/* SPDX-License-Identifier: LicenseRef-NvidiaProprietary * SPDX-FileCopyrightText: Copyright (c) 2018-2024 NVIDIA CORPORATION. All rights reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ #ifndef INCLUDED_OSI_CORE_H #define INCLUDED_OSI_CORE_H #include "nvethernetrm_export.h" #include "nvethernetrm_l3l4.h" #include #include "mmc.h" #ifdef OSI_RM_FTRACE #ifdef __QNX__ #include #define ethernet_server_entry_log() do { \ slogf(0, 2, "%s : Function Entry\n", __func__); \ } while (0) #define ethernet_server_exit_log() do { \ slogf(0, 2, "%s : Function Exit\n", __func__); \ } while (0) #define ethernet_server_cmd_log(string) do { \ slogf(0, 2, "%s: command is %s \n", __func__, string); \ } while (0) #else #include #define ethernet_server_entry_log() do { \ RtosCWrapStringLog(__func__); \ RtosCWrapStringLog(": Function Entry"); \ RtosCWrapStringLog("\n"); \ } while (0) #define ethernet_server_exit_log() do { \ RtosCWrapStringLog(__func__); \ RtosCWrapStringLog(": Function Exit"); \ RtosCWrapStringLog("\n"); \ } while (0) #define ethernet_server_cmd_log(string) do { \ RtosCWrapStringLog(__func__); \ RtosCWrapStringLog(": command is " string ""); \ RtosCWrapStringLog("\n"); \ } while (0) #endif //__QNX__ #endif //OSI_RM_FTRACE struct ivc_msg_common; /** * @addtogroup typedef related info * * @brief typedefs that indicate size and signness * @{ */ /* Following added to avoid misraC 4.6 * Here we are defining intermediate type */ /** intermediate type for long long */ typedef long long my_lint_64; /** typedef equivalent to long long */ typedef my_lint_64 nvel64_t; /** @} */ #ifndef OSI_STRIPPED_LIB #define OSI_OPER_EN_L2_DA_INV OSI_BIT(4) #define OSI_OPER_DIS_L2_DA_INV OSI_BIT(5) #define OSI_PTP_SNAP_TRANSPORT 1U #define OSI_VLAN_ACTION_DEL 0x0U #define OSI_VLAN_ACTION_ADD OSI_BIT(31) #define OSI_RXQ_ROUTE_PTP 0U #define EQOS_MAX_HTR_REGS 8U /** * @addtogroup RSS related information * * @brief RSS hash key and table size. * @{ */ #define OSI_RSS_HASH_KEY_SIZE 40U #define OSI_RSS_MAX_TABLE_SIZE 128U /** @} */ #define OSI_CMD_RESET_MMC 12U #define OSI_CMD_MDC_CONFIG 1U #define OSI_CMD_MAC_LB 14U #define OSI_CMD_FLOW_CTRL 15U #define OSI_CMD_CONFIG_TXSTATUS 27U #define OSI_CMD_CONFIG_RX_CRC_CHECK 25U #define OSI_CMD_CONFIG_EEE 32U #define OSI_CMD_ARP_OFFLOAD 30U #define OSI_CMD_UPDATE_VLAN_ID 26U #define OSI_CMD_VLAN_FILTER 31U #define OSI_CMD_CONFIG_PTP_OFFLOAD 34U #define OSI_CMD_PTP_RXQ_ROUTE 35U #define OSI_CMD_CONFIG_RSS 37U #define OSI_CMD_CONFIG_FW_ERR 29U #define OSI_CMD_SET_MODE 16U #define OSI_CMD_POLL_FOR_MAC_RST 4U #define OSI_CMD_GET_MAC_VER 10U /** * @addtogroup PTP-offload PTP offload defines * @{ */ #define OSI_PTP_MAX_PORTID 0xFFFFU #define OSI_PTP_MAX_DOMAIN 0xFFU #define OSI_PTP_SNAP_ORDINARY 0U #define OSI_PTP_SNAP_P2P 3U /** @} */ #define OSI_MAC_TCR_TSMASTERENA OSI_BIT(15) #define OSI_MAC_TCR_TSEVENTENA OSI_BIT(14) #define OSI_MAC_TCR_TSENALL OSI_BIT(8) #define OSI_MAC_TCR_SNAPTYPSEL_3 (OSI_BIT(16) | OSI_BIT(17)) #define OSI_MAC_TCR_SNAPTYPSEL_2 OSI_BIT(17) #define OSI_MAC_TCR_CSC OSI_BIT(19) #define OSI_MAC_TCR_AV8021ASMEN OSI_BIT(28) #define OSI_INSTANCE_ID_MBGE0 0 #define OSI_INSTANCE_ID_MGBE1 1 #define OSI_INSTANCE_ID_MGBE2 2 #define OSI_INSTANCE_ID_MGBE3 3 #define OSI_INSTANCE_ID_EQOS 4 #endif /* !OSI_STRIPPED_LIB */ #ifdef MACSEC_SUPPORT /** * @addtogroup MACSEC related helper MACROs * * @brief MACSEC generic helper MACROs * @{ */ /** * @brief Maximum number of Secure Channels */ #define OSI_MAX_NUM_SC 8U /** * @brief MACSEC Secure Channel Identifier length */ #define OSI_SCI_LEN 8U /** * @brief MACSEC Key length for AES_128 Algorithm */ #define OSI_KEY_LEN_128 16U /** * @brief MACSEC Key length for AES_256 Algorithm */ #define OSI_KEY_LEN_256 32U /** * @brief Number of MACSEC Controllers */ #define OSI_NUM_CTLR 2U /** @} */ #endif /* MACSEC_SUPPORT */ /** * @addtogroup PTP PTP related information * * @brief PTP MAC-to-MAC sync role */ /** @brief PTP MAC to MAC is disabled */ #define OSI_PTP_M2M_INACTIVE 0U /** @brief PTP MAC to MAC is primary role */ #define OSI_PTP_M2M_PRIMARY 1U /** @brief PTP MAC to MAC is secondary role */ #define OSI_PTP_M2M_SECONDARY 2U /** @} */ /** * @addtogroup EQOS_PTP PTP Helper MACROS * * @brief EQOS PTP MAC Time stamp control reg bit fields * @{ */ #define OSI_MAC_TCR_TSENA OSI_BIT(0) #define OSI_MAC_TCR_TSCFUPDT OSI_BIT(1) #define OSI_MAC_TCR_TSCTRLSSR OSI_BIT(9) #define OSI_MAC_TCR_TSVER2ENA OSI_BIT(10) #define OSI_MAC_TCR_TSIPENA OSI_BIT(11) #define OSI_MAC_TCR_TSIPV6ENA OSI_BIT(12) #define OSI_MAC_TCR_TSIPV4ENA OSI_BIT(13) #define OSI_MAC_TCR_SNAPTYPSEL_1 OSI_BIT(16) #define OSI_MAC_TCR_TXTSSMIS OSI_BIT(31) /** @} */ /** * @addtogroup Helper MACROS * * @brief EQOS generic helper MACROS. * @{ */ #define EQOS_MAX_MAC_ADDRESS_FILTER 128U #define EQOS_MAX_MAC_5_3_ADDRESS_FILTER 32U #define EQOS_MAX_L3_L4_FILTER 8U #define OSI_MGBE_MAX_MAC_ADDRESS_FILTER 32U #define OSI_DA_MATCH 0U #ifndef OSI_STRIPPED_LIB #define OSI_INV_MATCH 1U #endif /* !OSI_STRIPPED_LIB */ #define OSI_AMASK_DISABLE 0U #define OSI_CHAN_ANY 0xFFU /** @brief default MTU supported */ #define OSI_DFLT_MTU_SIZE 1500U /** @brief MTU as 9k */ #define OSI_MTU_SIZE_9000 9000U /* Reg ETHER_QOS_AUTO_CAL_CONFIG_0[AUTO_CAL_PD/PU_OFFSET] max value */ #define OSI_PAD_CAL_CONFIG_PD_PU_OFFSET_MAX 0x1FU #ifndef OSI_STRIPPED_LIB /* HW supports 8 Hash table regs, but eqos_validate_core_regs only checks 4 */ #define OSI_EQOS_MAX_HASH_REGS 4U #endif /* !OSI_STRIPPED_LIB */ /** @brief enable flow control for Tx */ #define OSI_FLOW_CTRL_TX OSI_BIT(0) /** @brief enable flow control for Rx */ #define OSI_FLOW_CTRL_RX OSI_BIT(1) #define OSI_FULL_DUPLEX 1 #define OSI_HALF_DUPLEX 0 /* L2 filter operations supported by OSI layer. These operation modes shall be * set by OSD driver as input to update registers accordingly. */ /** @brief enables promiscous mode */ #define OSI_OPER_EN_PROMISC OSI_BIT(0) /** @brief disables promiscous mode */ #define OSI_OPER_DIS_PROMISC OSI_BIT(1) /** @brief enable all multicast mode */ #define OSI_OPER_EN_ALLMULTI OSI_BIT(2) /** @brief disable all multicast mode */ #define OSI_OPER_DIS_ALLMULTI OSI_BIT(3) /** @brief Enable perfect filtering */ #define OSI_OPER_EN_PERFECT OSI_BIT(6) /** @brief disable perfect filtering */ #define OSI_OPER_DIS_PERFECT OSI_BIT(7) /** @brief address update */ #define OSI_OPER_ADDR_UPDATE OSI_BIT(8) /** @brief