/** * @file * SNMP message processing (RFC1157). */ /* * Copyright (c) 2006 Axon Digital Design B.V., The Netherlands. * Copyright (c) 2016 Elias Oenal. * All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY * OF SUCH DAMAGE. * * Author: Christiaan Simons * Martin Hentschel * Elias Oenal */ #include "lwip/apps/snmp_opts.h" #if LWIP_SNMP /* don't build if not configured for use in lwipopts.h */ #include "snmp_msg.h" #include "snmp_asn1.h" #include "snmp_core_priv.h" #include "lwip/ip_addr.h" #include "lwip/stats.h" #if LWIP_SNMP_V3 #include "lwip/apps/snmpv3.h" #include "snmpv3_priv.h" #ifdef LWIP_HOOK_FILENAME #include LWIP_HOOK_FILENAME #endif #endif #include #define SNMP_V3_AUTH_FLAG 0x01 #define SNMP_V3_PRIV_FLAG 0x02 /* Security levels */ #define SNMP_V3_NOAUTHNOPRIV 0x00 #define SNMP_V3_AUTHNOPRIV SNMP_V3_AUTH_FLAG #define SNMP_V3_AUTHPRIV (SNMP_V3_AUTH_FLAG | SNMP_V3_PRIV_FLAG) /* public (non-static) constants */ /** SNMP community string */ const char *snmp_community = SNMP_COMMUNITY; /** SNMP community string for write access */ const char *snmp_community_write = SNMP_COMMUNITY_WRITE; /** SNMP community string for sending traps */ const char *snmp_community_trap = SNMP_COMMUNITY_TRAP; snmp_write_callback_fct snmp_write_callback = NULL; void *snmp_write_callback_arg = NULL; #if LWIP_SNMP_CONFIGURE_VERSIONS static u8_t v1_enabled = 1; static u8_t v2c_enabled = 1; static u8_t v3_enabled = 1; static u8_t snmp_version_enabled(u8_t version) { if (version == SNMP_VERSION_1) { return v1_enabled; } else if (version == SNMP_VERSION_2c) { return v2c_enabled; } #if LWIP_SNMP_V3 else if (version == SNMP_VERSION_3) { return v3_enabled; } #endif else { LWIP_ASSERT("Invalid SNMP version", 0); return 0; } } u8_t snmp_v1_enabled(void) { return snmp_version_enabled(SNMP_VERSION_1); } u8_t snmp_v2c_enabled(void) { return snmp_version_enabled(SNMP_VERSION_2c); } u8_t snmp_v3_enabled(void) { return snmp_version_enabled(SNMP_VERSION_3); } static void snmp_version_enable(u8_t version, u8_t enable) { if (version == SNMP_VERSION_1) { v1_enabled = enable; } else if (version == SNMP_VERSION_2c) { v2c_enabled = enable; } #if LWIP_SNMP_V3 else if (version == SNMP_VERSION_3) { v3_enabled = enable; } #endif else { LWIP_ASSERT("Invalid SNMP version", 0); } } void snmp_v1_enable(u8_t enable) { snmp_version_enable(SNMP_VERSION_1, enable); } void snmp_v2c_enable(u8_t enable) { snmp_version_enable(SNMP_VERSION_2c, enable); } void snmp_v3_enable(u8_t enable) { snmp_version_enable(SNMP_VERSION_3, enable); } #endif /** * @ingroup snmp_core * Returns current SNMP community string. * @return current SNMP community string */ const char * snmp_get_community(void) { return snmp_community; } /** * @ingroup snmp_core * Sets SNMP community string. * The string itself (its storage) must be valid throughout the whole life of * program (or until it is changed to sth else). * * @param community is a pointer to new community string */ void snmp_set_community(const char *const community) { LWIP_ASSERT_CORE_LOCKED(); LWIP_ASSERT("community string is too long!", strlen(community) <= SNMP_MAX_COMMUNITY_STR_LEN); snmp_community = community; } /** * @ingroup snmp_core * Returns current SNMP write-access community string. * @return current SNMP write-access community string */ const char * snmp_get_community_write(void) { return snmp_community_write; } /** * @ingroup snmp_traps * Returns current SNMP community string used for sending traps. * @return current SNMP community string used for sending traps */ const char * snmp_get_community_trap(void) { return snmp_community_trap; } /** * @ingroup snmp_core * Sets SNMP community string for write-access. * The string itself (its storage) must be valid throughout the whole life of * program (or until it is changed to sth else). * * @param community is a pointer to new write-access community string */ void snmp_set_community_write(const char *const community) { LWIP_ASSERT_CORE_LOCKED(); LWIP_ASSERT("community string must not be NULL", community != NULL); LWIP_ASSERT("community string is too long!", strlen(community) <= SNMP_MAX_COMMUNITY_STR_LEN); snmp_community_write = community; } /** * @ingroup snmp_traps * Sets SNMP community string used for sending traps. * The string itself (its storage) must be valid throughout the whole life of * program (or until it is changed to sth else). * * @param community is a pointer to new trap community string */ void snmp_set_community_trap(const char *const community) { LWIP_ASSERT_CORE_LOCKED(); LWIP_ASSERT("community string is too long!", strlen(community) <= SNMP_MAX_COMMUNITY_STR_LEN); snmp_community_trap = community; } /** * @ingroup snmp_core * Callback fired on every successful write access */ void snmp_set_write_callback(snmp_write_callback_fct write_callback, void *callback_arg) { LWIP_ASSERT_CORE_LOCKED(); snmp_write_callback = write_callback; snmp_write_callback_arg = callback_arg; } /* ----------------------------------------------------------------------- */ /* forward declarations */ /* ----------------------------------------------------------------------- */ static err_t snmp_process_get_request(struct snmp_request *request); static err_t snmp_process_getnext_request(struct snmp_request *request); static err_t snmp_process_getbulk_request(struct snmp_request *request); static err_t snmp_process_set_request(struct snmp_request *request); static err_t snmp_parse_inbound_frame(struct snmp_request *request); static err_t snmp_prepare_outbound_frame(struct snmp_request *request); static err_t snmp_complete_outbound_frame(struct snmp_request *request); static void snmp_execute_write_callbacks(struct snmp_request *request); /* ----------------------------------------------------------------------- */ /* implementation */ /* ----------------------------------------------------------------------- */ void snmp_receive(void *handle, struct pbuf *p, const ip_addr_t *source_ip, u16_t port) { err_t err; struct snmp_request request; memset(&request, 0, sizeof(request)); request.handle = handle; request.source_ip = source_ip; request.source_port = port; request.inbound_pbuf = p; snmp_stats.inpkts++; err = snmp_parse_inbound_frame(&request); if (err == ERR_OK) { err = snmp_prepare_outbound_frame(&request); if (err == ERR_OK) { if (request.error_status == SNMP_ERR_NOERROR) { /* only process frame if we do not already have an error to return (e.g. all readonly) */ if (request.request_type == SNMP_ASN1_CONTEXT_PDU_GET_REQ) { err = snmp_process_get_request(&request); } else if (request.request_type == SNMP_ASN1_CONTEXT_PDU_GET_NEXT_REQ) { err = snmp_process_getnext_request(&request); } else if (request.request_type == SNMP_ASN1_CONTEXT_PDU_GET_BULK_REQ) { err = snmp_process_getbulk_request(&request); } else if (request.request_type == SNMP_ASN1_CONTEXT_PDU_SET_REQ) { err = snmp_process_set_request(&request); } } #if LWIP_SNMP_V3 else { struct snmp_varbind vb; vb.next = NULL; vb.prev = NULL; vb.type = SNMP_ASN1_TYPE_COUNTER32; vb.value_len = sizeof(u32_t); switch (request.error_status) { case SNMP_ERR_AUTHORIZATIONERROR: { static const u32_t oid[] = { 1, 3, 6, 1, 6, 3, 15, 1, 1, 5, 0 }; snmp_oid_assign(&vb.oid, oid, LWIP_ARRAYSIZE(oid)); vb.value = &snmp_stats.wrongdigests; } break; case SNMP_ERR_UNKNOWN_ENGINEID: { static const u32_t oid[] = { 1, 3, 6, 1, 6, 3, 15, 1, 1, 4, 0 }; snmp_oid_assign(&vb.oid, oid, LWIP_ARRAYSIZE(oid)); vb.value = &snmp_stats.unknownengineids; } break; case SNMP_ERR_UNKNOWN_SECURITYNAME: { static const u32_t oid[] = { 1, 3, 6, 1, 6, 3, 15, 1, 1, 3, 0 }; snmp_oid_assign(&vb.oid, oid, LWIP_ARRAYSIZE(oid)); vb.value = &snmp_stats.unknownusernames; } break; case SNMP_ERR_UNSUPPORTED_SECLEVEL: { static const u32_t oid[] = { 1, 3, 6, 1, 6, 3, 15, 1, 1, 1, 0 }; snmp_oid_assign(&vb.oid, oid, LWIP_ARRAYSIZE(oid)); vb.value = &snmp_stats.unsupportedseclevels; } break; case SNMP_ERR_NOTINTIMEWINDOW: { static const u32_t oid[] = { 1, 3, 6, 1, 6, 3, 15, 1, 1, 2, 0 }; snmp_oid_assign(&vb.oid, oid, LWIP_ARRAYSIZE(oid)); vb.value = &snmp_stats.notintimewindows; } break; case SNMP_ERR_DECRYIPTION_ERROR: { static const u32_t oid[] = { 1, 3, 6, 1, 6, 3, 15, 1, 1, 6, 0 }; snmp_oid_assign(&vb.oid, oid, LWIP_ARRAYSIZE(oid)); vb.value = &snmp_stats.decryptionerrors; } break; default: /* Unknown or unhandled error_status */ err = ERR_ARG; } if (err == ERR_OK) { snmp_append_outbound_varbind(&(request.outbound_pbuf_stream), &vb); request.error_status = SNMP_ERR_NOERROR; } request.request_out_type = (SNMP_ASN1_CLASS_CONTEXT | SNMP_ASN1_CONTENTTYPE_CONSTRUCTED | SNMP_ASN1_CONTEXT_PDU_REPORT); request.request_id = request.msg_id; } #endif if (err == ERR_OK) { err = snmp_complete_outbound_frame(&request); if (err == ERR_OK) { err = snmp_sendto(request.handle, request.outbound_pbuf, request.source_ip, request.source_port); if ((request.request_type == SNMP_ASN1_CONTEXT_PDU_SET_REQ) && (request.error_status == SNMP_ERR_NOERROR) && (snmp_write_callback != NULL)) { /* raise write notification for all written objects */ snmp_execute_write_callbacks(&request); } } } } if (request.outbound_pbuf != NULL) { pbuf_free(request.outbound_pbuf); } } } static u8_t snmp_msg_getnext_validate_node_inst(struct snmp_node_instance *node_instance, void *validate_arg) { if (((node_instance->access & SNMP_NODE_INSTANCE_ACCESS_READ) != SNMP_NODE_INSTANCE_ACCESS_READ) || (node_instance->get_value == NULL)) { return SNMP_ERR_NOSUCHINSTANCE; } #if LWIP_HAVE_INT64 if ((node_instance->asn1_type == SNMP_ASN1_TYPE_COUNTER64) && (((struct snmp_request *)validate_arg)->version == SNMP_VERSION_1)) { /* according to RFC 2089 skip Counter64 objects in GetNext requests from v1 clients */ return SNMP_ERR_NOSUCHINSTANCE; } #endif return SNMP_ERR_NOERROR; } static void snmp_process_varbind(struct snmp_request *request, struct snmp_varbind *vb, u8_t get_next) { err_t err; struct snmp_node_instance node_instance; memset(&node_instance, 0, sizeof(node_instance)); if (get_next) { struct snmp_obj_id result_oid; request->error_status = snmp_get_next_node_instance_from_oid(vb->oid.id, vb->oid.len, snmp_msg_getnext_validate_node_inst, request, &result_oid, &node_instance); if (request->error_status == SNMP_ERR_NOERROR) { snmp_oid_assign(&vb->oid, result_oid.id, result_oid.len); } } else { request->error_status = snmp_get_node_instance_from_oid(vb->oid.id, vb->oid.len, &node_instance); if (request->error_status == SNMP_ERR_NOERROR) { /* use 'getnext_validate' method for validation to avoid code duplication (some checks have to be executed here) */ request->error_status = snmp_msg_getnext_validate_node_inst(&node_instance, request); if (request->error_status != SNMP_ERR_NOERROR) { if (node_instance.release_instance != NULL) { node_instance.release_instance(&node_instance); } } } } if (request->error_status != SNMP_ERR_NOERROR) { if (request->error_status >= SNMP_VARBIND_EXCEPTION_OFFSET) { if ((request->version == SNMP_VERSION_2c) || request->version == SNMP_VERSION_3) { /* in SNMP v2c a varbind related exception is stored in varbind and not in frame header */ vb->type = (SNMP_ASN1_CONTENTTYPE_PRIMITIVE | SNMP_ASN1_CLASS_CONTEXT | (request->error_status & SNMP_VARBIND_EXCEPTION_MASK)); vb->value_len = 0; err = snmp_append_outbound_varbind(&(request->outbound_pbuf_stream), vb); if (err == ERR_OK) { /* we stored the exception in varbind -> go on */ request->error_status = SNMP_ERR_NOERROR; } else if (err == ERR_BUF) { request->error_status = SNMP_ERR_TOOBIG; } else { request->error_status = SNMP_ERR_GENERROR; } } } else { /* according to RFC 1157/1905, all other errors only return genError */ request->error_status = SNMP_ERR_GENERROR; } } else { s16_t len = node_instance.get_value(&node_instance, vb->value); if (len >= 0) { vb->value_len = (u16_t)len; /* cast is OK because we checked >= 0 above */ vb->type = node_instance.asn1_type; LWIP_ASSERT("SNMP_MAX_VALUE_SIZE is configured too low", (vb->value_len & ~SNMP_GET_VALUE_RAW_DATA) <= SNMP_MAX_VALUE_SIZE); err = snmp_append_outbound_varbind(&request->outbound_pbuf_stream, vb); if (err == ERR_BUF) { request->error_status = SNMP_ERR_TOOBIG; } else if (err != ERR_OK) { request->error_status = SNMP_ERR_GENERROR; } } else { request->error_status = SNMP_ERR_GENERROR; } if (node_instance.release_instance != NULL) { node_instance.release_instance(&node_instance); } } } /** * Service an internal or external event for SNMP GET. * * @param request points to the associated message process state */ static err_t snmp_process_get_request(struct snmp_request *request) { snmp_vb_enumerator_err_t err; struct snmp_varbind vb; vb.value = request->value_buffer; LWIP_DEBUGF(SNMP_DEBUG, ("SNMP get request\n")); while (request->error_status == SNMP_ERR_NOERROR) { err = snmp_vb_enumerator_get_next(&request->inbound_varbind_enumerator, &vb); if (err == SNMP_VB_ENUMERATOR_ERR_OK) { if ((vb.type == SNMP_ASN1_TYPE_NULL) && (vb.value_len == 0)) { snmp_process_varbind(request, &vb, 0); } else { request->error_status = SNMP_ERR_GENERROR; } } else if (err == SNMP_VB_ENUMERATOR_ERR_EOVB) { /* no more varbinds in request */ break; } else if (err == SNMP_VB_ENUMERATOR_ERR_ASN1ERROR) { /* malformed ASN.1, don't answer */ return ERR_ARG; } else { request->error_status = SNMP_ERR_GENERROR; } } return ERR_OK; } /** * Service an internal or external event for SNMP GET. * * @param request points to the associated message process state */ static err_t snmp_process_getnext_request(struct snmp_request *request) { snmp_vb_enumerator_err_t err; struct snmp_varbind vb; vb.value = request->value_buffer; LWIP_DEBUGF(SNMP_DEBUG, ("SNMP get-next request\n")); while (request->error_status == SNMP_ERR_NOERROR) { err = snmp_vb_enumerator_get_next(&request->inbound_varbind_enumerator, &vb); if (err == SNMP_VB_ENUMERATOR_ERR_OK) { if ((vb.type == SNMP_ASN1_TYPE_NULL) && (vb.value_len == 0)) { snmp_process_varbind(request, &vb, 1); } else { request->error_status = SNMP_ERR_GENERROR; } } else if (err == SNMP_VB_ENUMERATOR_ERR_EOVB) { /* no more varbinds in request */ break; } else if (err == SNMP_VB_ENUMERATOR_ERR_ASN1ERROR) { /* malformed ASN.1, don't answer */ return ERR_ARG; } else { request->error_status = SNMP_ERR_GENERROR; } } return ERR_OK; } /** * Service an internal or external event for SNMP GETBULKT. * * @param request points to the associated message process state */ static err_t snmp_process_getbulk_request(struct snmp_request *request) { snmp_vb_enumerator_err_t err; s32_t non_repeaters = request->non_repeaters; s32_t repetitions; u16_t repetition_offset = 0; struct snmp_varbind_enumerator repetition_varbind_enumerator; struct snmp_varbind vb; vb.value = request->value_buffer; if (SNMP_LWIP_GETBULK_MAX_REPETITIONS > 0) { repetitions = LWIP_MIN(request->max_repetitions, SNMP_LWIP_GETBULK_MAX_REPETITIONS); } else { repetitions = request->max_repetitions; } LWIP_DEBUGF(SNMP_DEBUG, ("SNMP get-bulk request\n")); /* process non repeaters and first repetition */ while (request->error_status == SNMP_ERR_NOERROR) { if (non_repeaters == 0) { repetition_offset = request->outbound_pbuf_stream.offset; if (repetitions == 0) { /* do not resolve repeaters when repetitions is set to 0 */ break; } repetitions--; } err = snmp_vb_enumerator_get_next(&request->inbound_varbind_enumerator, &vb); if (err == SNMP_VB_ENUMERATOR_ERR_EOVB) { /* no more varbinds in request */ break; } else if (err == SNMP_VB_ENUMERATOR_ERR_ASN1ERROR) { /* malformed ASN.1, don't answer */ return ERR_ARG; } else if ((err != SNMP_VB_ENUMERATOR_ERR_OK) || (vb.type != SNMP_ASN1_TYPE_NULL) || (vb.value_len != 0)) { request->error_status = SNMP_ERR_GENERROR; } else { snmp_process_varbind(request, &vb, 1); non_repeaters--; } } /* process repetitions > 1 */ while ((request->error_status == SNMP_ERR_NOERROR) && (repetitions > 0) && (request->outbound_pbuf_stream.offset != repetition_offset)) { u8_t all_endofmibview = 1; snmp_vb_enumerator_init(&repetition_varbind_enumerator, request->outbound_pbuf, repetition_offset, request->outbound_pbuf_stream.offset - repetition_offset); repetition_offset = request->outbound_pbuf_stream.offset; /* for next loop */ while (request->error_status == SNMP_ERR_NOERROR) { vb.value = NULL; /* do NOT decode value (we enumerate outbound buffer here, so all varbinds have values assigned) */ err = snmp_vb_enumerator_get_next(&repetition_varbind_enumerator, &vb); if (err == SNMP_VB_ENUMERATOR_ERR_OK) { vb.value = request->value_buffer; snmp_process_varbind(request, &vb, 1); if (request->error_status != SNMP_ERR_NOERROR) { /* already set correct error-index (here it