| # |
| # $Id: config-sand.bcm,v 1.140 2013/09/22 14:29:47 tomerma Exp $ |
| # |
| # $Copyright: (c) 2011 Broadcom Corporation |
| # All Rights Reserved.$ |
| |
| ######################################### |
| ##cfg for BCM88640 (PetraB) and BCM88650 (Arad) |
| ######################################### |
| |
| ## temporary suppressing unknown soc properties warnings - till adding them unknown to property.h/propgen |
| ## (need to be the first soc property in the file). |
| suppress_unknown_prop_warnings=1 |
| |
| ## Multi device system (Negev): 2 devices, fabric mode is FE, mod id is slot id |
| ## (Top line card is 0, button is 1). |
| #diag_chassis=1 |
| |
| ## Disable diag init application. Should be used if one wants to run his own |
| ## application instead of the diag init example |
| #diag_disable=1 |
| |
| ## Skip cosq configuration in diag_init |
| #diag_cosq_disable=1 |
| |
| ######################################### |
| ##cfg for BCM88650 - Arad |
| ######################################### |
| |
| ### Device configuration ### |
| |
| ## Activate Emulation partial init. Values: 0 - Normal, 1 - Emulation .Default: 0x0. |
| diag_emulator_partial_init.BCM88650=0 |
| |
| ## General |
| # Set the FAP Device mode |
| # Options: PP / TM / TDM_OPTIMIZED / TDM_STANDARD |
| fap_device_mode.BCM88650=PP |
| |
| ## Credit worth size (Bytes) |
| credit_size.BCM88650=1024 |
| |
| ## Clock configurations |
| # Core clock speed (MHz). Default: 600 MHz |
| core_clock_speed_khz.BCM88650=600000 |
| # System reference clock (MHz). Default: 600 MHz |
| system_ref_core_clock_khz.BCM88650=600000 |
| |
| ### Network Interface configuration ### |
| ## Use of the ucode_port_<Local-Port-Id>=<Interface-type>[<Interface-Id>][.<Channel-Id>] |
| ## Local port range: 0 - 255. |
| ## Interface types: XAUI/RXAUI/SGMII/ILKN/10GBase-R/XLGE/CGE/CPU |
| |
| # Map bcm local port to CPU[.channel] interfaces |
| ucode_port_180.BCM88650=CPU.0 |
| |
| pon_application_support_enabled_0.BCM88650=TRUE |
| pon_application_support_enabled_1.BCM88650=TRUE |
| pon_application_support_enabled_2.BCM88650=TRUE |
| pon_application_support_enabled_3.BCM88650=TRUE |
| #pon_application_support_enabled_4.BCM88650=TRUE |
| #pon_application_support_enabled_5.BCM88650=TRUE |
| #pon_application_support_enabled_6.BCM88650=TRUE |
| #pon_application_support_enabled_7.BCM88650=TRUE |
| |
| vlan_match_criteria_mode=PON_PCP_ETHERTYPE |
| |
| #Firmware mode: |
| # 0=DEFAULT |
| # 1=SFP_OPT_SR4 - optical short range |
| # 2=SFP_DAC - direct attach copper |
| # 3=XLAUI - 40G XLAUI mode |
| # 4=FORCE_OSDFE - force over sample digital feedback equalization |
| # 5=FORCE_BRDFE - force baud rate digital feedback equalization |
| # 6=SW_CL72 - software cl72 with AN on |
| # 7=CL72_WITHOUT_AN - cl72 without AN |
| #For Negev2 chassis enable DFE is recommended |
| |
| serdes_if_type=1024 |
| |
| #serdes_firmware_mode.BCM88650=3 |
| serdes_firmware_mode_il.BCM88650=4 |
| serdes_firmware_mode_sfi.BCM88650=0 |
| |
| # |
| # Serdes firmware mode for Channelized PON interfaces |
| # |
| #serdes_firmware_mode_xe0.BCM88650=0 |
| #serdes_firmware_mode_xe1.BCM88650=0 |
| #serdes_firmware_mode_xe2.BCM88650=0 |
| #serdes_firmware_mode_xe3.BCM88650=0 |
| #serdes_firmware_mode_xe4.BCM88650=0 |
| #serdes_firmware_mode_xe5.BCM88650=0 |
| #serdes_firmware_mode_xe6.BCM88650=0 |
| #serdes_firmware_mode_xe7.BCM88650=0 |
| #serdes_firmware_mode_xe8.BCM88650=0 |
| #serdes_firmware_mode_xe9.BCM88650=0 |
| #serdes_firmware_mode_xe10.BCM88650=0 |
| #serdes_firmware_mode_xe11.BCM88650=0 |
| #serdes_firmware_mode_xe12.BCM88650=0 |
| #serdes_firmware_mode_xe13.BCM88650=0 |
| #serdes_firmware_mode_xe14.BCM88650=0 |
| #serdes_firmware_mode_xe15.BCM88650=0 |
| |
| # |
| # Serdes firmware mode for NNI interfaces |
| # |
| serdes_firmware_mode_xe128.BCM88650=2 |
| serdes_firmware_mode_xe129.BCM88650=2 |
| serdes_firmware_mode_xe130.BCM88650=2 |
| serdes_firmware_mode_xe131.BCM88650=2 |
| serdes_firmware_mode_xe0.BCM88650=2 |
| serdes_firmware_mode_xe1.BCM88650=2 |
| serdes_firmware_mode_xe2.BCM88650=2 |
| serdes_firmware_mode_xe3.BCM88650=2 |
| |
| # |
| # Set the speed for the PON-side ports (connected to Pioneer) to 12.5G |
| # |
| #port_init_speed_xe0.BCM88650=12500 |
| #port_init_speed_xe1.BCM88650=12500 |
| #IL# change xe3, xe2 speed to 2.5G and 1G |
| port_init_speed_xe2.BCM88650=2500 |
| port_init_speed_xe3.BCM88650=1000 |
| #port_init_speed_xe4.BCM88650=12500 |
| #port_init_speed_xe5.BCM88650=12500 |
| #port_init_speed_xe6.BCM88650=12500 |
| #port_init_speed_xe7.BCM88650=12500 |
| #port_init_speed_xe8.BCM88650=12500 |
| #port_init_speed_xe9.BCM88650=12500 |
| #port_init_speed_xe10.BCM88650=12500 |
| #port_init_speed_xe11.BCM88650=12500 |
| #port_init_speed_xe12.BCM88650=12500 |
| #port_init_speed_xe13.BCM88650=12500 |
| #port_init_speed_xe14.BCM88650=12500 |
| #port_init_speed_xe15.BCM88650=12500 |
| |
| # |
| # Set the number of priorities for the PON-side ports (connected to |
| # Pioneer) to '2'. |
| # |
| port_priorities_xe0.BCM88650=2 |
| port_priorities_xe1.BCM88650=2 |
| port_priorities_xe2.BCM88650=2 |
| port_priorities_xe3.BCM88650=2 |
| #port_priorities_xe4.BCM88650=2 |
| #port_priorities_xe5.BCM88650=2 |
| #port_priorities_xe6.BCM88650=2 |
| #port_priorities_xe7.BCM88650=2 |
| #port_priorities_xe8.BCM88650=2 |
| #port_priorities_xe9.BCM88650=2 |
| #port_priorities_xe10.BCM88650=2 |
| #port_priorities_xe11.BCM88650=2 |
| #port_priorities_xe12.BCM88650=2 |
| #port_priorities_xe13.BCM88650=2 |
| #port_priorities_xe14.BCM88650=2 |
| #port_priorities_xe15.BCM88650=2 |
| |
| # |
| # Map bcm local port to Network-Interface[.channel] interfaces |
| # |
| # PON Interfaces |
| # |
| |
| # |
| # Non-channelized PON Interfaces |
| # |
| # Uncomment the following if using non-channelized PON interfaces with |
| # Pioneer. |
| # |
| #ucode_port_0.BCM88650=10GBase-R8 |
| #ucode_port_1.BCM88650=10GBase-R9 |
| #ucode_port_2.BCM88650=10GBase-R10 |
| #ucode_port_3.BCM88650=10GBase-R11 |
| #ucode_port_4.BCM88650=10GBase-R12 |
| #ucode_port_5.BCM88650=10GBase-R13 |
| #ucode_port_6.BCM88650=10GBase-R14 |
| #ucode_port_7.BCM88650=10GBase-R15 |
| |
| # |
| # Channelized PON Interfaces |
| # |
| # Define virtual ports for the 10G Channels |
| # |
| #ucode_port_0.BCM88650=10GBase-R8.0 |
| #ucode_port_1.BCM88650=10GBase-R9.0 |
| #ucode_port_2.BCM88650=10GBase-R10.0 |
| #ucode_port_3.BCM88650=10GBase-R11.0 |
| #ucode_port_4.BCM88650=10GBase-R12.0 |
| #ucode_port_5.BCM88650=10GBase-R13.0 |
| #ucode_port_6.BCM88650=10GBase-R14.0 |
| #ucode_port_7.BCM88650=10GBase-R15.0 |
| |
| # |
| # Define virtual ports for the 1G Channels |
| # |
| #ucode_port_8.BCM88650=10GBase-R8.1 |
| #ucode_port_9.BCM88650=10GBase-R9.1 |
| #ucode_port_10.BCM88650=10GBase-R10.1 |
| #ucode_port_11.BCM88650=10GBase-R11.1 |
| #ucode_port_12.BCM88650=10GBase-R12.1 |
| #ucode_port_13.BCM88650=10GBase-R13.1 |
| #ucode_port_14.BCM88650=10GBase-R14.1 |
| #ucode_port_15.BCM88650=10GBase-R15.1 |
| |
| # |
| # NNI Interfaces |
| # |
| ucode_port_128.BCM88650=10GBase-R0 |
| ucode_port_129.BCM88650=10GBase-R1 |
| ucode_port_130.BCM88650=10GBase-R2 |
| ucode_port_131.BCM88650=10GBase-R3 |
| ucode_port_0.BCM88650=10GBase-R4 |
| ucode_port_1.BCM88650=10GBase-R5 |
| ucode_port_2.BCM88650=10GBase-R6 |
| ucode_port_3.BCM88650=10GBase-R7 |
| |
| #ucode_port_200.BCM88650=CPU.1 |
| #ucode_port_201.BCM88650=CPU.2 |
| #ucode_port_202.BCM88650=CPU.3 |
| #ucode_port_203.BCM88650=CPU.4 |
| |
| #40G |
| #ucode_port_1.BCM88650=XLGE0 |
| #ucode_port_2.BCM88650=XLGE1 |
| #ucode_port_3.BCM88650=XLGE2 |
| #ucode_port_4.BCM88650=XLGE3 |
| #ucode_port_5.BCM88650=XLGE4 |
| #ucode_port_6.BCM88650=XLGE5 |
| #ucode_port_7.BCM88650=XLGE6 |
| |
| #ILKN configuration - basic config |
| #ucode_port_31.BCM88650=ILKN0 |
| #ucode_port_32.BCM88650=ILKN1 |
| #ilkn_num_lanes_0.BCM88650=12 |
| #ilkn_num_lanes_1.BCM88650=12 |
| #port_init_speed_il.BCM88650=10312 |
| |
| |
| #ILKN per port channel stat |
| #ilkn_counters_mode.BCM88650=PACKET_PER_CHANNEL |
| |
| #ILKN configuration - advanced |
| #ilkn_metaframe_sync_period=2048 |
| # Enable\Disable ILKN status message sent through an out-of-band interface. |
| # ilkn_interface_status_oob_ignore.BCM88650=1 |
| |
| ##ILKN retransmit |
| #ilkn_retransmit_enable_rx.BCM88650=1 |
| #ilkn_retransmit_enable_tx.BCM88650=1 |
| #ilkn_retransmit_buffer_size.BCM88650=250 |
| #ilkn_retransmit_num_requests_resent.BCM88650=15 |
| #ilkn_retransmit_num_sn_repetitions_tx.BCM88650=1 |
| #ilkn_retransmit_num_sn_repetitions_rx.BCM88650=1 |
| #ilkn_retransmit_rx_timeout_words.BCM88650=3800 |
| #ilkn_retransmit_rx_timeout_sn.BCM88650=250 |
| #ilkn_retransmit_rx_ignore.BCM88650=80 |
| #ilkn_retransmit_rx_reset_when_error_enable.BCM88650=1 |
| #ilkn_retransmit_rx_watchdog.BCM88650=0 |
| #ilkn_retransmit_rx_reset_when_alligned_error_enable.BCM88650=1 |
| #ilkn_retransmit_rx_reset_when_retry_error_enable.BCM88650=1 |
| #ilkn_retransmit_rx_reset_when_wrap_after_disc_error_enable.BCM88650=1 |
| #ilkn_retransmit_rx_reset_when_wrap_before_disc_error_enable.BCM88650=0 |
| #ilkn_retransmit_rx_reset_when_timout_error_enable.BCM88650=0 |
| #ilkn_retransmit_tx_wait_for_seq_num_change_enable.BCM88650=1 |
| #ilkn_retransmit_tx_ignore_requests_when_fifo_almost_empty.BCM88650=1 |
| |
| #ucode_port_40.BCM88650=RCY.0 |
| #ucode_port_41.BCM88650=RCY.1 |
| #ucode_port_42.BCM88650=RCY.2 |
| |
| ## CAUI Configuration |