address delete */ #define OSI_OPER_ADDR_DEL OSI_BIT(9) #define OSI_PFT_MATCH 0U #define OSI_SA_MATCH 1U #define OSI_SPEED_10 10 #define OSI_SPEED_100 100 #define OSI_SPEED_1000 1000 #define OSI_SPEED_2500 2500 #define OSI_SPEED_5000 5000 #define OSI_SPEED_10000 10000 #define OSI_SPEED_25000 25000 #define TEN_POWER_9 0x3B9ACA00U #define TWO_POWER_32 0x100000000ULL /* MDIO clause 45 bit */ #define OSI_MII_ADDR_C45 OSI_BIT(30) /** @} */ /** * @brief Ethernet PHY Interface Modes */ #define OSI_XFI_MODE_10G 0U #define OSI_XFI_MODE_5G 1U #define OSI_USXGMII_MODE_10G 2U #define OSI_USXGMII_MODE_5G 3U /** * @addtogroup IOCTL OPS MACROS * * @brief IOCTL OPS for runtime commands * @{ */ /** * @brief Command to set L3L4 filters */ #define OSI_CMD_L3L4_FILTER 3U /** * @brief Command to handle common ISR */ #define OSI_CMD_COMMON_ISR 7U /** * @brief Command to do pad calibration */ #define OSI_CMD_PAD_CALIBRATION 8U /** * @brief Command to read MMC counters */ #define OSI_CMD_READ_MMC 9U /** * @brief Command to set speed */ #define OSI_CMD_SET_SPEED 17U /** * @brief Command to set L2 filter */ #define OSI_CMD_L2_FILTER 18U /** * @brief Command to enable/disable RXCSUM offload */ #define OSI_CMD_RXCSUM_OFFLOAD 19U /** * @brief Command to adjust frequency */ #define OSI_CMD_ADJ_FREQ 20U /** * @brief Command to adjust time */ #define OSI_CMD_ADJ_TIME 21U /** * @brief Command to configure PTP */ #define OSI_CMD_CONFIG_PTP 22U /** * @brief Command to GET AVB */ #define OSI_CMD_GET_AVB 23U /** * @brief Command to SET AVB */ #define OSI_CMD_SET_AVB 24U /** * @brief Command to GET hardware supported features */ #define OSI_CMD_GET_HW_FEAT 28U /** * @brief Command to set system time to hardware */ #define OSI_CMD_SET_SYSTOHW_TIME 33U /** * @brief Command to configure FRP */ #define OSI_CMD_CONFIG_FRP 36U /** * @brief Command to configure EST */ #define OSI_CMD_CONFIG_EST 38U /** * @brief Command to configure FPE */ #define OSI_CMD_CONFIG_FPE 39U /** * @brief Command to read from a register */ #define OSI_CMD_READ_REG 40U /** * @brief Command to write to a register */ #define OSI_CMD_WRITE_REG 41U /** * @brief Command to get transmit timestamp */ #define OSI_CMD_GET_TX_TS 42U /** * @brief Command to free already stored timestamp */ #define OSI_CMD_FREE_TS 43U #ifdef OSI_DEBUG #define OSI_CMD_REG_DUMP 44U #define OSI_CMD_STRUCTS_DUMP 45U #endif /* OSI_DEBUG */ /** * @brief Command to capture TSC-PTP timestamp */ #define OSI_CMD_CAP_TSC_PTP 46U /** * @brief Command to update MAC-MTU */ #define OSI_CMD_MAC_MTU 47U /** * @brief Command to configure MAC to MAC time syncronyzation */ #define OSI_CMD_CONF_M2M_TS 48U #ifdef MACSEC_SUPPORT /** * @brief Command to read from a MACSEC register */ #define OSI_CMD_READ_MACSEC_REG 49U /** * @brief Command to write to a MACSEC register */ #define OSI_CMD_WRITE_MACSEC_REG 50U #endif /* MACSEC_SUPPORT */ #ifdef HSI_SUPPORT /** * @brief Command to configure HSI */ #define OSI_CMD_HSI_CONFIGURE 51U #endif #ifdef OSI_DEBUG #define OSI_CMD_DEBUG_INTR_CONFIG 52U #endif /** * @brief Command to handle suspend event */ #define OSI_CMD_SUSPEND 53U /** * @brief Command to handle resume event */ #define OSI_CMD_RESUME 54U #if defined HSI_SUPPORT && defined(NV_VLTEST_BUILD) /** * @brief Command to inject HSI error */ #define OSI_CMD_HSI_INJECT_ERR 55U #endif /* HSI_SUPPORT */ /** * @brief Command to read MAC stats */ #define OSI_CMD_READ_STATS 56U #ifdef HSI_SUPPORT /** * @brief Command to read HSI error */ #define OSI_CMD_READ_HSI_ERR 57U #endif /* HSI_SUPPORT */ /** @} */ #ifdef LOG_OSI /** * @brief OSI error macro definition, * @param[in] priv: OSD private data OR NULL * @param[in] type: error type * @param[in] err: error string * @param[in] loga: error additional information */ #define OSI_CORE_ERR(priv, type, err, loga) \ { \ osi_core->osd_ops.ops_log(priv, __func__, __LINE__, \ OSI_LOG_ERR, type, err, loga);\ } /** * @brief OSI info macro definition * @param[in] priv: OSD private data OR NULL * @param[in] type: error type * @param[in] err: error string * @param[in] loga: error additional information */ #define OSI_CORE_INFO(priv, type, err, loga) \ { \ osi_core->osd_ops.ops_log(priv, __func__, __LINE__, \ OSI_LOG_INFO, type, err, loga); \ } #else #define OSI_CORE_ERR(priv, type, err, loga) #define OSI_CORE_INFO(priv, type, err, loga) #endif #define VLAN_NUM_VID 4096U #define OSI_DELAY_1000US 1000U /** * @addtogroup PTP PTP related information * * @brief PTP SSINC values * @{ */ #define OSI_PTP_SSINC_4 4U #define OSI_PTP_SSINC_6 6U /** @} */ /** * @addtogroup Flexible Receive Parser related information * * @brief Flexible Receive Parser commands, table size and other defines * @{ */ #ifndef OSI_STRIPPED_LIB #define OSI_FRP_CMD_MAX 3U #define OSI_FRP_MATCH_MAX 10U #endif /* !OSI_STRIPPED_LIB */ /** * @brief Maximum number of FRP entries */ #define OSI_FRP_MAX_ENTRY 256U /** @brief Maximum offset for FRP match */ #define OSI_FRP_OFFSET_MAX 64U /* FRP Command types */ /** @brief Command to add an FRP rule */ #define OSI_FRP_CMD_ADD 0U /** @brief Command to update an FRP rule */ #define OSI_FRP_CMD_UPDATE 1U /** @brief Command to delete an FRP rule */ #define OSI_FRP_CMD_DEL 2U /* FRP Filter mode defines */ /** @brief FRP mode to route the frame if match */ #define OSI_FRP_MODE_ROUTE 0U /** @brief FRP mode to drop the frame if match */ #define OSI_FRP_MODE_DROP 1U /** @brief FRP mode to bypass the frame if match */ #define OSI_FRP_MODE_BYPASS 2U /** @brief FRP mode to link the frame if match */ #define OSI_FRP_MODE_LINK 3U /** @brief FRP mode to route the frame if inverse match */ #define OSI_FRP_MODE_IM_ROUTE 4U /** @brief FRP mode to drop the frame if inverse match */ #define OSI_FRP_MODE_IM_DROP 5U /** @brief FRP mode to bypass the frame if inverse match */ #define OSI_FRP_MODE_IM_BYPASS 6U /** @brief FRP mode to link if inverse match */ #define OSI_FRP_MODE_IM_LINK 7U /** @brief Maximum numer of FRP modes */ #define OSI_FRP_MODE_MAX 8U /* Match data defines */ /** @brief FRP NORMAL MATCH */ #define OSI_FRP_MATCH_NORMAL 0U /** @brief FRP MATCH in L2 desination Address */ #define OSI_FRP_MATCH_L2_DA 1U /** @brief FRP MATCH in L2 source Address */ #define OSI_FRP_MATCH_L2_SA 2U /** @brief FRP MATCH in L3 source IP */ #define OSI_FRP_MATCH_L3_SIP 3U /** @brief FRP MATCH in L3 destination IP */ #define OSI_FRP_MATCH_L3_DIP 4U #ifndef OSI_STRIPPED_LIB /** @brief FRP