/* SPDX-License-Identifier: BSD-3-Clause */ /* Copyright (c) 2024, Intel Corporation * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * 3. Neither the name of the Intel Corporation nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #ifndef _ICE_TYPE_H_ #define _ICE_TYPE_H_ #include "ice_defs.h" #include "ice_status.h" #include "ice_hw_autogen.h" #include "ice_devids.h" #include "ice_osdep.h" #include "ice_bitops.h" /* Must come before ice_controlq.h */ #include "ice_lan_tx_rx.h" #include "ice_ddp_common.h" #include "ice_controlq.h" #include "ice_flex_type.h" #include "ice_protocol_type.h" #include "ice_vlan_mode.h" #include "ice_fwlog.h" static inline bool ice_is_tc_ena(ice_bitmap_t bitmap, u8 tc) { return !!(bitmap & BIT(tc)); } /** * DIV_S64 - Divide signed 64-bit value with signed 64-bit divisor * @dividend: value to divide * @divisor: value to divide by * * Use DIV_S64 for any 64-bit divide which operates on signed 64-bit dividends. * Do not use this for unsigned 64-bit dividends as it will not produce * correct results if the dividend is larger than S64_MAX. */ static inline s64 DIV_S64(s64 dividend, s64 divisor) { return dividend / divisor; } /** * DIV_U64 - Divide unsigned 64-bit value by unsigned 64-bit divisor * @dividend: value to divide * @divisor: value to divide by * * Use DIV_U64 for any 64-bit divide which operates on unsigned 64-bit * dividends. Do not use this for signed 64-bit dividends as it will not * handle negative values correctly. */ static inline u64 DIV_U64(u64 dividend, u64 divisor) { return dividend / divisor; } static inline u64 round_up_64bit(u64 a, u32 b) { return DIV_U64(((a) + (b) / 2), (b)); } static inline u32 ice_round_to_num(u32 N, u32 R) { return ((((N) % (R)) < ((R) / 2)) ? (((N) / (R)) * (R)) : ((((N) + (R) - 1) / (R)) * (R))); } /* Driver always calls main vsi_handle first */ #define ICE_MAIN_VSI_HANDLE 0 /* Switch from ms to the 1usec global time (this is the GTIME resolution) */ #define ICE_MS_TO_GTIME(time) ((time) * 1000) /* Data type manipulation macros. */ #define ICE_HI_DWORD(x) ((u32)((((x) >> 16) >> 16) & 0xFFFFFFFF)) #define ICE_LO_DWORD(x) ((u32)((x) & 0xFFFFFFFF)) #define ICE_HI_WORD(x) ((u16)(((x) >> 16) & 0xFFFF)) #define ICE_LO_WORD(x) ((u16)((x) & 0xFFFF)) #define ICE_HI_BYTE(x) ((u8)(((x) >> 8) & 0xFF)) #define ICE_LO_BYTE(x) ((u8)((x) & 0xFF)) /* debug masks - set these bits in hw->debug_mask to control output */ #define ICE_DBG_TRACE BIT_ULL(0) /* for function-trace only */ #define ICE_DBG_INIT BIT_ULL(1) #define ICE_DBG_RELEASE BIT_ULL(2) #define ICE_DBG_FW_LOG BIT_ULL(3) #define ICE_DBG_LINK BIT_ULL(4) #define ICE_DBG_PHY BIT_ULL(5) #define ICE_DBG_QCTX BIT_ULL(6) #define ICE_DBG_NVM BIT_ULL(7) #define ICE_DBG_LAN BIT_ULL(8) #define ICE_DBG_FLOW BIT_ULL(9) #define ICE_DBG_DCB BIT_ULL(10) #define ICE_DBG_DIAG BIT_ULL(11) #define ICE_DBG_FD BIT_ULL(12) #define ICE_DBG_SW BIT_ULL(13) #define ICE_DBG_SCHED BIT_ULL(14) #define ICE_DBG_RDMA BIT_ULL(15) #define ICE_DBG_PKG BIT_ULL(16) #define ICE_DBG_RES BIT_ULL(17) #define ICE_DBG_AQ_MSG BIT_ULL(24) #define ICE_DBG_AQ_DESC BIT_ULL(25) #define ICE_DBG_AQ_DESC_BUF BIT_ULL(26) #define ICE_DBG_AQ_CMD BIT_ULL(27) #define ICE_DBG_AQ (ICE_DBG_AQ_MSG | \ ICE_DBG_AQ_DESC | \ ICE_DBG_AQ_DESC_BUF | \ ICE_DBG_AQ_CMD) #define ICE_DBG_PARSER BIT_ULL(28) #define ICE_DBG_USER BIT_ULL(31) #define ICE_DBG_ALL 0xFFFFFFFFFFFFFFFFULL #define IS_UNICAST_ETHER_ADDR(addr) \ ((bool)((((u8 *)(addr))[0] % ((u8)0x2)) == 0)) #define IS_MULTICAST_ETHER_ADDR(addr) \ ((bool)((((u8 *)(addr))[0] % ((u8)0x2)) == 1)) /* Check whether an address is broadcast. */ #define IS_BROADCAST_ETHER_ADDR(addr) \ ((bool)((((u16 *)(addr))[0] == ((u16)0xffff)))) #define IS_ZERO_ETHER_ADDR(addr) \ (((bool)((((u16 *)(addr))[0] == ((u16)0x0)))) && \ ((bool)((((u16 *)(addr))[1] == ((u16)0x0)))) && \ ((bool)((((u16 *)(addr))[2] == ((u16)0x0))))) #ifndef IS_ETHER_ADDR_EQUAL #define IS_ETHER_ADDR_EQUAL(addr1, addr2) \ (((bool)((((u16 *)(addr1))[0] == ((u16 *)(addr2))[0]))) && \ ((bool)((((u16 *)(addr1))[1] == ((u16 *)(addr2))[1]))) && \ ((bool)((((u16 *)(addr1))[2] == ((u16 *)(addr2))[2])))) #endif enum ice_aq_res_ids { ICE_NVM_RES_ID = 1, ICE_SPD_RES_ID, ICE_CHANGE_LOCK_RES_ID, ICE_GLOBAL_CFG_LOCK_RES_ID }; /* FW update timeout definitions are in milliseconds */ #define ICE_NVM_TIMEOUT 180000 #define ICE_CHANGE_LOCK_TIMEOUT 1000 #define ICE_GLOBAL_CFG_LOCK_TIMEOUT 3000 struct ice_driver_ver { u8 major_ver; u8 minor_ver; u8 build_ver; u8 subbuild_ver; u8 driver_string[32]; }; enum ice_fc_mode { ICE_FC_NONE = 0, ICE_FC_RX_PAUSE, ICE_FC_TX_PAUSE, ICE_FC_FULL, ICE_FC_AUTO, ICE_FC_PFC, ICE_FC_DFLT }; enum ice_phy_cache_mode { ICE_FC_MODE = 0, ICE_SPEED_MODE, ICE_FEC_MODE }; enum ice_fec_mode { ICE_FEC_NONE = 0, ICE_FEC_RS, ICE_FEC_BASER, ICE_FEC_AUTO, ICE_FEC_DIS_AUTO }; struct ice_phy_cache_mode_data { union { enum ice_fec_mode curr_user_fec_req; enum ice_fc_mode curr_user_fc_req; u16 curr_user_speed_req; } data; }; enum ice_set_fc_aq_failures { ICE_SET_FC_AQ_FAIL_NONE = 0, ICE_SET_FC_AQ_FAIL_GET, ICE_SET_FC_AQ_FAIL_SET, ICE_SET_FC_AQ_FAIL_UPDATE }; /* These are structs for managing the hardware information and the operations */ /* MAC types */ enum ice_mac_type { ICE_MAC_UNKNOWN = 