directory where the code is located. When the agent is |
| compiled, this should produce .o files (and probably .lo files) corresponding |
| to the C code files for this module. Alternatively, run 'nm' (or 'strings') |
| on the MIB module library (libnetsnmpmibs), and look for the names of the |
| initialisation routines or handlers (or the text of any messages displayed by |
| the module code). |
| |
| One other thing to check is whether you have multiple copies of the software |
| installed on the system. This is a particular problem when compiling from |
| source (to include your new module), without first removing any vendor-supplied |
| version of the agent (which won't include this new code). |
| |
| |
| Assuming that you have confirmed that the module code is present in the agent, |
| the next step is to check whether the initialisation routine is being called |
| to register the MIB objects. The simplest way to do this is to include a |
| suitable debugging statement within the initialisation routine, and start |
| the agent with the corresponding '-Dtoken'. Alternatively, try walking the |
| nsModuleName column object, and look for mention of the new MIB module. |
| |
| |
| Assuming the module has been registered, the next step is to check whether |
| the handler is being called, when the agent receives a suitable SNMP request. |
| Again, the simplest way to do this is to include debugging statements within |
| the handler routine, and start the agent with the corresponding '-Dtoken'. |
| Then issue an "snmpget" request for an instance within the new MIB module. |
| (This command is preferable to the usual "snmpwalk" command, as it is more |
| closely focused on the MIB module in question). |
| |
| If this indicates that the handler routine isn't being called, then there are |
| two main likely causes. Firstly, check the access control settings. If these |
| are configured to block access to this portion of the OID tree, then the MIB |
| handler will never be called. Secondly, several of the table helpers are |
| designed to know which rows of the table are valid, and will call the main |
| MIB handler with information about the relevant row. If the requested row is |
| not valid (or the table is empty), then the handler will not be called. |
| |
| |
| Finally, if the handler _is_ being called, but is still not returning any |
| information, then the cause probably lies with your MIB module code. In which |
| case, it's really up to you to find the problem and fix it! Either activate |
| any debugging code that you have included within the handler routine, or run |
| the agent under a source code debugger, and step through the handler processing. |
| In either case, it's much easier to debug these problems when processing an |
| "snmpget" request, rather than "snmpgetnext" or "snmpwalk". |
| |
| Remember that 'mib2c' simply generates template code for your MIB module. |
| It's up to you to fill in the details, to report the actual information from |
| whatever underlying subsystem is being monitored. Mib2c cannot help with |
| the semantics of the MIB module - it's purely there to provide an initial |
| code framework, based on the _syntax_ of the MIB module objects. |
| |
| |
| |
| Why does the iterator call my get_{first,next} routines so often? |
| ----------------------------------------------------------------------- |
| |
| The first thing to realise is that the 'get_first' and 'get_next' |
| hook routines are concerned with processing a single SNMP request, not |
| with walking the whole table. A full "snmpwalk" command will typically |
| involve a series of individual 'GetNext' requests, and every one of |
| these will trigger a separate 'get_first/get_next/get_next/....' cycle. |
| |
| It's usually more efficient to use 'snmptable' which will walk |
| each column in parallel (as well as displaying the results in a |
| more natural manner). |
| |
| Secondly, the iterator helper was originally designed to handle |
| unsorted data, so will look at every row of the internal table for |
| each request. If the data is actually held in the correct order, |
| then it's worth setting the NETSNMP_ITERATOR_FLAG_SORTED flag: |
| iinfo = SNMP_MALLOC_TYPEDEF(netsnmp_iterator_info); |
| iinfo->flags |= NETSNMP_ITERATOR_FLAG_SORTED; |
| This will help the situation somewhat. |
| |
| But the iterator helper is inherently a relatively inefficient |
| mechanism, and it may be worth looking at one of the other helpers, |
| particularly if the data will be held within the agent itself. |
| |
| |
| |
| How can I get the agent to generate a trap (or inform)? |
| ------------------------------------------------------ |
| |
| There are two aspects to having the agent generate a trap - |
| knowing *how* to do this, and knowing *when* to do so. |
| |
| Actually generating a trap is reasonably simple - just call one |
| of the trap API routines ('send_easy_trap()' or 'send_v2trap()') |
| with the relevant information (generic and specific trap values, |
| or a varbind list respectively). |
| |
| The 'mib2c.notify.conf' configuration file can be used to |
| construct a suitable template routine for generating a trap, |
| including building the variable list from the MIB trap |
| definition. These variables can then be given suitable values, |
| before invoking the 'send_v2trap()' call to actually send the trap. |
| See the 'snmp_trap_api(3)' man page for further details. |
| |
| Note that these APIs are only available within the agent (or |
| subagents), and are not available to stand-alone applications. |