| #ucode_port_41.BCM88650=CGE0 |
| #ucode_port_42.BCM88650=CGE1 |
| caui_num_lanes_0.BCM88650=10 |
| caui_num_lanes_1.BCM88650=10 |
| #Required for working IXIA 100G port: |
| mld_lane_swap_lane20_ce.BCM88650=0 |
| mld_lane_swap_lane21_ce.BCM88650=1 |
| mld_lane_swap_lane0_ce.BCM88650=20 |
| mld_lane_swap_lane1_ce.BCM88650=21 |
| |
| # This configures the lane polarity |
| pb_serdes_lane_swap_polarity_tx_phy1.BCM88650=1 |
| pb_serdes_lane_swap_polarity_tx_phy2.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy3.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy4.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy5.BCM88650=1 |
| pb_serdes_lane_swap_polarity_tx_phy6.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy7.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy8.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy9.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy10.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy11.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy12.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy13.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy14.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy15.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy16.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy17.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy18.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy19.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy20.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy21.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy22.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy23.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy24.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy25.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy26.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy27.BCM88650=0 |
| pb_serdes_lane_swap_polarity_tx_phy28.BCM88650=0 |
| |
| pb_serdes_lane_swap_polarity_rx_phy1.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy2.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy3.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy4.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy5.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy6.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy7.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy8.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy9.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy10.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy11.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy12.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy13.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy14.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy15.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy16.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy17.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy18.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy19.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy20.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy21.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy22.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy23.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy24.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy25.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy26.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy27.BCM88650=0 |
| pb_serdes_lane_swap_polarity_rx_phy28.BCM88650=0 |
| |
| xgxs_tx_lane_map_quad0.BCM88650=0x3210 |
| xgxs_tx_lane_map_quad1.BCM88650=0x3210 |
| xgxs_tx_lane_map_quad2.BCM88650=0x3210 |
| xgxs_tx_lane_map_quad3.BCM88650=0x3210 |
| xgxs_tx_lane_map_quad4.BCM88650=0x3210 |
| xgxs_tx_lane_map_quad5.BCM88650=0x3210 |
| xgxs_tx_lane_map_quad6.BCM88650=0x3210 |
| |
| xgxs_rx_lane_map_quad0.BCM88650=0x3210 |
| xgxs_rx_lane_map_quad1.BCM88650=0x3210 |
| xgxs_rx_lane_map_quad2.BCM88650=0x3210 |
| xgxs_rx_lane_map_quad3.BCM88650=0x3210 |
| xgxs_rx_lane_map_quad4.BCM88650=0x3210 |
| xgxs_rx_lane_map_quad5.BCM88650=0x3210 |
| xgxs_rx_lane_map_quad6.BCM88650=0x3210 |
| |
| |
| |
| #High voltage driver strap. If 0, connected to 1.4V supply; if 1, connected to 1V mode. |
| #for specific quad use srd_tx_drv_hv_disable_quad_X where X is (FSRD num * 4 + internal quad) |
| srd_tx_drv_hv_disable.BCM88650=1 |
| |
| #Port init mode |
| #port_init_duplex=0 |
| #port_init_adv=0 |
| #port_init_autoneg=0 |
| |
| |
| # This disables serdes initialization |
| # phy_null.BCM88650=1 |
| |
| ## Number of Internal ports |
| # Enable the ERP port. Values: 0 / 1. |
| num_erp_tm_ports.BCM88650=1 |
| # Enable the OLP port. Values: 0 / 1. |
| num_olp_tm_ports.BCM88650=1 |
| # Enable OAMP |
| num_oamp_ports.BCM88650=0 |
| |
| ## Firmware Load Method |
| load_firmware.BCM88650=0x102 |
| |
| ### Headers configuration ### |
| |
| ## Use of the tm_port_header_type_<Local-Port-Id>=<Header-type> |
| ## Default header type is derived from fap_device_mode: If fap_device_mode is |
| ## PP, default header type is ETH. Otherwise, defualt header type is TM. |
| ## Header type per port can be overriden. |
| ## All options: ETH/RAW/TM/PROG/CPU/STACKING/TDM/TDM_RAW/UDH_ETH |
| ## Injected header types: if PTCH, INJECTED (local Port of type TM) or INJECTED_PP (PP) |
| ## if PTCH-2, INJECTED_2 (local Port of type TM) or INJECTED_2_PP (PP) |
| |
| # Set CPU to work with TM header (ITMH) |
| #tm_port_header_type_0.BCM88650=TM |
| |
| tm_port_header_type_in_180.BCM88650=INJECTED_2 |
| tm_port_header_type_out_180.BCM88650=CPU |
| |
| tm_port_header_type_in_200.BCM88650=INJECTED_2_PP |
| tm_port_header_type_out_200.BCM88650=ETH |
| tm_port_header_type_in_201.BCM88650=INJECTED_2_PP |
| tm_port_header_type_out_201.BCM88650=ETH |
| tm_port_header_type_in_202.BCM88650=INJECTED_2_PP |
| tm_port_header_type_out_202.BCM88650=ETH |
| tm_port_header_type_in_203.BCM88650=INJECTED_2_PP |
| tm_port_header_type_out_203.BCM88650=ETH |
| |
| ### Parser Configuration ### |
| # Parser has 4 custom macros that are allocated dynamically and |
| # configured according to the following features and soc properties: |
| # Trill (1 macro) - trill_mode |
| # FCoE (2 macros) - bcm886xx_fcoe_switch_mode |
| # VxLAN (1 macro) - bcm886xx_vxlan_enable |
| # IPv6-Extension-header (2 macros) - bcm886xx_ipv6_ext_hdr_enable |
| # UDP (1 macro) - UDP parsing is enabled by default, and can be |
| # disabled with soc property custom_feature_udp_parse_disable |
| # When disabling UDP parsing VxLAN and 1588oUDP are affected |
| |
| # Enable IPv6 Extension Header, 0 - disable (default), 1 - enable |
| #bcm886xx_ipv6_ext_hdr_enable=1 |
| |
| # Disable UDP parsing, 0 - enable (default), 1 - disable |
| #custom_feature_udp_parse_disable=1 |
| |
| #OAMP port |
| #tm_port_header_type_out_232.BCM88650=CPU |
| |
| #MPLS-TP channel types for OAM/BFD - If MPLS-TP used, channel should be specified |
| #Available types: mplstp_bfd_control_channel_type |
| # mplstp_pw_ach_channel_type |
| # mplstp_dlm_channel_type |
| # mplstp_ilm_channel_type |
| # mplstp_dm_channel_type |
| # mplstp_ipv4_channel_type |
| # mplstp_cc_channel_type |
| # mplstp_cv_channel_type |
| # mplstp_on_demand_cv_channel_type |
| # mplstp_pwe_oam_channel_type |
| # mplstp_ipv6_channel_type |
| # mplstp_fault_oam_channel_type |
| # mplstp_g8113_channel_type |
| #mplstp_g8113_channel_type=0x8902 |
| |
| |
| |
| # Set the recycling port processing to be raw (static forwarding) |
| tm_port_header_type_rcy.BCM88650=RAW |
| |
| ### RCPU |
| # Valid CPU local ports on which RCPU packets can be received by slave device. |
| #rcpu_rx_pbmp=0xf00000000000000000000000000000000000000000000000001 |
| |
| #tm_port_header_type_514.BCM88650=RAW |
| |
| ## Header extensions |
| # Set if an FTMH Out-LIF extension is present to Unicast and Multicast packets |
| # Options: NEVER / IF_MC (only Multicast packets) / ALWAYS |
| fabric_ftmh_outlif_extension.BCM88650=IF_MC |
| |
| # Set the FTMH Load-Balancing Key extension mode |
| # Options for 88660: ENABLED, FULL_HASH |
| # Options for 88650: ENABLED |
| # Options for 88640 compatible: DISABLED / 8B_LB_KEY_8B_STACKING_ROUTE_HISTORY / 16B_STACKING_ROUTE_HISTORY / |
| # STANDBY_MC_LB (available only for AradPlus) |
| # Default: DISABLED |
| system_ftmh_load_balancing_ext_mode.BCM88650=DISABLED |
| |
| # Set if an OTMH Out-LIF (CUD) Extension is present to Unicast and Multicast packets |
| # Options: NEVER / IF_MC (only Multicast packets) / ALWAYS / DOUBLE_TAG (two hop scheduling) |
| # Default: NEVER |
| # tm_port_otmh_outlif_ext_mode_13.BCM88650=NEVER |
| |
| # Set if an OTMH Source-System-Port Extension is present. |
| # Option: 0/1 |
| # Default: 0 |
| # tm_port_otmh_src_ext_enable_13.BCM88650=0 |
| |
| #Trunk hash format, relevant only for AradPlus. Possible values: NORMAL (default) / INVERTED / DUPLICATED. |
| #trunk_hash_format=NORMAL |
| |
| ## Stacking Application |
| #stacking_enable.BCM88650=1 |
| #custom_feature_stamp_uc_destination.BCM88650=1 |
| |
| ## System RED |
| # Set System-Red functionality. |
| #system_red_enable.BCM88650=1 |
| |
| # Indicate the size (Bytes) of a first header to skip |
| # before the major header at ingress (e.g. Ethernet, ITMH) |
| # It can be set per port also |
| first_header_size.BCM88650=0 |
| |
| # Indicate the size (Bytes) of the PMF Extension Headers |
| # to remove for TM header type ports (expecting ITMH) |