0, ICE_MAC_VF, ICE_MAC_E810, ICE_MAC_GENERIC, ICE_MAC_GENERIC_3K, ICE_MAC_GENERIC_3K_E825, }; /* Media Types */ enum ice_media_type { ICE_MEDIA_NONE = 0, ICE_MEDIA_UNKNOWN, ICE_MEDIA_FIBER, ICE_MEDIA_BASET, ICE_MEDIA_BACKPLANE, ICE_MEDIA_DA, ICE_MEDIA_AUI, }; #define ICE_MEDIA_BASET_PHY_TYPE_LOW_M (ICE_PHY_TYPE_LOW_100BASE_TX | \ ICE_PHY_TYPE_LOW_1000BASE_T | \ ICE_PHY_TYPE_LOW_2500BASE_T | \ ICE_PHY_TYPE_LOW_5GBASE_T | \ ICE_PHY_TYPE_LOW_10GBASE_T | \ ICE_PHY_TYPE_LOW_25GBASE_T) #define ICE_MEDIA_C2M_PHY_TYPE_LOW_M (ICE_PHY_TYPE_LOW_10G_SFI_AOC_ACC | \ ICE_PHY_TYPE_LOW_25G_AUI_AOC_ACC | \ ICE_PHY_TYPE_LOW_40G_XLAUI_AOC_ACC | \ ICE_PHY_TYPE_LOW_50G_LAUI2_AOC_ACC | \ ICE_PHY_TYPE_LOW_50G_AUI2_AOC_ACC | \ ICE_PHY_TYPE_LOW_50G_AUI1_AOC_ACC | \ ICE_PHY_TYPE_LOW_100G_CAUI4_AOC_ACC | \ ICE_PHY_TYPE_LOW_100G_AUI4_AOC_ACC) #define ICE_MEDIA_C2M_PHY_TYPE_HIGH_M (ICE_PHY_TYPE_HIGH_100G_CAUI2_AOC_ACC | \ ICE_PHY_TYPE_HIGH_100G_AUI2_AOC_ACC) #define ICE_MEDIA_OPT_PHY_TYPE_LOW_M (ICE_PHY_TYPE_LOW_1000BASE_SX | \ ICE_PHY_TYPE_LOW_1000BASE_LX | \ ICE_PHY_TYPE_LOW_10GBASE_SR | \ ICE_PHY_TYPE_LOW_10GBASE_LR | \ ICE_PHY_TYPE_LOW_25GBASE_SR | \ ICE_PHY_TYPE_LOW_25GBASE_LR | \ ICE_PHY_TYPE_LOW_40GBASE_SR4 | \ ICE_PHY_TYPE_LOW_40GBASE_LR4 | \ ICE_PHY_TYPE_LOW_50GBASE_SR2 | \ ICE_PHY_TYPE_LOW_50GBASE_LR2 | \ ICE_PHY_TYPE_LOW_50GBASE_SR | \ ICE_PHY_TYPE_LOW_50GBASE_LR | \ ICE_PHY_TYPE_LOW_100GBASE_SR4 | \ ICE_PHY_TYPE_LOW_100GBASE_LR4 | \ ICE_PHY_TYPE_LOW_100GBASE_SR2 | \ ICE_PHY_TYPE_LOW_50GBASE_FR | \ ICE_PHY_TYPE_LOW_100GBASE_DR) #define ICE_MEDIA_BP_PHY_TYPE_LOW_M (ICE_PHY_TYPE_LOW_1000BASE_KX | \ ICE_PHY_TYPE_LOW_2500BASE_KX | \ ICE_PHY_TYPE_LOW_5GBASE_KR | \ ICE_PHY_TYPE_LOW_10GBASE_KR_CR1 | \ ICE_PHY_TYPE_LOW_25GBASE_KR | \ ICE_PHY_TYPE_LOW_25GBASE_KR_S | \ ICE_PHY_TYPE_LOW_25GBASE_KR1 | \ ICE_PHY_TYPE_LOW_40GBASE_KR4 | \ ICE_PHY_TYPE_LOW_50GBASE_KR2 | \ ICE_PHY_TYPE_LOW_50GBASE_KR_PAM4 | \ ICE_PHY_TYPE_LOW_100GBASE_KR4 | \ ICE_PHY_TYPE_LOW_100GBASE_KR_PAM4) #define ICE_MEDIA_BP_PHY_TYPE_HIGH_M ICE_PHY_TYPE_HIGH_100GBASE_KR2_PAM4 #define ICE_MEDIA_DAC_PHY_TYPE_LOW_M (ICE_PHY_TYPE_LOW_10G_SFI_DA | \ ICE_PHY_TYPE_LOW_25GBASE_CR | \ ICE_PHY_TYPE_LOW_25GBASE_CR_S | \ ICE_PHY_TYPE_LOW_25GBASE_CR1 | \ ICE_PHY_TYPE_LOW_40GBASE_CR4 | \ ICE_PHY_TYPE_LOW_50GBASE_CR2 | \ ICE_PHY_TYPE_LOW_100GBASE_CR4 | \ ICE_PHY_TYPE_LOW_100GBASE_CR_PAM4 | \ ICE_PHY_TYPE_LOW_50GBASE_CP | \ ICE_PHY_TYPE_LOW_100GBASE_CP2) #define ICE_MEDIA_C2C_PHY_TYPE_LOW_M (ICE_PHY_TYPE_LOW_100M_SGMII | \ ICE_PHY_TYPE_LOW_1G_SGMII | \ ICE_PHY_TYPE_LOW_2500BASE_X | \ ICE_PHY_TYPE_LOW_10G_SFI_C2C | \ ICE_PHY_TYPE_LOW_25G_AUI_C2C | \ ICE_PHY_TYPE_LOW_40G_XLAUI | \ ICE_PHY_TYPE_LOW_50G_LAUI2 | \ ICE_PHY_TYPE_LOW_50G_AUI2 | \ ICE_PHY_TYPE_LOW_50G_AUI1 | \ ICE_PHY_TYPE_LOW_100G_CAUI4 | \ ICE_PHY_TYPE_LOW_100G_AUI4) #define ICE_MEDIA_C2C_PHY_TYPE_HIGH_M (ICE_PHY_TYPE_HIGH_100G_CAUI2 | \ ICE_PHY_TYPE_HIGH_100G_AUI2) /* Software VSI types. */ enum ice_vsi_type { ICE_VSI_PF = 0, ICE_VSI_VF = 1, ICE_VSI_VMDQ2 = 2, ICE_VSI_LB = 6, }; struct ice_link_status { /* Refer to ice_aq_phy_type for bits definition */ u64 phy_type_low; u64 phy_type_high; u8 topo_media_conflict; u16 max_frame_size; u16 link_speed; u16 req_speeds; u8 link_cfg_err; u8 lse_ena; /* Link Status Event notification */ u8 link_info; u8 an_info; u8 ext_info; u8 fec_info; u8 pacing; /* Refer to #define from module_type[ICE_MODULE_TYPE_TOTAL_BYTE] of * ice_aqc_get_phy_caps structure */ u8 module_type[ICE_MODULE_TYPE_TOTAL_BYTE]; }; /* Different data queue types: These are mainly for SW consumption. */ enum ice_q { ICE_DATA_Q_DOORBELL, ICE_DATA_Q_CMPL, ICE_DATA_Q_QUANTA, ICE_DATA_Q_RX, ICE_DATA_Q_TX, }; /* Different reset sources for which a disable queue AQ call has to be made in * order to clean the Tx scheduler as a part of the reset */ enum ice_disq_rst_src { ICE_NO_RESET = 0, ICE_VM_RESET, ICE_VF_RESET, }; /* PHY info such as phy_type, etc... */ struct ice_phy_info { struct ice_link_status link_info; struct ice_link_status link_info_old; u64 phy_type_low; u64 phy_type_high; enum ice_media_type media_type; u8 get_link_info; /* Please refer to struct ice_aqc_get_link_status_data to get * detail of enable bit in curr_user_speed_req */ u16 curr_user_speed_req; enum ice_fec_mode curr_user_fec_req; enum ice_fc_mode curr_user_fc_req; struct ice_aqc_set_phy_cfg_data curr_user_phy_cfg; }; #define ICE_MAX_NUM_MIRROR_RULES 64 #define ICE_L2TPV2_FLAGS_CTRL 0x8000 #define ICE_L2TPV2_FLAGS_LEN 0x4000 #define ICE_L2TPV2_FLAGS_SEQ 0x0800 #define ICE_L2TPV2_FLAGS_OFF 0x0200 #define ICE_L2TPV2_FLAGS_VER 0x0002 #define ICE_L2TPV2_PKT_LENGTH 6 #define ICE_PPP_PKT_LENGTH 4 /* Common HW capabilities for SW use */ struct ice_hw_common_caps { /* Write CSR protection */ u64 wr_csr_prot; u32 switching_mode; /* switching mode supported - EVB switching (including cloud) */ #define ICE_NVM_IMAGE_TYPE_EVB 0x0 /* Manageablity mode & supported protocols over MCTP */ u32 mgmt_mode; #define ICE_MGMT_MODE_PASS_THRU_MODE_M 0xF #define ICE_MGMT_MODE_CTL_INTERFACE_M 0xF0 #define ICE_MGMT_MODE_REDIR_SB_INTERFACE_M 0xF00 u32 mgmt_protocols_mctp; #define ICE_MGMT_MODE_PROTO_RSVD BIT(0) #define ICE_MGMT_MODE_PROTO_PLDM BIT(1) #define ICE_MGMT_MODE_PROTO_OEM BIT(2) #define ICE_MGMT_MODE_PROTO_NC_SI BIT(3) u32 os2bmc; u32 valid_functions; /* DCB capabilities */ u32 active_tc_bitmap; u32 maxtc; /* RSS related capabilities */ u32 rss_table_size; /* 512 for PFs and 64 for VFs */ u32 rss_table_entry_width; /* RSS Entry width in bits */ /* Tx/Rx queues */ u32 num_rxq; /* Number/Total Rx queues */ u32 rxq_first_id; /* First queue ID for Rx queues */ u32 num_txq; /* Number/Total Tx queues */ u32 txq_first_id; /* First queue ID for Tx queues */ /* MSI-X vectors */ u32 num_msix_vectors; u32 msix_vector_first_id; /* Max MTU for function or device */ u32 max_mtu; /* WOL related */ u32 num_wol_proxy_fltr; u32 wol_proxy_vsi_seid; /* LED/SDP pin count */ u32 led_pin_num; u32 sdp_pin_num; /* LED/SDP - Supports up to 12 LED pins and 8 SDP signals */ #define ICE_MAX_SUPPORTED_GPIO_LED 12 #define ICE_MAX_SUPPORTED_GPIO_SDP 8 u8 led[ICE_MAX_SUPPORTED_GPIO_LED]; u8 sdp[ICE_MAX_SUPPORTED_GPIO_SDP]; /* SR-IOV virtualization */ u8 sr_iov_1_1; /* SR-IOV enabled */ /* VMDQ */ u8 vmdq; /* VMDQ supported */ /* EVB capabilities */ u8 evb_802_1_qbg; /* Edge Virtual Bridging */ u8 evb_802_1_qbh; /* Bridge Port Extension */ u8 dcb; u8 iscsi; u8 mgmt_cem; u8 iwarp; u8 roce_lag; /* WoL and APM support */ #define ICE_WOL_SUPPORT_M BIT(0) #define ICE_ACPI_PROG_MTHD_M BIT(1) #define ICE_PROXY_SUPPORT_M BIT(2) u8 apm_wol_support; u8 acpi_prog_mthd; u8 proxy_support; bool sec_rev_disabled; bool update_disabled; bool nvm_unified_update; bool netlist_auth; #define ICE_NVM_MGMT_SEC_REV_DISABLED BIT(0) #define ICE_NVM_MGMT_UPDATE_DISABLED BIT(1) #define ICE_NVM_MGMT_UNIFIED_UPD_SUPPORT BIT(3) #define ICE_NVM_MGMT_NETLIST_AUTH_SUPPORT BIT(5) /* PCIe reset avoidance */ bool pcie_reset_avoidance; /* false: not supported, true: supported */ /* Post update reset restriction */ bool reset_restrict_support; /* false: not supported, true: supported */ /* External topology device images within the NVM */ #define ICE_EXT_TOPO_DEV_IMG_COUNT 4 u32 ext_topo_dev_img_ver_high[ICE_EXT_TOPO_DEV_IMG_COUNT]; u32 ext_topo_dev_img_ver_low[ICE_EXT_TOPO_DEV_IMG_COUNT]; u8 ext_topo_dev_img_part_num[ICE_EXT_TOPO_DEV_IMG_COUNT]; #define ICE_EXT_TOPO_DEV_IMG_PART_NUM_S 8 #define ICE_EXT_TOPO_DEV_IMG_PART_NUM_M \ MAKEMASK(0xFF, ICE_EXT_TOPO_DEV_IMG_PART_NUM_S) bool ext_topo_dev_img_load_en[ICE_EXT_TOPO_DEV_IMG_COUNT]; #define ICE_EXT_TOPO_DEV_IMG_LOAD_EN BIT(0) bool ext_topo_dev_img_prog_en[ICE_EXT_TOPO_DEV_IMG_COUNT]; #define ICE_EXT_TOPO_DEV_IMG_PROG_EN BIT(1) bool ext_topo_dev_img_ver_schema[ICE_EXT_TOPO_DEV_IMG_COUNT]; #define ICE_EXT_TOPO_DEV_IMG_VER_SCHEMA BIT(2) bool tx_sched_topo_comp_mode_en; bool dyn_flattening_en; /* Support for OROM update in Recovery Mode */ bool orom_recovery_update; }; #define ICE_NAC_TOPO_PRIMARY_M BIT(0) #define ICE_NAC_TOPO_DUAL_M BIT(1) #define ICE_NAC_TOPO_ID_M MAKEMASK(0xf, 0) struct ice_nac_topology { u32 mode; u8 id; }; /* Function specific capabilities */ struct ice_hw_func_caps { struct ice_hw_common_caps common_cap; u32 num_allocd_vfs; /* Number of allocated VFs */ u32 vf_base_id; /* Logical ID of the first VF */ u32 guar_num_vsi; }; /* Device wide capabilities */ struct ice_hw_dev_caps { struct ice_hw_common_caps common_cap; u32 num_vfs_exposed; /* Total number of VFs exposed */ u32 num_vsi_allocd_to_host; /* Excluding EMP VSI */ u32 num_funcs; struct ice_nac_topology nac_topo; /* bitmap of supported sensors */ u32 supported_sensors; #define ICE_SENSOR_SUPPORT_E810_INT_TEMP BIT(0) }; /* Information about MAC such as address, etc... */ struct ice_mac_info { u8 lan_addr[ETH_ALEN]; u8 perm_addr[ETH_ALEN]; u8 port_addr[ETH_ALEN]; u8 wol_addr[ETH_ALEN]; }; /* PCI bus types */ enum ice_bus_type { ice_bus_unknown = 0, ice_bus_pci_express, ice_bus_embedded, /* Is device Embedded versus card */ ice_bus_reserved }; /* PCI bus speeds */ enum ice_pcie_bus_speed { ice_pcie_speed_unknown = 0xff, ice_pcie_speed_2_5GT = 0x14, ice_pcie_speed_5_0GT = 0x15, ice_pcie_speed_8_0GT = 0x16, ice_pcie_speed_16_0GT = 0x17 }; /* PCI bus widths */ enum ice_pcie_link_width { ice_pcie_lnk_width_resrv = 0x00, ice_pcie_lnk_x1 = 0x01, ice_pcie_lnk_x2 = 0x02, ice_pcie_lnk_x4 = 0x04, ice_pcie_lnk_x8 = 0x08, ice_pcie_lnk_x12 = 0x0C, ice_pcie_lnk_x16 = 0x10, ice_pcie_lnk_x32 = 0x20, ice_pcie_lnk_width_unknown = 0xff, }; /* Reset types used to determine which kind of reset was requested. These * defines match what the RESET_TYPE field of the GLGEN_RSTAT register. * ICE_RESET_PFR does not match any RESET_TYPE field in the GLGEN_RSTAT register * because its reset source is different than the other types listed. */ enum ice_reset_req { ICE_RESET_POR = 0, ICE_RESET_INVAL = 0, ICE_RESET_CORER = 1, ICE_RESET_GLOBR = 2, ICE_RESET_EMPR = 3, ICE_RESET_PFR = 4, }; /* Bus parameters */ struct ice_bus_info { enum ice_pcie_bus_speed speed; enum ice_pcie_link_width width; enum ice_bus_type type; u16 domain_num; u16 device; u8 func; u8 bus_num; }; /* Flow control (FC) parameters */ struct ice_fc_info { enum ice_fc_mode current_mode; /* FC mode in effect */ enum ice_fc_mode req_mode; /* FC mode requested by caller */ }; /* Option ROM version information */ struct ice_orom_info { u8 major; /* Major version of OROM */ u8 patch; /* Patch version of OROM */ u16 build; /* Build version of OROM */ u32 srev; /* Security revision */ }; /* NVM version information */ struct ice_nvm_info { u32 eetrack; u32 srev; u8 