/* * Copyright (C) 2013 Realtek Semiconductor Corp. * All Rights Reserved. * * This program is the proprietary software of Realtek Semiconductor * Corporation and/or its licensors, and only be used, duplicated, * modified or distributed under the authorized license from Realtek. * * ANY USE OF THE SOFTWARE OTHER THAN AS AUTHORIZED UNDER * THIS LICENSE OR COPYRIGHT LAW IS PROHIBITED. * * $Revision$ * $Date$ * * Purpose : RTK switch high-level API for RTL8373 * Feature : Here is a list of all functions and variables in SVLAN module. * */ #include #include #include #include #include #include /* Function Name: * rtk_svlan_init * Description: * Initialize SVLAN Configuration * Input: * None * Output: * None * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * Note: * Ether type of S-tag in 802.1ad is 0x88a8 and there are existed ether type 0x9100 and 0x9200 for Q-in-Q SLAN design. * User can set mathced ether type as service provider supported protocol. */ rtk_api_ret_t rtk_svlan_init(void) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_init) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_init(); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_servicePort_add * Description: * Add one service port in the specified device * Input: * port - Port id. * Output: * None * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * RT_ERR_PORT_ID - Invalid port number. * RT_ERR_INPUT - Invalid input parameters. * Note: * This API is setting which port is connected to provider switch. All frames receiving from this port must * contain accept SVID in S-tag field. */ rtk_api_ret_t rtk_svlan_servicePort_add(rtk_port_t port) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_servicePort_add) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_servicePort_add(port); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_servicePort_get * Description: * Get service ports in the specified device. * Input: * None * Output: * pSvlanPortmask - pointer buffer of svlan ports. * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * Note: * This API is setting which port is connected to provider switch. All frames receiving from this port must * contain accept SVID in S-tag field. */ rtk_api_ret_t rtk_svlan_servicePort_get(rtk_portmask_t *pSvlanPortmask) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_servicePort_get) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_servicePort_get(pSvlanPortmask); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_servicePort_del * Description: * Delete one service port in the specified device * Input: * port - Port id. * Output: * None * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * RT_ERR_PORT_ID - Invalid port number. * Note: * This API is removing SVLAN service port in the specified device. */ rtk_api_ret_t rtk_svlan_servicePort_del(rtk_port_t port) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_servicePort_del) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_servicePort_del(port); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_tpidEntry_set * Description: * Configure accepted S-VLAN ether type. * Input: * svlanTpid - Ether type of S-tag frame parsing in uplink ports. * Output: * None * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * RT_ERR_INPUT - Invalid input parameter. * Note: * Ether type of S-tag in 802.1ad is 0x88a8 and there are existed ether type 0x9100 and 0x9200 for Q-in-Q SLAN design. * User can set mathced ether type as service provider supported protocol. */ rtk_api_ret_t rtk_svlan_tpidEntry_set(rtk_svlan_tpid_t svlanTpid) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_tpidEntry_set) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_tpidEntry_set(svlanTpid); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_tpidEntry_get * Description: * Get accepted S-VLAN ether type setting. * Input: * None * Output: * pSvlanTpid - Ether type of S-tag frame parsing in uplink ports. * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * Note: * This API is setting which port is connected to provider switch. All frames receiving from this port must * contain accept SVID in S-tag field. */ rtk_api_ret_t rtk_svlan_tpidEntry_get(rtk_svlan_tpid_t *pSvlanTpid) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_tpidEntry_get) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_tpidEntry_get(pSvlanTpid); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_priorityRef_set * Description: * Set S-VLAN upstream priority reference setting. * Input: * ref - reference selection parameter. * Output: * None * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * RT_ERR_INPUT - Invalid input parameter. * Note: * The API can