| # Set per port |
| #post_headers_size_0.BCM88650=4 |
| |
| # Indicate the size (Bytes) of the User-Headers: configurable |
| # headers located in the fabric between internal headers and |
| # Ethernet. Their values are set by Ingress FP, and can be used |
| # by Egress FP or Egress Editor. |
| # units: bits. 4 values can be set: |
| # 0 - size of the 1st User-Header, for the Egress PMF. 0b / 8b / 16b |
| # 1 - size of the 2nd User-Header, for the Egress PMF. 0b / 8b / 16b |
| # The sum of these 2 values should be under 16b |
| # 2, 3 - size of the 1st/2nd User-Header, for the Egress Editor. |
| # 0b / 8b / 16b / 24b / 32b |
| # Each of the global User-Header size must be under 32 bits, but not 24 bits. |
| # The Egress FP field is always at the MSB of the User-Header |
| # Not available for 88650-A0. |
| #field_class_id_size_0.BCM88650=8 |
| #field_class_id_size_1.BCM88650=0 |
| #field_class_id_size_2.BCM88650=24 |
| #field_class_id_size_3.BCM88650=0 |
| |
| |
| ### Trunk - LAG configuration ### |
| # Set Set the number of LAGs: 1024, 512, 256, 128 or 64 |
| number_of_trunks.BCM88650=256 |
| |
| ### SYNCE configuration ### |
| ## Synchronous Ethernet Signal Mode. |
| ## Options: TWO_DIFF_CLK, TWO_CLK_AND_VALID. Default: TWO_CLK_AND_VALID |
| #sync_eth_mode.BCM88650=TWO_CLK_AND_VALID |
| |
| ## Clock Source (single SerDes) lane in the specified NIF port. |
| ## Usage: sync_eth_clk_to_nif_id_clk_<clk_number>=<serdes_number> |
| #sync_eth_clk_to_nif_id_clk_0.BCM88650=1 |
| #sync_eth_clk_to_nif_id_clk_1.BCM88650=1 |
| |
| ## Clock Divider for the selected recovered clock. Valid values: 1/2/4. Default: 1. |
| ## Usage: sync_eth_clk_divider_clk_<clk_number>=<1/2/4> |
| #sync_eth_clk_divider_clk_0.BCM88650=1 |
| #sync_eth_clk_divider_clk_1.BCM88650=1 |
| |
| ## Enable the automatic squelch function for the recovered clock. Valid values: 0/1. Default: 0. |
| ## Usage: sync_eth_clk_squelch_enable_clk_<clk_number>=<0/1> |
| #sync_eth_clk_squelch_enable_clk_0.BCM88650=0 |
| #sync_eth_clk_squelch_enable_clk_1.BCM88650=0 |
| |
| ### ELK configuration ### |
| ## External lookup (TCAM) Device type select, Indicate the External lookup Device type. |
| # Value Options: NONE/NL88650. Default: NONE. |
| #ext_tcam_dev_type=NL88650 |
| |
| ## Set ELK FWD table Size. |
| # format: ext_xxx_fwd_table_size. |
| # where xxx replaced by FWD options: ip4_uc_rpf/ip4_mc/ip6_uc_rpf/ip6/ip6_mc/trill_uc/trill_mc/mpls/coup_mpls |
| # Value Options: (0) - External table disabled, >0: number of entries. Default: 0. |
| #ext_ip4_uc_rpf_fwd_table_size=8192 |
| #ext_ip4_mc_fwd_table_size=8192 |
| |
| ## Set ELK IP FWD use NetRoute ALG. |
| # Value Options: ALG_LPM_LPM/ALG_LPM_NETROUTE/ALG_LPM_TCAM. Default: ALG_LPM_TCAM. |
| #ext_fwd_algorithm_lpm=ALG_LPM_TCAM |
| |
| ## Set ELK interface mode. |
| # Change ELK interface configuration to support CAUI port. |
| # Value Options: 0/1. 0 - Normal mode, 1 2 CAUI port + ELK mode. Default: 0. |
| #ext_interface_mode=0 |
| |
| ### Configure MDIO interface |
| # External MDIO clock rate divisor . Default: 0x24. |
| #rate_ext_mdio_divisor=0x36 |
| # External MDIO clock rate divisor. Default: 0x1. |
| #rate_ext_mdio_dividend=1 |
| |
| ### TDM - OTN configuration ### |
| #fap_tdm_bypass.BCM88650=0 |
| |
| # Indicate if a Petra-B device is connected to the actual device |
| # For TDM/OTN applications, |
| # system_is_petra_b_in_system.BCM88650=0 |
| ##Indicate if TDM can arrive throgh primary pipe. |
| #Should be 1 for a System with PetraB that connected to fabric over primary pipe. |
| fabric_tdm_over_primary_pipe.BCM88650=0 |
| |
| ### Fabric configuration ### |
| #0-LFEC 1-8b\10b 2-FEC 3-BEC |
| backplane_serdes_encoding.BCM88650=2 |
| #SFI speed rate |
| port_init_speed_sfi.BCM88650=10312 |
| #CL72 |
| #port_init_cl72_sfi=0 |
| fabric_segmentation_enable.BCM88650=1 |
| |
| ## Fabric transmission mode |
| # Set the Connect mode to the Fabric |
| # Options: FE - presence of a Fabric device (single stage) / MULT_STAGE_FE - Multi-stage / |
| # SINGLE_FAP - stand-alone device / MESH - mesh / BACK2BACK - 2 devices in Mesh |
| fabric_connect_mode.BCM88650=SINGLE_FAP |
| #fabric_connect_mode.BCM88650=FE |
| |
| ## Cell format configuration |
| # Indicate if the traffic can be sent in dual pipe |
| is_dual_mode.BCM88650=0 |
| # Indicate the format of the cell: |
| # A VCS128 cell is used if system_is_vcs_128_in_system or system_is_fe600_in_system is TRUE |
| system_is_vcs_128_in_system.BCM88650=0 |
| system_is_fe600_in_system.BCM88650=0 |
| |
| ### WRED ### |
| |
| # Set the maximum packet size for WRED tests. 0 - means ignore max packet size. |
| discard_mtu_size.BCM88650=0 |
| |
| ### OCB (On-Chip Buffer) configuration ### |
| # Enable the OCB |
| # Enable MODES: |
| # 0/FALSE --> OCB_DISABLED --> No OCB use |
| # 1/TRUE --> OCB_ENABLED --> Like in Arad-A0/B0. Some packets may use both DRAM and OCB resources |
| # ONE_WAY_BYPASS --> Depends on number of present drams (available only for AradPlus): |
| # 0 drams: - OCB_ONLY |
| # 1 drams: - OCB_ONLY_1_DRAM --> : OCB-only with 1 DRAM for the free pointers |
| # 2-8 drams: - OCB_DRAM_SEPARATE --> : OCB and DRAM coexist separately |
| # Default: TRUE. |
| bcm886xx_ocb_enable.BCM88650=1 |
| |
| # OCB Data Buffer size. Possible values: 128/256/512/1024. Default: 256. |
| bcm886xx_ocb_databuffer_size.BCM88650=256 |
| # Repartition between Unicast and Full Multicast buffers. |
| # 0: 80% Unicast and 20% Multicast, 1: Unicast-Only |
| bcm886xx_ocb_repartition.BCM88650=0 |
| |
| ### PDM configuration ### |
| # Set the PDM Mode. |
| # 0: simple (default), 1: reduced (mandatory for LLFC-VSQ, PFC-VSQ, or ST-VSQ) |
| bcm886xx_pdm_mode.BCM88650=0 |
| |
| ### Multicast Number of DBuff mode ### |
| # Set IQM FMC buffers-replication sizes |
| # Options for 88650: ARAD_INIT_FMC_4K_REP_64K_DBUFF_MODE/ARAD_INIT_FMC_64_REP_128K_DBUFF_MODE |
| # Default: ARAD_INIT_FMC_4K_REP_64K_DBUFF_MODE |
| multicast_nbr_full_dbuff.BCM88650=ARAD_INIT_FMC_4K_REP_64K_DBUFF_MODE |
| |
| ### Multicast configuration ### |
| # Multicast egress vlan membership range. By default: 0-4095. |
| egress_multicast_direct_bitmap_min.BCM88650=0 |
| egress_multicast_direct_bitmap_max.BCM88650=4095 |
| |
| ### VOQ - Flow configuration ### |
| |
| # Set the VOQ mapping mode: |
| # DIRECT: More than 4K System Ports are supported. System-level WRED is not supported. |
| # INDIRECT: similar to Petra-B. Up to 4K System Ports. |
| voq_mapping_mode.BCM88650=INDIRECT |
| |
| # Set the Base Queue to be added to the packet flow-id |
| # when the Flow-Id is set explicitely either by the ITMH |
| # or by the Destination resolution in the Packet processing |
| flow_mapping_queue_base.BCM88650=0 |
| |
| # Set the number of priorities supported at egress per Port |
| # Options: 1 / 2 / 8 |
| port_priorities.BCM88650=8 |
| |
| # Set the shared multicast resource mode: Strict / Discrete |
| egress_shared_resources_mode.BCM88650=Strict |
| |
| # Define outgoing port rate mode in data rate or packet rate. |
| # Options: DATA / PACKET |
| otm_port_packet_rate.BCM88650=DATA |
| |
| # Set Port egress recycling scheduler configuration. |
| # 0: Strict Priority Scheduler, 1: Round Robin Scheduler |
| port_egress_recycling_scheduler_configuration.BCM88650=0 |
| |
| # Set statically the region mode per region id |
| # 0: queue connectors only (InterDigitated = FALSE, OddEven = TRUE) |
| # 1: queue connectors, SE (InterDigitated =TRUE, OddEven = TRUE) |
| # 2: queue connectors, SE (InterDigitated =TRUE, OddEven = FALSE) |
| dtm_flow_mapping_mode_region_65.BCM88650=0 |
| dtm_flow_mapping_mode_region_66.BCM88650=0 |
| dtm_flow_mapping_mode_region_67.BCM88650=0 |
| dtm_flow_mapping_mode_region_68.BCM88650=0 |
| dtm_flow_mapping_mode_region_69.BCM88650=0 |
| dtm_flow_mapping_mode_region_70.BCM88650=0 |
| dtm_flow_mapping_mode_region_71.BCM88650=0 |
| dtm_flow_mapping_mode_region_72.BCM88650=0 |
| dtm_flow_mapping_mode_region_73.BCM88650=0 |
| dtm_flow_mapping_mode_region_74.BCM88650=0 |
| dtm_flow_mapping_mode_region_75.BCM88650=0 |
| dtm_flow_mapping_mode_region_76.BCM88650=0 |
| dtm_flow_mapping_mode_region_77.BCM88650=0 |
| dtm_flow_mapping_mode_region_78.BCM88650=0 |
| dtm_flow_mapping_mode_region_79.BCM88650=0 |
| dtm_flow_mapping_mode_region_80.BCM88650=0 |
| dtm_flow_mapping_mode_region_81.BCM88650=1 |
| dtm_flow_mapping_mode_region_82.BCM88650=1 |
| dtm_flow_mapping_mode_region_83.BCM88650=1 |
| dtm_flow_mapping_mode_region_84.BCM88650=1 |
| dtm_flow_mapping_mode_region_85.BCM88650=1 |
| dtm_flow_mapping_mode_region_86.BCM88650=1 |
| dtm_flow_mapping_mode_region_87.BCM88650=1 |
| dtm_flow_mapping_mode_region_88.BCM88650=1 |
| dtm_flow_mapping_mode_region_89.BCM88650=1 |
| dtm_flow_mapping_mode_region_90.BCM88650=1 |
| dtm_flow_mapping_mode_region_91.BCM88650=1 |
| dtm_flow_mapping_mode_region_92.BCM88650=1 |
| dtm_flow_mapping_mode_region_93.BCM88650=1 |
| dtm_flow_mapping_mode_region_94.BCM88650=1 |
| dtm_flow_mapping_mode_region_95.BCM88650=1 |
| dtm_flow_mapping_mode_region_96.BCM88650=1 |
| dtm_flow_mapping_mode_region_97.BCM88650=1 |
| dtm_flow_mapping_mode_region_98.BCM88650=1 |
| dtm_flow_mapping_mode_region_99.BCM88650=2 |
| dtm_flow_mapping_mode_region_100.BCM88650=2 |
| dtm_flow_mapping_mode_region_101.BCM88650=2 |
| dtm_flow_mapping_mode_region_102.BCM88650=2 |
| dtm_flow_mapping_mode_region_103.BCM88650=2 |
| dtm_flow_mapping_mode_region_104.BCM88650=2 |