MATCH in L4 source UDP port */ #define OSI_FRP_MATCH_L4_S_UPORT 5U /** @brief FRP MATCH in L4 destination UDP port */ #define OSI_FRP_MATCH_L4_D_UPORT 6U /** @brief FRP MATCH in L4 source TCP port */ #define OSI_FRP_MATCH_L4_S_TPORT 7U /** @brief FRP MATCH in L4 destination TCP port */ #define OSI_FRP_MATCH_L4_D_TPORT 8U #endif /* !OSI_STRIPPED_LIB */ /** @brief FRP MATCH in VLANID */ #define OSI_FRP_MATCH_VLAN 9U /** @} */ #define XPCS_WRITE_FAIL_CODE -9 #ifdef HSI_SUPPORT /** * @addtogroup osi_hsi_err_code_idx * * @brief data index for osi_hsi_err_code array * @{ */ /** @brief UnCorrectable Error Index */ #define UE_IDX 0U /** @brief Correctable Error Index */ #define CE_IDX 1U /** @brief RX CRC Error Index */ #define RX_CRC_ERR_IDX 2U /** @brief TX frame error Index */ #define TX_FRAME_ERR_IDX 3U /** @brief RX checksum error Index */ #define RX_CSUM_ERR_IDX 4U /** @brief autonegotiation error Index */ #define AUTONEG_ERR_IDX 5U /** @brief xpcs write error Index */ #define XPCS_WRITE_FAIL_IDX 6U /** @brief phy write verify error Index */ #define PHY_WRITE_VERIFY_FAIL_IDX 7U /** @brief MAC to MAC error Index */ #define MAC2MAC_ERR_IDX 8U /** @brief MACSEC RX CRC error Index */ #define MACSEC_RX_CRC_ERR_IDX 0U /** @brief MACSEC TX CRC error Index */ #define MACSEC_TX_CRC_ERR_IDX 1U /** @brief MACSEC RX ICV error Index */ #define MACSEC_RX_ICV_ERR_IDX 2U /** @brief MACSEC tegister violation error Index */ #define MACSEC_REG_VIOL_ERR_IDX 3U /** @} */ /** * @addtogroup HSI_TIME_THRESHOLD * * @brief HSI time threshold to report error in ms * @{ */ /** @brief default time to report error */ #define OSI_HSI_ERR_TIME_THRESHOLD_DEFAULT 3000U /** @brief minimum time to report error */ #define OSI_HSI_ERR_TIME_THRESHOLD_MIN 1000U /** @brief maximum time to report error */ #define OSI_HSI_ERR_TIME_THRESHOLD_MAX 60000U /** @} */ /** * @brief HSI error count threshold to report error */ #define OSI_HSI_ERR_COUNT_THRESHOLD 1000U /** * @brief Maximum number of different mac error code * HSI_SW_ERR_CODE + Two (Corrected and Uncorrected error code) */ #define OSI_HSI_MAX_MAC_ERROR_CODE 9U /** * @brief Maximum number of different macsec error code */ #define HSI_MAX_MACSEC_ERROR_CODE 4U /** * @addtogroup HSI_SW_ERR_CODE * * @brief software defined error code * @{ */ /** @brief Uncorrectable error code */ #define OSI_UNCORRECTABLE_ERR 0x1U /** @brief correctable error code */ #define OSI_CORRECTABLE_ERR 0x2U /** @brief inbound bus crc error code */ #define OSI_INBOUND_BUS_CRC_ERR 0x3U /** @brief tx frame error code */ #define OSI_TX_FRAME_ERR 0x4U /** @brief receive checksum error code */ #define OSI_RECEIVE_CHECKSUM_ERR 0x5U /** @brief pcs autonegotiation error code */ #define OSI_PCS_AUTONEG_ERR 0x6U /** @brief MACSEC RX CRC error code */ #define OSI_MACSEC_RX_CRC_ERR 0x7U /** @brief MACSEC TX CRC error code */ #define OSI_MACSEC_TX_CRC_ERR 0x8U /** @brief MACSEC RX ICV error code */ #define OSI_MACSEC_RX_ICV_ERR 0x9U /** @brief MACSEC register violation error code */ #define OSI_MACSEC_REG_VIOL_ERR 0xAU /** @brief XPCS write fail error code */ #define OSI_XPCS_WRITE_FAIL_ERR 0xBU /** @brief PHY write verify error code */ #define OSI_PHY_WRITE_VERIFY_ERR 0xCU /** @brief M2M TSC read error code */ #define OSI_M2M_TSC_READ_ERR 0xDU /** @brief M2M time cal error code */ #define OSI_M2M_TIME_CAL_ERR 0xEU /** @brief M2M adjust frequency error code */ #define OSI_M2M_ADJ_FREQ_ERR 0xFU /** @brief M2M adjust time error code */ #define OSI_M2M_ADJ_TIME_ERR 0x10U /** @brief M2M set time error code */ #define OSI_M2M_SET_TIME_ERR 0x11U /** @brief M2M config PTP error code */ #define OSI_M2M_CONFIG_PTP_ERR 0x12U /** @brief EQOS uncorrectable attribute */ #define OSI_EQOS_UNCORRECTABLE_ATTR 0x109 /** @brief EQOS correctable attribute */ #define OSI_EQOS_CORRECTABLE_ATTR 0x309 /** @brief MGBE0 uncorrectable attribute */ #define OSI_MGBE0_UNCORRECTABLE_ATTR 0x119 /** @brief MGBE0 correctable attribute */ #define OSI_MGBE0_CORRECTABLE_ATTR 0x319 /** @brief MGBE1 uncorrectable attribute */ #define OSI_MGBE1_UNCORRECTABLE_ATTR 0x11A /** @brief MGBE1 correctable attribute */ #define OSI_MGBE1_CORRECTABLE_ATTR 0x31A /** @brief MGBE2 uncorrectable attribute */ #define OSI_MGBE2_UNCORRECTABLE_ATTR 0x11B /** @brief MGBE2 correctable attribute */ #define OSI_MGBE2_CORRECTABLE_ATTR 0x31B /** @brief MGBE3 uncorrectable attribute */ #define OSI_MGBE3_UNCORRECTABLE_ATTR 0x11C /** @brief MGBE3 correctable attribute */ #define OSI_MGBE3_CORRECTABLE_ATTR 0x31C /** @} */ #endif struct osi_core_priv_data; /** * @brief OSI core structure for filters */ struct osi_filter { /** indicates operation needs to perform. refer to OSI_OPER_* */ nveu32_t oper_mode; /** Indicates the index of the filter to be modified. * Filter index must be between 0 - 127 */ nveu32_t index; /** Ethernet MAC address to be added */ nveu8_t mac_addr[OSI_ETH_ALEN]; /** Indicates dma channel routing enable(1) disable (0) */ nveu32_t dma_routing; /** indicates dma channel number to program */ nveu32_t dma_chan; /** filter will not consider byte in comparison * Bit 5: MAC_Address${i}_High[15:8] * Bit 4: MAC_Address${i}_High[7:0] * Bit 3: MAC_Address${i}_Low[31:24] * .. * Bit 0: MAC_Address${i}_Low[7:0] */ nveu32_t addr_mask; /** src_dest: SA(1) or DA(0) */ nveu32_t src_dest; /** indicates one hot encoded DMA receive channels to program */ nveu32_t dma_chansel; }; #ifndef OSI_STRIPPED_LIB /** * @brief OSI core structure for RXQ route */ struct osi_rxq_route { #define OSI_RXQ_ROUTE_PTP 0U /** Indicates RX routing type OSI_RXQ_ROUTE_* */ nveu32_t route_type; /** RXQ routing enable(1) disable (0) */ nveu32_t enable; /** RX queue index */ nveu32_t idx; }; #endif /** * @brief struct osi_hw_features - MAC HW supported features. */ struct osi_hw_features { /** It is set to 1 when 10/100 Mbps is selected as the Mode of * Operation */ nveu32_t mii_sel; /** It is set to 1 when the RGMII Interface option is selected */ nveu32_t rgmii_sel; /** It is set to 1 when the RMII Interface option is selected */ nveu32_t rmii_sel; /** It sets to 1 when 1000 Mbps is selected as the Mode of Operation */ nveu32_t gmii_sel; /** It sets to 1 when the half-duplex mode is selected */ nveu32_t hd_sel; /** It sets to 1 when the TBI, SGMII, or RTBI PHY interface * option is selected */ nveu32_t pcs_sel; /** It sets to 1 when the Enable VLAN Hash Table Based Filtering * option