major; u8 minor; }; /* Minimum Security Revision information */ struct ice_minsrev_info { u32 nvm; u32 orom; u8 nvm_valid : 1; u8 orom_valid : 1; }; /* netlist version information */ struct ice_netlist_info { u32 major; /* major high/low */ u32 minor; /* minor high/low */ u32 type; /* type high/low */ u32 rev; /* revision high/low */ u32 hash; /* SHA-1 hash word */ u16 cust_ver; /* customer version */ }; /* Enumeration of possible flash banks for the NVM, OROM, and Netlist modules * of the flash image. */ enum ice_flash_bank { ICE_INVALID_FLASH_BANK, ICE_1ST_FLASH_BANK, ICE_2ND_FLASH_BANK, }; /* Enumeration of which flash bank is desired to read from, either the active * bank or the inactive bank. Used to abstract 1st and 2nd bank notion from * code which just wants to read the active or inactive flash bank. */ enum ice_bank_select { ICE_ACTIVE_FLASH_BANK, ICE_INACTIVE_FLASH_BANK, }; /* information for accessing NVM, OROM, and Netlist flash banks */ struct ice_bank_info { u32 nvm_ptr; /* Pointer to 1st NVM bank */ u32 nvm_size; /* Size of NVM bank */ u32 orom_ptr; /* Pointer to 1st OROM bank */ u32 orom_size; /* Size of OROM bank */ u32 netlist_ptr; /* Pointer to 1st Netlist bank */ u32 netlist_size; /* Size of Netlist bank */ enum ice_flash_bank nvm_bank; /* Active NVM bank */ enum ice_flash_bank orom_bank; /* Active OROM bank */ enum ice_flash_bank netlist_bank; /* Active Netlist bank */ }; /* Flash Chip Information */ struct ice_flash_info { struct ice_orom_info orom; /* Option ROM version info */ struct ice_nvm_info nvm; /* NVM version information */ struct ice_netlist_info netlist;/* Netlist version info */ struct ice_bank_info banks; /* Flash Bank information */ u16 sr_words; /* Shadow RAM size in words */ u32 flash_size; /* Size of available flash in bytes */ u8 blank_nvm_mode; /* is NVM empty (no FW present) */ }; struct ice_link_default_override_tlv { u8 options; #define ICE_LINK_OVERRIDE_OPT_M 0x3F #define ICE_LINK_OVERRIDE_STRICT_MODE BIT(0) #define ICE_LINK_OVERRIDE_EPCT_DIS BIT(1) #define ICE_LINK_OVERRIDE_PORT_DIS BIT(2) #define ICE_LINK_OVERRIDE_EN BIT(3) #define ICE_LINK_OVERRIDE_AUTO_LINK_DIS BIT(4) #define ICE_LINK_OVERRIDE_EEE_EN BIT(5) u8 phy_config; #define ICE_LINK_OVERRIDE_PHY_CFG_S 8 #define ICE_LINK_OVERRIDE_PHY_CFG_M (0xC3 << ICE_LINK_OVERRIDE_PHY_CFG_S) #define ICE_LINK_OVERRIDE_PAUSE_M 0x3 #define ICE_LINK_OVERRIDE_LESM_EN BIT(6) #define ICE_LINK_OVERRIDE_AUTO_FEC_EN BIT(7) u8 fec_options; #define ICE_LINK_OVERRIDE_FEC_OPT_M 0xFF u8 rsvd1; u64 phy_type_low; u64 phy_type_high; }; #define ICE_NVM_VER_LEN 32 /* Max number of port to queue branches w.r.t topology */ #define ICE_TXSCHED_MAX_BRANCHES ICE_MAX_TRAFFIC_CLASS #define ice_for_each_traffic_class(_i) \ for ((_i) = 0; (_i) < ICE_MAX_TRAFFIC_CLASS; (_i)++) /* ICE_DFLT_AGG_ID means that all new VM(s)/VSI node connects * to driver defined policy for default aggregator */ #define ICE_INVAL_TEID 0xFFFFFFFF #define ICE_DFLT_AGG_ID 0 struct ice_sched_node { struct ice_sched_node *parent; struct ice_sched_node *sibling; /* next sibling in the same layer */ struct ice_sched_node **children; struct ice_aqc_txsched_elem_data info; u32 agg_id; /* aggregator group ID */ u16 vsi_handle; u8 in_use; /* suspended or in use */ u8 tx_sched_layer; /* Logical Layer (1-9) */ u8 num_children; u8 tc_num; u8 owner; #define ICE_SCHED_NODE_OWNER_LAN 0 #define ICE_SCHED_NODE_OWNER_AE 1 #define ICE_SCHED_NODE_OWNER_RDMA 2 }; /* Access Macros for Tx Sched Elements data */ #define ICE_TXSCHED_GET_NODE_TEID(x) LE32_TO_CPU((x)->info.node_teid) #define ICE_TXSCHED_GET_PARENT_TEID(x) LE32_TO_CPU((x)->info.parent_teid) #define ICE_TXSCHED_GET_CIR_RL_ID(x) \ LE16_TO_CPU((x)->info.cir_bw.bw_profile_idx) #define ICE_TXSCHED_GET_EIR_RL_ID(x) \ LE16_TO_CPU((x)->info.eir_bw.bw_profile_idx) #define ICE_TXSCHED_GET_SRL_ID(x) LE16_TO_CPU((x)->info.srl_id) #define ICE_TXSCHED_GET_CIR_BWALLOC(x) \ LE16_TO_CPU((x)->info.cir_bw.bw_alloc) #define ICE_TXSCHED_GET_EIR_BWALLOC(x) \ LE16_TO_CPU((x)->info.eir_bw.bw_alloc) struct ice_sched_rl_profile { u32 rate; /* In Kbps */ struct ice_aqc_rl_profile_elem info; }; /* The aggregator type determines if identifier is for a VSI group, * aggregator group, aggregator of queues, or queue group. */ enum ice_agg_type { ICE_AGG_TYPE_UNKNOWN = 0, ICE_AGG_TYPE_TC, ICE_AGG_TYPE_AGG, /* aggregator */ ICE_AGG_TYPE_VSI, ICE_AGG_TYPE_QG, ICE_AGG_TYPE_Q }; /* Rate limit types */ enum ice_rl_type { ICE_UNKNOWN_BW = 0, ICE_MIN_BW, /* for CIR profile */ ICE_MAX_BW, /* for EIR profile */ ICE_SHARED_BW /* for shared profile */ }; #define ICE_SCHED_MIN_BW 500 /* in Kbps */ #define ICE_SCHED_MAX_BW 100000000 /* in Kbps */ #define ICE_SCHED_DFLT_BW 0xFFFFFFFF /* unlimited */ #define ICE_SCHED_NO_PRIORITY 0 #define ICE_SCHED_NO_BW_WT 0 #define ICE_SCHED_DFLT_RL_PROF_ID 0 #define ICE_SCHED_NO_SHARED_RL_PROF_ID 0xFFFF #define ICE_SCHED_DFLT_BW_WT 4 #define ICE_SCHED_INVAL_PROF_ID 0xFFFF #define ICE_SCHED_DFLT_BURST_SIZE (15 * 1024) /* in bytes (15k) */ /* Access Macros for Tx Sched RL Profile data */ #define ICE_TXSCHED_GET_RL_PROF_ID(p) LE16_TO_CPU((p)->info.profile_id) #define ICE_TXSCHED_GET_RL_MBS(p) LE16_TO_CPU((p)->info.max_burst_size) #define ICE_TXSCHED_GET_RL_MULTIPLIER(p) LE16_TO_CPU((p)->info.rl_multiply) #define