| dtm_flow_mapping_mode_region_105.BCM88650=2 |
| dtm_flow_mapping_mode_region_106.BCM88650=2 |
| dtm_flow_mapping_mode_region_107.BCM88650=2 |
| dtm_flow_mapping_mode_region_108.BCM88650=2 |
| dtm_flow_mapping_mode_region_109.BCM88650=2 |
| dtm_flow_mapping_mode_region_110.BCM88650=2 |
| dtm_flow_mapping_mode_region_111.BCM88650=2 |
| dtm_flow_mapping_mode_region_112.BCM88650=2 |
| dtm_flow_mapping_mode_region_113.BCM88650=2 |
| dtm_flow_mapping_mode_region_114.BCM88650=2 |
| dtm_flow_mapping_mode_region_115.BCM88650=2 |
| dtm_flow_mapping_mode_region_116.BCM88650=2 |
| dtm_flow_mapping_mode_region_117.BCM88650=2 |
| dtm_flow_mapping_mode_region_118.BCM88650=2 |
| dtm_flow_mapping_mode_region_119.BCM88650=2 |
| dtm_flow_mapping_mode_region_120.BCM88650=2 |
| dtm_flow_mapping_mode_region_121.BCM88650=2 |
| dtm_flow_mapping_mode_region_122.BCM88650=2 |
| dtm_flow_mapping_mode_region_123.BCM88650=2 |
| dtm_flow_mapping_mode_region_124.BCM88650=2 |
| dtm_flow_mapping_mode_region_125.BCM88650=2 |
| dtm_flow_mapping_mode_region_126.BCM88650=2 |
| dtm_flow_mapping_mode_region_127.BCM88650=2 |
| dtm_flow_mapping_mode_region_128.BCM88650=2 |
| |
| #IL# Configure number of symmetric cores each region supports ## |
| dtm_flow_nof_remote_cores_region_1.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_2.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_3.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_4.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_5.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_6.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_7.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_8.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_9.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_10.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_11.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_12.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_13.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_14.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_15.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_16.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_17.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_18.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_19.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_20.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_21.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_22.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_23.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_24.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_25.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_26.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_27.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_28.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_29.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_30.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_31.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_32.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_33.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_34.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_35.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_36.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_37.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_38.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_39.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_40.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_41.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_42.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_43.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_44.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_45.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_46.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_47.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_48.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_49.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_50.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_51.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_52.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_53.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_54.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_55.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_56.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_57.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_58.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_59.BCM88650=2 |
| dtm_flow_nof_remote_cores_region_60.BCM88650=2 |
| |
| dtm_flow_nof_remote_cores_region_core0_2.BCM88650=1 |
| dtm_flow_nof_remote_cores_region_core0_3.BCM88650=1 |
| |
| ### Flow Control configuration ### |
| # Set the Flow control type per Port. |
| # Options: LL (Link-level) / CB2 (Class-Based - 2 classes) / |
| # CB8 (Class-Based - 8 classes) |
| # flow_control_type.BCM88650=LL |
| |
| ## Out-Of-Band Flow control configuration |
| #spn_FC_OOB_TYPE, spn_FC_OOB_MODE, spn_FC_OOB_CALENDER_LENGTH, spn_FC_OOB_CALENDER_REP_COUNT, |
| |
| ## Set voltage mode for oob interfaces |
| #HSTL_1.5V |
| #3.3V |
| #HSTL_1.5V_VDDO_DIV_2 |
| ext_voltage_mode_oob=3.3V |
| |
| ## Inband Interlaken configuration |
| # spn_FC_INBAND_INTLKN_MODE, spn_FC_INBAND_INTLKN_CALENDER_LENGTH, spn_FC_INBAND_INTLKN_CALENDER_REP_COUNT |
| # spn_FC_INBAND_INTLKN_CALENDER_LLFC_MODE, spn_FC_INBAND_INTLKN_LLFC_MUB_ENABLE_MASK |
| |
| ### Meter engine configuration ### |
| |
| # Specify meter operation mode |
| # 32 - Two meters per packet (32k total) |
| # 64 - One meter per packet (64k total) |
| # Options: 0, 32, 64 |
| policer_ingress_count.BCM88650=32 |
| |
| # For meters in double 32k mode, determine the sharing mode |
| # Options: |
| # 0 - NONE (only for 64k mode) |
| # 1 - SERIAL (only for 32k mode) |
| # 2 - PARALLEL (only for 32k mode) |
| policer_ingress_sharing_mode.BCM88650=1 |
| |
| # Applies only to Arad+ (88660) |
| # For meters in parallel mode, determine the mapping |
| # Options: BEST, WORST |
| # policer_result_parallel_color_map.BCM88650=WORST |
| |
| # Applies only to Arad+ (88660) |
| # For meters in parallel mode, determine how the buckets are changed |
| # Options: CONSTANT, TRANSPARENT, DEFERRED |
| # policer_result_parallel_bucket_update.BCM88650=CONSTANT |
| |
| # Applies only to Arad+ (88660) |
| # Set the Ethernet policer to work in color blind mode |
| # rate_color_blind.BCM88650=1 |
| |
| # L2 learn limit mode |
| # Options: VLAN, VLAN_PORT, TUNNEL or the numeric equivalent 0-2. |
| # Default: VLAN |
| # l2_learn_limit_mode = VLAN_PORT |
| |
| # Applies only to Arad+ (88660) |
| # Determines the L2 learn limit ranges when l2_learn_limit_mode is set to VLAN_PORT |
| # Two range bases can be selected, each of 16K size. |
| # Options: 0, 16K, 32K, 48K. |
| # Default: 0 & 16K |
| # l2_learn_lif_range_base_0 = 0 |
| # l2_learn_lif_range_base_1 = 16K |
| |
| ### Counter engine configuration ### |
| |
| # Set the Counter source |
| # Options: INGRESS_FIELD / INGRESS_VOQ / INGRESS_VSQ |
| # INGRESS_CNM / EGRESS_FIELD / EGRESS_VSI / EGRESS_OUT_LIF / EGRESS_TM (per queue) / EGRESS_TM_PORT (per port) |
| # EGRESS_RECEIVE_VSI / EGRESS_RECEIVE_OUT_LIF / EGRESS_RECEIVE_TM (per queue) / EGRESS_RECEIVE_TM_PORT (per port) |
| # INGRESS_OAM / EGRESS_OAM |
| # 2 Counter-Pointers can be set (with _0 and _1) for |
| # INGRESS_FIELD / EGRESS_VSI / EGRESS_OUT_LIF / EGRESS_TM / EGRESS_TM_PORT |
| # Range extension can be set (with _LSB and _MSB) for |
| # INGRESS_FIELD / EGRESS_VSI / EGRESS_OUT_LIF / EGRESS_TM / EGRESS_TM_PORT /EGRESS_RECEIVE_VSI / |
| # EGRESS_RECEIVE_OUT_LIF / EGRESS_RECEIVE_TM / EGRESS_RECEIVE_TM_PORT |
| counter_engine_source_0.BCM88650=INGRESS_FIELD |
| counter_engine_source_1.BCM88650=INGRESS_FIELD_1 |
| counter_engine_source_2.BCM88650=INGRESS_VOQ |
| ### |
| ### DML |
| ### |
| ### For DML applications, counter engine 3 is used for VOQ |
| ### counters. This in combination with configuring the engines used for |
| ### VOQs for FWD_DROP allows for counters for 32K VOQs. |
| ### |
| #counter_engine_source_3.BCM88650=EGRESS_FIELD |
| counter_engine_source_3.BCM88650=INGRESS_VOQ |
| |
| # Configure the statistic interface egress source |
| # Options: EGRESS_VSI / EGRESS_OUT_LIF / EGRESS_TM / EGRESS_TM_PORT (the default is TM) |
| # valid just when there is no conflict with the other counter engines |
| #counter_engine_source_stat0.BCM88650=EGRESS_TM |
| #counter_engine_source_stat1.BCM88650=EGRESS_TM |
| |
| |
| # Set the Counter engine resolution |
| # SIMPLE_COLOR = green, not green |
| # SIMPLE_COLOR_FWD = fwd green, fwd not green (BCM88660_A0 only) |
| # SIMPLE_COLOR_DROP = drop green, drop not green (BCM88660_A0 only) |
| # FWD_DROP = forwarded, dropped |
| # GREEN_NOT_GREEN = fwd grn, drop grn, fwd not grn, drop not grn |
| # FULL_COLOR = fwd grn, drop grn, fwd not grn, drop yel, drop red |
| # ALL = received |
| # FWD = forwarded, DROP = droped (not supported by ARAD_A0) |
| # CONFIGURABLE = defined by counter_engine_map_ SOC properties (BCM88660_A0 only) |
| counter_engine_statistics_0.BCM88650=FULL_COLOR |
| counter_engine_statistics_1.BCM88650=FULL_COLOR |
| ### |
| ### DML |
| ### |
| ### For DML applications, counter engine 3 is used for VOQ |
| ### counters. This in combination with configuring the engines used for |
| ### VOQs for FWD_DROP allows for counters for 32K VOQs. |