is selected */ nveu32_t vlan_hash_en; /** It sets to 1 when the Enable Station Management (MDIO Interface) * option is selected */ nveu32_t sma_sel; /** It sets to 1 when the Enable Remote Wake-Up Packet Detection * option is selected */ nveu32_t rwk_sel; /** It sets to 1 when the Enable Magic Packet Detection option is * selected */ nveu32_t mgk_sel; /** It sets to 1 when the Enable MAC Management Counters (MMC) option * is selected */ nveu32_t mmc_sel; /** It sets to 1 when the Enable IPv4 ARP Offload option is selected */ nveu32_t arp_offld_en; /** It sets to 1 when the Enable IEEE 1588 Timestamp Support option * is selected */ nveu32_t ts_sel; /** It sets to 1 when the Enable Energy Efficient Ethernet (EEE) option * is selected */ nveu32_t eee_sel; /** It sets to 1 when the Enable Transmit TCP/IP Checksum Insertion * option is selected */ nveu32_t tx_coe_sel; /** It sets to 1 when the Enable Receive TCP/IP Checksum Check option * is selected */ nveu32_t rx_coe_sel; /** It sets to 1 when the Enable Additional 1-31 MAC Address Registers * option is selected */ nveu32_t mac_addr_sel; /** It sets to 1 when the Enable Additional 32-63 MAC Address Registers * option is selected */ nveu32_t mac_addr32_sel; /** It sets to 1 when the Enable Additional 64-127 MAC Address Registers * option is selected */ nveu32_t mac_addr64_sel; /** It sets to 1 when the Enable IEEE 1588 Timestamp Support option * is selected */ nveu32_t tsstssel; /** It sets to 1 when the Enable SA and VLAN Insertion on Tx option * is selected */ nveu32_t sa_vlan_ins; /** Active PHY Selected * When you have multiple PHY interfaces in your configuration, * this field indicates the sampled value of phy_intf_sel_i during * reset de-assertion: * 000: GMII or MII * 001: RGMII * 010: SGMII * 011: TBI * 100: RMII * 101: RTBI * 110: SMII * 111: RevMII * All Others: Reserved */ nveu32_t act_phy_sel; /** MTL Receive FIFO Size * This field contains the configured value of MTL Rx FIFO in bytes * expressed as Log to base 2 minus 7, that is, Log2(RXFIFO_SIZE) -7: * 00000: 128 bytes * 00001: 256 bytes * 00010: 512 bytes * 00011: 1,024 bytes * 00100: 2,048 bytes * 00101: 4,096 bytes * 00110: 8,192 bytes * 00111: 16,384 bytes * 01000: 32,767 bytes * 01000: 32 KB * 01001: 64 KB * 01010: 128 KB * 01011: 256 KB * 01100-11111: Reserved */ nveu32_t rx_fifo_size; /** MTL Transmit FIFO Size. * This field contains the configured value of MTL Tx FIFO in * bytes expressed as Log to base 2 minus 7, that is, * Log2(TXFIFO_SIZE) -7: * 00000: 128 bytes * 00001: 256 bytes * 00010: 512 bytes * 00011: 1,024 bytes * 00100: 2,048 bytes * 00101: 4,096 bytes * 00110: 8,192 bytes * 00111: 16,384 bytes * 01000: 32 KB * 01001: 64 KB * 01010: 128 KB * 01011-11111: Reserved */ nveu32_t tx_fifo_size; /** It set to 1 when Advance timestamping High Word selected */ nveu32_t adv_ts_hword; /** Address Width. * This field indicates the configured address width: * 00: 32 * 01: 40 * 10: 48 * 11: Reserved */ nveu32_t addr_64; /** It sets to 1 when DCB Feature Enable */ nveu32_t dcb_en; /** It sets to 1 when Split Header Feature Enable */ nveu32_t sph_en; /** It sets to 1 when TCP Segmentation Offload Enable */ nveu32_t tso_en; /** It sets to 1 when DMA debug registers are enabled */ nveu32_t dma_debug_gen; /** It sets to 1 if AV Feature Enabled */ nveu32_t av_sel; /** It sets to 1 if Receive side AV Feature Enabled */ nveu32_t rav_sel; /** This field indicates the size of the hash table: * 00: No hash table * 01: 64 * 10: 128 * 11: 256 */ nveu32_t hash_tbl_sz; /** This field indicates the total number of L3 or L4 filters: * 0000: No L3 or L4 Filter * 0001: 1 L3 or L4 Filter * 0010: 2 L3 or L4 Filters * .. * 1000: 8 L3 or L4 */ nveu32_t l3l4_filter_num; /** It holds number of MTL Receive Queues */ nveu32_t rx_q_cnt; /** It holds number of MTL Transmit Queues */ nveu32_t tx_q_cnt; /** It holds number of DMA Receive channels */ nveu32_t rx_ch_cnt; /** This field indicates the number of DMA Transmit channels: * 0000: 1 DMA Tx Channel * 0001: 2 DMA Tx Channels * .. * 0111: 8 DMA Tx */ nveu32_t tx_ch_cnt; /** This field indicates the number of PPS outputs: * 000: No PPS output * 001: 1 PPS output * 010: 2 PPS outputs * 011: 3 PPS outputs * 100: 4 PPS outputs * 101-111: Reserved */ nveu32_t pps_out_num; /** Number of Auxiliary Snapshot Inputs * This field indicates the number of auxiliary snapshot inputs: * 000: No auxiliary input * 001: 1 auxiliary input * 010: 2 auxiliary inputs * 011: 3 auxiliary inputs * 100: 4 auxiliary inputs * 101-111: Reserved */ nveu32_t aux_snap_num; /** VxLAN/NVGRE Support */ nveu32_t vxn; /** Enhanced DMA. * This bit is set to 1 when the "Enhanced DMA" option is * selected. */ nveu32_t edma; /** Different Descriptor Cache * When set to 1, then EDMA mode Separate Memory is * selected for the Descriptor Cache.*/ nveu32_t ediffc; /** PFC Enable * This bit is set to 1 when the Enable PFC Feature is selected */ nveu32_t pfc_en; /** One-Step Timestamping Enable */ nveu32_t ost_en; /** PTO Offload Enable */ nveu32_t pto_en; /** Receive Side Scaling Enable */ nveu32_t rss_en; /** Number of Traffic Classes */ nveu32_t num_tc; /** Number of Extended VLAN Tag Filters Enabled */ nveu32_t num_vlan_filters; /** Supported Flexible Receive Parser. * This bit is set to 1 when the Enable Flexible Programmable * Receive Parser option is selected */ nveu32_t frp_sel; /** Queue/Channel based VLAN tag insertion on Tx Enable * This bit is set to 1 when the Enable Queue/Channel based * VLAN tag insertion on Tx Feature is selected. */ nveu32_t cbti_sel; /** Supported Parallel Instruction Processor Engines (PIPEs) * This field indicates the maximum number of Instruction * Processors supported by flexible receive parser. */ nveu32_t num_frp_pipes; /** One Step for PTP over UDP/IP Feature Enable * This bit is set to 1 when the Enable One step timestamp for * PTP over UDP/IP feature is selected */ nveu32_t ost_over_udp; /** Supported Flexible Receive Parser Parsable Bytes * This field indicates the supported Max Number of bytes of the * packet data to be Parsed by Flexible Receive Parser */ nveu32_t max_frp_bytes; /** Supported Flexible Receive Parser Instructions * This field indicates the Max Number of Parser Instructions * supported by Flexible Receive Parser */ nveu32_t max_frp_entries; /** Double VLAN Processing Enabled * This bit is set to 1 when