ICE_TXSCHED_GET_RL_WAKEUP_MV(p) LE16_TO_CPU((p)->info.wake_up_calc) #define ICE_TXSCHED_GET_RL_ENCODE(p) LE16_TO_CPU((p)->info.rl_encode) #define ICE_MAX_PORT_PER_PCI_DEV 8 /* The following tree example shows the naming conventions followed under * ice_port_info struct for default scheduler tree topology. * * A tree on a port * * ---> root node * (TC0)/ / / / \ \ \ \(TC7) ---> num_branches (range:1- 8) * * * * * * * * * | * / | * * | * / |-> num_elements (range:1 - 9) * * | implies num_of_layers * / | * (a)* | * * (a) is the last_node_teid(not of type Leaf). A leaf node is created under * (a) as child node where queues get added, add Tx/Rx queue admin commands; * need TEID of (a) to add queues. * * This tree * -> has 8 branches (one for each TC) * -> First branch (TC0) has 4 elements * -> has 4 layers * -> (a) is the topmost layer node created by firmware on branch 0 * * Note: Above asterisk tree covers only basic terminology and scenario. * Refer to the documentation for more info. */ /* Data structure for saving BW information */ enum ice_bw_type { ICE_BW_TYPE_PRIO, ICE_BW_TYPE_CIR, ICE_BW_TYPE_CIR_WT, ICE_BW_TYPE_EIR, ICE_BW_TYPE_EIR_WT, ICE_BW_TYPE_SHARED, ICE_BW_TYPE_CNT /* This must be last */ }; struct ice_bw { u32 bw; u16 bw_alloc; }; struct ice_bw_type_info { ice_declare_bitmap(bw_t_bitmap, ICE_BW_TYPE_CNT); u8 generic; struct ice_bw cir_bw; struct ice_bw eir_bw; u32 shared_bw; }; /* VSI queue context structure for given TC */ struct ice_q_ctx { u16 q_handle; u32 q_teid; /* bw_t_info saves queue BW information */ struct ice_bw_type_info bw_t_info; }; /* VSI type list entry to locate corresponding VSI/aggregator nodes */ struct ice_sched_vsi_info { struct ice_sched_node *vsi_node[ICE_MAX_TRAFFIC_CLASS]; struct ice_sched_node *ag_node[ICE_MAX_TRAFFIC_CLASS]; u16 max_lanq[ICE_MAX_TRAFFIC_CLASS]; u16 max_rdmaq[ICE_MAX_TRAFFIC_CLASS]; /* bw_t_info saves VSI BW information */ struct ice_bw_type_info bw_t_info[ICE_MAX_TRAFFIC_CLASS]; }; /* CEE or IEEE 802.1Qaz ETS Configuration data */ struct ice_dcb_ets_cfg { u8 willing; u8 cbs; u8 maxtcs; u8 prio_table[ICE_MAX_TRAFFIC_CLASS]; u8 tcbwtable[ICE_MAX_TRAFFIC_CLASS]; u8 tsatable[ICE_MAX_TRAFFIC_CLASS]; }; /* CEE or IEEE 802.1Qaz PFC Configuration data */ struct ice_dcb_pfc_cfg { u8 willing; u8 mbc; u8 pfccap; u8 pfcena; }; /* CEE or IEEE 802.1Qaz Application Priority data */ struct ice_dcb_app_priority_table { u16 prot_id; u8 priority; u8 selector; }; #define ICE_MAX_USER_PRIORITY 8 #define ICE_DCBX_MAX_APPS 64 #define ICE_DSCP_NUM_VAL 64 #define ICE_LLDPDU_SIZE 1500 #define ICE_TLV_STATUS_OPER 0x1 #define ICE_TLV_STATUS_SYNC 0x2 #define ICE_TLV_STATUS_ERR 0x4 #define ICE_APP_PROT_ID_FCOE 0x8906 #define ICE_APP_PROT_ID_ISCSI 0x0cbc #define ICE_APP_PROT_ID_ISCSI_860 0x035c #define ICE_APP_PROT_ID_FIP 0x8914 #define ICE_APP_SEL_ETHTYPE 0x1 #define ICE_APP_SEL_TCPIP 0x2 #define ICE_CEE_APP_SEL_ETHTYPE 0x0 #define ICE_CEE_APP_SEL_TCPIP 0x1 struct ice_dcbx_cfg { u32 numapps; u32 tlv_status; /* CEE mode TLV status */ struct ice_dcb_ets_cfg etscfg; struct ice_dcb_ets_cfg etsrec; struct ice_dcb_pfc_cfg pfc; #define ICE_QOS_MODE_VLAN 0x0 #define ICE_QOS_MODE_DSCP 0x1 u8 pfc_mode; struct ice_dcb_app_priority_table app[ICE_DCBX_MAX_APPS]; /* when DSCP mapping defined by user set its bit to 1 */ ice_declare_bitmap(dscp_mapped, ICE_DSCP_NUM_VAL); /* array holding DSCP -> UP/TC values for DSCP L3 QoS mode */ u8 dscp_map[ICE_DSCP_NUM_VAL]; u8 dcbx_mode; #define ICE_DCBX_MODE_CEE 0x1 #define ICE_DCBX_MODE_IEEE 0x2 u8 app_mode; #define ICE_DCBX_APPS_NON_WILLING 0x1 }; struct ice_qos_cfg { struct ice_dcbx_cfg local_dcbx_cfg; /* Oper/Local Cfg */ struct ice_dcbx_cfg desired_dcbx_cfg; /* CEE Desired Cfg */ struct ice_dcbx_cfg remote_dcbx_cfg; /* Peer Cfg */ u8 dcbx_status : 3; /* see ICE_DCBX_STATUS_DIS */ u8 is_sw_lldp : 1; }; struct ice_port_info { struct ice_sched_node *root; /* Root Node per Port */ struct ice_hw *hw; /* back pointer to HW instance */ u32 last_node_teid; /* scheduler last node info */ u16 sw_id; /* Initial switch ID belongs to port */ u16 pf_vf_num; u8 port_state; #define ICE_SCHED_PORT_STATE_INIT 0x0 #define ICE_SCHED_PORT_STATE_READY 0x1 u8 lport; #define ICE_LPORT_MASK 0xff struct ice_fc_info fc; struct ice_mac_info mac; struct ice_phy_info phy; struct ice_lock sched_lock; /* protect access to TXSched tree */ struct ice_sched_node * sib_head[ICE_MAX_TRAFFIC_CLASS][ICE_AQC_TOPO_MAX_LEVEL_NUM]; struct ice_bw_type_info root_node_bw_t_info; struct ice_bw_type_info tc_node_bw_t_info[ICE_MAX_TRAFFIC_CLASS]; struct ice_qos_cfg qos_cfg; u8 is_vf:1; u8 is_custom_tx_enabled:1; }; struct ice_switch_info { struct LIST_HEAD_TYPE vsi_list_map_head; struct ice_sw_recipe *recp_list; u16 prof_res_bm_init; u16 max_used_prof_index; ice_declare_bitmap(prof_res_bm[ICE_MAX_NUM_PROFILES], ICE_MAX_FV_WORDS); }; /* Enum defining the different states of the mailbox snapshot in the * PF-VF mailbox overflow detection algorithm. The snapshot can be in * states: * 1. ICE_MAL_VF_DETECT_STATE_NEW_SNAPSHOT - generate a new static snapshot * within the mailbox buffer. * 2. ICE_MAL_VF_DETECT_STATE_TRAVERSE - iterate through the mailbox snaphot * 3. ICE_MAL_VF_DETECT_STATE_DETECT - track the messages sent per VF via the * mailbox and mark any VFs sending more