| ### |
| #counter_engine_statistics_2.BCM88650=FULL_COLOR |
| #counter_engine_statistics_3.BCM88650=FULL_COLOR |
| counter_engine_statistics_2.BCM88650=FWD_DROP |
| counter_engine_statistics_3.BCM88650=FWD_DROP |
| |
| # Set the Counter format |
| # Options: PACKETS_AND_BYTES / PACKETS / BYTES |
| # / MAX_QUEUE_SIZE / PACKETS_AND_PACKETS(supported just in FWD_DROP statistic in BCM88660_A0) |
| # If not PACKETS_AND_BYTES or PACKETS_AND_PACKETS, the HW Counter width is 59 bits, thus |
| # no background SW operation is performed |
| counter_engine_format_0.BCM88650=PACKETS_AND_BYTES |
| counter_engine_format_1.BCM88650=PACKETS_AND_BYTES |
| counter_engine_format_2.BCM88650=PACKETS_AND_BYTES |
| counter_engine_format_3.BCM88650=PACKETS_AND_BYTES |
| |
| # #enable/disable counter processor background thread (default:1-enable) |
| # counter_engine_sampling_interval=1 |
| |
| ### Configurable mode configuration (BCM88660_A0 only)### |
| # counter_engine_statistics_0.BCM88660_A0=CONFIGURABLE |
| # counter_engine_map_enable_0.BCM88660_A0=1 |
| # counter_engine_map_size_0.BCM88660_A0=4 |
| # counter_engine_map_fwd_green_offset_0.BCM88660_A0=0 |
| # counter_engine_map_fwd_yellow_offset_0.BCM88660_A0=1 |
| # counter_engine_map_fwd_red_offset_0.BCM88660_A0=1 |
| # counter_engine_map_fwd_black_offset_0.BCM88660_A0=2 |
| # counter_engine_map_drop_green_offset_0.BCM88660_A0=3 |
| # counter_engine_map_drop_yellow_offset_0.BCM88660_A0=3 |
| # counter_engine_map_drop_red_offset_0.BCM88660_A0=3 |
| # counter_engine_map_drop_black_offset_0.BCM88660_A0=3 |
| |
| ### Statistic-Report configuration ### |
| # Enable the Statistic-Interface configuration |
| # stat_if_enable_<port> - not supported by ARAD_A0 |
| # stat_if_enable.BCM88650=1 |
| |
| # ## Statistic-Report Properties |
| # # Set the Statistic-Report mode |
| # # Options: BILLING / BILLING_QUEUE_NUMBER (not supported by ARAD_A0)/ QSIZE |
| # stat_if_report_mode.BCM88650=QSIZE |
| # #Indicate if idle reports must be sent |
| # #when the Statistic-report rate is too low |
| # stat_if_idle_reports_present.BCM88650=0 |
| # # Indicate if the reported packet size is the original packet size |
| # stat_if_report_original_pkt_size.BCM88650=1 |
| # #If set then a single ingress-billing report will be generated |
| # #for the whole set of the multicast copies |
| # stat_if_report_multicast_single_copy=1 |
| # ## Statistic Packet configurations |
| # # Set the Statistic Packet size (Bytes) |
| # # Valid valued: 65B/126B/248B/492B (Queue-Size), 64B/128B/256B/512B/1024B (Billing) |
| # stat_if_pkt_size=64B |
| # |
| # ## Scrubber configuration |
| # # Set the range of VOQs to scrub. Range: 0 - 96K-1. |
| # stat_if_scrubber_queue_min.BCM88650=0 |
| # stat_if_scrubber_queue_max.BCM88650=0 |
| # |
| # # Set the scrubber rate range |
| # # If set to 0 (default), the scrubber is disabled. Units: nanoseconds |
| # stat_if_scrubber_rate_min.BCM88650=0 |
| # stat_if_scrubber_rate_max.BCM88650=0 |
| # |
| # # Set the thresholds (thresh_id 0 - 15) defining |
| # # occupancy range per resource type: |
| # # DRAM Buffers, Buffer descriptors, Buffer descriptors buffers |
| # stat_if_scrubber_bdb_th.BCM88650=0 |
| # stat_if_scrubber_buffer_descr_th.BCM88650=0 |
| # stat_if_uc_dram_buffer_descr_th.BCM88650=0 |
| # |
| # #Relective report for queue size mode - not supported by ARAD_A0 |
| # #Reports will be created for queue num range (stat_if_selective_report_queue_min -stat_if_selective_report_queue_max) |
| # #Default - all range |
| # stat_if_selective_report_queue_min.BCM88650_B0=0 |
| # stat_if_selective_report_queue_max.BCM88650_B0=98303 |
| |
| ### Transaction - DMA configuration ### |
| # Time to wait for SCHAN channel response (from CMIC). Units: microseconds. |
| |
| # TODO |
| ### Counter threads ### |
| # spn_BCM_STAT_PBMP, spn_BCM_STAT_INTERVAL, spn_BCM_STAT_FLAGS |
| |
| ### Interrupts ### |
| ## Set interrupts global parameters. |
| # Options: 1 - Polling interrupt mode, 0 - Line/MSI interrupt mode. Default: 1. |
| polled_irq_mode.BCM88650=0 |
| # Set the delay in microsecond between the polling, relevant only to Polling mode. Default: 0x0. |
| polled_irq_delay.BCM88650=50000 |
| |
| ## CMIC interrupts: |
| # Enable: Use interrupts completion instead of polling completion for the following operations. |
| # Options: 1 - Enable, 0 - Disable. Default: 0. |
| # Timeout: delay in Microsecond between the polling, relevant only to Polling completion mode. |
| # SCHAN: |
| #schan_intr_enable.0=1 |
| schan_timeout_usec.BCM88650=300000 |
| # TDMA |
| tdma_intr_enable.BCM88650=1 |
| tdma_timeout_usec.BCM88650=80000000 |
| # TSLAM |
| tslam_intr_enable.BCM88650=1 |
| tslam_timeout_usec.BCM88650=80000000 |
| # MIIM |
| #miim_intr_enable.0=1 |
| miim_timeout_usec.0=300000 |
| |
| ### DRAM configuration ### |
| |
| # DRAM buffer (Dbuff) size |
| # Allowed values: 256/512/1024/2048. |
| ext_ram_dbuff_size.BCM88650=1024 |
| |
| # Number of external DRAMs. |
| # Allowed values for 88650: 0/2/3/4/6/8. A value of 0 disables the DRAM. |
| # Allowed values for 88660: 0/1/2/3/4/6/8. A value of 0 disables the DRAM. |
| # A value of 1 is permitted only in ONE WAY BYPASS ocb mode. |
| ext_ram_present.BCM88650=8 |
| |
| ### Dram Tuning (Shmoo) |
| # 2 = Use Dram saved config Parameters, if no Parameters Perform Shmoo on init. Default option. |
| # 1 = Perform Shmoo on init. |
| # 0 = Use Dram saved config Parameters, if no Parameters do nothing. |
| ddr3_auto_tune.BCM88650=2 |
| |
| ### Enable BIST |
| # Run Dram BIST on initialization, if BIST fail the initialization will fail. Defult: 1. |
| # bist_enable_dram.BCM88650=1 |
| |
| ### Example for Dram Saved config Parameters. |
| ## This example is for ci=14 (Dram=7). |
| #ddr3_tune_addrc_ci14=0x000000ae |
| #ddr3_tune_wr_dq_wl1_ci14=0x92929292,0x92929292,0x92929292,0x92929292 |
| #ddr3_tune_wr_dq_wl0_ci14=0x93939393,0x93939393,0x92929292,0x92929292 |
| #ddr3_tune_wr_dq_ci14=0x80808080 |
| #ddr3_tune_vref_ci14=0x000007df |
| #ddr3_tune_rd_dqs_ci14=0x96969191,0x90909191 |
| #ddr3_tune_rd_dq_wl1_rn_ci14=0x82828282,0x82828282,0x82828282,0x82828282 |
| #ddr3_tune_rd_dq_wl0_rn_ci14=0x82828282,0x82828282,0x89898989,0x89898989 |
| #ddr3_tune_rd_dq_wl1_rp_ci14=0x82828282,0x82828282,0x82828282,0x82828282 |
| #ddr3_tune_rd_dq_wl0_rp_ci14=0x82828282,0x82828282,0x89898989,0x89898989 |
| #ddr3_tune_rd_en_ci14=0x009d9e9d,0x00a2a3a1 |
| #ddr3_tune_rd_data_dly_ci14=0x00000505 |
| ddr3_tune_rd_dq_wl1_rp_ci8.0=0x82828282,0x82828282,0x8b8b8b8b,0x8b8b8b8b |
| ddr3_tune_wr_dq_wl0_ci4.0=0x93939393,0x93939393,0x92929292,0x92929292 |
| ddr3_tune_vref_ci10.0=0x0000079e |
| ddr3_tune_wr_dq_wl1_ci2.0=0x92929292,0x92929292,0x92929292,0x92929292 |
| ddr3_tune_wr_dq_ci6.0=0x80808080 |
| ddr3_tune_rd_dq_wl0_rn_ci6.0=0x80808080,0x80808080,0x8c8c8c8c,0x8c8c8c8c |
| ddr3_tune_rd_dq_wl1_rp_ci10.0=0x83838383,0x83838383,0x84848484,0x84848484 |
| ddr3_tune_rd_dqs_ci8.0=0x96969797,0x94949090 |
| ddr3_tune_vref_ci6.0=0x0000079e |
| ddr3_tune_rd_dq_wl0_rp_ci14.0=0x83838383,0x83838383,0x83838383,0x83838383 |
| ddr3_tune_rd_en_ci10.0=0x009fa09f,0x009a9c99 |
| ddr3_tune_rd_data_dly_ci4.0=0x00000404 |
| ddr3_tune_addrc_ci8.0=0x000000ab |
| ddr3_tune_rd_dq_wl0_rp_ci2.0=0x81818181,0x81818181,0x84848484,0x84848484 |
| ddr3_tune_rd_dqs_ci10.0=0x96969090,0x90909090 |
| ddr3_tune_rd_en_ci2.0=0x009c9c9c,0x009a9c98 |
| ddr3_tune_wr_dq_wl0_ci12.0=0x93939393,0x93939393,0x93939393,0x93939393 |
| ddr3_tune_rd_dq_wl1_rn_ci4.0=0x84848484,0x84848484,0x8c8c8c8c,0x8c8c8c8c |
| ddr3_tune_addrc_ci10.0=0x000000af |
| ddr3_tune_wr_dq_wl0_ci6.0=0x90909090,0x90909090,0x93939393,0x93939393 |
| ddr3_tune_vref_ci12.0=0x0000079e |
| ddr3_tune_rd_dq_wl0_rn_ci10.0=0x83838383,0x83838383,0x8c8c8c8c,0x8c8c8c8c |
| ddr3_tune_wr_dq_wl1_ci4.0=0x93939393,0x93939393,0x94949494,0x94949494 |
| ddr3_tune_wr_dq_ci8.0=0x80808080 |
| ddr3_tune_rd_dq_wl1_rp_ci0.0=0x83838383,0x83838383,0x84848484,0x84848484 |
| ddr3_tune_wr_dq_wl1_ci10.0=0x95959595,0x95959595,0x95959595,0x95959595 |
| ddr3_tune_rd_dq_wl0_rn_ci8.0=0x8a8a8a8a,0x8a8a8a8a,0x89898989,0x89898989 |
| ddr3_tune_rd_dq_wl1_rp_ci12.0=0x84848484,0x84848484,0x84848484,0x84848484 |
| ddr3_tune_wr_dq_ci10.0=0x80808080 |
| ddr3_tune_vref_ci8.0=0x000007df |
| ddr3_tune_rd_en_ci12.0=0x009c9c9d,0x00a0a29f |
| ddr3_tune_rd_data_dly_ci6.0=0x00000505 |
| ddr3_tune_rd_dq_wl0_rp_ci4.0=0x83838383,0x83838383,0x81818181,0x81818181 |
| ddr3_tune_rd_dqs_ci12.0=0x91919292,0x92929393 |
| ddr3_tune_rd_dqs_ci0.0=0x96969292,0x91919191 |
| ddr3_tune_rd_en_ci4.0=0x00979798,0x009c9e9a |
| ddr3_tune_rd_data_dly_ci10.0=0x00000505 |
| ddr3_tune_addrc_ci0.0=0x000000ad |
| ddr3_tune_wr_dq_wl0_ci14.0=0x94949494,0x94949494,0x93939393,0x93939393 |
| ddr3_tune_rd_dq_wl1_rn_ci6.0=0x89898989,0x89898989,0x8b8b8b8b,0x8b8b8b8b |
| ddr3_tune_addrc_ci12.0=0x000000b3 |
| ddr3_tune_wr_dq_wl0_ci8.0=0x93939393,0x93939393,0x93939393,0x93939393 |
| ddr3_tune_vref_ci14.0=0x0000079e |
| ddr3_tune_rd_dq_wl0_rn_ci12.0=0x83838383,0x83838383,0x83838383,0x83838383 |
| ddr3_tune_wr_dq_wl1_ci6.0=0x94949494,0x94949494,0x94949494,0x94949494 |
| ddr3_tune_rd_dq_wl1_rp_ci2.0=0x83838383,0x83838383,0x89898989,0x89898989 |
| ddr3_tune_wr_dq_wl1_ci12.0=0x94949494,0x94949494,0x94949494,0x94949494 |
| ddr3_tune_rd_dq_wl1_rp_ci14.0=0x81818181,0x81818181,0x83838383,0x83838383 |
| ddr3_tune_wr_dq_ci12.0=0x80808080 |
| ddr3_tune_wr_dq_ci0.0=0x80808080 |
| ddr3_tune_rd_en_ci14.0=0x009f9f9f,0x00a2a4a1 |