the Enable Double VLAN Processing * feature is selected */ nveu32_t double_vlan_en; /** Automotive Safety Package * Following are the encoding for the different Safety features * Values: * 0x0 (NONE): No Safety features selected * 0x1 (ECC_ONLY): Only "ECC protection for external * memory" feature is selected * 0x2 (AS_NPPE): All the Automotive Safety features are * selected without the "Parity Port Enable for external interface" * feature * 0x3 (AS_PPE): All the Automotive Safety features are * selected with the "Parity Port Enable for external interface" * feature */ nveu32_t auto_safety_pkg; /** Tx Timestamp FIFO Depth * This value indicates the depth of the Tx Timestamp FIFO * 3'b000: Reserved * 3'b001: 1 * 3'b010: 2 * 3'b011: 4 * 3'b100: 8 * 3'b101: 16 * 3'b110: Reserved * 3'b111: Reserved */ nveu32_t tts_fifo_depth; /** Enhancements to Scheduling Traffic Enable * This bit is set to 1 when the Enable Enhancements to * Scheduling Traffic feature is selected. * Values: * 0x0 (INACTIVE): Enable Enhancements to Scheduling * Traffic feature is not selected * 0x1 (ACTIVE): Enable Enhancements to Scheduling * Traffic feature is selected */ nveu32_t est_sel; /** Depth of the Gate Control List * This field indicates the depth of Gate Control list expressed as * Log2(DWCXG_GCL_DEP)-5 * Values: * 0x0 (NODEPTH): No Depth configured * 0x1 (DEPTH64): 64 * 0x2 (DEPTH128): 128 * 0x3 (DEPTH256): 256 * 0x4 (DEPTH512): 512 * 0x5 (DEPTH1024): 1024 * 0x6 (RSVD): Reserved */ nveu32_t gcl_depth; /** Width of the Time Interval field in the Gate Control List * This field indicates the width of the Configured Time Interval * Field * Values: * 0x0 (NOWIDTH): Width not configured * 0x1 (WIDTH16): 16 * 0x2 (WIDTH20): 20 * 0x3 (WIDTH24): 24 */ nveu32_t gcl_width; /** Frame Preemption Enable * This bit is set to 1 when the Enable Frame preemption feature * is selected. * Values: * 0x0 (INACTIVE): Frame Preemption Enable feature is not * selected * 0x1 (ACTIVE): Frame Preemption Enable feature is * selected */ nveu32_t fpe_sel; /** Time Based Scheduling Enable * This bit is set to 1 when the Time Based Scheduling feature is * selected. * Values: * 0x0 (INACTIVE): Time Based Scheduling Enable feature is * not selected * 0x1 (ACTIVE): Time Based Scheduling Enable feature is * selected */ nveu32_t tbs_sel; /** The number of DMA channels enabled for TBS (starting from * the highest Tx Channel in descending order) * This field provides the number of DMA channels enabled for * TBS (starting from the highest Tx Channel in descending * order): * 0000: 1 DMA Tx Channel enabled for TBS * 0001: 2 DMA Tx Channels enabled for TBS * 0010: 3 DMA Tx Channels enabled for TBS * ... * 1111: 16 DMA Tx Channels enabled for TBS */ nveu32_t num_tbs_ch; }; #ifndef OSI_STRIPPED_LIB /** * @brief Vlan filter Function dependent parameter */ struct osi_vlan_filter { /** vlan filter enable(1) or disable(0) */ nveu32_t filter_enb_dis; /** perfect(0) or hash(1) */ nveu32_t perfect_hash; /** perfect(0) or inverse(1) */ nveu32_t perfect_inverse_match; }; /** * @brief L2 filter function dependent parameter */ struct osi_l2_da_filter { /** perfect(0) or hash(1) */ nveu32_t perfect_hash; /** perfect(0) or inverse(1) */ nveu32_t perfect_inverse_match; }; /** * @brief struct ptp_offload_param - Parameter to support PTP offload. */ struct osi_pto_config { /** enable(0) / disable(1) */ nveu32_t en_dis; /** Flag for Master mode. * OSI_ENABLE for master OSI_DISABLE for slave */ nveu32_t master; /** Flag to Select PTP packets for Taking Snapshots */ nveu32_t snap_type; /** ptp domain */ nveu32_t domain_num; /** The PTP Offload function qualifies received PTP * packet with unicast Destination address * 0 - only multicast, 1 - unicast and multicast */ nveu32_t mc_uc; /** Port identification */ nveu32_t portid; }; /** * @brief osi_core_rss - Struture used to store RSS Hash key and table * information. */ struct osi_core_rss { /** Flag to represent to enable RSS or not */ nveu32_t enable; /** Array for storing RSS Hash key */ nveu8_t key[OSI_RSS_HASH_KEY_SIZE]; /** Array for storing RSS Hash table */ nveu32_t table[OSI_RSS_MAX_TABLE_SIZE]; }; /** * @brief Max num of MAC core registers to backup. It should be max of or >= * (EQOS_MAX_BAK_IDX=380, coreX,...etc) backup registers. */ #define CORE_MAX_BAK_IDX 700U /** * @brief core_backup - Struct used to store backup of core HW registers. */ struct core_backup { /** Array of reg MMIO addresses (base of MAC + offset of reg) */ void *reg_addr[CORE_MAX_BAK_IDX]; /** Array of value stored in each corresponding register */ nveu32_t reg_val[CORE_MAX_BAK_IDX]; }; #endif /* !OSI_STRIPPED_LIB */ /** * @brief PTP configuration structure */ struct osi_ptp_config { /** PTP filter parameters bit fields. * * Enable Timestamp, Fine Timestamp, 1 nanosecond accuracy * are enabled by default. * * Need to set below bit fields accordingly as per the requirements. * * Enable Timestamp for All Packets OSI_BIT(8) * * Enable PTP Packet Processing for Version 2 Format OSI_BIT(10) * * Enable Processing of PTP over Ethernet Packets OSI_BIT(11) * * Enable Processing of PTP Packets Sent over IPv6-UDP OSI_BIT(12) * * Enable Processing of PTP Packets Sent over IPv4-UDP OSI_BIT(13) * * Enable Timestamp Snapshot for Event Messages OSI_BIT(14) * * Enable Snapshot for Messages Relevant to Master OSI_BIT(15) * * Select PTP packets for Taking Snapshots OSI_BIT(16) * * Select PTP packets for Taking Snapshots OSI_BIT(17) * * Select PTP packets for Taking Snapshots (OSI_BIT(16) + OSI_BIT(17)) * * AV 802.1AS Mode Enable OSI_BIT(28) * * if ptp_filter is set to Zero then Time stamping is disabled */ nveu32_t ptp_filter; /** seconds to be updated to MAC * valid values are from 0 to UINT32_MAX */ nveu32_t sec; /** nano seconds to be updated to MAC * valid values are from 0 to UINT32_MAX */ nveu32_t nsec; /** PTP reference clock read from DT * valid values are from 0 to UINT32_MAX */ nveu32_t ptp_ref_clk_rate; /** Use one nsec accuracy (need to set 1) * valid values are 0 and 1 */ nveu32_t one_nsec_accuracy; /** PTP system clock which is 62500000Hz * valid values are from 0 to UINT32_MAX */ nveu32_t ptp_clock; /** PTP Packets RX Queue * valid values are from 0 to NVETHERNETRM_PIF$OSI_EQOS_MAX_NUM_QUEUES-1 for eqos * and 0 to NVETHERNETRM_PIF$OSI_MGBE_MAX_NUM_QUEUES-1 */ nveu32_t ptp_rx_queue; }; /** * @brief osi_core_ptp_tsc_data - Struture used to store TSC and PTP time * information. */ struct osi_core_ptp_tsc_data { /** high bits of MAC */ nveu32_t ptp_high_bits; /** low bits of MAC */ nveu32_t ptp_low_bits; /** high bits of TSC */ nveu32_t tsc_high_bits; /** low bits of TSC */ nveu32_t tsc_low_bits; }; /** * @brief OSI VM IRQ data */ struct osi_vm_irq_data { /** Number of VM channels per VM IRQ */ nveu32_t num_vm_chans; /** VM/OS number to be used */ nveu32_t vm_num; /** Array of VM channel list * valid values are from 0 to NVETHERNETRM_PIF$OSI_EQOS_MAX_NUM_CHANS-1 for eqos * and 0 to NVETHERNETRM_PIF$OSI_MGBE_MAX_NUM_CHANS-1 */ nveu32_t vm_chans[OSI_MGBE_MAX_NUM_CHANS]; }; /** *@brief OSD Core callbacks */ struct osd_core_ops { /** padctrl rx pin disable/enable callback */ nve32_t (*padctrl_mii_rx_pins)(void *priv, nveu32_t enable); /** logging callback */ void (*ops_log)(void *priv, const nve8_t *func, nveu32_t line, nveu32_t level, nveu32_t type, const nve8_t *err, nveul64_t loga); /** udelay callback */ void (*udelay)(nveu64_t usec); /** usleep range callback */ void (*usleep_range)(nveu64_t umin, nveu64_t umax); /** ivcsend callback*/ nve32_t (*ivc_send)(void *priv, struct ivc_msg_common *ivc, nveu32_t len); #ifdef MACSEC_SUPPORT /** Program macsec key table through Trust Zone callback */ nve32_t (*macsec_tz_kt_config)(void *priv, nveu8_t cmd, void *const kt_config, void *const genl_info); #endif /* MACSEC_SUPPORT */ #ifdef OSI_DEBUG /**.printf function callback */ void (*printf)(struct osi_core_priv_data *osi_core, nveu32_t type, const char *fmt, ...); #endif /** Lane bringup restart callback */ void (*restart_lane_bringup)(void *priv, nveu32_t en_disable); }; #ifdef MACSEC_SUPPORT /** * @brief MACSEC secure channel basic information */ struct osi_macsec_sc_info { /** Secure channel identifier * valid values are from 0 to 0xFF for each array element */ nveu8_t sci[OSI_SCI_LEN]; /** Secure association key * valid values are from 0 to 0xFF for each array element */ nveu8_t sak[OSI_KEY_LEN_256]; #ifdef MACSEC_KEY_PROGRAM /** Secure association key */ nveu8_t hkey[OSI_KEY_LEN_128]; #endif /* MACSEC_KEY_PROGRAM */ /** current AN * valid values are from 0 to NVETHERNETRM_PIF$OSI_MAX_NUM_SA-1 */ nveu8_t curr_an; /** Next PN to use for the current AN * valid values are from 0 to UINT32_MAX */ nveu32_t next_pn; /** Lowest PN to use for the current AN * valid values are from 0 to UINT32_MAX */ nveu32_t lowest_pn; /** bitmap of valid AN * valid values are from 0 to 0xF */ nveu32_t an_valid; /** PN window * valid values are from 0 to UINT32_MAX */ nveu32_t pn_window; /** SC LUT index * valid values are from 0 to NVETHERNETRM_PIF$OSI_SC_INDEX_MAX */ nveu32_t sc_idx_start; /** flags - encoding various states of SA * valid values are 0 and NVETHERNETRM_PIF$OSI_ENABLE_SA */ nveu32_t flags; /** flag indicating the prosition of vlan tag * valid values are either 0(vlan not in clear) or 1(vlan in clear) */ nveu8_t vlan_in_clear; }; /** * @brief MACSEC HW controller LUT's global status */ struct osi_macsec_lut_status { /** List of max SC's supported */ struct osi_macsec_sc_info sc_info[OSI_MAX_NUM_SC]; /** next available BYP LUT index * valid values are from 0 to NVETHERNETRM_PIF$OSI_BYP_LUT_MAX_INDEX */ nveu16_t next_byp_idx; /** number of active SCs * valid values are from 0 to NVETHERNETRM_PIF$OSI_MAX_NUM_SC */ nveu32_t num_of_sc_used; }; /** * @brief MACsec interrupt stats structure. */ struct osi_macsec_irq_stats { /** Tx debug buffer capture done * Valid values are from 0 to UINT64_MAX */ nveu64_t tx_dbg_capture_done; /** Tx MTU check failed * Valid values are from 0 to UINT64_MAX */ nveu64_t tx_mtu_check_fail; /** Tx MAC CRC err * Valid values are from 0 to UINT64_MAX */ nveu64_t tx_mac_crc_error; /** Tx SC AN not valid * Valid values are from 0 to UINT64_MAX */ nveu64_t tx_sc_an_not_valid; /** Tx AES GCM buffer overflow * Valid values are from 0 to UINT64_MAX */ nveu64_t tx_aes_gcm_buf_ovf; /** Tx LUT lookup miss * Valid values are from 0 to UINT64_MAX */ nveu64_t tx_lkup_miss; /** Tx uninitialized key slot * Valid values are from 0 to UINT64_MAX */ nveu64_t tx_uninit_key_slot; /** Tx PN threshold reached * Valid values are from 0 to UINT64_MAX */ nveu64_t tx_pn_threshold; /** Tx PN exhausted * Valid values are from 0 to UINT64_MAX */ nveu64_t tx_pn_exhausted; /** Tx debug buffer capture done * Valid values are from 0 to UINT64_MAX */ nveu64_t rx_dbg_capture_done; /** Rx ICV error threshold * Valid values are from 0 to UINT64_MAX */ nveu64_t rx_icv_err_threshold; /** Rx replay error * Valid values are from 0 to UINT64_MAX */ nveu64_t rx_replay_error; /** Rx MTU check failed * Valid values are from 0 to UINT64_MAX */ nveu64_t rx_mtu_check_fail; /** Rx MAC CRC err * Valid values are from 0 to UINT64_MAX */ nveu64_t rx_mac_crc_error; /** Rx AES GCM buffer overflow * Valid values are from 0 to UINT64_MAX */ nveu64_t rx_aes_gcm_buf_ovf; /** Rx LUT lookup miss * Valid values are from 0 to UINT64_MAX */ nveu64_t rx_lkup_miss; /** Rx uninitialized key slot * Valid values are from 0 to UINT64_MAX */ nveu64_t rx_uninit_key_slot; /** Rx PN exhausted * Valid values are from 0 to UINT64_MAX */ nveu64_t rx_pn_exhausted; /** Secure reg violation * Valid values are from 0 to UINT64_MAX */ nveu64_t secure_reg_viol; }; #endif /* MACSEC_SUPPORT */ /** * @brief FRP Instruction configuration structure */ struct osi_core_frp_data { /** Entry Match Data * Valid values are from 0 to UINT32_MAX */ nveu32_t match_data; /** Entry Match Enable mask * Valid values are from 0 to UINT32_MAX */ nveu32_t match_en; /** Entry Accept frame flag * valid values are 0(disable) and 1(enable) */ nveu8_t accept_frame; /** Entry Reject Frame flag * valid values are 0(disable) and 1(enable) */ nveu8_t reject_frame; /** Entry Inverse match flag * valid values are 0(disable) and 1(enable) */ nveu8_t inverse_match; /** Entry Next Instruction Control match flag * valid values are 0(disable) and 1(enable) */ nveu8_t next_ins_ctrl; /** Entry Frame offset in the packet data * valid values are from 0 to 0xFF */ nveu8_t frame_offset; /** Entry OK Index - Next Instruction * valid values are from 0 to 0xFF */ nveu8_t ok_index; /** Entry DMA Channel selection (1-bit for each channel) */ nveu32_t dma_chsel; }; /** * @brief FRP Instruction table entry configuration structure */ struct osi_core_frp_entry { /** FRP ID * valid values are from 0 to