messages than the threshold limit set. * 4. ICE_MAL_VF_DETECT_STATE_INVALID - Invalid mailbox state set to 0xFFFFFFFF. */ enum ice_mbx_snapshot_state { ICE_MAL_VF_DETECT_STATE_NEW_SNAPSHOT = 0, ICE_MAL_VF_DETECT_STATE_TRAVERSE, ICE_MAL_VF_DETECT_STATE_DETECT, ICE_MAL_VF_DETECT_STATE_INVALID = 0xFFFFFFFF, }; /* Structure to hold information of the static snapshot and the mailbox * buffer data used to generate and track the snapshot. * 1. state: the state of the mailbox snapshot in the malicious VF * detection state handler ice_mbx_vf_state_handler() * 2. head : head of the mailbox snapshot in a circular mailbox buffer * 3. tail : tail of the mailbox snapshot in a circular mailbox buffer * 4. num_iterations: number of messages traversed in circular mailbox buffer * 5. num_msg_proc: number of messages processed in mailbox * 6. num_pending_arq: number of pending asynchronous messages * 7. max_num_msgs_mbx: maximum messages in mailbox for currently * serviced work item or interrupt. */ struct ice_mbx_snap_buffer_data { enum ice_mbx_snapshot_state state; u32 head; u32 tail; u32 num_iterations; u16 num_msg_proc; u16 num_pending_arq; u16 max_num_msgs_mbx; }; /* Structure used to track a single VF's messages on the mailbox: * 1. list_entry: linked list entry node * 2. msg_count: the number of asynchronous messages sent by this VF * 3. malicious: whether this VF has been detected as malicious before */ struct ice_mbx_vf_info { struct LIST_ENTRY_TYPE list_entry; u32 msg_count; u8 malicious : 1; }; /* Structure to hold data relevant to the captured static snapshot * of the PF-VF mailbox. */ struct ice_mbx_snapshot { struct ice_mbx_snap_buffer_data mbx_buf; struct LIST_HEAD_TYPE mbx_vf; }; /* Structure to hold data to be used for capturing or updating a * static snapshot. * 1. num_msg_proc: number of messages processed in mailbox * 2. num_pending_arq: number of pending asynchronous messages * 3. max_num_msgs_mbx: maximum messages in mailbox for currently * serviced work item or interrupt. * 4. async_watermark_val: An upper threshold set by caller to determine * if the pending arq count is large enough to assume that there is * the possibility of a mailicious VF. */ struct ice_mbx_data { u16 num_msg_proc; u16 num_pending_arq; u16 max_num_msgs_mbx; u16 async_watermark_val; }; /* PHY model */ enum ice_phy_model { ICE_PHY_UNSUP = -1, ICE_PHY_E810 = 1, ICE_PHY_E822, }; /* Port hardware description */ struct ice_hw { u8 *hw_addr; void *back; struct ice_aqc_layer_props *layer_info; struct ice_port_info *port_info; /* 2D Array for each Tx Sched RL Profile type */ struct ice_sched_rl_profile **cir_profiles; struct ice_sched_rl_profile **eir_profiles; struct ice_sched_rl_profile **srl_profiles; /* PSM clock frequency for calculating RL profile params */ u32 psm_clk_freq; u64 debug_mask; /* BITMAP for debug mask */ enum ice_mac_type mac_type; /* pci info */ u16 device_id; u16 vendor_id; u16 subsystem_device_id; u16 subsystem_vendor_id; u8 revision_id; u8 pf_id; /* device profile info */ enum ice_phy_model phy_model; u8 phy_ports; u8 max_phy_port; u16 max_burst_size; /* driver sets this value */ /* Tx Scheduler values */ u8 num_tx_sched_layers; u8 num_tx_sched_phys_layers; u8 flattened_layers; u8 max_cgds; u8 sw_entry_point_layer; u16 max_children[ICE_AQC_TOPO_MAX_LEVEL_NUM]; struct LIST_HEAD_TYPE agg_list; /* lists all aggregator */ /* List contain profile ID(s) and other params per layer */ struct LIST_HEAD_TYPE rl_prof_list[ICE_AQC_TOPO_MAX_LEVEL_NUM]; struct ice_vsi_ctx *vsi_ctx[ICE_MAX_VSI]; u8 evb_veb; /* true for VEB, false for VEPA */ u8 reset_ongoing; /* true if HW is in reset, false otherwise */ struct ice_bus_info bus; struct ice_flash_info flash; struct ice_hw_dev_caps dev_caps; /* device capabilities */ struct ice_hw_func_caps func_caps; /* function capabilities */ struct ice_switch_info *switch_info; /* switch filter lists */ /* Control Queue info */ struct ice_ctl_q_info adminq; struct ice_ctl_q_info mailboxq; u8 api_branch; /* API branch version */ u8 api_maj_ver; /* API major version */ u8 api_min_ver; /* API minor version */ u8 api_patch; /* API patch version */ u8 fw_branch; /* firmware branch version */ u8 fw_maj_ver; /* firmware major version */ u8 fw_min_ver; /* firmware minor version */ u8 fw_patch; /* firmware patch version */ u32 fw_build; /* firmware build number */ struct ice_fwlog_cfg fwlog_cfg; bool fwlog_support_ena; /* does hardware support FW logging? */ /* Device max aggregate bandwidths corresponding to the GL_PWR_MODE_CTL * register. Used for determining the ITR/INTRL granularity during * initialization. */ #define ICE_MAX_AGG_BW_200G 0x0 #define ICE_MAX_AGG_BW_100G 0X1 #define ICE_MAX_AGG_BW_50G 0x2 #define ICE_MAX_AGG_BW_25G 0x3 /* ITR granularity for different speeds */ #define ICE_ITR_GRAN_ABOVE_25 2 #define ICE_ITR_GRAN_MAX_25 4 /* ITR granularity in 1 us */ u8 itr_gran; /* INTRL granularity for different speeds */ #define ICE_INTRL_GRAN_ABOVE_25 4 #define ICE_INTRL_GRAN_MAX_25 8 /* INTRL granularity in 1 us */ u8 intrl_gran; /* true if VSIs can share unicast MAC addr */ u8 umac_shared; #define ICE_PHY_PER_NAC_E822 1 #define ICE_MAX_QUAD 2 #define ICE_QUADS_PER_PHY_E822 2 #define ICE_PORTS_PER_PHY_E822 8 #define ICE_PORTS_PER_QUAD 4 #define ICE_PORTS_PER_PHY_E810 