| ddr3_tune_rd_dq_wl0_rn_ci0.0=0x83838383,0x83838383,0x89898989,0x89898989 |
| ddr3_tune_rd_data_dly_ci8.0=0x00000505 |
| ddr3_tune_rd_dq_wl0_rp_ci6.0=0x80808080,0x80808080,0x8c8c8c8c,0x8c8c8c8c |
| ddr3_tune_rd_dqs_ci14.0=0x91919292,0x90909090 |
| ddr3_tune_rd_dqs_ci2.0=0x90908f8f,0x95959090 |
| ddr3_tune_rd_en_ci6.0=0x009c9d9b,0x009ea09d |
| ddr3_tune_rd_data_dly_ci12.0=0x00000505 |
| ddr3_tune_vref_ci0.0=0x000007df |
| ddr3_tune_addrc_ci2.0=0x000000ae |
| ddr3_tune_rd_dq_wl1_rn_ci8.0=0x82828282,0x82828282,0x8b8b8b8b,0x8b8b8b8b |
| ddr3_tune_addrc_ci14.0=0x000000b0 |
| ddr3_tune_rd_dq_wl1_rn_ci10.0=0x83838383,0x83838383,0x84848484,0x84848484 |
| ddr3_tune_rd_dq_wl0_rn_ci14.0=0x83838383,0x83838383,0x83838383,0x83838383 |
| ddr3_tune_wr_dq_wl1_ci8.0=0x93939393,0x93939393,0x94949494,0x94949494 |
| ddr3_tune_rd_dq_wl1_rp_ci4.0=0x84848484,0x84848484,0x8c8c8c8c,0x8c8c8c8c |
| ddr3_tune_wr_dq_wl1_ci14.0=0x95959595,0x95959595,0x95959595,0x95959595 |
| ddr3_tune_wr_dq_wl0_ci0.0=0x93939393,0x93939393,0x92929292,0x92929292 |
| ddr3_tune_wr_dq_ci14.0=0x80808080 |
| ddr3_tune_wr_dq_ci2.0=0x80808080 |
| ddr3_tune_rd_dq_wl0_rn_ci2.0=0x81818181,0x81818181,0x84848484,0x84848484 |
| ddr3_tune_rd_dq_wl0_rp_ci8.0=0x8a8a8a8a,0x8a8a8a8a,0x89898989,0x89898989 |
| ddr3_tune_rd_dqs_ci4.0=0x8f8f9090,0x95959191 |
| ddr3_tune_rd_en_ci8.0=0x00a0a0a0,0x009b9e99 |
| ddr3_tune_rd_data_dly_ci14.0=0x00000505 |
| ddr3_tune_vref_ci2.0=0x000007df |
| ddr3_tune_rd_dq_wl0_rp_ci10.0=0x83838383,0x83838383,0x8c8c8c8c,0x8c8c8c8c |
| ddr3_tune_rd_data_dly_ci0.0=0x00000505 |
| ddr3_tune_addrc_ci4.0=0x000000af |
| ddr3_tune_rd_dq_wl1_rn_ci12.0=0x84848484,0x84848484,0x84848484,0x84848484 |
| ddr3_tune_rd_dq_wl1_rn_ci0.0=0x83838383,0x83838383,0x84848484,0x84848484 |
| ddr3_tune_rd_dq_wl1_rp_ci6.0=0x89898989,0x89898989,0x8b8b8b8b,0x8b8b8b8b |
| ddr3_tune_wr_dq_wl0_ci2.0=0x92929292,0x92929292,0x92929292,0x92929292 |
| ddr3_tune_wr_dq_wl1_ci0.0=0x92929292,0x92929292,0x92929292,0x92929292 |
| ddr3_tune_wr_dq_ci4.0=0x80808080 |
| ddr3_tune_rd_dq_wl0_rn_ci4.0=0x83838383,0x83838383,0x81818181,0x81818181 |
| ddr3_tune_rd_dqs_ci6.0=0x94948f8f,0x93939393 |
| ddr3_tune_vref_ci4.0=0x0000079e |
| ddr3_tune_rd_dq_wl0_rp_ci12.0=0x83838383,0x83838383,0x83838383,0x83838383 |
| ddr3_tune_rd_data_dly_ci2.0=0x00000404 |
| ddr3_tune_addrc_ci6.0=0x000000ab |
| ddr3_tune_rd_dq_wl0_rp_ci0.0=0x83838383,0x83838383,0x89898989,0x89898989 |
| ddr3_tune_rd_dq_wl1_rn_ci14.0=0x81818181,0x81818181,0x83838383,0x83838383 |
| ddr3_tune_rd_en_ci0.0=0x009fa09f,0x00999b98 |
| ddr3_tune_wr_dq_wl0_ci10.0=0x94949494,0x94949494,0x96969696,0x96969696 |
| ddr3_tune_rd_dq_wl1_rn_ci2.0=0x83838383,0x83838383,0x89898989,0x89898989 |
| |
| |
| # Dram type: Select ONLY ONE of the following DRAM types, to configure all dram related parameteres per type. |
| # Dram Type for Arad: |
| dram_type_DDR3_HYNIX_H5TQ2G63BFR_TEC_1066=1 |
| #dram_type_DDR3_HYNIX_H5TQ2G63BFR_TEC_933=1 |
| #dram_type_DDR3_HYNIX_H5TQ2G63BFR_TEC_800=1 |
| #dram_type_DDR3_MICRON_MT41J256M16_4GBIT_1066=1 |
| #dram_type_DDR3_MICRON_MT41J128M16HA_125_1066=1 |
| #dram_type_DDR3_MICRON_MT41J128M16HA_125_933=1 |
| #dram_type_DDR3_MICRON_MT41J128M16HA_125_800=1 |
| #dram_type_DDR3_MICRON_MT42J64M16LA_15E_667=1 |
| #dram_type_DDR3_SAMSUNG_K4B4G1646B_4GBIT_1066=1 |
| #dram_type_DDR3_SAMSUNG_K4B1G1646G_933=1 |
| #dram_type_DDR3_SAMSUNG_K4B1G1646G_800=1 |
| |
| ### Setting dram_type_DDR3_HYNIX_H5TQ2G63BFR_TEC_1066 Parameters as Default: |
| ## All other dram types parameter resides in arad.soc. choosing another Dram Type will override the following parameters. |
| ext_ram_t_rrd=6000 |
| ext_ram_columns=1024 |
| ext_ram_banks=8 |
| ext_ram_ap_bit_pos=10 |
| ext_ram_burst_size=32 |
| ext_ram_t_ref=3900000 |
| ext_ram_t_wr=15000 |
| ext_ram_t_wtr=7500 |
| ext_ram_t_rtp=7500 |
| ext_ram_freq=1066 |
| ext_ram_rows=16384 |
| ext_ram_jedec=29 |
| ext_ram_t_rc=46090 |
| ext_ram_t_rcd_rd=13090 |
| ext_ram_t_rcd_wr=13090 |
| ext_ram_t_rp=13090 |
| ext_ram_t_rfc=160000 |
| ext_ram_t_ras=33000 |
| ext_ram_c_wr_latency=10 |
| ext_ram_t_faw=35000 |
| ext_ram_c_cas_latency=14 |
| ddr3_mem_grade=0x141414 |
| |
| # DRAM pre-configurations according to config variables which defines |
| # Dram Type. supports only DDR3: |
| ext_ram_type.BCM88650=DDR3 |
| |
| # Total Dram Size (MBytes) |
| # For 8 drams interfaces, 2 channel each, Each channel 2Gbit Dram. the total DRAM size is 32GBits=4000MBytes. |
| ext_ram_total_size.BCM88650=4000 |
| |
| # Total buffer size allocated for User buffer. Units: Mbytes. Default: '0x0'. |
| # Supported suffix: |
| # dram - the buffer size will be subtracted from the DRAM size available for packet memory. |
| #user_buffer_size=0 |
| #user_buffer_size_dram=50 |
| |
| # DRAM ClamShell (interface swap its HW PIN pairs during init. Note: Only one of DRAMs can have its PIN swapped) |
| # Valid values: 0/1 |
| #dram0_clamshell_enable.BCM88650=1 |
| #dram1_clamshell_enable.BCM88650=1 |
| |
| # DRAM maximum number of crc error per buffer, buffer deleted by interrupt application. |
| #dram_crc_del_buffer_max_reclaims=0 |
| |
| ### Warmboot ### |
| ## Scache initialization for warmboot persistent storage. |
| #Save the warm boot data in a file. Allowed values: 3. |
| #stable_location.BCM88650=3 |
| #Set the warm boot data filename. |
| #stable_filename.BCM88650=./warmboot_data |
| #Set the warm boot data file size (At least 10MB for PETRA-B, 4MB for ARAD) |
| #stable_size.BCM88650=1000000000 |
| |
| |
| ############################## |
| # Config variable below are only accessed from dune.soc, and are used to |
| # configure BSP / example application / group of formal config variables. |
| ############################## |
| |
| ## If set, always configures synthesizers, even if the configured rate is equal to |
| ## their nominal rate. Can be disabled to speedup bringup time (keep in mind that if |
| ## disabled, changing a synt to a non-nominal freq and than back to nominal will not |
| ## work |
| #synt_over.BCM88650=1 |
| |
| # Local variables for board synthesizers freq. Fabric, combo and nif also configure |
| # the *_ref_clock soc properties for these frequencies. core, ddr and phy only |
| # configures the synthesizer |
| synt_core.BCM88650=100000000 |
| synt_ddr.BCM88650=125000000 |
| synt_phy.BCM88650=156250000 |
| synth_dram_freq.BCM88650=25 |
| |
| #Configure the reference clock frequencies for NIF and Fabric SerDes |
| # Options: 0 - 125MHZ, 1 - 156.25MHz |
| serdes_nif_clk_freq.BCM88650=1 |
| serdes_fabric_clk_freq.BCM88650=1 |
| # IEEE 1588 - |
| # configure clock (for 1588 debug, when Broadsync is disabled): |
| # DPLL mode/lock: 0 - eci ts pll clk disabled, 1 - configure eci ts pll clk |
| # DPLL phase/freq. Default initial: lo = 0x40000000, hi = 0x10000000. |
| #phy_1588_dpll_frequency_lock.BCM88650=1 |
| #phy_1588_dpll_phase_initial_lo.BCM88650=0x40000000 |
| #phy_1588_dpll_phase_initial_hi.BCM88650=0x10000000 |
| # port external MAC |
| # indication whether external MAC exists or not. |
| # 0: 1588 external MAC does not exist |
| # 1: 1588 external MAC exists |
| # the external MAC substracts the RX time from the correction field |
| # and adds the TX time to the correction field. |
| #ext_1588_mac_enable_14.BCM88650=1 |
| |
| ## Trill configurations |
| # Trill mode: 0 (disabled) / 1 (coarse-grained) / 2 (fine-grained) |
| #trill_mode.BCM88650=1 |
| |
| # Trill multicast prunning mode: |
| # 0: no prunning - vsi is not part of the key |
| # 1: VSI prunning: Key is dist-tree,esadit-bit,VSI. |
| trill_mc_prune_mode.BCM88650=0 |
| |
| # Enable SA authentication |
| #sa_auth_enabled=1 |
| |
| # Bridge default logical interfaces allocation IDS |
| logical_port_l2_bridge.BCM88650=0 |
| logical_port_drop.BCM88650=1 |
| |
| #logical_port_mim_in.BCM88650=2 |
| #logical_port_mim_out.BCM88650=4096 |
| |
| # Enable EVB application |
| #evb_enable=1 |
| |
| # Enable Flexible QinQ application |
| #vlan_translation_match_ipv4=1 |
| |
| |
| # Prepend tag to be 4 bytes or 8 bytes. Default: 4B. |
| # Applicable only from ARAD+ |
| #prepend_tag_bytes=4B |
| |
| # The Prepend Tag is located at (12 + 2*offset) bytes from the start of the packet. |
| # Range: 0-7. Default: 0 |
| #prepend_tag_offset=0 |
| |
| # Enable ARP (next hop mac extension) feature |
| bcm886xx_next_hop_mac_extension_enable.BCM88650=0 |
| |
| # Set VLAN translate mode. |
| # 0: normal |
| # 1: advanced mode. Enable vlan edit settings with enhanced user control |
| #bcm886xx_vlan_translate_mode=0 |
| |
| # Set MPLS termination database mode |
| # Set MPLS databases location for each MPLS namespace (L1,L2,L3) |
| #bcm886xx_mpls_termination_database_mode=0 |
| |
| # Enable , Disable MPLS indexed. |
| # MPLS termination with known label stack location. |
| # Must be enabled in case device supports more than 2 MPLS label terminations (L1,L2,L3) |
| #mpls_termination_label_index_enable=1 |
| |
| # Enable FastReRoute labels in device. |
| #fast_reroute_labels_enable=0 |
| |
| # Enable MPLS Context specific. Upstream label assignment in device. |
| #mpls_context_specific_label_enable=0 |
| |
| # MPLS context. |
| # Can be global, per port , per interface or per port,interface. |
| #mpls_context=global |
| |
| # MPLS TP MC reserved mac address (01-00-5E-90-00-00). |
| # If set device will support My-MAC termination of reserved MC Ethernet |
| #mpls_tp_mymac_reserved_address=0 |
| |
| # MPLS ELI enable disable |