set the upstream SVLAN tag priority reference source. The related priority * sources are as following: * - REF_INTERNAL_PRI, * - REF_CTAG_PRI, * - REF_SVLAN_PRI, * - REF_PB_PRI. */ rtk_api_ret_t rtk_svlan_priorityRef_set(rtk_svlan_pri_ref_t ref) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_priorityRef_set) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_priorityRef_set(ref); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_priorityRef_get * Description: * Get S-VLAN upstream priority reference setting. * Input: * None * Output: * pRef - reference selection parameter. * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * Note: * The API can get the upstream SVLAN tag priority reference source. The related priority * sources are as following: * - REF_INTERNAL_PRI, * - REF_CTAG_PRI, * - REF_SVLAN_PRI, * - REF_PB_PRI */ rtk_api_ret_t rtk_svlan_priorityRef_get(rtk_svlan_pri_ref_t *pRef) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_priorityRef_get) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_priorityRef_get(pRef); RTK_API_UNLOCK(); return retVal; } #if 0 /* Function Name: * rtk_svlan_memberPortEntry_set * Description: * Configure system SVLAN member content * Input: * svid - SVLAN id * psvlan_cfg - SVLAN member configuration * Output: * None * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * RT_ERR_INPUT - Invalid input parameter. * RT_ERR_SVLAN_VID - Invalid SVLAN VID parameter. * RT_ERR_PORT_MASK - Invalid portmask. * RT_ERR_SVLAN_TABLE_FULL - SVLAN configuration is full. * Note: * The API can set system 64 accepted s-tag frame format. Only 64 SVID S-tag frame will be accpeted * to receiving from uplink ports. Other SVID S-tag frame or S-untagged frame will be droped by default setup. * - rtk_svlan_memberCfg_t->svid is SVID of SVLAN member configuration. * - rtk_svlan_memberCfg_t->memberport is member port mask of SVLAN member configuration. * - rtk_svlan_memberCfg_t->fid is filtering database of SVLAN member configuration. * - rtk_svlan_memberCfg_t->priority is priority of SVLAN member configuration. */ rtk_api_ret_t rtk_svlan_memberPortEntry_set(rtk_vlan_t svid, rtk_svlan_memberCfg_t *pSvlan_cfg) { rtk_api_ret_t retVal; if (NULL == RT_MAPPER->svlan_memberPortEntry_set) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_memberPortEntry_set(svid, pSvlan_cfg); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_memberPortEntry_get * Description: * Get SVLAN member Configure. * Input: * svid - SVLAN id * Output: * pSvlan_cfg - SVLAN member configuration * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * RT_ERR_SVLAN_ENTRY_NOT_FOUND - specified svlan entry not found. * RT_ERR_INPUT - Invalid input parameters. * Note: * The API can get system 64 accepted s-tag frame format. Only 64 SVID S-tag frame will be accpeted * to receiving from uplink ports. Other SVID S-tag frame or S-untagged frame will be droped. */ rtk_api_ret_t rtk_svlan_memberPortEntry_get(rtk_vlan_t svid, rtk_svlan_memberCfg_t *pSvlan_cfg) { rtk_api_ret_t retVal; if (NULL == RT_MAPPER->svlan_memberPortEntry_get) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_memberPortEntry_get(svid, pSvlan_cfg); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_memberPortEntry_adv_set * Description: * Configure system SVLAN member by index * Input: * idx - Index (0 ~ 63) * psvlan_cfg - SVLAN member configuration * Output: * None * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * RT_ERR_INPUT - Invalid input parameter. * RT_ERR_SVLAN_VID - Invalid SVLAN VID parameter. * RT_ERR_PORT_MASK - Invalid portmask. * RT_ERR_SVLAN_TABLE_FULL - SVLAN configuration is full. * Note: * The API can set system 64 accepted s-tag frame format by index. * - rtk_svlan_memberCfg_t->svid is SVID of SVLAN member configuration. * - rtk_svlan_memberCfg_t->memberport is member port mask of SVLAN member configuration. * - rtk_svlan_memberCfg_t->fid is filtering database of SVLAN member configuration. * - rtk_svlan_memberCfg_t->priority is priority of SVLAN member configuration. */ rtk_api_ret_t rtk_svlan_memberPortEntry_adv_set(rtk_uint32 idx, rtk_svlan_memberCfg_t *pSvlan_cfg) { rtk_api_ret_t retVal; if (NULL == RT_MAPPER->svlan_memberPortEntry_adv_set) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_memberPortEntry_adv_set(idx, pSvlan_cfg); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_memberPortEntry_adv_get * Description: * Get SVLAN member Configure by index. * Input: * idx - Index (0 ~ 63) * Output: * pSvlan_cfg - SVLAN member configuration * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * RT_ERR_SVLAN_ENTRY_NOT_FOUND - specified svlan entry not found. * RT_ERR_INPUT - Invalid input