NVETHERNETRM_PIF$OSI_FRP_MAX_ENTRY-1 */ nve32_t frp_id; /** FRP Entry data structure * refer NVETHERNETRM_PIF$osi_core_frp_data for more details on the data*/ struct osi_core_frp_data data; }; /** * @brief Core time stamp data strcuture */ struct osi_core_tx_ts { /** Pointer to next item in the link */ struct osi_core_tx_ts *next; /** Pointer to prev item in the link */ struct osi_core_tx_ts *prev; /** Packet ID for corresponding timestamp * valid values are from 1 to 0x3FF*/ nveu32_t pkt_id; /** Time in seconds*/ nveu32_t sec; /** Time in nano seconds */ nveu32_t nsec; /** Variable which says if pkt_id is in use or not * valid values are 0(not in use) and 1(in use) */ nveu32_t in_use; }; /** * @brief OSI Core data structure for runtime commands. */ struct osi_ioctl { /** runtime command */ nveu32_t cmd; /** u32 general argument 1 */ nveu32_t arg1_u32; /** u32 general argument 2 */ nveu32_t arg2_u32; /** u32 general argument 3 */ nveu32_t arg3_u32; /** u32 general argument 4 */ nveu32_t arg4_u32; /** u64 general argument 5 */ nveul64_t arg5_u64; /** s32 general argument 6 */ nve32_t arg6_32; /** u8 string pointer general argument 7 for string */ nveu8_t *arg7_u8_p; /** s64 general argument 8 */ nvel64_t arg8_64; /** L2 filter structure */ struct osi_filter l2_filter; /** l3_l4 filter structure */ struct osi_l3_l4_filter l3l4_filter; /** HW feature structure */ struct osi_hw_features hw_feat; /** AVB structure */ struct osi_core_avb_algorithm avb; #ifndef OSI_STRIPPED_LIB /** VLAN filter structure */ struct osi_vlan_filter vlan_filter; /** PTP offload config structure*/ struct osi_pto_config pto_config; /** RXQ route structure */ struct osi_rxq_route rxq_route; #endif /* !OSI_STRIPPED_LIB */ /** FRP structure */ struct osi_core_frp_cmd frp_cmd; /** EST structure */ struct osi_est_config est; /** FRP structure */ struct osi_fpe_config fpe; /** PTP configuration settings */ struct osi_ptp_config ptp_config; /** TX Timestamp structure */ struct osi_core_tx_ts tx_ts; /** PTP TSC data */ struct osi_core_ptp_tsc_data ptp_tsc; }; /** * @brief core_padctrl - Struct used to eqos padctrl details. */ struct core_padctrl { /** Memory mapped base address of eqos padctrl registers */ void *padctrl_base; /** EQOS_RD0_0 register offset */ nveu32_t offset_rd0; /** EQOS_RD1_0 register offset */ nveu32_t offset_rd1; /** EQOS_RD2_0 register offset */ nveu32_t offset_rd2; /** EQOS_RD3_0 register offset */ nveu32_t offset_rd3; /** RX_CTL_0 register offset */ nveu32_t offset_rx_ctl; /** is pad calibration in progress */ nveu32_t is_pad_cal_in_progress; /** This flag set/reset using priv ioctl and DT entry */ nveu32_t pad_calibration_enable; /** Reg ETHER_QOS_AUTO_CAL_CONFIG_0[AUTO_CAL_PD_OFFSET] value */ nveu32_t pad_auto_cal_pd_offset; /** Reg ETHER_QOS_AUTO_CAL_CONFIG_0[AUTO_CAL_PU_OFFSET] value */ nveu32_t pad_auto_cal_pu_offset; }; #ifdef HSI_SUPPORT /** * @brief The OSI Core HSI private data structure. */ struct osi_hsi_data { /** Indicates if HSI feature is enabled */ nveu32_t enabled; /** time threshold to report error * valid values are from NVETHERNETRM_PIF$OSI_HSI_ERR_TIME_THRESHOLD_MIN * to NVETHERNETRM_PIF$OSI_HSI_ERR_TIME_THRESHOLD_MIN */ nveu32_t err_time_threshold; /** error count threshold to report error * which can be refered from NVETHERNETRM_PIF$OSI_HSI_ERR_COUNT_THRESHOLD */ nveu32_t err_count_threshold; /** HSI reporter ID */ nveu16_t reporter_id; /** HSI error codes * refere from NVETHERNETRM_PIF$OSI_UNCORRECTABLE_ERR to * NVETHERNETRM_PIF$OSI_M2M_CONFIG_PTP_ERR for different error codes */ nveu32_t err_code[OSI_HSI_MAX_MAC_ERROR_CODE]; /** HSI error attribute * refer OSI_*CORRECTABLE_ATTR for different error attributes */ nveu32_t err_attr[OSI_HSI_MAX_MAC_ERROR_CODE]; /** HSI MAC report count threshold based error * which can be refered from NVETHERNETRM_PIF$OSI_HSI_ERR_COUNT_THRESHOLD */ nveu32_t report_count_err[OSI_HSI_MAX_MAC_ERROR_CODE]; /** Indicates if error reporting to FSI is pending */ nveu32_t report_err; /** HSI MACSEC error codes * refere from NVETHERNETRM_PIF$OSI_UNCORRECTABLE_ERR to * NVETHERNETRM_PIF$OSI_M2M_CONFIG_PTP_ERR for different error codes */ nveu32_t macsec_err_code[HSI_MAX_MACSEC_ERROR_CODE]; /** HSI MACSEC error attribute * refer OSI_*CORRECTABLE_ATTR for different error attributes */ nveu32_t macsec_err_attr[HSI_MAX_MACSEC_ERROR_CODE]; /** HSI MACSEC report error based on count threshold * which can be refered from NVETHERNETRM_PIF$OSI_HSI_ERR_COUNT_THRESHOLD */ nveu32_t macsec_report_count_err[HSI_MAX_MACSEC_ERROR_CODE]; /** Indicates if error report to FSI is pending for MACSEC*/ nveu32_t macsec_report_err; /** RX CRC error report count */ nveu64_t rx_crc_err_count; /** RX Checksum error report count */ nveu64_t rx_checksum_err_count; /** MACSEC RX CRC error report count */ nveu64_t macsec_rx_crc_err_count; /** MACSEC TX CRC error report count */ nveu64_t macsec_tx_crc_err_count; /** MACSEC RX ICV error report count */ nveu64_t macsec_rx_icv_err_count; /** HW correctable error count */ nveu64_t ce_count; /** HW correctable error count hit threshold limit */ nveu64_t ce_count_threshold; /** tx frame error count */ nveu64_t tx_frame_err_count; /** tx frame error count threshold hit */ nveu64_t tx_frame_err_threshold; /** Rx UDP error injection count */ nveu64_t inject_udp_err_count; /** Rx CRC error injection count */ nveu64_t inject_crc_err_count; }; #endif /** * @brief The OSI Core (MAC & MTL) private data structure. */ struct osi_core_priv_data { /** Memory mapped base address of MAC IP * non NULL pointer*/ void *base; /** Memory mapped base address of DMA window of MAC IP * non NULL pointer*/ void *dma_base; /** Memory mapped base address of XPCS IP * non NULL pointer*/ void *xpcs_base; /** Memory mapped base address of MACsec IP * non NULL pointer*/ void *macsec_base; #ifdef MACSEC_SUPPORT /** Memory mapped base address of MACsec TZ page * non NULL pointer*/ void *tz_base; /** Instance of macsec interrupt stats structure * refer NVETHERNETRM_PIF$osi_macsec_irq_stats for more details */ struct osi_macsec_irq_stats macsec_irq_stats; /** Instance of macsec HW controller Tx/Rx LUT status * refer NVETHERNETRM_PIF$osi_macsec_lut_status for more details */ struct osi_macsec_lut_status macsec_lut_status[OSI_NUM_CTLR]; /** macsec mmc counters * for more detais refer NVETHERNETRM_PIF$osi_macsec_mmc_counters */ struct osi_macsec_mmc_counters