344 lines
14 KiB
Plaintext
344 lines
14 KiB
Plaintext
Improved Error Reporting and Thread-Safe Use of the SNMP Library
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There is a need in some environments to support multiple threads
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in a single application. The SNMP Library provides the Single Session
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functions which support thread-safe operation when certain precautions
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are taken. This document describes the operation of the SNMP Library
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with a focus on its session management functions. The Traditional API
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and the Single API functions are compared and contrasted.
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A working understanding of the CMU or UCD SNMP Library
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API is recommended to fully appreciate the concepts discussed.
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The document ends with a list of restrictions for using the Single API
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in a multi-threaded application.
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Unfortunately, the SNMPv3 support was added about the same time as
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the thread support and since they occurred in parallel the SNMPv3
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support was never checked for multi-threading correctness. It is
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most likely that it is not thread-safe at this time.
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***** IMPORTANT ANNOUNCEMENT *****
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To the point, no resource locks are applied within the SNMP Library.
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The APDU encoding and some session management functions can be used
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in thread-safe manners. The MIB file parsing is not thread-safe.
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The Single Session API was made available in November 1998.
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Existing applications use the Traditional API, which is not thread-safe.
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The thread-safe considerations are discussed throughout this document.
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The research and development of the Single Session API that I've completed
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was wholly funded by my employer, Internet Security Systems, Inc.
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and is distributed freely to the Internet community.
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-Mike Slifcak, 23 April 1999
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09 July 1999 Removed references to snmp_synch_setup and snmp_synch_reset
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Availability
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The Single Session API is integrated into the currently available
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versions of the CMU SNMP library and the UC-Davis SNMP package.
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ftp://ftp.net.cmu.edu/pub/snmp/cmu-snmp-V1.13.tar.gz and later
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Read : snmp_sess_api.3, Changes.SingleSession
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ftp://ucd-snmp.ucdavis.edu/ucd-snmp-3.6.tar.gz and later
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Read : snmp_sess_api.3, README.thread (after version 3.6.1)
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Both libraries work equally well in Windows NT and various
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UNIX platforms. Please read this document and refer to
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the snmp_sess_api section 3 manual page.
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Glossary of Terms
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APDU Application Protocol Data Unit
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API Application Programming Interface
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CMU Carnegie-Mellon University, Pittsburgh, PA.
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Library The SNMP library; Both CMU and UCD versions are applicable.
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Session Concept embodying the management of transacting SNMP APDUS.
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SNMP Simple Network Management Protocol
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UCD University of California at Davis, CA.
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Introduction
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The Library extends the UNIX file concept (open, close, read, write) to a Session.
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Opening a Session binds a local socket to a well-known port and creates internal
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structures to help with controlling the transaction of SNMP APDUs. Closing a
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Session releases the memory and system resources used for these purposes.
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Since the mid-1980s, many SNMP applications have used the Traditional Session
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API to transact SNMP APDUs between the local host and SNMP-enabled devices.
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The Traditional Session API does not support multi-threaded applications:
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1) There are no resource locks to prevent exposing the Library's
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global data resources to corruption in a multi-threaded application;
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2) The Traditional API functions that receive SNMP APDUs
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do not provide an interface for one of many sessions;
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3) Errors discovered by the Library are communicated through global
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data structures and are not associated with the session
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in which the error occurred.
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The Single Session API provides these capabilities:
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1) Manage a single SNMP session safely, in multi-threaded or
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non-threaded applications, by avoiding access to data structures
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that the Traditional Session API may share between Sessions;
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2) Associate errors with the session context for threaded
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and non-threaded applications.
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Contrasting and Comparing Traditional API and Single API
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The Traditional API uses the struct snmp_session pointer returned
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from snmp_open() to identify one SNMP session. The Single API uses
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the opaque pointer returned from snmp_sess_open() to identify one
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SNMP session.
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Helpful Hint : The Library copies the contents of the
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structure which is input to snmp_open() and snmp_sess_open().
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Once copied, changing that input structure's data
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has no effect on the opened SNMP Session.
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The Traditional API uses the snmp_error() function to identify any
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library and system errors that occurred during the processing for
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one SNMP session. The Single API uses snmp_sess_error() for the
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same purpose.