parameters. * Note: * The API can get system 64 accepted s-tag frame format. Only 64 SVID S-tag frame will be accpeted * to receiving from uplink ports. Other SVID S-tag frame or S-untagged frame will be droped. */ rtk_api_ret_t rtk_svlan_memberPortEntry_adv_get(rtk_uint32 idx, rtk_svlan_memberCfg_t *pSvlan_cfg) { rtk_api_ret_t retVal; if (NULL == RT_MAPPER->svlan_memberPortEntry_adv_get) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_memberPortEntry_adv_get(idx, pSvlan_cfg); RTK_API_UNLOCK(); return retVal; } #endif /* Function Name: * rtk_svlan_defaultSvlan_set * Description: * Configure default egress SVLAN. * Input: * port - Source port * svid - SVLAN id * Output: * None * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * RT_ERR_INPUT - Invalid input parameter. * RT_ERR_SVLAN_VID - Invalid SVLAN VID parameter. * RT_ERR_SVLAN_ENTRY_NOT_FOUND - specified svlan entry not found. * Note: * The API can set port n S-tag format index while receiving frame from port n * is transmit through uplink port with s-tag field */ rtk_api_ret_t rtk_svlan_defaultSvlan_set(rtk_port_t port, rtk_vlan_t svid) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_defaultSvlan_set) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_defaultSvlan_set(port, svid); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_defaultSvlan_get * Description: * Get the configure default egress SVLAN. * Input: * port - Source port * Output: * pSvid - SVLAN VID * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * RT_ERR_INPUT - Invalid input parameters. * Note: * The API can get port n S-tag format index while receiving frame from port n * is transmit through uplink port with s-tag field */ rtk_api_ret_t rtk_svlan_defaultSvlan_get(rtk_port_t port, rtk_vlan_t *pSvid) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_defaultSvlan_get) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_defaultSvlan_get(port, pSvid); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_c2s_add * Description: * Configure SVLAN C2S table * Input: * vid - VLAN ID * srcPort - Ingress Port * svid - SVLAN VID * Output: * None * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * RT_ERR_PORT_ID - Invalid port ID. * RT_ERR_SVLAN_VID - Invalid SVLAN VID parameter. * RT_ERR_VLAN_VID - Invalid VID parameter. * RT_ERR_OUT_OF_RANGE - input out of range. * RT_ERR_INPUT - Invalid input parameters. * Note: * The API can set system C2S configuration. ASIC will check upstream's VID and assign related * SVID to mathed packet. There are 128 SVLAN C2S configurations. */ rtk_api_ret_t rtk_svlan_c2s_add(rtk_vlan_t vid, rtk_port_t srcPort, rtk_vlan_t svid) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_c2s_add) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_c2s_add(vid, srcPort, svid); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_c2s_del * Description: * Delete one C2S entry * Input: * vid - VLAN ID * srcPort - Ingress Port * svid - SVLAN VID * Output: * None * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * RT_ERR_VLAN_VID - Invalid VID parameter. * RT_ERR_PORT_ID - Invalid port ID. * RT_ERR_OUT_OF_RANGE - input out of range. * Note: * The API can delete system C2S configuration. There are 128 SVLAN C2S configurations. */ rtk_api_ret_t rtk_svlan_c2s_del(rtk_vlan_t vid, rtk_port_t srcPort) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_c2s_del) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_c2s_del(vid, srcPort); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_c2s_get * Description: * Get configure SVLAN C2S table * Input: * vid - VLAN ID * srcPort - Ingress Port * Output: * pSvid - SVLAN ID * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * RT_ERR_INPUT - Invalid input parameters. * RT_ERR_PORT_ID - Invalid port ID. * RT_ERR_OUT_OF_RANGE - input out of range. * Note: * The API can get system C2S configuration. There are 128 SVLAN C2S configurations. */ rtk_api_ret_t rtk_svlan_c2s_get(rtk_vlan_t vid, rtk_port_t srcPort, rtk_vlan_t *pSvid) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_c2s_get) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_c2s_get(vid, srcPort, pSvid); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_untag_action_set * Description: * Configure Action of downstream UnStag packet * Input: * action - Action for UnStag * svid - The SVID assigned to UnStag packet * Output: * None * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * RT_ERR_SVLAN_VID - Invalid SVLAN VID parameter. * RT_ERR_SVLAN_ENTRY_NOT_FOUND - specified svlan entry not found. * RT_ERR_OUT_OF_RANGE - input out of range. * RT_ERR_INPUT - Invalid input parameters. * Note: * The API can configure action of downstream