| The code for 'snmptrap' shows an approach to use in such a case. |
| |
| |
| Determining *when* to generate the trap (either directly or |
| via the mib2c-generated routine) is often harder. If the trap |
| is generated in response to some action within the agent, (e.g. |
| as the result of a SET), then this isn't too much of a problem. |
| |
| But if the trap is intended to report on a change of status |
| (e.g. a network interface going up or down, or a disk filling up), |
| then actually detecting this is non-trivial. Unless the underlying |
| system can signal this situation to the agent, then it's typically |
| necessary to poll the value(s) on a regular basis, save the results |
| and compare them with the new values the next time round. |
| |
| The simplest way to handle this is via the DisMan Event MIB, |
| which is designed for exactly this purpose. As long as you can |
| specify a MIB object to monitor, and the value or thresholds |
| that should trigger a notification, then this module can check |
| these values regularly, and automatically send a suitable trap |
| when appropriate. See the 'snmpd.conf(5)' man page (under |
| ACTIVE MONITORING) for details. |
| |
| Otherwise, you'd need to use the routines documented in |
| 'snmp_alarm(3)' to regularly invoke a monitoring routine. This |
| would check the necessary conditions (which need not be MIB |
| objects), and call the 'send_xxx_trap()' routine (as generated |
| by 'mib2c.notify.conf') when appropriate. |
| |
| |
| |
| How can I get an AgentX sub-agent to generate a trap (or inform)? |
| ---------------------------------------------------------------- |
| |
| This is done in exactly the same manner as with the main SNMP agent. |
| Calling one of the routines described in 'snmp_trap_api(3)' will cause |
| the AgentX sub-agent to send a notification to the master agent, which |
| will then pass this on to the configured trap destination(s). |
| |
| One of the original design aims of the Net-SNMP AgentX support was that |
| the agent (or subagent) framework should be transparent to a MIB module |
| implementer. The interface between the agent framework and a MIB module |
| should be independent of the protocol used to receive the original request. |
| So the exact same MIB module code could be used within a traditional |
| SNMP-only agent, or an AgentX subagent, with no changes needed. |
| |
| This also holds for sending traps. |
| |
| |
| |
| How can I get the agent to send an SNMPv1 (or SNMPv2c) trap? |
| ----------------------------------------------------------- |
| |
| It doesn't make any difference whether you use the v1-style |
| API call 'send_easy_trap()' or the v2-style 'send_v2trap()'. |
| What matters is the directive(s) in the snmpd.conf file. |
| |
| If this file contains 'trapsink', then the agent will send |
| an SNMPv1 trap. If this file contains 'trap2sink', then the |
| agent will send an SNMPv2c trap. And if this file contains |
| both, then the agent will send *two* copies of this trap. |
| |
| See the entry |
| Where are these traps sent to? |
| in the AGENT section for details. |
| |
| |
| |
| How can I get the agent to include varbinds with an SNMPv1 trap? |
| --------------------------------------------------------------- |
| |
| There are two ways to do this. You can either use the |
| 'send_v2trap()' call and give a varbind list, starting with |
| the v2-equivalent of the SNMPv1 trap, followed by the |
| additional varbinds. |
| |
| Alternatively, you can use the API call 'send_trap_vars()' |
| which takes the same generic/specific trap values as |
| 'send_easy_trap()', plus the list of additional varbinds. |
| |
| In either case, you also need to have 'trapsink' in the |
| snmpd.conf file. The resulting trap will be identical, |
| whichever approach is used. |
| |
| |
| |
| How can I get the agent to send an SNMPv1 enterprise-specific trap? |
| ------------------------------------------------------------------ |
| |
| There are two ways to do this. You can either use the |
| 'send_v2trap()' call and give a varbind list, starting |
| with the v2-equivalent of the SNMPv1 trap, followed by the |
| additional varbinds. |
| |
| Alternatively, you can use the (undocumented) API call |
| 'send_enterprise_trap_vars()' which takes the same parameters |
| as 'send_trap_vars()', plus the enterprise OID to use (in the |
| usual name/length form). See the code file 'agent_trap.c' |
| |
| In either case, you also need to have 'trapsink' in the |
| snmpd.conf file. The resulting trap will be identical, |
| whichever approach is used. |
| |
| |
| |
| How can I get the agent to send an SNMPv3 trap (or inform)? |
| ---------------------------------------------------------- |
| |
| It doesn't matter which API call you use to specify the |
| trap - 'send_easy_trap()', 'send_v2trap()' or one of the other |
| calls mentioned above. Generating an SNMPv3 notification |
| (rather than a community-based one) is controlled by the |
| snmpd.conf file. |
| |
| To send an SNMPv3 trap, this file should contain a |
| 'snmpsess' directive, specifying the version, security |
| level, user name and passphrases (if applicable), as |
| well as the destination address. This is basically |
| the same as the command line required for sending the |
| trap manually, using 'snmptrap'. |
| |
| Note that (unlike 'snmptrap') this directive does *not* |
| read default settings from an 'snmp.conf' file, so these |
| must be specified explicitly in the 'snmpsess' line. |
| |
| |
| |