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The Traditional API manages the private Sessions list structure;
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adding to the list during snmp_open(), removing during snmp_close.
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With few exceptions, the Traditional API calls the Single API
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for each session that appears on the Sessions list.
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The Traditional API reads from all Sessions on the Sessions list;
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The Single API does not use the Sessions list.
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The Single API can read from only one Session.
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Helpful Hint :
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This is the basis for thread-safe-ness of the Library.
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There are no resource locks applied.
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Using the Single API
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A multi-threaded application that deploys the SNMP Library should
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should complete all MIB file parsing before additional threads
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are activated. Drawing from the parsed contents of the MIB does
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not incur any data corruption exposure once the internal MIB structures
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are initialised.
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The application may create threads such that a single thread may manage
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a single SNMP session. The thread should call snmp_sess_init()
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to prepare a struct snmp_session structure. The thread can adjust
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session parameters such as the remote UDP port or the local UDP port,
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which must be set prior to invoking snmp_sess_open().
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The first call to snmp_sess_init() initialises the SNMP Library,
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including the MIB parse trees, before any SNMP sessions are created.
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Applications that call snmp_sess_init() do not need to read MIBs
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nor setup environment variables to utilize the Library.
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After the struct snmp_session is setup, the thread must call
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snmp_sess_open() to create an SNMP session. If at any time
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the thread must change the Session configuration,
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snmp_sess_session() returns the pointer to the internal configuration
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structure (a struct snmp_session, copied from snmp_sess_open).
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The thread can adjust parameters such as the session timeout
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or the community string with this returned struct snmp_session pointer.
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Changes to the remote or local port values have no effect on an opened Session.
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The thread can build PDUs and bind variables to PDUs, as it performs its duties.
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The thread then calls snmp_sess_send() or snmp_sess_async_send() to build and send
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an SNMP APDU to the remote device. If a Get-Response-PDU is expected, the thread
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should call snmp_sess_synch_response() instead.
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When the thread is finished using the session, it must free the resources
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that the Library used to manage the session.
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Finally, the thread must call snmp_sess_close() to end the Session.
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Snmp_sess_init(), snmp_open(), and snmp_sess_open()
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must use the same calling parameter for a given Session.
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Other methods should use only the returned parameter from
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snmp_open() and snmp_sess_open() to access the opened SNMP Session.
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Error Processing
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Two calls were added : snmp_error() and snmp_sess_error() return the
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"errno" and "snmp_errno" values from the per session data, and a string
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that describes the errors that they represent. The string must be freed
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by the caller.
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Use snmp_error() to process failures after Traditional API calls,
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or snmp_sess_error() to process failure after Single API calls.
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In the case where an SNMP session could not be opened,
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call snmp_error() using the struct snmp_session supplied to either snmp_open()
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or snmp_sess_open().
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The following variables and functions are obsolete and may create problems
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in a multi-threaded application :
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int snmp_errno
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char * snmp_detail
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snmp_set_detail()
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snmp_api_errstring()
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Function Summary
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The functions in the following table are functionally equivalent,
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with the exception of these behaviors:
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- The Traditional API manages many sessions
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- The Traditional API passes a struct snmp_session pointer,
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and touches the Sessions list
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- The Single API manages only one session
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- The Single API passes an opaque pointer, and does not use Sessions list
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Traditional Single Comment
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=========== ============== =======
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snmp_sess_init snmp_sess_init Call before either open
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snmp_open snmp_sess_open Single not on Sessions list
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snmp_sess_session Exposes snmp_session pointer
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snmp_send snmp_sess_send Send one APDU
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snmp_async_send snmp_sess_async_send Send one APDU with callback
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snmp_select_info snmp_sess_select_info Which session(s) have input
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snmp_read snmp_sess_read Read APDUs
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snmp_timeout snmp_sess_timeout Check for timeout
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snmp_close snmp_sess_close Single not on Sessions list
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snmp_synch_response snmp_sess_synch_response Send/receive one APDU
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snmp_error snmp_sess_error Get library,system errno
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Example 1 : Traditional API use.
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#include "snmp_api.h"
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...
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int liberr, syserr;
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char *errstr;
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struct snmp_session Session, *sptr;
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...