| mpls_entropy_label_indicator_enable=0 |
| |
| |
| ######################################### |
| ##cfg for BCM88640_A0 - Petra |
| ######################################### |
| |
| force_clk_m_n_divisors_zero_nif0.BCM88640_A0=0 |
| force_clk_m_n_divisors_zero_fabric0.BCM88640_A0=1 |
| force_clk_m_n_divisors_zero_comb0.BCM88640_A0=0 |
| |
| combo_ref_clock.BCM88640=312500 |
| |
| nif_ref_clock.BCM88640_A0=312500 |
| |
| # Use variable cell size |
| system_cell_format.BCM88640_A0=VCS128 |
| |
| # Core clock speed (MHz) |
| core_clock_speed.BCM88640_A0=300 |
| |
| # Map bcm local port to CPU/NIF interfaces |
| ucode_port_0.BCM88640_A0=CPU.0 |
| ucode_port_73.BCM88640_A0=CPU.1 |
| ucode_port_74.BCM88640_A0=CPU.2 |
| ucode_port_75.BCM88640_A0=CPU.3 |
| ucode_port_76.BCM88640_A0=CPU.4 |
| ucode_port_77.BCM88640_A0=CPU.5 |
| ucode_port_78.BCM88640_A0=CPU.6 |
| |
| # Interlaken ports basic configuration (temporary). |
| # This configuration replaces the above XAUI/RXAUI ports config |
| # The following PB design constraint is not enforced in SW, so must be taken |
| # care of here, when mapping ports to interfaces: |
| # If using ilkn0, port 1 (if used) must be mapped to ilkn0 |
| # If using ilkn1, port 2 (if used) must be mapped to ilkn1 |
| # Note that in our default mapping, port 2 is mapped to RXAUI 6, thus won't |
| # work. If one wants to use front panel port 2 with ilkn1, he should be map |
| # RAXUI6 to a port != 2. |
| #ilkn_num_lanes_0.BCM88640_A0=12 |
| #ucode_port_1.BCM88640_A0=ILKN0.0 |
| #ucode_port_2.BCM88640_A0=ILKN0.1 |
| #ucode_port_3.BCM88640_A0=ILKN0.2 |
| #ilkn_num_lanes_1.BCM88640_A0=12 |
| #ucode_port_4.BCM88640_A0=RXAUI6 |
| #ucode_port_5.BCM88640_A0=ILKN1.0 |
| #ucode_port_6.BCM88640_A0=ILKN1.1 |
| #ucode_port_7.BCM88640_A0=ILKN1.2 |
| |
| # Default header type is derived from fap_device_mode: If fap_device_mode is |
| # PP, default header type is ETH. Otherwise, defualt header type is TM. |
| # Header type per port can be overriden. |
| # All options: ETH/RAW/TM/PROG/CPU/STACKING/TDM/TDM_RAW/INJECTED |
| |
| # Set CPU to work with TM header (ITMH) |
| #tm_port_header_type_0.BCM88640_A0=TM |
| tm_port_header_type_in_0.BCM88640_A0=TM |
| tm_port_header_type_out_0.BCM88640_A0=CPU |
| tm_port_header_type_73.BCM88640_A0=TM |
| tm_port_header_type_74.BCM88640_A0=TM |
| tm_port_header_type_75.BCM88640_A0=TM |
| tm_port_header_type_76.BCM88640_A0=TM |
| tm_port_header_type_77.BCM88640_A0=TM |
| tm_port_header_type_78.BCM88640_A0=TM |
| # recycling port |
| tm_port_header_type_40.BCM88640_A0=RAW |
| ucode_port_40.BCM88640_A0=RCY.0 |
| |
| # Enable ERP and OLP ports |
| num_erp_tm_ports.BCM88640_A0=1 |
| num_olp_tm_ports.BCM88640_A0=1 |
| num_recycle_tm_ports.BCM88640_A0=1 |
| |
| # Dram configuration |
| # 600 Mhz |
| ext_ram_pll_r.BCM88640_A0=4 |
| ext_ram_pll_f.BCM88640_A0=47 |
| ext_ram_pll_q.BCM88640_A0=1 |
| ext_ram_freq.BCM88640_A0=600 |
| |
| # Dbuff size |
| # Allowed values: 256/512/1024/2048. |
| ext_ram_dbuff_size.BCM88640_A0=1024 |
| |
| # Number of external DRAMs. |
| # Allowed values for 88x4x: 0/2/3/4/6. |
| # Allowed values for 88650: 0/2/3/4/6/8. |
| # ext_ram_total_size below assumed this value is 6 for 88x4x and 8 for |
| ext_ram_present.BCM88640_A0=6 |
| |
| # Dram type: Select ONLY ONE of the following DRAM types, to configure all dram |
| # related parameteres per type. |
| # Dram Type for Pb: |
| dram_type_DDR3_MICRON_MT41J64M16_15E.BCM88640_A0=1 |
| #dram_type_DDR2_MICRON_K4T51163QE_ZC_LF7.BCM88640_A0=1 |
| #dram_type_DDR3_SAMSUNG_K4B1G1646E_HCK0_1333.BCM88640_A0=1 |
| #dram_type_DDR3_SAMSUNG_K4B1G1646E_HCK0_1600.BCM88640_A0=1 |
| #dram_type_GDDR3_SAMSUNG_K4J52324QE.BCM88640_A0=1 |
| #dram_type_DDR3_MICRON_MT41J128M16HA_15E_2G.BCM88640_A0=1 |
| |
| # QDR configuration |
| # Parity. Allowed values: PARITY/ECC. |
| ext_qdr_protection_type.BCM88640_A0=PARITY |
| ext_qdr_size_mbit.BCM88640_A0=72 |
| #QDR type: QDR/QDR2P/QDR3/NONE. |
| ext_qdr_type.BCM88640_A0=QDR |
| |
| # QDR can use the core clock, or using it's own pll. Current example is for 250MHz pll (if used). |
| # QDR using own pll configuration |
| #ext_qdr_use_core_clock_freq.BCM88640_A0=0 |
| #ext_qdr_pll_m.BCM88640_A0=4 |
| #ext_qdr_pll_n.BCM88640_A0=4 |
| #ext_qdr_pll_p.BCM88640_A0=0 |
| |
| # QDR using core clock |
| ext_qdr_use_core_clock_freq.BCM88640_A0=1 |
| |
| #Configure MDIO. If parameter is not defined, MDIO is disabled. |
| mdio_clock_freq_khz.BCM88640_A0=1000 |
| |
| # Streaming interface configuration |
| streaming_if_enable_timeoutcnt.BCM88640_A0=1 |
| streaming_if_timeout_prd.BCM88640_A0=70 |
| streaming_if_quiet_mode.BCM88640_A0=0 |
| streaming_if_discard_bad_parity.BCM88640_A0=0 |
| |
| # maximum packet size for WRED tests. 0 - means ignore max packet size. |
| discard_mtu_size.BCM88640_A0=0 |
| |
| # multicast egress vlan membership range. By default: 0-4095. |
| egress_multicast_direct_bitmap_min.BCM88640_A0=0 |
| egress_multicast_direct_bitmap_max.BCM88640_A0=4095 |
| |
| # configure flow mapping base to 0 |
| flow_mapping_queue_base.BCM88640_A0=0 |
| |
| dtm_flow_mapping_mode_region_25.BCM88640_A0=0 |
| dtm_flow_mapping_mode_region_26.BCM88640_A0=0 |
| dtm_flow_mapping_mode_region_27.BCM88640_A0=0 |
| dtm_flow_mapping_mode_region_28.BCM88640_A0=0 |
| dtm_flow_mapping_mode_region_29.BCM88640_A0=0 |
| dtm_flow_mapping_mode_region_30.BCM88640_A0=0 |
| dtm_flow_mapping_mode_region_31.BCM88640_A0=0 |
| dtm_flow_mapping_mode_region_32.BCM88640_A0=0 |
| dtm_flow_mapping_mode_region_33.BCM88640_A0=1 |
| dtm_flow_mapping_mode_region_34.BCM88640_A0=1 |
| dtm_flow_mapping_mode_region_35.BCM88640_A0=1 |
| dtm_flow_mapping_mode_region_36.BCM88640_A0=1 |
| dtm_flow_mapping_mode_region_37.BCM88640_A0=1 |
| dtm_flow_mapping_mode_region_38.BCM88640_A0=1 |
| dtm_flow_mapping_mode_region_39.BCM88640_A0=1 |
| dtm_flow_mapping_mode_region_40.BCM88640_A0=1 |
| dtm_flow_mapping_mode_region_41.BCM88640_A0=1 |
| dtm_flow_mapping_mode_region_42.BCM88640_A0=2 |
| dtm_flow_mapping_mode_region_43.BCM88640_A0=2 |
| dtm_flow_mapping_mode_region_44.BCM88640_A0=2 |
| dtm_flow_mapping_mode_region_45.BCM88640_A0=2 |
| dtm_flow_mapping_mode_region_46.BCM88640_A0=2 |
| dtm_flow_mapping_mode_region_47.BCM88640_A0=2 |
| dtm_flow_mapping_mode_region_48.BCM88640_A0=2 |
| dtm_flow_mapping_mode_region_49.BCM88640_A0=2 |
| dtm_flow_mapping_mode_region_50.BCM88640_A0=2 |
| dtm_flow_mapping_mode_region_51.BCM88640_A0=2 |
| dtm_flow_mapping_mode_region_52.BCM88640_A0=2 |
| dtm_flow_mapping_mode_region_53.BCM88640_A0=2 |
| dtm_flow_mapping_mode_region_54.BCM88640_A0=2 |
| dtm_flow_mapping_mode_region_55.BCM88640_A0=2 |
| |
| # Power up state (DOWN/UP/UP_AND_RELOCK). Can be configured per lane. |
| pb_serdes_lane_power_state.BCM88640_A0=UP_AND_RELOCK |
| |
| # SeDes media type: Pre-configuration for tx params, according to |
| # media type. |
| # Allowed values: SHORT_BACKPLANE/LONG_BACKPLANE/CHIP2CHIP |
| pb_serdes_lane_tx_phys_media_type.BCM88640_A0=SHORT_BACKPLANE |
| pb_serdes_lane_tx_phys_media_type_28.BCM88640_A0=CHIP2CHIP |
| pb_serdes_lane_tx_phys_media_type_29.BCM88640_A0=CHIP2CHIP |
| pb_serdes_lane_tx_phys_media_type_30.BCM88640_A0=CHIP2CHIP |
| pb_serdes_lane_tx_phys_media_type_31.BCM88640_A0=CHIP2CHIP |
| |
| system_is_fe1600_in_system.BCM88640_A0=0 |
| |
| # Counter engine configuration |
| counter_engine_source_1.BCM88640_A0=0 |
| counter_engine_statistics_1.BCM88640_A0=4 |
| counter_engine_source_2.BCM88640_A0=1 |
| counter_engine_statistics_2.BCM88640_A0=4 |
| |
| # Statistic Reporting |
| stat_if_enable=0 |
| |
| # Clock Phases: 0/90/180/270 |
| stat_if_phase=0 |
| |
| # Rate in nm |
| stat_if_sync_rate=0 |
| |
| # TRUE/FALSE |
| stat_if_parity_enable=FALSE |
| |
| # BILLING/FAP20V |
| stat_if_report_mode=BILLING |
| |
| # Billing Mode |
| # EGR_Q_NB/CUD/VSI_VLAN/BOTH_LIFS |
| stat_if_report_billing_mode=VSI_VLAN |
| |
| # Fap20V Mode |
| # QUEUE/PACKET |
| stat_if_report_fap20v_mode=QUEUE |
| |
| # QUEUE_NUM/MC_ID (only valid in Fap20V PACKET mode) |
| stat_if_report_fap20v_fabric_mc=QUEUE_NUM |
| stat_if_report_fap20v_ing_mc=QUEUE_NUM |
| |
| # TRUE/FALSE (only valid in Fap20V PACKET mode) |
| stat_if_report_fap20v_cnm_report=FALSE |
| |
| # TRUE/FALSE |
| stat_if_report_fap20v_count_snoop=FALSE |
| stat_if_report_original_pkt_size=FALSE |
| stat_if_report_fap20v_single_copy_reported=FALSE |
| |
| schan_timeout_usec.BCM88640_A0=300000 |
| |
| |
| polled_irq_mode.BCM88640_A0=0 |
| polled_irq_delay.BCM88640_A0=1000 |
| |
| # Set the FTMH Load-Balancing Key extension mode |
| # Options for 88650: ENABLED |
| # Options for 88640 compatible: DISABLED / 8B_LB_KEY_8B_STACKING_ROUTE_HISTORY / 16B_STACKING_ROUTE_HISTORY |
| # Default: DISABLED |
| system_ftmh_load_balancing_ext_mode.BCM88640=DISABLED |
| |
| ######################################### |
| ##cfg for BCM88750 |
| ######################################### |
| |
| fabric_device_mode.BCM88750=SINGLE_STAGE_FE2 |
| |
| is_dual_mode.BCM88750=0 |
| system_is_vcs_128_in_system.BCM88750=0 |
| |
| system_is_dual_mode_in_system.BCM88750=0 |
| system_is_single_mode_in_system.BCM88750=1 |
| |
| system_is_fe600_in_system.BCM88750=0 |
| |
| system_ref_core_clock_khz.BCM88750=600000 |
| |
| fabric_merge_cells.BCM88750=0 |
| fabric_multicast_mode.BCM88750=DIRECT |
| fabric_load_balancing_mode.BCM88750=NORMAL_LOAD_BALANCE |
| fabric_tdm_fragment.BCM88750=0x180 |
| ##Allows single pipe device to send TDM traffic over the fabric primary pipe - available for Fe1600_B0 only |