cannot be taken from inbound varbind enumerator) */ request->error_index = request->non_repeaters + repetition_varbind_enumerator.varbind_count; } else if (vb.type != (SNMP_ASN1_CONTENTTYPE_PRIMITIVE | SNMP_ASN1_CLASS_CONTEXT | SNMP_ASN1_CONTEXT_VARBIND_END_OF_MIB_VIEW)) { all_endofmibview = 0; } } else if (err == SNMP_VB_ENUMERATOR_ERR_EOVB) { /* no more varbinds in request */ break; } else { LWIP_DEBUGF(SNMP_DEBUG, ("Very strange, we cannot parse the varbind output that we created just before!")); request->error_status = SNMP_ERR_GENERROR; request->error_index = request->non_repeaters + repetition_varbind_enumerator.varbind_count; } } if ((request->error_status == SNMP_ERR_NOERROR) && all_endofmibview) { /* stop when all varbinds in a loop return EndOfMibView */ break; } repetitions--; } if (request->error_status == SNMP_ERR_TOOBIG) { /* for GetBulk it is ok, if not all requested variables fit into the response -> just return the varbinds added so far */ request->error_status = SNMP_ERR_NOERROR; } return ERR_OK; } /** * Service an internal or external event for SNMP SET. * * @param request points to the associated message process state */ static err_t snmp_process_set_request(struct snmp_request *request) { snmp_vb_enumerator_err_t err; struct snmp_varbind vb; vb.value = request->value_buffer; LWIP_DEBUGF(SNMP_DEBUG, ("SNMP set request\n")); /* perform set test on all objects */ while (request->error_status == SNMP_ERR_NOERROR) { err = snmp_vb_enumerator_get_next(&request->inbound_varbind_enumerator, &vb); if (err == SNMP_VB_ENUMERATOR_ERR_OK) { struct snmp_node_instance node_instance; memset(&node_instance, 0, sizeof(node_instance)); request->error_status = snmp_get_node_instance_from_oid(vb.oid.id, vb.oid.len, &node_instance); if (request->error_status == SNMP_ERR_NOERROR) { if (node_instance.asn1_type != vb.type) { request->error_status = SNMP_ERR_WRONGTYPE; } else if (((node_instance.access & SNMP_NODE_INSTANCE_ACCESS_WRITE) != SNMP_NODE_INSTANCE_ACCESS_WRITE) || (node_instance.set_value == NULL)) { request->error_status = SNMP_ERR_NOTWRITABLE; } else { if (node_instance.set_test != NULL) { request->error_status = node_instance.set_test(&node_instance, vb.value_len, vb.value); } } if (node_instance.release_instance != NULL) { node_instance.release_instance(&node_instance); } } } else if (err == SNMP_VB_ENUMERATOR_ERR_EOVB) { /* no more varbinds in request */ break; } else if (err == SNMP_VB_ENUMERATOR_ERR_INVALIDLENGTH) { request->error_status = SNMP_ERR_WRONGLENGTH; } else if (err == SNMP_VB_ENUMERATOR_ERR_ASN1ERROR) { /* malformed ASN.1, don't answer */ return ERR_ARG; } else { request->error_status = SNMP_ERR_GENERROR; } } /* perform real set operation on all objects */ if (request->error_status == SNMP_ERR_NOERROR) { snmp_vb_enumerator_init(&request->inbound_varbind_enumerator, request->inbound_pbuf, request->inbound_varbind_offset, request->inbound_varbind_len); while (request->error_status == SNMP_ERR_NOERROR) { err = snmp_vb_enumerator_get_next(&request->inbound_varbind_enumerator, &vb); if (err == SNMP_VB_ENUMERATOR_ERR_OK) { struct snmp_node_instance node_instance; memset(&node_instance, 0, sizeof(node_instance)); request->error_status = snmp_get_node_instance_from_oid(vb.oid.id, vb.oid.len, &node_instance); if (request->error_status == SNMP_ERR_NOERROR) { if (node_instance.set_value(&node_instance, vb.value_len, vb.value) != SNMP_ERR_NOERROR) { if (request->inbound_varbind_enumerator.varbind_count == 1) { request->error_status = SNMP_ERR_COMMITFAILED; } else { /* we cannot undo the set operations done so far */ request->error_status = SNMP_ERR_UNDOFAILED; } } if (node_instance.release_instance != NULL) { node_instance.release_instance(&node_instance); } } } else if (err == SNMP_VB_ENUMERATOR_ERR_EOVB) { /* no more varbinds in request */ break; } else { /* first time enumerating varbinds work but second time not, although nothing should have changed in between ??? */ request->error_status = SNMP_ERR_GENERROR; } } } return ERR_OK; } #define PARSE_EXEC(code, retValue) \ if ((code) != ERR_OK) { \ LWIP_DEBUGF(SNMP_DEBUG, ("Malformed ASN.1 detected.\n")); \ snmp_stats.inasnparseerrs++; \ return retValue; \ } #define PARSE_ASSERT(cond, retValue) \ if (!(cond)) { \ LWIP_DEBUGF(SNMP_DEBUG, ("SNMP parse assertion failed!: " # cond)); \ snmp_stats.inasnparseerrs++; \ return retValue; \ } #define BUILD_EXEC(code, retValue) \ if ((code) != ERR_OK) { \ LWIP_DEBUGF(SNMP_DEBUG, ("SNMP error during creation of outbound frame!: " # code)); \ return retValue; \ } #define IF_PARSE_EXEC(code) PARSE_EXEC(code, ERR_ARG) #define IF_PARSE_ASSERT(code) PARSE_ASSERT(code, ERR_ARG) /** * Checks and decodes incoming SNMP message header, logs header errors. * * @param request points to the current message request state return * @return * - ERR_OK SNMP header is sane and accepted * - ERR_VAL SNMP header is either malformed or rejected */ static err_t snmp_parse_inbound_frame(struct snmp_request *request) { struct snmp_pbuf_stream pbuf_stream; struct snmp_asn1_tlv tlv; s32_t parent_tlv_value_len; s32_t s32_value; err_t err; #if LWIP_SNMP_V3 snmpv3_auth_algo_t auth; snmpv3_priv_algo_t priv; #endif IF_PARSE_EXEC(snmp_pbuf_stream_init(&pbuf_stream, request->inbound_pbuf, 0, request->inbound_pbuf->tot_len)); /* decode main container consisting of version, community and PDU */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT((tlv.type == SNMP_ASN1_TYPE_SEQUENCE) && (tlv.value_len == pbuf_stream.length)); parent_tlv_value_len = tlv.value_len; /* decode version */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_INTEGER); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); IF_PARSE_EXEC(snmp_asn1_dec_s32t(&pbuf_stream, tlv.value_len, &s32_value)); if (((s32_value != SNMP_VERSION_1) && (s32_value != SNMP_VERSION_2c) #if LWIP_SNMP_V3 && (s32_value != SNMP_VERSION_3) #endif ) #if LWIP_SNMP_CONFIGURE_VERSIONS || (!snmp_version_enabled(s32_value)) #endif ) { /* unsupported SNMP version */ snmp_stats.inbadversions++; return ERR_ARG; } request->version = (u8_t)s32_value; #if LWIP_SNMP_V3 if (request->version == SNMP_VERSION_3) { u16_t u16_value; u16_t inbound_msgAuthenticationParameters_offset; /* SNMPv3 doesn't use communities */ /* @todo: Differentiate read/write access */ strncpy((char *)request->community, snmp_community, SNMP_MAX_COMMUNITY_STR_LEN); request->community[SNMP_MAX_COMMUNITY_STR_LEN] = 0; /* ensure NULL termination (strncpy does NOT guarantee it!) */ request->community_strlen = (u16_t)strnlen((char *)request->community, SNMP_MAX_COMMUNITY_STR_LEN); /* RFC3414 globalData */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_SEQUENCE); parent_tlv_value_len -= SNMP_ASN1_TLV_HDR_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); /* decode msgID */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_INTEGER); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); IF_PARSE_EXEC(snmp_asn1_dec_s32t(&pbuf_stream, tlv.value_len, &s32_value)); request->msg_id = s32_value; /* decode msgMaxSize */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_INTEGER); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); IF_PARSE_EXEC(snmp_asn1_dec_s32t(&pbuf_stream, tlv.value_len, &s32_value)); request->msg_max_size = s32_value; /* decode msgFlags */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_OCTET_STRING); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); IF_PARSE_EXEC(snmp_asn1_dec_s32t(&pbuf_stream, tlv.value_len, &s32_value)); request->msg_flags = (u8_t)s32_value; /* decode msgSecurityModel */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_INTEGER); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); IF_PARSE_EXEC(snmp_asn1_dec_s32t(&pbuf_stream, tlv.value_len, &s32_value)); request->msg_security_model = s32_value; /* RFC3414 msgSecurityParameters * The User-based Security Model defines the contents of the OCTET * STRING as a SEQUENCE. * * We skip the protective dummy OCTET STRING header * to access the SEQUENCE header. */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_OCTET_STRING); parent_tlv_value_len -= SNMP_ASN1_TLV_HDR_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); /* msgSecurityParameters SEQUENCE header */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_SEQUENCE); parent_tlv_value_len -= SNMP_ASN1_TLV_HDR_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); /* decode msgAuthoritativeEngineID */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_OCTET_STRING); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); IF_PARSE_EXEC(snmp_asn1_dec_raw(&pbuf_stream, tlv.value_len, request->msg_authoritative_engine_id, &u16_value, SNMP_V3_MAX_ENGINE_ID_LENGTH)); request->msg_authoritative_engine_id_len = (u8_t)u16_value; /* msgAuthoritativeEngineBoots */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_INTEGER); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); IF_PARSE_EXEC(snmp_asn1_dec_s32t(&pbuf_stream, tlv.value_len, &request->msg_authoritative_engine_boots)); /* msgAuthoritativeEngineTime */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_INTEGER); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); IF_PARSE_EXEC(snmp_asn1_dec_s32t(&pbuf_stream, tlv.value_len, &request->msg_authoritative_engine_time)); /* msgUserName */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_OCTET_STRING); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); IF_PARSE_EXEC(snmp_asn1_dec_raw(&pbuf_stream, tlv.value_len, request->msg_user_name, &u16_value, SNMP_V3_MAX_USER_LENGTH)); request->msg_user_name_len = (u8_t)u16_value; /* msgAuthenticationParameters */ memset(request->msg_authentication_parameters, 0, SNMP_V3_MAX_AUTH_PARAM_LENGTH); IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_OCTET_STRING); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); /* Remember position */ inbound_msgAuthenticationParameters_offset = pbuf_stream.offset; LWIP_UNUSED_ARG(inbound_msgAuthenticationParameters_offset); /* Read auth parameters */ /* IF_PARSE_ASSERT(tlv.value_len <= SNMP_V3_MAX_AUTH_PARAM_LENGTH); */ IF_PARSE_EXEC(snmp_asn1_dec_raw(&pbuf_stream, tlv.value_len, request->msg_authentication_parameters, &u16_value, tlv.value_len)); request->msg_authentication_parameters_len = (u8_t)u16_value; /* msgPrivacyParameters */ memset(request->msg_privacy_parameters, 0, SNMP_V3_MAX_PRIV_PARAM_LENGTH); IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_OCTET_STRING); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); IF_PARSE_EXEC(snmp_asn1_dec_raw(&pbuf_stream, tlv.value_len, request->msg_privacy_parameters, &u16_value, SNMP_V3_MAX_PRIV_PARAM_LENGTH)); request->msg_privacy_parameters_len = (u8_t)u16_value; /* validate securityParameters here (do this after decoding because we don't want to increase other counters for wrong frames) * 1) securityParameters was correctly serialized if we reach here. * 2) securityParameters are already cached. * 3) if msgAuthoritativeEngineID is unknown, zero-length or too long: b) https://tools.ietf.org/html/rfc3414#section-7 */ { const char *eid; u8_t eid_len; snmpv3_get_engine_id(&eid, &eid_len); if ((request->msg_authoritative_engine_id_len == 0) || (request->msg_authoritative_engine_id_len != eid_len) || (memcmp(eid, request->msg_authoritative_engine_id, eid_len) != 0)) { snmp_stats.unknownengineids++; request->msg_flags = 0; /* noauthnopriv */ request->error_status = SNMP_ERR_UNKNOWN_ENGINEID; return ERR_OK; } } /* 4) verify username */ if (snmpv3_get_user((char *)request->msg_user_name, &auth, NULL, &priv, NULL)) { snmp_stats.unknownusernames++; request->msg_flags = 0; /* noauthnopriv */ request->error_status = SNMP_ERR_UNKNOWN_SECURITYNAME; return ERR_OK; } /* 5) verify security level */ switch (request->msg_flags & (SNMP_V3_AUTH_FLAG | SNMP_V3_PRIV_FLAG)) { case SNMP_V3_NOAUTHNOPRIV: if ((auth != SNMP_V3_AUTH_ALGO_INVAL) || (priv != SNMP_V3_PRIV_ALGO_INVAL)) { /* Invalid security level for user */ snmp_stats.unsupportedseclevels++; request->msg_flags = SNMP_V3_NOAUTHNOPRIV; request->error_status = SNMP_ERR_UNSUPPORTED_SECLEVEL; return ERR_OK; } break; #if LWIP_SNMP_V3_CRYPTO case SNMP_V3_AUTHNOPRIV: if ((auth == SNMP_V3_AUTH_ALGO_INVAL) || (priv != SNMP_V3_PRIV_ALGO_INVAL)) { /* Invalid security level for user */ snmp_stats.unsupportedseclevels++; request->msg_flags = SNMP_V3_NOAUTHNOPRIV; request->error_status = SNMP_ERR_UNSUPPORTED_SECLEVEL; return ERR_OK; } break; case SNMP_V3_AUTHPRIV: if ((auth == SNMP_V3_AUTH_ALGO_INVAL) || (priv == SNMP_V3_PRIV_ALGO_INVAL)) { /* Invalid security level for user */ snmp_stats.unsupportedseclevels++; request->msg_flags = SNMP_V3_NOAUTHNOPRIV; request->error_status = SNMP_ERR_UNSUPPORTED_SECLEVEL; return ERR_OK; } break; #endif default: snmp_stats.unsupportedseclevels++; request->msg_flags = SNMP_V3_NOAUTHNOPRIV; request->error_status = SNMP_ERR_UNSUPPORTED_SECLEVEL; return ERR_OK; } /* 6) if securitylevel specifies authentication, authenticate message. */ #if LWIP_SNMP_V3_CRYPTO if (request->msg_flags & SNMP_V3_AUTH_FLAG) { const u8_t zero_arr[SNMP_V3_MAX_AUTH_PARAM_LENGTH] = { 0 }; u8_t key[20]; u8_t hmac[LWIP_MAX(SNMP_V3_SHA_LEN, SNMP_V3_MD5_LEN)]; struct snmp_pbuf_stream auth_stream; if (request->msg_authentication_parameters_len > SNMP_V3_MAX_AUTH_PARAM_LENGTH) { snmp_stats.wrongdigests++; request->msg_flags = SNMP_V3_NOAUTHNOPRIV; request->error_status = SNMP_ERR_AUTHORIZATIONERROR; return ERR_OK; } /* Rewind stream */ IF_PARSE_EXEC(snmp_pbuf_stream_init(&auth_stream, request->inbound_pbuf, 0, request->inbound_pbuf->tot_len)); IF_PARSE_EXEC(snmp_pbuf_stream_seek_abs(&auth_stream, inbound_msgAuthenticationParameters_offset)); /* Set auth parameters to zero for verification */ IF_PARSE_EXEC(snmp_asn1_enc_raw(&auth_stream, zero_arr, request->msg_authentication_parameters_len)); /* Verify authentication */ IF_PARSE_EXEC(snmp_pbuf_stream_init(&auth_stream, request->inbound_pbuf, 0, request->inbound_pbuf->tot_len)); IF_PARSE_EXEC(snmpv3_get_user((char *)request->msg_user_name, &auth, key, NULL, NULL)); IF_PARSE_EXEC(snmpv3_auth(&auth_stream, request->inbound_pbuf->tot_len, key, auth, hmac)); if (memcmp(request->msg_authentication_parameters, hmac, SNMP_V3_MAX_AUTH_PARAM_LENGTH)) { snmp_stats.wrongdigests++; request->msg_flags = SNMP_V3_NOAUTHNOPRIV; request->error_status = SNMP_ERR_AUTHORIZATIONERROR; return ERR_OK; } /* 7) if securitylevel specifies authentication, verify engineboots, enginetime and lastenginetime */ { s32_t boots = snmpv3_get_engine_boots_internal(); if ((request->msg_authoritative_engine_boots != boots) || (boots == 2147483647UL)) { snmp_stats.notintimewindows++; request->msg_flags = SNMP_V3_AUTHNOPRIV; request->error_status = SNMP_ERR_NOTINTIMEWINDOW; return ERR_OK; } } { s32_t time = snmpv3_get_engine_time_internal(); if (request->msg_authoritative_engine_time > (time + 150)) { snmp_stats.notintimewindows++; request->msg_flags = SNMP_V3_AUTHNOPRIV; request->error_status = SNMP_ERR_NOTINTIMEWINDOW; return ERR_OK; } else if (time > 150) { if (request->msg_authoritative_engine_time < (time - 150)) { snmp_stats.notintimewindows++; request->msg_flags = SNMP_V3_AUTHNOPRIV; request->error_status = SNMP_ERR_NOTINTIMEWINDOW; return ERR_OK; } } } } #endif /* 8) if securitylevel specifies privacy, decrypt message. */ #if LWIP_SNMP_V3_CRYPTO if (request->msg_flags & SNMP_V3_PRIV_FLAG) { /* Decrypt message */ u8_t key[20]; IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_OCTET_STRING); parent_tlv_value_len -= SNMP_ASN1_TLV_HDR_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); IF_PARSE_EXEC(snmpv3_get_user((char *)request->msg_user_name, NULL, NULL, &priv, key)); if (snmpv3_crypt(&pbuf_stream, tlv.value_len, key, request->msg_privacy_parameters, request->msg_authoritative_engine_boots, request->msg_authoritative_engine_time, priv, SNMP_V3_PRIV_MODE_DECRYPT) != ERR_OK) { snmp_stats.decryptionerrors++; request->msg_flags = SNMP_V3_AUTHNOPRIV; request->error_status = SNMP_ERR_DECRYIPTION_ERROR; return ERR_OK; } } #endif /* 9) calculate max size of scoped pdu? * 10) securityname for user is retrieved from usertable? * 11) security data is cached? * 12) */ /* Scoped PDU * Encryption context */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_SEQUENCE); parent_tlv_value_len -= SNMP_ASN1_TLV_HDR_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); /* contextEngineID */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_OCTET_STRING); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); IF_PARSE_EXEC(snmp_asn1_dec_raw(&pbuf_stream, tlv.value_len, request->context_engine_id, &u16_value, SNMP_V3_MAX_ENGINE_ID_LENGTH)); request->context_engine_id_len = (u8_t)u16_value; /* TODO: do we need to verify this contextengineid too? */ /* contextName */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_OCTET_STRING); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); IF_PARSE_EXEC(snmp_asn1_dec_raw(&pbuf_stream, tlv.value_len, request->context_name, &u16_value, SNMP_V3_MAX_ENGINE_ID_LENGTH)); request->context_name_len = (u8_t)u16_value; /* TODO: do we need to verify this contextname too? */ } else #endif { /* decode community */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_OCTET_STRING); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); err = snmp_asn1_dec_raw(&pbuf_stream, tlv.value_len, request->community, &request->community_strlen, SNMP_MAX_COMMUNITY_STR_LEN); if (err == ERR_MEM) { /* community string does not fit in our buffer -> its too long -> its invalid */ request->community_strlen = 0; snmp_pbuf_stream_seek(&pbuf_stream, tlv.value_len); } else { IF_PARSE_ASSERT(err == ERR_OK); } /* add zero terminator */ request->community[request->community_strlen] = 0; } /* decode PDU type (next container level) */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.value_len <= pbuf_stream.length); request->inbound_padding_len = pbuf_stream.length - tlv.value_len; parent_tlv_value_len = tlv.value_len; /* validate PDU type */ switch (tlv.type) { case (SNMP_ASN1_CLASS_CONTEXT | SNMP_ASN1_CONTENTTYPE_CONSTRUCTED | SNMP_ASN1_CONTEXT_PDU_GET_REQ): /* GetRequest PDU */ snmp_stats.ingetrequests++; break; case (SNMP_ASN1_CLASS_CONTEXT | SNMP_ASN1_CONTENTTYPE_CONSTRUCTED | SNMP_ASN1_CONTEXT_PDU_GET_NEXT_REQ): /* GetNextRequest PDU */ snmp_stats.ingetnexts++; break; case (SNMP_ASN1_CLASS_CONTEXT | SNMP_ASN1_CONTENTTYPE_CONSTRUCTED | SNMP_ASN1_CONTEXT_PDU_GET_BULK_REQ): /* GetBulkRequest PDU */ if (request->version < SNMP_VERSION_2c) { /* RFC2089: invalid, drop packet */ return ERR_ARG; } break; case (SNMP_ASN1_CLASS_CONTEXT | SNMP_ASN1_CONTENTTYPE_CONSTRUCTED | SNMP_ASN1_CONTEXT_PDU_SET_REQ): /* SetRequest PDU */ snmp_stats.insetrequests++; break; default: /* unsupported input PDU for this agent (no parse error) */ LWIP_DEBUGF(SNMP_DEBUG, ("Unknown/Invalid SNMP PDU type received: %d", tlv.type)); \ return ERR_ARG; } request->request_type = tlv.type & SNMP_ASN1_DATATYPE_MASK; request->request_out_type = (SNMP_ASN1_CLASS_CONTEXT | SNMP_ASN1_CONTENTTYPE_CONSTRUCTED | SNMP_ASN1_CONTEXT_PDU_GET_RESP); /* validate community (do this after decoding PDU type because we don't want to increase 'inbadcommunitynames' for wrong frame types */ if (request->community_strlen == 0) { /* community string was too long or really empty*/ snmp_stats.inbadcommunitynames++; snmp_authfail_trap(); return ERR_ARG; } else if (request->request_type == SNMP_ASN1_CONTEXT_PDU_SET_REQ) { if (snmp_community_write[0] == 0) { /* our write community is empty, that means all our objects are readonly */ request->error_status = SNMP_ERR_NOTWRITABLE; request->error_index = 1; } else if (strncmp(snmp_community_write, (const char *)request->community, SNMP_MAX_COMMUNITY_STR_LEN) != 0) { /* community name does not match */ snmp_stats.inbadcommunitynames++; snmp_authfail_trap(); return ERR_ARG; } } else { if (strncmp(snmp_community, (const char *)request->community, SNMP_MAX_COMMUNITY_STR_LEN) != 0) { /* community name does not match */ snmp_stats.inbadcommunitynames++; snmp_authfail_trap(); return ERR_ARG; } } /* decode request ID */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_INTEGER); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); IF_PARSE_EXEC(snmp_asn1_dec_s32t(&pbuf_stream, tlv.value_len, &request->request_id)); /* decode error status / non-repeaters */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_INTEGER); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); if (request->request_type == SNMP_ASN1_CONTEXT_PDU_GET_BULK_REQ) { IF_PARSE_EXEC(snmp_asn1_dec_s32t(&pbuf_stream, tlv.value_len, &request->non_repeaters)); if (request->non_repeaters < 0) { /* RFC 1905, 4.2.3 */ request->non_repeaters = 0; } } else { /* only check valid value, don't touch 'request->error_status', maybe a response error status was already set to above; */ IF_PARSE_EXEC(snmp_asn1_dec_s32t(&pbuf_stream, tlv.value_len, &s32_value)); IF_PARSE_ASSERT(s32_value == SNMP_ERR_NOERROR); } /* decode error index / max-repetitions */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT(tlv.type == SNMP_ASN1_TYPE_INTEGER); parent_tlv_value_len -= SNMP_ASN1_TLV_LENGTH(tlv); IF_PARSE_ASSERT(parent_tlv_value_len > 0); if (request->request_type == SNMP_ASN1_CONTEXT_PDU_GET_BULK_REQ) { IF_PARSE_EXEC(snmp_asn1_dec_s32t(&pbuf_stream, tlv.value_len, &request->max_repetitions)); if (request->max_repetitions < 0) { /* RFC 1905, 4.2.3 */ request->max_repetitions = 0; } } else { IF_PARSE_EXEC(snmp_asn1_dec_s32t(&pbuf_stream, tlv.value_len, &request->error_index)); IF_PARSE_ASSERT(s32_value == 0); } /* decode varbind-list type (next container level) */ IF_PARSE_EXEC(snmp_asn1_dec_tlv(&pbuf_stream, &tlv)); IF_PARSE_ASSERT((tlv.type == SNMP_ASN1_TYPE_SEQUENCE) && (tlv.value_len <= pbuf_stream.length)); request->inbound_varbind_offset = pbuf_stream.offset; request->inbound_varbind_len = pbuf_stream.length - request->inbound_padding_len; snmp_vb_enumerator_init(&(request->inbound_varbind_enumerator), request->inbound_pbuf, request->inbound_varbind_offset, request->inbound_varbind_len); return ERR_OK; } #define OF_BUILD_EXEC(code) BUILD_EXEC(code, ERR_ARG) static err_t snmp_prepare_outbound_frame(struct snmp_request *request) { struct snmp_asn1_tlv tlv; struct snmp_pbuf_stream *pbuf_stream = &(request->outbound_pbuf_stream); /* try allocating pbuf(s) for maximum response size */ request->outbound_pbuf = pbuf_alloc(PBUF_TRANSPORT, 1472, PBUF_RAM); if (request->outbound_pbuf == NULL) { return ERR_MEM; } snmp_pbuf_stream_init(pbuf_stream, request->outbound_pbuf, 0, request->outbound_pbuf->tot_len); /* 'Message' sequence */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_SEQUENCE, 3, 0); OF_BUILD_EXEC( snmp_ans1_enc_tlv(pbuf_stream, &tlv) ); /* version */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_INTEGER, 0, 0); snmp_asn1_enc_s32t_cnt(request->version, &tlv.value_len); OF_BUILD_EXEC( snmp_ans1_enc_tlv(pbuf_stream, &tlv) ); OF_BUILD_EXEC( snmp_asn1_enc_s32t(pbuf_stream, tlv.value_len, request->version) ); #if LWIP_SNMP_V3 if (request->version < SNMP_VERSION_3) { #endif /* community */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_OCTET_STRING, 0, request->community_strlen); OF_BUILD_EXEC( snmp_ans1_enc_tlv(pbuf_stream, &tlv) ); OF_BUILD_EXEC( snmp_asn1_enc_raw(pbuf_stream, request->community, request->community_strlen) ); #if LWIP_SNMP_V3 } else { const char *id; /* globalData */ request->outbound_msg_global_data_offset = pbuf_stream->offset; SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_SEQUENCE, 1, 0); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); /* msgID */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_INTEGER, 0, 1); snmp_asn1_enc_s32t_cnt(request->msg_id, &tlv.value_len); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); OF_BUILD_EXEC(snmp_asn1_enc_s32t(pbuf_stream, tlv.value_len, request->msg_id)); /* msgMaxSize */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_INTEGER, 0, 1); snmp_asn1_enc_s32t_cnt(request->msg_max_size, &tlv.value_len); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); OF_BUILD_EXEC(snmp_asn1_enc_s32t(pbuf_stream, tlv.value_len, request->msg_max_size)); /* msgFlags */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_OCTET_STRING, 0, 1); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); OF_BUILD_EXEC(snmp_asn1_enc_raw(pbuf_stream, &request->msg_flags, 1)); /* msgSecurityModel */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_INTEGER, 0, 1); snmp_asn1_enc_s32t_cnt(request->msg_security_model, &tlv.value_len); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); OF_BUILD_EXEC(snmp_asn1_enc_s32t(pbuf_stream, tlv.value_len, request->msg_security_model)); /* end of msgGlobalData */ request->outbound_msg_global_data_end = pbuf_stream->offset; /* msgSecurityParameters */ request->outbound_msg_security_parameters_str_offset = pbuf_stream->offset; SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_OCTET_STRING, 1, 0); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); request->outbound_msg_security_parameters_seq_offset = pbuf_stream->offset; SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_SEQUENCE, 1, 0); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); /* msgAuthoritativeEngineID */ snmpv3_get_engine_id(&id, &request->msg_authoritative_engine_id_len); MEMCPY(request->msg_authoritative_engine_id, id, request->msg_authoritative_engine_id_len); SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_OCTET_STRING, 0, request->msg_authoritative_engine_id_len); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); OF_BUILD_EXEC(snmp_asn1_enc_raw(pbuf_stream, request->msg_authoritative_engine_id, request->msg_authoritative_engine_id_len)); request->msg_authoritative_engine_time = snmpv3_get_engine_time(); request->msg_authoritative_engine_boots = snmpv3_get_engine_boots(); /* msgAuthoritativeEngineBoots */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_INTEGER, 0, 0); snmp_asn1_enc_s32t_cnt(request->msg_authoritative_engine_boots, &tlv.value_len); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); OF_BUILD_EXEC(snmp_asn1_enc_s32t(pbuf_stream, tlv.value_len, request->msg_authoritative_engine_boots)); /* msgAuthoritativeEngineTime */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_INTEGER, 0, 0); snmp_asn1_enc_s32t_cnt(request->msg_authoritative_engine_time, &tlv.value_len); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); OF_BUILD_EXEC(snmp_asn1_enc_s32t(pbuf_stream, tlv.value_len, request->msg_authoritative_engine_time)); /* msgUserName */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_OCTET_STRING, 0, request->msg_user_name_len); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); OF_BUILD_EXEC(snmp_asn1_enc_raw(pbuf_stream, request->msg_user_name, request->msg_user_name_len)); #if LWIP_SNMP_V3_CRYPTO /* msgAuthenticationParameters */ if (request->msg_flags & SNMP_V3_AUTH_FLAG) { memset(request->msg_authentication_parameters, 0, SNMP_V3_MAX_AUTH_PARAM_LENGTH); request->outbound_msg_authentication_parameters_offset = pbuf_stream->offset; SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_OCTET_STRING, 1, SNMP_V3_MAX_AUTH_PARAM_LENGTH); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); OF_BUILD_EXEC(snmp_asn1_enc_raw(pbuf_stream, request->msg_authentication_parameters, SNMP_V3_MAX_AUTH_PARAM_LENGTH)); } else #endif { SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_OCTET_STRING, 0, 0); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); } #if LWIP_SNMP_V3_CRYPTO /* msgPrivacyParameters */ if (request->msg_flags & SNMP_V3_PRIV_FLAG) { snmpv3_build_priv_param(request->msg_privacy_parameters); SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_OCTET_STRING, 0, SNMP_V3_MAX_PRIV_PARAM_LENGTH); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); OF_BUILD_EXEC(snmp_asn1_enc_raw(pbuf_stream, request->msg_privacy_parameters, SNMP_V3_MAX_PRIV_PARAM_LENGTH)); } else #endif { SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_OCTET_STRING, 0, 0); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv) ); } /* End of msgSecurityParameters, so we can calculate the length of this sequence later */ request->outbound_msg_security_parameters_end = pbuf_stream->offset; #if LWIP_SNMP_V3_CRYPTO /* For encryption we have to encapsulate the payload in an octet string */ if (request->msg_flags & SNMP_V3_PRIV_FLAG) { request->outbound_scoped_pdu_string_offset = pbuf_stream->offset; SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_OCTET_STRING, 3, 0); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); } #endif /* Scoped PDU * Encryption context */ request->outbound_scoped_pdu_seq_offset = pbuf_stream->offset; SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_SEQUENCE, 3, 0); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); /* contextEngineID */ snmpv3_get_engine_id(&id, &request->context_engine_id_len); MEMCPY(request->context_engine_id, id, request->context_engine_id_len); SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_OCTET_STRING, 0, request->context_engine_id_len); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); OF_BUILD_EXEC(snmp_asn1_enc_raw(pbuf_stream, request->context_engine_id, request->context_engine_id_len)); /* contextName */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_OCTET_STRING, 0, request->context_name_len); OF_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); OF_BUILD_EXEC(snmp_asn1_enc_raw(pbuf_stream, request->context_name, request->context_name_len)); } #endif /* 'PDU' sequence */ request->outbound_pdu_offset = pbuf_stream->offset; SNMP_ASN1_SET_TLV_PARAMS(tlv, request->request_out_type, 3, 0); OF_BUILD_EXEC( snmp_ans1_enc_tlv(pbuf_stream, &tlv) ); /* request ID */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_INTEGER, 0, 0); snmp_asn1_enc_s32t_cnt(request->request_id, &tlv.value_len); OF_BUILD_EXEC( snmp_ans1_enc_tlv(pbuf_stream, &tlv) ); OF_BUILD_EXEC( snmp_asn1_enc_s32t(pbuf_stream, tlv.value_len, request->request_id) ); /* error status */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_INTEGER, 0, 1); OF_BUILD_EXEC( snmp_ans1_enc_tlv(pbuf_stream, &tlv) ); request->outbound_error_status_offset = pbuf_stream->offset; OF_BUILD_EXEC( snmp_pbuf_stream_write(pbuf_stream, 0) ); /* error index */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_INTEGER, 0, 1); OF_BUILD_EXEC( snmp_ans1_enc_tlv(pbuf_stream, &tlv) ); request->outbound_error_index_offset = pbuf_stream->offset; OF_BUILD_EXEC( snmp_pbuf_stream_write(pbuf_stream, 0) ); /* 'VarBindList' sequence */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_SEQUENCE, 3, 0); OF_BUILD_EXEC( snmp_ans1_enc_tlv(pbuf_stream, &tlv) ); request->outbound_varbind_offset = pbuf_stream->offset; return ERR_OK; } /** Calculate the length of a varbind list */ err_t snmp_varbind_length(struct snmp_varbind *varbind, struct snmp_varbind_len *len) { /* calculate required lengths */ snmp_asn1_enc_oid_cnt(varbind->oid.id, varbind->oid.len, &len->oid_value_len); snmp_asn1_enc_length_cnt(len->oid_value_len, &len->oid_len_len); if (varbind->value_len == 0) { len->value_value_len = 0; } else if (varbind->value_len & SNMP_GET_VALUE_RAW_DATA) { len->value_value_len = varbind->value_len & (~SNMP_GET_VALUE_RAW_DATA); } else { switch (varbind->type) { case SNMP_ASN1_TYPE_INTEGER: if (varbind->value_len != sizeof (s32_t)) { return ERR_VAL; } snmp_asn1_enc_s32t_cnt(*((s32_t *) varbind->value), &len->value_value_len); break; case SNMP_ASN1_TYPE_COUNTER: case SNMP_ASN1_TYPE_GAUGE: case SNMP_ASN1_TYPE_TIMETICKS: if (varbind->value_len != sizeof (u32_t)) { return ERR_VAL; } snmp_asn1_enc_u32t_cnt(*((u32_t *) varbind->value), &len->value_value_len); break; case SNMP_ASN1_TYPE_OCTET_STRING: case SNMP_ASN1_TYPE_IPADDR: case SNMP_ASN1_TYPE_OPAQUE: len->value_value_len = varbind->value_len; break; case SNMP_ASN1_TYPE_NULL: if (varbind->value_len != 0) { return ERR_VAL; } len->value_value_len = 0; break; case SNMP_ASN1_TYPE_OBJECT_ID: if ((varbind->value_len & 0x03) != 0) { return ERR_VAL; } snmp_asn1_enc_oid_cnt((u32_t *) varbind->value, varbind->value_len >> 2, &len->value_value_len); break; #if LWIP_HAVE_INT64 case SNMP_ASN1_TYPE_COUNTER64: if (varbind->value_len != sizeof(u64_t)) { return ERR_VAL; } snmp_asn1_enc_u64t_cnt(*(u64_t *)varbind->value, &len->value_value_len); break; #endif default: /* unsupported type */ return ERR_VAL; } } snmp_asn1_enc_length_cnt(len->value_value_len, &len->value_len_len); len->vb_value_len = 1 + len->oid_len_len + len->oid_value_len + 1 + len->value_len_len + len->value_value_len; snmp_asn1_enc_length_cnt(len->vb_value_len, &len->vb_len_len); return ERR_OK; } #define OVB_BUILD_EXEC(code) BUILD_EXEC(code, ERR_ARG) err_t snmp_append_outbound_varbind(struct snmp_pbuf_stream *pbuf_stream, struct snmp_varbind *varbind) { struct snmp_asn1_tlv tlv; struct snmp_varbind_len len; err_t err; err = snmp_varbind_length(varbind, &len); if (err != ERR_OK) { return err; } /* check length already before adding first data because in case of GetBulk, * data added so far is returned and therefore no partial data shall be added */ if ((1 + len.vb_len_len + len.vb_value_len) > pbuf_stream->length) { return ERR_BUF; } /* 