| Why does calling 'send_v2trap' generate an SNMPv1 trap (or vice versa)? |
| ---------------------------------------------------------------------- |
| |
| The two versions of the trap API calls are concerned with how |
| the trap is represented when it is passed *in* to the API, not |
| the version of the trap PDU that will actually be generated by |
| the agent. That is determined by the configuration token used |
| to set up the trap destination. |
| |
| Remember that in general, all traps are sent to all destinations. |
| This means that a trap specified using the SNMPv1 trap syntax |
| needs to be converted to the SNMPv2 format before it can be sent |
| to an SNMPv2 (or SNMPv3) destination. Similarly, a trap specified |
| using the SNMPv2 syntax needs to be converted to the SNMPv1 format |
| before it can be sent to an SNMPv1 sink. |
| |
| Essentially, the API call to use depends on what you asking for, |
| which is not necessarily what the recipients will actually get! |
| See 'snmp_trap_api(3)' for a fuller explanation. |
| |
| |
| |
| How can I register a MIB module in a different (SNMPv3) context? |
| --------------------------------------------------------------- |
| |
| Contexts are a mechanism within SNMPv3 (and AgentX) whereby |
| an agent can support parallel versions of the same MIB objects, |
| referring to different underlying data sets. By default, a MIB |
| module registrations will use the default empty context of "". |
| But it's also possible to provide MIB information using a different |
| (non-default) context. |
| |
| There are three aspects involved in doing this. Firsly, it's necessary |
| to register the MIB module in this non-default context. With the v4 API, |
| this uses the call 'register_mib_context()' rather than the REGISTER_MIB |
| macro. This is significantly more detailed, but most of the additional |
| parameters can take fixed values, if all that's needed is to change the |
| registration context. |
| |
| Instead of the macro call: |
| REGISTER_MIB("my_token", my_variables, variable1, my_variables_oid); |
| use the function call: |
| register_mib_context( "my_token", |
| my_variables, sizeof(variable1), |
| sizeof(my_variables)/sizeof(variable1), |
| my_variables_oid, |
| sizeof(my_variables_oid)/sizeof(oid), |
| DEFAULT_MIB_PRIORITY, 0, 0, NULL, |
| "my_context", -1, 0); |
| |
| Things are much easier with the v5 helper-based API. Having |
| created the registration structure, this just requires setting the |
| 'contextName' field before actually registering the MIB module: |
| netsnmp_handler_registration *reg; |
| reg = netsnmp_create_handler_registration(.....); |
| reg->contextName = strdup("my_context"); |
| netsnmp_register_handler(reg); |
| |
| |
| Secondly, it is necessary to configure the access control settings to allow |
| access to information in the new context. This is handled automatically |
| when using the simple "rouser" or "rwuser" directives. But if access control |
| is configured using the fuller com2sec/group/view/access mechanism, then the |
| "access" line must specify the appropriate context(s), either explicitly: |
| |
| access {group} "my_context" any noauth exact ...... |
| |
| or using a single entry to cover all possible contexts: |
| |
| access {group} "" any noauth prefix ...... |
| |
| |
| Finally, the SNMP request used to retrieve (or update) the information |
| must also specify the required context. With SNMPv3 requests, the context |
| is part of the protocol, so this can be done using a command-line option: |
| |
| snmpwalk -v 3 -n my_context ..... |
| |
| With community-based requests (SNMPv1 and SNMPv2c), things aren't so simple. |
| Although the "rocommunity" and "rwcommunity" settings also configure access |
| for all possible contexts, there's no way to specify a non-default context |
| as part of the request. |
| |
| The only way to handle non-default contexts with community-based SNMP requests |
| is to set up a mapping from the community string to the desired context. This |
| uses the "com2sec" directive, with an additional "-Cn" parameter. Note that |
| this also means that the access control must be configured using the full |
| com2sec/group/view/access mechanism. The short-form access control directives |
| do not handle the mapping of community strings to non-default contexts. |
| |
| |
| |
| MISC |
| ====== |
| |
| What ASN.1 parser is used? |
| ------------------------- |
| |
| The parser used by both the agent and client programs is coded by hand. |
| This parser has recently been re-vamped to allow control of which of |
| the available MIBs should be included, and to handle duplicate object |
| subidentifiers. |
| The source code can be found in the snmplib directory (in 'parse.c'), |
| and the parser is usually bundled into the library 'libnetsnmp.a' |
| |
| Note that the parser attempts to be fairly forgiving of some common |
| errors and incompatibilities in MIB files. The Net-SNMP tools accepting |
| a MIB file without complaint does *not* imply that the MIB is strictly |
| correct. |
| Certain MIBs may need some amendments to allow them to be read |
| correctly by the parser. Contact the coders' list for advice. |
| |
| |
| |
| What is the Official Slogan of the net-snmp-coders list? |
| ------------------------------------------------------- |
| |
| "The current implementation is non-obvious and may need to be improved." |
| (with thanks to Rohit Dube) |
| |
| And an alternate, added 26-Apr-2000: |
| |
| "In theory, it shouldn't be that hard, but it just needs to be done." |
| |
| |
| |