| #change vcs128_unicast_priority to be lower than 2 - when enabling |
| fabric_tdm_over_primary_pipe.BCM88750=0 |
| fabric_optimize_partial_links.BCM88750=0 |
| vcs128_unicast_priority.BCM88750=2 |
| |
| polled_irq_mode.BCM88750=0 |
| polled_irq_delay.BCM88750=1000 |
| |
| #Selects if to run MBIST (Memory Built In Self Test) of internal memory (tables) during startup. |
| #Supported values: 0=don't run, 1=run, 2=run with extra logs |
| #bist_enable.BCM88650=1 |
| bist_enable.BCM88750=1 |
| #High voltage driver strap. If 0, connected to 1.4V supply; if 1, connected to 1V mode. |
| #for specific quad use srd_tx_drv_hv_disable_quad_X where X is (FSRD num * 4 + internal quad) |
| srd_tx_drv_hv_disable.BCM88750=0 |
| load_firmware.BCM88750=2 |
| |
| #0-LFEC 1-8b\10b 2-FEC 3-BEC |
| backplane_serdes_encoding.BCM88750=2 |
| |
| #enable\disable CL72 |
| port_init_cl72.BCM88750=0 |
| #Avaliable speeds for BCM88750: 5750, 6250, 10312, 11500, 12500 |
| port_init_speed.BCM88750=10312 |
| #LC PLL in\out 0=125MHz 1=156.25MHz |
| serdes_fabric_clk_freq_in.BCM88750=1 |
| serdes_fabric_clk_freq_out.BCM88750=1 |
| serdes_mixed_rate_enable.BCM88750_B0=0 |
| |
| # VSC128 or VSC256 |
| fabric_cell_format.BCM88750=VSC256 |
| |
| # Core clock speed (MHz) |
| core_clock_speed_khz.BCM88750=533333 |
| |
| ## CMIC interrupts: |
| # Enable: Use interrupts completion instead of polling completion for the following operations. |
| # Options: 1 - Enable, 0 - Disable. Default: 0. |
| # Timeout: delay in Microsecond between the polling, |
| # SCHAN: |
| schan_intr_enable.BCM88750=0 |
| schan_timeout_usec.BCM88750=300000 |
| # TDMA |
| tdma_intr_enable.BCM88750=0 |
| tdma_timeout_usec.BCM88750=80000000 |
| # TSLAM |
| tslam_intr_enable.BCM88750=0 |
| tslam_timeout_usec.BCM88750=80000000 |
| # MIIM |
| miim_intr_enable.BCM88750=0 |
| miim_timeout_usec.BCM88750=300000 |
| |
| |
| ##initialization for warmboot |
| stable_location.BCM88750=3 |
| stable_size.BCM88750=200000 |
| scache_filename.BCM88750=fe1600_warmboot.mem |
| |
| ############################## |
| # Config variable below are only accessed from dune.soc, and are used to |
| # configure BSP / example application / group of formal config variables. |
| ############################## |
| |
| # Support (and configure on init) packet processing features. |
| # If not defined - only traffic management capabilities are enabled. |
| packet_processing=1 |
| |
| ## PCP (Petra Co-Processor) features |
| #pcp_elk.BCM88640_A0=1 |
| #pcp_oam.BCM88640_A0=1 |
| #pcp_dma.BCM88640_A0=1 |
| |
| ## Set/Override TDM related config variables |
| #tdm.BCM88640_A0=1 |
| |
| # If set, always configures synthesizers, even if the configured rate is |
| # equal to |
| # their nominal rate. Can be disabled to speedup bringup time |
| # (keep in mind that if disabled, changing a synt to a non-nominal freq and |
| # than back to nominal will not work |
| #synt_over.BCM88640_A0=1 |
| |
| # Local variables for board synthesizers freq. Fabric, combo and nif also configure |
| # the *_ref_clock soc properties for these frequencies. core, ddr and phy only |
| # configures the synthesizer |
| synt_core.BCM88640_A0=100000000 |
| synt_ddr.BCM88640_A0=125000000 |
| synt_phy.BCM88640_A0=156250000 |
| |
| ## Scache initialization for warmboot persistent storage. |
| ## Valid values: 2: Store in dram. 3: Store in a file. |
| stable_location=3 |
| stable_filename=./warmboot_data |
| stable_flags=0 |
| stable_size=1000000000 |
| |
| # Bridge default logical interfaces allocation IDS |
| logical_port_l2_bridge.BCM88640=1 |
| logical_port_drop.BCM88640=-1 |
| |
| #logical_port_mim_in.BCM88640=2 |
| #logical_port_mim_out.BCM88640=3 |
| |
| ## IPV6 tunnel |
| bcm886xx_ipv6_tunnel_enable=1 |
| |
| ## Inlif Profile Management Mode - QoS L3 L2 marking mode |
| # |
| # BCM88660 ONLY |
| # |
| # QoS L3 L2 marking allows changing the DSCP and/or EXP values |
| # of IP and/or MPLS packets according to the incoming port |
| # (or inlif), and the Traffic Class/Drop Precedence. |
| # |
| # The inlif profile is used to control the DSCP/EXP marking. |
| # This SOC property controls which mode is used for the inlif profile: |
| # 1: Basic mode (1 bit of the inlif profile is reserved and is used for the DSCP/EXP marking). |
| # 0: Advanced mode (the user controls which inlif profile values perform DSCP/EXP marking directly). |
| #bcm886xx_qos_l3_l2_marking=1 |
| |
| ## Unicast RPF mode per RIF |
| # |
| # This SOC property allows the user to set the unicast RPF mode - loose, strict or disabled - per RIF. |
| # If disabled, the unicast RPF mode of a RIF is set globally. |
| # Options: 0 / 1 |
| |
| # bcm886xx_l3_ingress_urpf_enable=1 |
| |
| ## BOS handling mode |
| # BCM8866X ONLY |
| # |
| # There are two ways to handle BOS, controlled by bcm886xx_mpls_termination_mode: |
| # 0 - Use BOS as key in lookup. |
| # 1 - Don't use it (except for reserved labels). |
| # |
| #bcm886xx_mpls_termination_key_mode=0 |
| |
| # Color resolution mode allows the user to have more detailed metering color information. |
| # BCM88660 ONLY |
| # |
| # Options: 0/1 |
| # 0: A red result from both Ethernet policer and policer implies DP=3. |
| # 1: A red result from the policer implies that DP=2, while a red result from rate (Ethernet policer) implies DP=3. |
| #policer_color_resolution_mode=1 |
| |
| ## Inlif Profile Management Mode - Disable Same Interface Filter |
| # BCM8866X ONLY |
| # |
| # Controls which mode is used for the inlif profile management. |
| # 1: Basic mode (1 bit of the inlif profile is reserved and is used for the same-interface filter). |
| # 0: Advanced mode (the user controls which inlif profile values have the same-interface filter disabled for them). |
| #bcm886xx_logical_interface_bridge_filter_enable=1 |
| |
| ## Default Block Forwarding Strength |
| # |
| # Configure the default forwarding strength of blocks. |
| # |
| # SOC Properties: |
| #block_trap_strength_vtt - VTT block forwarding strength |
| #block_trap_strength_flp - FLP block forwarding strength |
| #block_trap_strength_hash - SLB block forwarding strength (BCM8866X ONLY) |
| #block_trap_strength_pmf_0 - PMF 1st lookup forwarding strength |
| #block_trap_strength_pmf_1 - PMF 2nd lookup forwarding strength |
| # |
| # Options: 0-7 |
| |
| ## Stateful Load Balancing |
| # BCM8866X ONLY |
| # |
| # Stateful Load Balancing (SLB) allows the load balancing of ECMP and LAG |
| # groups to become stateful. |
| # In standard load balancing, removing a member from the ECMP/LAG |
| # group may affect the selected member, since the formula |
| # depends on group size. |
| # In stateful load balancing the member is selected once and saved. |
| # Later, the member is always retrieved, and does not depend on |
| # the size of the LAG/ECMP group. |
| # |
| # resilient_hash_enable - Enable/disable SLB. Values: |
| # 1 - Enable SLB. |
| # 0 - Disable SLB. |
| #resilient_hash_enable=1 |
| |
| |
| #Make Arad SOC properties work for Arad+, by mapping the BCM88660 suffix to BCM88650 |
| soc_family.BCM88660=BCM88650 |
| #Make Arad SOC properties work for Ardon, by mapping the BCM88202 suffix to BCM88650 |
| soc_family.BCM88202=BCM88650 |
| |
| # Use different mymac addresses for ipv4 and ipv6 when using vrrp for mymac termination. |
| #l3_vrrp_ipv6_distinct=1 |
| |
| # Enable multiple mymac termination mode. In order to enable it, also set |
| # l3_vrrp_ipv6_distinct=0 and l3_vrrp_max_vid=0 since vrrp and |
| # multiple mymac mode can't co exist. |
| #l3_multiple_mymac_termination_enable=1 |
| |
| # Distinguish between ipv4 and all other l3 protocols when multiple mymac terminating |
| #l3_multiple_mymac_termination_mode=1 |
| |
| # Usually the final DP given by the meter (or the In-DP) is unchanged, and can be from 0-3. |
| # When this SOC property is set to 1, when the final INGRESS DP is 2, it is mapped to 1 instead, |
| # and thus only the values 0-1 and 3 can be output. |
| # This has no effect when policer_color_resolution_mode=1. |
| #custom_feature_always_map_result_dp_2_to_1=1 |
| |
| ############################ |
| ### Warmboot & SW State #### |
| ############################ |
| |
| |
| ha_hw_journal_size=15728640 |
| ha_sw_journal_size=15728640 |
| ha_crash_recovery=1 |
| |
| |
| # stable_size - a strict bound on the application's external storage size |
| stable_size.BCM88650=281000000 |
| stable_size=420000000 |
| |
| # determine the memory size pre-allocated for the SDK's SW State |
| sw_state_max_size.BCM88650=160000000 |
| sw_state_max_size=350000000 |
| |
| # stable location |
| ## part of scache initialization for warmboot persistent storage. |
| ## values: 1-2:Not Valid for dnx 3: Store in a file 4: Use Shared Mem. |
| # 4 is the preffered option, using 3 for Arad and FE in order to regress both modes. |
| stable_location.BCM88650=3 |
| stable_location.BCM88660=3 |
| |
| # |
| # Enable L3 Source Binds for DPoE SAV |
| # |
| l3_source_bind_mode=IP |
| l3_source_bind_subnet_mode=IP |
| ipv4_num_vrfs = 4096 |
| |
| # |
| # Enable ARP checking for L3 Source Binds |
| # |
| # This feature is not currently used. |
| # |
| # Valid values for custom_feature_l3_source_bind_arp_relay: |
| # 0 - disabled |
| # 1 - downstream ARP checking |
| # 2 - upstream ARP checking |
| # 3 - both downstream and upstream ARP checking |
| # |
| #custom_feature_l3_source_bind_arp_relay=2 |
| |