Un-Stag packet. A SVID assigned * to the un-stag is also supported by this API. The parameter of svid is * only referenced when the action is set to UNTAG_ASSIGN */ rtk_api_ret_t rtk_svlan_untag_action_set(rtk_svlan_untag_action_t action, rtk_vlan_t svid) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_untag_action_set) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_untag_action_set(action, svid); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_untag_action_get * Description: * Get Action of downstream UnStag packet * Input: * None * Output: * pAction - Action for UnStag * pSvid - The SVID assigned to UnStag packet * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_SMI - SMI access error * RT_ERR_SVLAN_VID - Invalid SVLAN VID parameter. * RT_ERR_SVLAN_ENTRY_NOT_FOUND - specified svlan entry not found. * RT_ERR_OUT_OF_RANGE - input out of range. * RT_ERR_INPUT - Invalid input parameters. * Note: * The API can Get action of downstream Un-Stag packet. A SVID assigned * to the un-stag is also retrieved by this API. The parameter pSvid is * only refernced when the action is UNTAG_ASSIGN */ rtk_api_ret_t rtk_svlan_untag_action_get(rtk_svlan_untag_action_t *pAction, rtk_vlan_t *pSvid) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_untag_action_get) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_untag_action_get(pAction, pSvid); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_unassign_action_set * Description: * Configure Action of upstream without svid assign action * Input: * action - Action for Un-assign * Output: * None * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * RT_ERR_OUT_OF_RANGE - input out of range. * RT_ERR_INPUT - Invalid input parameters. * Note: * The API can configure action of upstream Un-assign svid packet. If action is not * trap to CPU, the port-based SVID sure be assign as system need */ rtk_api_ret_t rtk_svlan_unassign_action_set(rtk_svlan_unassign_action_t action) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_unassign_action_set) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_unassign_action_set(action); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_unassign_action_get * Description: * Get action of upstream without svid assignment * Input: * None * Output: * pAction - Action for Un-assign * Return: * RT_ERR_OK - OK * RT_ERR_FAILED - Failed * Note: * None */ rtk_api_ret_t rtk_svlan_unassign_action_get(rtk_svlan_unassign_action_t *pAction) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_unassign_action_get) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_unassign_action_get(pAction); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_trapPri_set * Description: * Set svlan trap priority * Input: * priority - priority for trap packets * Output: * None * Return: * RT_ERR_OK * RT_ERR_FAILED * RT_ERR_QOS_INT_PRIORITY * Note: * None */ rtk_api_ret_t rtk_svlan_trapPri_set(rtk_pri_t priority) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_trapPri_set) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_trapPri_set(priority); RTK_API_UNLOCK(); return retVal; } /* end of rtk_svlan_trapPri_set */ /* Function Name: * rtk_svlan_trapPri_get * Description: * Get svlan trap priority * Input: * None * Output: * pPriority - priority for trap packets * Return: * RT_ERR_OK * RT_ERR_FAILED * RT_ERR_NULL_POINTER - input parameter may be null pointer * Note: * None */ rtk_api_ret_t rtk_svlan_trapPri_get(rtk_pri_t *pPriority) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_trapPri_get) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_trapPri_get(pPriority); RTK_API_UNLOCK(); return retVal; } /* end of rtk_svlan_trapPri_get */ /* Function Name: * rtk_svlan_trapCpumsk_set * Description: * Set svlan trap priority * Input: * cpuMsk - cpu mask for trap packets * Output: * None * Return: * RT_ERR_OK * RT_ERR_FAILED * RT_ERR_QOS_INT_PRIORITY * Note: * None */ rtk_api_ret_t rtk_svlan_trapCpumsk_set(rtk_uint32 cpuMsk) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_trapCpuMsk_set) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_trapCpuMsk_set(cpuMsk); RTK_API_UNLOCK(); return retVal; } /* Function Name: * rtk_svlan_trapCpumsk_get * Description: * Get svlan trap cpu mask * Input: * None * Output: * pCpuMsk - cpu mask for trap packets * Return: * RT_ERR_OK * RT_ERR_FAILED * RT_ERR_NULL_POINTER - input parameter may be null pointer * Note: * None */ rtk_api_ret_t rtk_svlan_trapCpumsk_get(rtk_uint32 *pCpuMsk) { rtk_api_ret_t retVal = 0; if (NULL == RT_MAPPER->svlan_trapCpuMsk_get) return RT_ERR_DRIVER_NOT_FOUND; RTK_API_LOCK(); retVal = RT_MAPPER->svlan_trapCpuMsk_get(pCpuMsk); RTK_API_UNLOCK(); return retVal; }