4 #define ICE_NUM_EXTERNAL_PORTS (ICE_MAX_QUAD * ICE_PORTS_PER_QUAD) /* Active package version (currently active) */ struct ice_pkg_ver active_pkg_ver; u32 pkg_seg_id; u32 pkg_sign_type; u32 active_track_id; u8 pkg_has_signing_seg:1; u8 active_pkg_name[ICE_PKG_NAME_SIZE]; u8 active_pkg_in_nvm; /* Driver's package ver - (from the Ice Metadata section) */ struct ice_pkg_ver pkg_ver; u8 pkg_name[ICE_PKG_NAME_SIZE]; /* Driver's Ice segment format version and id (from the Ice seg) */ struct ice_pkg_ver ice_seg_fmt_ver; u8 ice_seg_id[ICE_SEG_ID_SIZE]; /* Pointer to the ice segment */ struct ice_seg *seg; /* Pointer to allocated copy of pkg memory */ u8 *pkg_copy; u32 pkg_size; /* tunneling info */ struct ice_lock tnl_lock; struct ice_tunnel_table tnl; /* HW block tables */ struct ice_blk_info blk[ICE_BLK_COUNT]; struct ice_lock fl_profs_locks[ICE_BLK_COUNT]; /* lock fltr profiles */ struct LIST_HEAD_TYPE fl_profs[ICE_BLK_COUNT]; struct ice_lock rss_locks; /* protect RSS configuration */ struct LIST_HEAD_TYPE rss_list_head; u16 vsi_owning_pf_lut; /* SW IDX of VSI that acquired PF RSS LUT */ struct ice_mbx_snapshot mbx_snapshot; u8 dvm_ena; bool subscribable_recipes_supported; }; /* Statistics collected by each port, VSI, VEB, and S-channel */ struct ice_eth_stats { u64 rx_bytes; /* gorc */ u64 rx_unicast; /* uprc */ u64 rx_multicast; /* mprc */ u64 rx_broadcast; /* bprc */ u64 rx_discards; /* rdpc */ u64 rx_unknown_protocol; /* rupp */ u64 tx_bytes; /* gotc */ u64 tx_unicast; /* uptc */ u64 tx_multicast; /* mptc */ u64 tx_broadcast; /* bptc */ u64 tx_discards; /* tdpc */ u64 tx_errors; /* tepc */ u64 rx_no_desc; /* repc */ u64 rx_errors; /* repc */ }; #define ICE_MAX_UP 8 /* Statistics collected per VEB per User Priority (UP) for up to 8 UPs */ struct ice_veb_up_stats { u64 up_rx_pkts[ICE_MAX_UP]; u64 up_rx_bytes[ICE_MAX_UP]; u64 up_tx_pkts[ICE_MAX_UP]; u64 up_tx_bytes[ICE_MAX_UP]; }; /* Statistics collected by the MAC */ struct ice_hw_port_stats { /* eth stats collected by the port */ struct ice_eth_stats eth; /* additional port specific stats */ u64 tx_dropped_link_down; /* tdold */ u64 crc_errors; /* crcerrs */ u64 illegal_bytes; /* illerrc */ u64 error_bytes; /* errbc */ u64 mac_local_faults; /* mlfc */ u64 mac_remote_faults; /* mrfc */ u64 rx_len_errors; /* rlec */ u64 link_xon_rx; /* lxonrxc */ u64 link_xoff_rx; /* lxoffrxc */ u64 link_xon_tx; /* lxontxc */ u64 link_xoff_tx; /* lxofftxc */ u64 priority_xon_rx[8]; /* pxonrxc[8] */ u64 priority_xoff_rx[8]; /* pxoffrxc[8] */ u64 priority_xon_tx[8]; /* pxontxc[8] */ u64 priority_xoff_tx[8]; /* pxofftxc[8] */ u64 priority_xon_2_xoff[8]; /* pxon2offc[8] */ u64 rx_size_64; /* prc64 */ u64 rx_size_127; /* prc127 */ u64 rx_size_255; /* prc255 */ u64 rx_size_511; /* prc511 */ u64 rx_size_1023; /* prc1023 */ u64 rx_size_1522; /* prc1522 */ u64 rx_size_big; /* prc9522 */ u64 rx_undersize; /* ruc */ u64 rx_fragments; /* rfc */ u64 rx_oversize; /* roc */ u64 rx_jabber; /* rjc */ u64 tx_size_64; /* ptc64 */ u64 tx_size_127; /* ptc127 */ u64 tx_size_255; /* ptc255 */ u64 tx_size_511; /* ptc511 */ u64 tx_size_1023; /* ptc1023 */ u64 tx_size_1522; /* ptc1522 */ u64 tx_size_big; /* ptc9522 */ u64 mac_short_pkt_dropped; /* mspdc */ /* EEE LPI */ u32 tx_lpi_status; u32 rx_lpi_status; u64 tx_lpi_count; /* etlpic */ u64 rx_lpi_count; /* erlpic */ }; enum ice_sw_fwd_act_type { ICE_FWD_TO_VSI = 0, ICE_FWD_TO_VSI_LIST, /* Do not use this when adding filter */ ICE_FWD_TO_Q, ICE_FWD_TO_QGRP, ICE_DROP_PACKET, ICE_LG_ACTION, ICE_INVAL_ACT }; struct ice_aq_get_set_rss_lut_params { u16 vsi_handle; /* software VSI handle */ u16 lut_size; /* size of the LUT buffer */ u8 lut_type; /* type of the LUT (i.e. VSI, PF, Global) */ u8 *lut; /* input RSS LUT for set and output RSS LUT for get */ u8 global_lut_id; /* only valid when lut_type is global */ }; /* Checksum and Shadow RAM pointers */ #define ICE_SR_NVM_CTRL_WORD 0x00 #define ICE_SR_PHY_ANALOG_PTR 0x04 #define ICE_SR_OPTION_ROM_PTR 0x05 #define ICE_SR_RO_PCIR_REGS_AUTO_LOAD_PTR 0x06 #define ICE_SR_AUTO_GENERATED_POINTERS_PTR 0x07 #define ICE_SR_PCIR_REGS_AUTO_LOAD_PTR 0x08 #define ICE_SR_EMP_GLOBAL_MODULE_PTR 0x09 #define ICE_SR_EMP_IMAGE_PTR 0x0B #define ICE_SR_PE_IMAGE_PTR 0x0C #define ICE_SR_CSR_PROTECTED_LIST_PTR 0x0D #define ICE_SR_MNG_CFG_PTR 0x0E #define ICE_SR_EMP_MODULE_PTR 0x0F #define ICE_SR_PBA_BLOCK_PTR 0x16 #define ICE_SR_BOOT_CFG_PTR 0x132 #define ICE_SR_NVM_WOL_CFG 0x19 #define ICE_NVM_OROM_VER_OFF 0x02 #define ICE_SR_NVM_DEV_STARTER_VER 0x18 #define ICE_SR_ALTERNATE_SAN_MAC_ADDR_PTR 0x27 #define ICE_SR_PERMANENT_SAN_MAC_ADDR_PTR 0x28 #define ICE_SR_NVM_MAP_VER 0x29 #define ICE_SR_NVM_IMAGE_VER 0x2A #define ICE_SR_NVM_STRUCTURE_VER 0x2B #define ICE_SR_NVM_EETRACK_LO 0x2D #define ICE_SR_NVM_EETRACK_HI 0x2E #define ICE_NVM_VER_LO_SHIFT 0 #define ICE_NVM_VER_LO_MASK (0xff << ICE_NVM_VER_LO_SHIFT) #define ICE_NVM_VER_HI_SHIFT 12 #define ICE_NVM_VER_HI_MASK (0xf << ICE_NVM_VER_HI_SHIFT) #define ICE_OEM_EETRACK_ID 0xffffffff #define ICE_OROM_VER_PATCH_SHIFT 0 #define ICE_OROM_VER_PATCH_MASK (0xff << ICE_OROM_VER_PATCH_SHIFT) #define ICE_OROM_VER_BUILD_SHIFT 8 #define ICE_OROM_VER_BUILD_MASK (0xffff << ICE_OROM_VER_BUILD_SHIFT) #define ICE_OROM_VER_SHIFT 24 #define ICE_OROM_VER_MASK (0xff << ICE_OROM_VER_SHIFT) #define ICE_SR_VPD_PTR 0x2F #define ICE_SR_PXE_SETUP_PTR 0x30 #define ICE_SR_PXE_CFG_CUST_OPTIONS_PTR 0x31 #define ICE_SR_NVM_ORIGINAL_EETRACK_LO 0x34 #define ICE_SR_NVM_ORIGINAL_EETRACK_HI 0x35 #define ICE_SR_VLAN_CFG_PTR 0x37 #define ICE_SR_POR_REGS_AUTO_LOAD_PTR 0x38 #define ICE_SR_EMPR_REGS_AUTO_LOAD_PTR 0x3A #define ICE_SR_GLOBR_REGS_AUTO_LOAD_PTR 0x3B #define ICE_SR_CORER_REGS_AUTO_LOAD_PTR 0x3C #define ICE_SR_PHY_CFG_SCRIPT_PTR 0x3D #define ICE_SR_PCIE_ALT_AUTO_LOAD_PTR 0x3E #define ICE_SR_SW_CHECKSUM_WORD 0x3F #define ICE_SR_PFA_PTR 0x40 #define ICE_SR_1ST_SCRATCH_PAD_PTR 0x41 #define ICE_SR_1ST_NVM_BANK_PTR 0x42 #define ICE_SR_NVM_BANK_SIZE 0x43 #define ICE_SR_1ST_OROM_BANK_PTR 0x44 #define ICE_SR_OROM_BANK_SIZE 0x45 #define ICE_SR_NETLIST_BANK_PTR 0x46 #define ICE_SR_NETLIST_BANK_SIZE 0x47 #define ICE_SR_EMP_SR_SETTINGS_PTR 0x48 #define ICE_SR_CONFIGURATION_METADATA_PTR 0x4D #define ICE_SR_IMMEDIATE_VALUES_PTR 0x4E #define ICE_SR_LINK_DEFAULT_OVERRIDE_PTR 0x134 #define ICE_SR_POR_REGISTERS_AUTOLOAD_PTR 0x118 /* CSS Header words */ #define ICE_NVM_CSS_HDR_LEN_L 0x02 #define ICE_NVM_CSS_HDR_LEN_H 0x03 #define ICE_NVM_CSS_SREV_L 0x14 #define ICE_NVM_CSS_SREV_H 0x15 /* Length of Authentication header section in words */ #define ICE_NVM_AUTH_HEADER_LEN 0x08 /* The Link Topology Netlist section is stored as a series of words. It is * stored in the NVM as a TLV, with the first two words containing the type * and length. */ #define ICE_NETLIST_LINK_TOPO_MOD_ID 0x011B #define ICE_NETLIST_TYPE_OFFSET 0x0000 #define ICE_NETLIST_LEN_OFFSET 0x0001 /* The Link Topology section follows the TLV header. When reading the netlist * using ice_read_netlist_module, we need to account for the 2-word TLV * header. */ #define ICE_NETLIST_LINK_TOPO_OFFSET(n) ((n) + 2) #define ICE_LINK_TOPO_MODULE_LEN ICE_NETLIST_LINK_TOPO_OFFSET(0x0000) #define ICE_LINK_TOPO_NODE_COUNT ICE_NETLIST_LINK_TOPO_OFFSET(0x0001) #define ICE_LINK_TOPO_NODE_COUNT_M MAKEMASK(0x3FF, 0) /* The Netlist ID Block is located after all of the Link Topology nodes. */ #define ICE_NETLIST_ID_BLK_SIZE 0x30 #define ICE_NETLIST_ID_BLK_OFFSET(n) ICE_NETLIST_LINK_TOPO_OFFSET(0x0004 + 2 * (n)) /* netlist ID block field offsets (word offsets) */ #define ICE_NETLIST_ID_BLK_MAJOR_VER_LOW 0x02 #define ICE_NETLIST_ID_BLK_MAJOR_VER_HIGH 0x03 #define ICE_NETLIST_ID_BLK_MINOR_VER_LOW 0x04 #define ICE_NETLIST_ID_BLK_MINOR_VER_HIGH 0x05 #define ICE_NETLIST_ID_BLK_TYPE_LOW 0x06 #define ICE_NETLIST_ID_BLK_TYPE_HIGH 0x07 #define ICE_NETLIST_ID_BLK_REV_LOW 0x08 #define ICE_NETLIST_ID_BLK_REV_HIGH 0x09 #define ICE_NETLIST_ID_BLK_SHA_HASH_WORD(n) (0x0A + (n)) #define ICE_NETLIST_ID_BLK_CUST_VER 0x2F /* Auxiliary field, mask and shift definition for Shadow RAM and NVM Flash */ #define ICE_SR_VPD_SIZE_WORDS 512 #define ICE_SR_PCIE_ALT_SIZE_WORDS 512 #define ICE_SR_CTRL_WORD_1_S 0x06 #define ICE_SR_CTRL_WORD_1_M (0x03 << ICE_SR_CTRL_WORD_1_S) #define ICE_SR_CTRL_WORD_VALID 0x1 #define ICE_SR_CTRL_WORD_OROM_BANK BIT(3) #define ICE_SR_CTRL_WORD_NETLIST_BANK BIT(4) #define ICE_SR_CTRL_WORD_NVM_BANK BIT(5) #define ICE_SR_NVM_PTR_4KB_UNITS BIT(15) /* Shadow RAM related */ #define ICE_SR_SECTOR_SIZE_IN_WORDS 0x800 #define ICE_SR_BUF_ALIGNMENT 4096 #define ICE_SR_WORDS_IN_1KB 512 /* Checksum should be calculated such that after adding all the words, * including the checksum word itself, the sum should be 0xBABA. */ #define ICE_SR_SW_CHECKSUM_BASE 0xBABA /* Link override related */ #define ICE_SR_PFA_LINK_OVERRIDE_WORDS 10 #define ICE_SR_PFA_LINK_OVERRIDE_PHY_WORDS 4 #define ICE_SR_PFA_LINK_OVERRIDE_OFFSET 2 #define ICE_SR_PFA_LINK_OVERRIDE_FEC_OFFSET 1 #define ICE_SR_PFA_LINK_OVERRIDE_PHY_OFFSET 2 #define ICE_FW_API_LINK_OVERRIDE_MAJ 1 #define ICE_FW_API_LINK_OVERRIDE_MIN 5 #define ICE_FW_API_LINK_OVERRIDE_PATCH 2 #define ICE_PBA_FLAG_DFLT 0xFAFA /* Hash redirection LUT for VSI - maximum array size */ #define ICE_VSIQF_HLUT_ARRAY_SIZE ((VSIQF_HLUT_MAX_INDEX + 1) * 4) /* * Defines for values in the VF_PE_DB_SIZE bits in the GLPCI_LBARCTRL register. * This is needed to determine the BAR0 space for the VFs */ #define GLPCI_LBARCTRL_VF_PE_DB_SIZE_0KB 0x0 #define GLPCI_LBARCTRL_VF_PE_DB_SIZE_8KB 0x1 #define GLPCI_LBARCTRL_VF_PE_DB_SIZE_64KB 0x2 /* AQ API version for LLDP_FILTER_CONTROL */ #define ICE_FW_API_LLDP_FLTR_MAJ 1 #define ICE_FW_API_LLDP_FLTR_MIN 7 #define ICE_FW_API_LLDP_FLTR_PATCH 1 /* AQ API version for report default configuration */ #define ICE_FW_API_REPORT_DFLT_CFG_MAJ 1 #define ICE_FW_API_REPORT_DFLT_CFG_MIN 7 #define ICE_FW_API_REPORT_DFLT_CFG_PATCH 3 /* FW branch number for hardware families */ #define ICE_FW_VER_BRANCH_E82X 0 #define ICE_FW_VER_BRANCH_E810 1 /* FW version for FEC disable in Auto FEC mode */ #define ICE_FW_FEC_DIS_AUTO_MAJ 7 #define ICE_FW_FEC_DIS_AUTO_MIN 0 #define ICE_FW_FEC_DIS_AUTO_PATCH 5 #define ICE_FW_FEC_DIS_AUTO_MAJ_E82X 7 #define ICE_FW_FEC_DIS_AUTO_MIN_E82X 1 #define ICE_FW_FEC_DIS_AUTO_PATCH_E82X 2 /* AQ API version for FW health reports */ #define ICE_FW_API_HEALTH_REPORT_MAJ 1 #define ICE_FW_API_HEALTH_REPORT_MIN 7 #define ICE_FW_API_HEALTH_REPORT_PATCH 6 /* AQ API version for FW auto drop reports */ #define ICE_FW_API_AUTO_DROP_MAJ 1 #define ICE_FW_API_AUTO_DROP_MIN 4 #endif /* _ICE_TYPE_H_ */