'VarBind' sequence */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_SEQUENCE, len.vb_len_len, len.vb_value_len); OVB_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); /* VarBind OID */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_OBJECT_ID, len.oid_len_len, len.oid_value_len); OVB_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); OVB_BUILD_EXEC(snmp_asn1_enc_oid(pbuf_stream, varbind->oid.id, varbind->oid.len)); /* VarBind value */ SNMP_ASN1_SET_TLV_PARAMS(tlv, varbind->type, len.value_len_len, len.value_value_len); OVB_BUILD_EXEC(snmp_ans1_enc_tlv(pbuf_stream, &tlv)); if (len.value_value_len > 0) { if (varbind->value_len & SNMP_GET_VALUE_RAW_DATA) { OVB_BUILD_EXEC(snmp_asn1_enc_raw(pbuf_stream, (u8_t *) varbind->value, len.value_value_len)); } else { switch (varbind->type) { case SNMP_ASN1_TYPE_INTEGER: OVB_BUILD_EXEC(snmp_asn1_enc_s32t(pbuf_stream, len.value_value_len, *((s32_t *) varbind->value))); break; case SNMP_ASN1_TYPE_COUNTER: case SNMP_ASN1_TYPE_GAUGE: case SNMP_ASN1_TYPE_TIMETICKS: OVB_BUILD_EXEC(snmp_asn1_enc_u32t(pbuf_stream, len.value_value_len, *((u32_t *) varbind->value))); break; case SNMP_ASN1_TYPE_OCTET_STRING: case SNMP_ASN1_TYPE_IPADDR: case SNMP_ASN1_TYPE_OPAQUE: OVB_BUILD_EXEC(snmp_asn1_enc_raw(pbuf_stream, (u8_t *) varbind->value, len.value_value_len)); len.value_value_len = varbind->value_len; break; case SNMP_ASN1_TYPE_OBJECT_ID: OVB_BUILD_EXEC(snmp_asn1_enc_oid(pbuf_stream, (u32_t *) varbind->value, varbind->value_len / sizeof (u32_t))); break; #if LWIP_HAVE_INT64 case SNMP_ASN1_TYPE_COUNTER64: OVB_BUILD_EXEC(snmp_asn1_enc_u64t(pbuf_stream, len.value_value_len, *(u64_t *) varbind->value)); break; #endif default: LWIP_ASSERT("Unknown variable type", 0); break; } } } return ERR_OK; } static err_t snmp_complete_outbound_frame(struct snmp_request *request) { struct snmp_asn1_tlv tlv; u16_t frame_size; u8_t outbound_padding = 0; if (request->version == SNMP_VERSION_1) { if (request->error_status != SNMP_ERR_NOERROR) { /* map v2c error codes to v1 compliant error code (according to RFC 2089) */ switch (request->error_status) { /* mapping of implementation specific "virtual" error codes * (during processing of frame we already stored them in error_status field, * so no need to check all varbinds here for those exceptions as suggested by RFC) */ case SNMP_ERR_NOSUCHINSTANCE: case SNMP_ERR_NOSUCHOBJECT: case SNMP_ERR_ENDOFMIBVIEW: request->error_status = SNMP_ERR_NOSUCHNAME; break; /* mapping according to RFC */ case SNMP_ERR_WRONGVALUE: case SNMP_ERR_WRONGENCODING: case SNMP_ERR_WRONGTYPE: case SNMP_ERR_WRONGLENGTH: case SNMP_ERR_INCONSISTENTVALUE: request->error_status = SNMP_ERR_BADVALUE; break; case SNMP_ERR_NOACCESS: case SNMP_ERR_NOTWRITABLE: case SNMP_ERR_NOCREATION: case SNMP_ERR_INCONSISTENTNAME: case SNMP_ERR_AUTHORIZATIONERROR: request->error_status = SNMP_ERR_NOSUCHNAME; break; case SNMP_ERR_RESOURCEUNAVAILABLE: case SNMP_ERR_COMMITFAILED: case SNMP_ERR_UNDOFAILED: default: request->error_status = SNMP_ERR_GENERROR; break; } } } else { if (request->request_type == SNMP_ASN1_CONTEXT_PDU_SET_REQ) { /* map error codes to according to RFC 1905 (4.2.5. The SetRequest-PDU) return 'NotWritable' for unknown OIDs) */ switch (request->error_status) { case SNMP_ERR_NOSUCHINSTANCE: case SNMP_ERR_NOSUCHOBJECT: case SNMP_ERR_ENDOFMIBVIEW: request->error_status = SNMP_ERR_NOTWRITABLE; break; default: break; } } if (request->error_status >= SNMP_VARBIND_EXCEPTION_OFFSET) { /* should never occur because v2 frames store exceptions directly inside varbinds and not as frame error_status */ LWIP_DEBUGF(SNMP_DEBUG, ("snmp_complete_outbound_frame() > Found v2 request with varbind exception code stored as error status!\n")); return ERR_ARG; } } if ((request->error_status != SNMP_ERR_NOERROR) || (request->request_type == SNMP_ASN1_CONTEXT_PDU_SET_REQ)) { /* all inbound vars are returned in response without any modification for error responses and successful set requests*/ struct snmp_pbuf_stream inbound_stream; OF_BUILD_EXEC( snmp_pbuf_stream_init(&inbound_stream, request->inbound_pbuf, request->inbound_varbind_offset, request->inbound_varbind_len) ); OF_BUILD_EXEC( snmp_pbuf_stream_init(&(request->outbound_pbuf_stream), request->outbound_pbuf, request->outbound_varbind_offset, request->outbound_pbuf->tot_len - request->outbound_varbind_offset) ); OF_BUILD_EXEC( snmp_pbuf_stream_writeto(&inbound_stream, &(request->outbound_pbuf_stream), 0) ); } frame_size = request->outbound_pbuf_stream.offset; #if LWIP_SNMP_V3 && LWIP_SNMP_V3_CRYPTO /* Calculate padding for encryption */ if (request->version == SNMP_VERSION_3 && (request->msg_flags & SNMP_V3_PRIV_FLAG)) { u8_t i; outbound_padding = (8 - (u8_t)((frame_size - request->outbound_scoped_pdu_seq_offset) & 0x07)) & 0x07; for (i = 0; i < outbound_padding; i++) { OF_BUILD_EXEC( snmp_pbuf_stream_write(&request->outbound_pbuf_stream, 0) ); } } #endif /* complete missing length in 'Message' sequence ; 'Message' tlv is located at the beginning (offset 0) */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_SEQUENCE, 3, frame_size + outbound_padding - 1 - 3); /* - type - length_len(fixed, see snmp_prepare_outbound_frame()) */ OF_BUILD_EXEC( snmp_pbuf_stream_init(&(request->outbound_pbuf_stream), request->outbound_pbuf, 0, request->outbound_pbuf->tot_len) ); OF_BUILD_EXEC( snmp_ans1_enc_tlv(&(request->outbound_pbuf_stream), &tlv) ); #if LWIP_SNMP_V3 if (request->version == SNMP_VERSION_3) { /* complete missing length in 'globalData' sequence */ /* - type - length_len(fixed, see snmp_prepare_outbound_frame()) */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_SEQUENCE, 1, request->outbound_msg_global_data_end - request->outbound_msg_global_data_offset - 1 - 1); OF_BUILD_EXEC(snmp_pbuf_stream_seek_abs(&(request->outbound_pbuf_stream), request->outbound_msg_global_data_offset)); OF_BUILD_EXEC(snmp_ans1_enc_tlv(&(request->outbound_pbuf_stream), &tlv)); /* complete missing length in 'msgSecurityParameters' sequence */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_OCTET_STRING, 1, request->outbound_msg_security_parameters_end - request->outbound_msg_security_parameters_str_offset - 1 - 1); OF_BUILD_EXEC(snmp_pbuf_stream_seek_abs(&(request->outbound_pbuf_stream), request->outbound_msg_security_parameters_str_offset)); OF_BUILD_EXEC(snmp_ans1_enc_tlv(&(request->outbound_pbuf_stream), &tlv)); SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_SEQUENCE, 1, request->outbound_msg_security_parameters_end - request->outbound_msg_security_parameters_seq_offset - 1 - 1); OF_BUILD_EXEC(snmp_pbuf_stream_seek_abs(&(request->outbound_pbuf_stream), request->outbound_msg_security_parameters_seq_offset)); OF_BUILD_EXEC(snmp_ans1_enc_tlv(&(request->outbound_pbuf_stream), &tlv)); /* complete missing length in scoped PDU sequence */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_SEQUENCE, 3, frame_size - request->outbound_scoped_pdu_seq_offset - 1 - 3); OF_BUILD_EXEC(snmp_pbuf_stream_seek_abs(&(request->outbound_pbuf_stream), request->outbound_scoped_pdu_seq_offset)); OF_BUILD_EXEC(snmp_ans1_enc_tlv(&(request->outbound_pbuf_stream), &tlv)); } #endif /* complete missing length in 'PDU' sequence */ SNMP_ASN1_SET_TLV_PARAMS(tlv, request->request_out_type, 3, frame_size - request->outbound_pdu_offset - 1 - 3); /* - type - length_len(fixed, see snmp_prepare_outbound_frame()) */ OF_BUILD_EXEC( snmp_pbuf_stream_seek_abs(&(request->outbound_pbuf_stream), request->outbound_pdu_offset) ); OF_BUILD_EXEC( snmp_ans1_enc_tlv(&(request->outbound_pbuf_stream), &tlv) ); /* process and encode final error status */ if (request->error_status != 0) { u16_t len; snmp_asn1_enc_s32t_cnt(request->error_status, &len); if (len != 1) { /* error, we only reserved one byte for it */ return ERR_ARG; } OF_BUILD_EXEC( snmp_pbuf_stream_seek_abs(&(request->outbound_pbuf_stream), request->outbound_error_status_offset) ); OF_BUILD_EXEC( snmp_asn1_enc_s32t(&(request->outbound_pbuf_stream), len, request->error_status) ); /* for compatibility to v1, log statistics; in v2 (RFC 1907) these statistics are obsoleted */ switch (request->error_status) { case SNMP_ERR_TOOBIG: snmp_stats.outtoobigs++; break; case SNMP_ERR_NOSUCHNAME: snmp_stats.outnosuchnames++; break; case SNMP_ERR_BADVALUE: snmp_stats.outbadvalues++; break; case SNMP_ERR_GENERROR: default: snmp_stats.outgenerrs++; break; } if (request->error_status == SNMP_ERR_TOOBIG) { request->error_index = 0; /* defined by RFC 1157 */ } else if (request->error_index == 0) { /* set index to varbind where error occured (if not already set before, e.g. during GetBulk processing) */ request->error_index = request->inbound_varbind_enumerator.varbind_count; } } else { if (request->request_type == SNMP_ASN1_CONTEXT_PDU_SET_REQ) { snmp_stats.intotalsetvars += request->inbound_varbind_enumerator.varbind_count; } else { snmp_stats.intotalreqvars += request->inbound_varbind_enumerator.varbind_count; } } /* encode final error index*/ if (request->error_index != 0) { u16_t len; snmp_asn1_enc_s32t_cnt(request->error_index, &len); if (len != 1) { /* error, we only reserved one byte for it */ return ERR_VAL; } OF_BUILD_EXEC( snmp_pbuf_stream_seek_abs(&(request->outbound_pbuf_stream), request->outbound_error_index_offset) ); OF_BUILD_EXEC( snmp_asn1_enc_s32t(&(request->outbound_pbuf_stream), len, request->error_index) ); } /* complete missing length in 'VarBindList' sequence ; 'VarBindList' tlv is located directly before varbind offset */ SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_SEQUENCE, 3, frame_size - request->outbound_varbind_offset); OF_BUILD_EXEC( snmp_pbuf_stream_seek_abs(&(request->outbound_pbuf_stream), request->outbound_varbind_offset - 1 - 3) ); /* - type - length_len(fixed, see snmp_prepare_outbound_frame()) */ OF_BUILD_EXEC( snmp_ans1_enc_tlv(&(request->outbound_pbuf_stream), &tlv) ); /* Authenticate response */ #if LWIP_SNMP_V3 && LWIP_SNMP_V3_CRYPTO /* Encrypt response */ if (request->version == SNMP_VERSION_3 && (request->msg_flags & SNMP_V3_PRIV_FLAG)) { u8_t key[20]; snmpv3_priv_algo_t algo; /* complete missing length in PDU sequence */ OF_BUILD_EXEC(snmp_pbuf_stream_init(&request->outbound_pbuf_stream, request->outbound_pbuf, 0, request->outbound_pbuf->tot_len)); OF_BUILD_EXEC(snmp_pbuf_stream_seek_abs(&(request->outbound_pbuf_stream), request->outbound_scoped_pdu_string_offset)); SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_OCTET_STRING, 3, frame_size + outbound_padding - request->outbound_scoped_pdu_string_offset - 1 - 3); OF_BUILD_EXEC(snmp_ans1_enc_tlv(&(request->outbound_pbuf_stream), &tlv)); OF_BUILD_EXEC(snmpv3_get_user((char *)request->msg_user_name, NULL, NULL, &algo, key)); OF_BUILD_EXEC(snmpv3_crypt(&request->outbound_pbuf_stream, tlv.value_len, key, request->msg_privacy_parameters, request->msg_authoritative_engine_boots, request->msg_authoritative_engine_time, algo, SNMP_V3_PRIV_MODE_ENCRYPT)); } if (request->version == SNMP_VERSION_3 && (request->msg_flags & SNMP_V3_AUTH_FLAG)) { u8_t key[20]; snmpv3_auth_algo_t algo; u8_t hmac[20]; OF_BUILD_EXEC(snmpv3_get_user((char *)request->msg_user_name, &algo, key, NULL, NULL)); OF_BUILD_EXEC(snmp_pbuf_stream_init(&(request->outbound_pbuf_stream), request->outbound_pbuf, 0, request->outbound_pbuf->tot_len)); OF_BUILD_EXEC(snmpv3_auth(&request->outbound_pbuf_stream, frame_size + outbound_padding, key, algo, hmac)); MEMCPY(request->msg_authentication_parameters, hmac, SNMP_V3_MAX_AUTH_PARAM_LENGTH); OF_BUILD_EXEC(snmp_pbuf_stream_init(&request->outbound_pbuf_stream, request->outbound_pbuf, 0, request->outbound_pbuf->tot_len)); OF_BUILD_EXEC(snmp_pbuf_stream_seek_abs(&request->outbound_pbuf_stream, request->outbound_msg_authentication_parameters_offset)); SNMP_ASN1_SET_TLV_PARAMS(tlv, SNMP_ASN1_TYPE_OCTET_STRING, 1, SNMP_V3_MAX_AUTH_PARAM_LENGTH); OF_BUILD_EXEC(snmp_ans1_enc_tlv(&request->outbound_pbuf_stream, &tlv)); OF_BUILD_EXEC(snmp_asn1_enc_raw(&request->outbound_pbuf_stream, request->msg_authentication_parameters, SNMP_V3_MAX_AUTH_PARAM_LENGTH)); } #endif pbuf_realloc(request->outbound_pbuf, frame_size + outbound_padding); snmp_stats.outgetresponses++; snmp_stats.outpkts++; return ERR_OK; } static void snmp_execute_write_callbacks(struct snmp_request *request) { struct snmp_varbind_enumerator inbound_varbind_enumerator; struct snmp_varbind vb; snmp_vb_enumerator_init(&inbound_varbind_enumerator, request->inbound_pbuf, request->inbound_varbind_offset, request->inbound_varbind_len); vb.value = NULL; /* do NOT decode value (we enumerate outbound buffer here, so all varbinds have values assigned, which we don't need here) */ while (snmp_vb_enumerator_get_next(&inbound_varbind_enumerator, &vb) == SNMP_VB_ENUMERATOR_ERR_OK) { snmp_write_callback(vb.oid.id, vb.oid.len, snmp_write_callback_arg); } } /* ----------------------------------------------------------------------- */ /* VarBind enumerator methods */ /* ----------------------------------------------------------------------- */ void snmp_vb_enumerator_init(struct snmp_varbind_enumerator *enumerator, struct pbuf *p, u16_t offset, u16_t length) { snmp_pbuf_stream_init(&(enumerator->pbuf_stream), p, offset, length); enumerator->varbind_count = 0; } #define VB_PARSE_EXEC(code) PARSE_EXEC(code, SNMP_VB_ENUMERATOR_ERR_ASN1ERROR) #define VB_PARSE_ASSERT(code) PARSE_ASSERT(code, SNMP_VB_ENUMERATOR_ERR_ASN1ERROR) snmp_vb_enumerator_err_t snmp_vb_enumerator_get_next(struct snmp_varbind_enumerator *enumerator, struct snmp_varbind *varbind) { struct snmp_asn1_tlv tlv; u16_t varbind_len; err_t err; if (enumerator->pbuf_stream.length == 0) { return SNMP_VB_ENUMERATOR_ERR_EOVB; } enumerator->varbind_count++; /* decode varbind itself (parent container of a varbind) */ VB_PARSE_EXEC(snmp_asn1_dec_tlv(&(enumerator->pbuf_stream), &tlv)); VB_PARSE_ASSERT((tlv.type == SNMP_ASN1_TYPE_SEQUENCE) && (tlv.value_len <= enumerator->pbuf_stream.length)); varbind_len = tlv.value_len; /* decode varbind name (object id) */ VB_PARSE_EXEC(snmp_asn1_dec_tlv(&(enumerator->pbuf_stream), &tlv)); VB_PARSE_ASSERT((tlv.type == SNMP_ASN1_TYPE_OBJECT_ID) && (SNMP_ASN1_TLV_LENGTH(tlv) < varbind_len) && (tlv.value_len < enumerator->pbuf_stream.length)); VB_PARSE_EXEC(snmp_asn1_dec_oid(&(enumerator->pbuf_stream), tlv.value_len, varbind->oid.id, &(varbind->oid.len), SNMP_MAX_OBJ_ID_LEN)); varbind_len -= SNMP_ASN1_TLV_LENGTH(tlv); /* decode varbind value (object id) */ VB_PARSE_EXEC(snmp_asn1_dec_tlv(&(enumerator->pbuf_stream), &tlv)); VB_PARSE_ASSERT((SNMP_ASN1_TLV_LENGTH(tlv) == varbind_len) && (tlv.value_len <= enumerator->pbuf_stream.length)); varbind->type = tlv.type; /* shall the value be decoded ? */ if (varbind->value != NULL) { switch (varbind->type) { case SNMP_ASN1_TYPE_INTEGER: VB_PARSE_EXEC(snmp_asn1_dec_s32t(&(enumerator->pbuf_stream), tlv.value_len, (s32_t *)varbind->value)); varbind->value_len = sizeof(s32_t); break; case SNMP_ASN1_TYPE_COUNTER: case SNMP_ASN1_TYPE_GAUGE: case SNMP_ASN1_TYPE_TIMETICKS: VB_PARSE_EXEC(snmp_asn1_dec_u32t(&(enumerator->pbuf_stream), tlv.value_len, (u32_t *)varbind->value)); varbind->value_len = sizeof(u32_t); break; case SNMP_ASN1_TYPE_OCTET_STRING: case SNMP_ASN1_TYPE_OPAQUE: err = snmp_asn1_dec_raw(&(enumerator->pbuf_stream), tlv.value_len, (u8_t *)varbind->value, &varbind->value_len, SNMP_MAX_VALUE_SIZE); if (err == ERR_MEM) { return SNMP_VB_ENUMERATOR_ERR_INVALIDLENGTH; } VB_PARSE_ASSERT(err == ERR_OK); break; case SNMP_ASN1_TYPE_NULL: varbind->value_len = 0; break; case SNMP_ASN1_TYPE_OBJECT_ID: /* misuse tlv.length_len as OID_length transporter */ err = snmp_asn1_dec_oid(&(enumerator->pbuf_stream), tlv.value_len, (u32_t *)varbind->value, &tlv.length_len, SNMP_MAX_OBJ_ID_LEN); if (err == ERR_MEM) { return SNMP_VB_ENUMERATOR_ERR_INVALIDLENGTH; } VB_PARSE_ASSERT(err == ERR_OK); varbind->value_len = tlv.length_len * sizeof(u32_t); break; case SNMP_ASN1_TYPE_IPADDR: if (tlv.value_len == 4) { /* must be exactly 4 octets! */ VB_PARSE_EXEC(snmp_asn1_dec_raw(&(enumerator->pbuf_stream), tlv.value_len, (u8_t *)varbind->value, &varbind->value_len, SNMP_MAX_VALUE_SIZE)); } else { VB_PARSE_ASSERT(0); } break; #if LWIP_HAVE_INT64 case SNMP_ASN1_TYPE_COUNTER64: VB_PARSE_EXEC(snmp_asn1_dec_u64t(&(enumerator->pbuf_stream), tlv.value_len, (u64_t *)varbind->value)); varbind->value_len = sizeof(u64_t); break; #endif default: VB_PARSE_ASSERT(0); break; } } else { snmp_pbuf_stream_seek(&(enumerator->pbuf_stream), tlv.value_len); varbind->value_len = tlv.value_len; } return SNMP_VB_ENUMERATOR_ERR_OK; } #endif /* LWIP_SNMP */