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snmp_sess_init(&Session);
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Session.peername = "foo.bar.net";
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sptr = snmp_open(&Session);
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if (sptr == NULL) {
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/* Error codes found in open calling argument */
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snmp_error(&Session, &liberr, &syserr, &errstr);
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printf("SNMP create error %s.\n", errstr);
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free(errstr);
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return 0;
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}
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/* Pass sptr to snmp_error from here forward */
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...
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/* Change the community name */
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free(sptr->community);
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sptr->community = strdup("public");
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sptr->community_len = strlen("public");
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...
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if (0 == snmp_send(sptr, pdu)) {
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snmp_error(sptr, &liberr, &syserr, &errstr);
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printf("SNMP write error %s.\n", errstr);
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free(errstr);
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return 0;
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}
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snmp_close(sptr);
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Example 2 : Single API use.
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#include "snmp_api.h"
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...
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int liberr, syserr;
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char *errstr;
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void *sessp; /* <-- an opaque pointer, not a struct pointer */
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struct snmp_session Session, *sptr;
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...
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snmp_sess_init(&Session);
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Session.peername = "foo.bar.net";
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sessp = snmp_sess_open(&Session);
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if (sessp == NULL) {
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/* Error codes found in open calling argument */
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snmp_error(&Session, &liberr, &syserr, &errstr);
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printf("SNMP create error %s.\n", errstr);
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free(errstr);
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return 0;
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}
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sptr = snmp_sess_session(sessp); /* <-- get the snmp_session pointer */
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/* Pass sptr to snmp_sess_error from here forward */
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...
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/* Change the community name */
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free(sptr->community);
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sptr->community = strdup("public");
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sptr->community_len = strlen("public");
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...
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if (0 == snmp_sess_send(sessp, pdu)) {
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snmp_sess_error(sessp, &liberr, &syserr, &errstr);
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printf("SNMP write error %s.\n", errstr);
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free(errstr);
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return 0;
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}
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snmp_sess_close(sessp);
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Example 3. Differences Between Traditional API and Single API Usage
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5a6
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> void *sessp; /* <-- an opaque pointer, not a struct pointer */
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11,13c12,14
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< sptr = snmp_open(&Session);
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< if (sptr == NULL) {
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---
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> sessp = snmp_sess_open(&Session);
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> if (sessp == NULL) {
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19c20,22
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< /* Pass sptr to snmp_error from here forward */
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---
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> sptr = snmp_sess_session(sessp); /* <-- get the snmp_session pointer */
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>
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> /* Pass sptr to snmp_sess_error from here forward */
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26,27c29,30
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< if (0 == snmp_send(sptr, pdu)) {
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< snmp_error(sptr, &liberr, &syserr, &errstr);
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---
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> if (0 == snmp_sess_send(sessp, pdu)) {
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> snmp_sess_error(sessp, &liberr, &syserr, &errstr);
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33c36
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< snmp_close(sptr);
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---
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> snmp_sess_close(sessp);
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Restrictions on Multi-threaded Use of the SNMP Library
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1. Invoke SOCK_STARTUP or SOCK_CLEANUP from the main thread only.
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2. The MIB parsing functions use global shared data and are not
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multi-thread safe when the MIB tree is under construction.
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Once the tree is built, the data can be safely referenced from
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any thread. There is no provision for freeing the MIB tree.
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Suggestion: Read the MIB files before an SNMP session is created.
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This can be accomplished by invoking snmp_sess_init from the main
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thread and discarding the buffer which is initialised.
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3. Invoke the SNMPv2p initialisation before an SNMP session is created,
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for reasons similar to reading the MIB file.
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The SNMPv2p structures should be available to all SNMP sessions.
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CAUTION: These structures have not been tested in a multi-threaded
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application.
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4. Sessions created using the Single API do not interact with other
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SNMP sessions. If you choose to use Traditional API calls, call
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them from a single thread. The Library cannot reference an SNMP
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session using both Traditional and Single API calls.
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5. Using the callback mechanism for asynchronous response PDUs
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requires additional caution in a multi-threaded application.
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This means a callback function probably should probably not use
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Single API calls to further process the session.
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6. Each call to snmp_sess_open() creates an IDS. Only a call to
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snmp_sess_close() releases the resources used by the IDS.
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