#!/usr/bin/env python3 from python_sdk_api.sx_api import * import inspect DEVICE_ID = 1 SWITCH_ID = 0 ETHERNET_PREFIX = 'Ethernet' ASIC_MAX_LANES = {SX_CHIP_TYPE_SPECTRUM: 4, SX_CHIP_TYPE_SPECTRUM2: 4, SX_CHIP_TYPE_SPECTRUM3: 8, SX_CHIP_TYPE_SPECTRUM4: 8} def sx_get_ports_map(handle): """ Get ports map from SDK logical index to SONiC index Args: handle (sx_api_handle_t): SDK handle Returns: dict : Dictionary of ports indices. Key is SDK logical index, value is SONiC index (4 for Ethernet4) """ try: ports_map = {} # Get chip type chip_type = sx_get_chip_type(handle) # Get ports count port_cnt_p = new_uint32_t_p() rc = sx_api_port_device_get(handle, DEVICE_ID, SWITCH_ID, None, port_cnt_p) sx_check_rc(rc) # Get ports port_cnt = uint32_t_p_value(port_cnt_p) port_attributes_list = new_sx_port_attributes_t_arr(port_cnt) rc = sx_api_port_device_get(handle, DEVICE_ID, SWITCH_ID, port_attributes_list, port_cnt_p) sx_check_rc(rc) for i in range(0, port_cnt): port_attributes = sx_port_attributes_t_arr_getitem(port_attributes_list, i) label_port = port_attributes.port_mapping.module_port logical_port = port_attributes.log_port; lane_bmap = port_attributes.port_mapping.lane_bmap; if (is_phy_port(port_attributes.log_port) == False): continue # Calculate sonic index (sonic index=4 for Ethernet4) lane_index = get_lane_index(lane_bmap, ASIC_MAX_LANES[chip_type]) assert lane_index != -1, "Failed to calculate port index" sonic_index = label_port * ASIC_MAX_LANES[chip_type] + lane_index; sonic_interface = ETHERNET_PREFIX + str(sonic_index) ports_map[logical_port] = sonic_interface return ports_map finally: delete_sx_port_attributes_t_arr(port_attributes_list) delete_uint32_t_p(port_cnt_p) def sx_get_chip_type(handle): """ Get system ASIC type Args: handle (sx_api_handle_t): SDK handle Returns: sx_chip_types_t : Chip type """ try: device_info_cnt_p = new_uint32_t_p() uint32_t_p_assign(device_info_cnt_p, 1) device_info_cnt = uint32_t_p_value(device_info_cnt_p) device_info_list_p = new_sx_device_info_t_arr(device_info_cnt) rc = sx_api_port_device_list_get(handle, device_info_list_p, device_info_cnt_p) sx_check_rc(rc) device_info = sx_device_info_t_arr_getitem(device_info_list_p, SWITCH_ID) chip_type = device_info.dev_type if chip_type == SX_CHIP_TYPE_SPECTRUM_A1: chip_type = SX_CHIP_TYPE_SPECTRUM return chip_type finally: delete_sx_device_info_t_arr(device_info_list_p) delete_uint32_t_p(device_info_cnt_p) def get_lane_index(lane_bmap, max_lanes): """ Get index of first lane in use (2 for 00001100) Args: lane_bmap (int): bitmap indicating module lanes in use max_lanes (int): Max lanes in module Returns: int : index of the first bit set to 1 in lane_bmap """ for lane_idx in range(0, max_lanes): if (lane_bmap & 0x1 == 1): return lane_idx lane_bmap = lane_bmap >> 1 def sx_check_rc(rc): if rc is not SX_STATUS_SUCCESS: # Get the calling function name from the last frame cf = inspect.currentframe().f_back func_name = inspect.getframeinfo(cf).function error_info = func_name + ' failed with rc = ' + str(rc) raise Exception(error_info) def get_port_type(log_port_id): return (log_port_id & SX_PORT_TYPE_ID_MASK) >> SX_PORT_TYPE_ID_OFFS def is_phy_port(log_port_id): return get_port_type(log_port_id) == SX_PORT_TYPE_NETWORK def is_lag(log_port_id): return get_port_type(log_port_id) == SX_PORT_TYPE_LAG