macsec_mmc; /** MACSEC enabled state * valid values are 0(disable) and 1(enable)*/ nveu32_t is_macsec_enabled; /** macsec_fpe_lock used to exclusively configure either macsec * non-zero value*/ nveu32_t macsec_fpe_lock; /** FPE HW configuration initited to enable/disable * 1- FPE HW configuration initiated to enable * 0- FPE HW configuration initiated to disable */ nveu32_t is_fpe_enabled; /** Dummy SCI/SC/SA etc LUTs programmed with dummy parameter when no * session setup. SCI LUT hit created with VF's MACID * valid values are from 0 to 0xFF for each array element */ nveu8_t macsec_dummy_sc_macids[OSI_MAX_NUM_SC][OSI_ETH_ALEN]; /** MACSEC initialization state * valid vaues are 0(not initialized) and 1(Initialized) */ nveu32_t macsec_initialized; #endif /* MACSEC_SUPPORT */ /** Pointer to OSD private data structure * non NULL pointer */ void *osd; /** OSD callback ops structure * Refer NVETHERNETRM_PIF$osd_core_ops for more details */ struct osd_core_ops osd_ops; /** Number of MTL queues enabled in MAC * max value for EQOS is NVETHERNETRM_PIF$OSI_EQOS_MAX_NUM_QUEUES * max value for MGBE is NVETHERNETRM_PIF$OSI_MGBE_MAX_NUM_QUEUES */ nveu32_t num_mtl_queues; /** Array of MTL queues * each array element has max value same as num_mtl_queues */ nveu32_t mtl_queues[OSI_MGBE_MAX_NUM_QUEUES]; /** List of MTL Rx queue mode that need to be enabled */ nveu32_t rxq_ctrl[OSI_MGBE_MAX_NUM_QUEUES]; /** Rx MTl Queue mapping based on User Priority field * valid values are from 1 to 0xFF */ nveu32_t rxq_prio[OSI_MGBE_MAX_NUM_QUEUES]; /** MAC HW type EQOS based on DT compatible * valid values are NVETHERNETRM_PIF$OSI_MAC_HW_EQOS and * NVETHERNETRM_PIF$OSI_MAC_HW_MGBE*/ nveu32_t mac; /** MAC version * valid values are NVETHERNETRM_PIF$OSI_EQOS_MAC_5_00, * NVETHERNETRM_PIF$OSI_EQOS_MAC_5_30 * and NVETHERNETRM_PIF$OSI_MGBE_MAC_3_10*/ nveu32_t mac_ver; /** HW supported feature list */ struct osi_hw_features *hw_feat; /** MTU size * mximum support MTU is NVETHERNETRM_PIF$OSI_MAX_MTU_SIZE*/ nveu32_t mtu; /** Ethernet MAC address * valid values are from 0 to 0xFF for each array element */ nveu8_t mac_addr[OSI_ETH_ALEN]; /** Current flow control settings * valid values are 0(disable flow control) * NVETHERNETRM_PIF$OSI_FLOW_CTRL_TX and NVETHERNETRM_PIF$OSI_FLOW_CTRL_RX */ nveu32_t flow_ctrl; /** PTP configuration settings */ struct osi_ptp_config ptp_config; /** Default addend value * valid values are from 0 to UINT32_MAX*/ nveu32_t default_addend; /** mmc counter structure */ struct osi_mmc_counters mmc; /** DMA channel selection enable (1) disable(0) */ nveu32_t dcs_en; /** TQ:TC mapping * valid values are from 0 to 7 */ nveu32_t tc[OSI_MGBE_MAX_NUM_PDMA_CHANS]; #ifndef OSI_STRIPPED_LIB /** Memory mapped base address of HV window */ void *hv_base; /** csr clock is to program LPI 1 us tick timer register. * Value stored in MHz */ nveu32_t csr_clk_speed; nveu64_t vf_bitmap; /** Array to maintain VLAN filters */ nveu16_t vid[VLAN_NUM_VID]; /** Count of number of VLAN filters in vid array */ nveu16_t vlan_filter_cnt; /** RSS core structure */ struct osi_core_rss rss; #endif /** DT entry to enable(1) or disable(0) pause frame support */ nveu32_t pause_frames; /** Residual queue valid with FPE support * Value range for EQOS 1 to NVETHERNETRM_PIF$OSI_EQOS_MAX_NUM_QUEUES-1 * Value range for MGBE 1 to NVETHERNETRM_PIF$OSI_MGBE_MAX_NUM_QUEUES-1*/ nveu32_t residual_queue; /** FRP Instruction Table */ struct osi_core_frp_entry frp_table[OSI_FRP_MAX_ENTRY]; /** Number of valid Entries in the FRP Instruction Table * valid values are from 0 to NVETHERNETRM_PIF$OSI_FRP_MAX_ENTRY*/ nveu32_t frp_cnt; /* Switch to Software Owned List Complete. * 1 - Successful and User configured GCL in placed */ nveu32_t est_ready; /* FPE enabled, verify and respose done with peer device * 1- Successful and can be used between P2P device */ nveu32_t fpe_ready; /** MAC stats counters */ struct osi_stats stats; /** eqos pad control structure */ struct core_padctrl padctrl; /** MDC clock rate * valid values are from 0 to 7 */ nveu32_t mdc_cr; /** VLAN tag stripping enable(1) or disable(0) */ nveu32_t strip_vlan_tag; #if !defined(L3L4_WILDCARD_FILTER) /** L3L4 filter bit bask, set index corresponding bit for * filter if filter enabled */ nveu32_t l3l4_filter_bitmask; #endif /* !L3L4_WILDCARD_FILTER */ /** Flag which decides virtualization is enabled(1) or disabled(0) */ nveu32_t use_virtualization; /** HW supported feature list */ struct osi_hw_features *hw_feature; /** MC packets Multiple DMA channel selection flags */ nveu32_t mc_dmasel; /** UPHY GBE mode (1 for 10G, 0 for 5G) */ nveu32_t uphy_gbe_mode; /** number of PDMA's */ nveu32_t num_of_pdma; /** Array of PDMA to VDMA mapping */ struct osi_pdma_vdma_data pdma_data[OSI_MGBE_MAX_NUM_PDMA_CHANS]; /** Number of channels enabled in MAC */ nveu32_t num_dma_chans; /** Array of supported DMA channels */ nveu32_t dma_chans[OSI_MGBE_MAX_NUM_CHANS]; /** Array of VM IRQ's */ struct osi_vm_irq_data irq_data[OSI_MAX_VM_IRQS]; /** number of VM IRQ's * Fixed value filled by NvEthernet unit as 4*/ nveu32_t num_vm_irqs; /** PHY interface mode (0/1 for XFI 10/5G, 2/3 for USXGMII 10/5) */ nveu32_t phy_iface_mode; /** MGBE MAC instance ID's * valid values are from 0 to 4 * 0 to 3 fo reach MGBE instance and 4 for EQOS */ nveu32_t instance_id; /** Ethernet controller MAC to MAC Time sync role * valid values are NVETHERNETRM_PIF$OSI_PTP_M2M_INACTIVE, * NVETHERNETRM_PIF$OSI_PTP_M2M_PRIMARY and * NVETHERNETRM_PIF$OSI_PTP_M2M_SECONDARY */ nveu32_t m2m_role; /** control pps output signal * 0(disable) and 1(enable) are the valid values */ nveu32_t pps_frq; #ifdef HSI_SUPPORT struct osi_hsi_data hsi; #endif /** pre-silicon flag */ nveu32_t pre_sil; }; /** * @brief * Description: EQOS MAC, MTL and common DMA initialization. * * @param[in] osi_core: A pointer to the osi_core_priv_data structure * * Range: A non-null pointer to NVETHERNETRM_PIF$osi_core_priv_data structure. * * Used Structure variables: osi_core.base, osi_core.num_mtl_queues, osi_core.mtl_queues * * Refer NVETHERNETRM_PIF$osi_core_priv_data * * @pre * - MAC should be out of reset. See osi_poll_for_mac_reset_complete() * for details. * - osi_core->base needs to be filled based on ioremap. * - osi_core->num_mtl_queues needs to be filled. * - osi_core->mtl_queues[qinx] need to be filled. * * @return * - 0 on successful completion of the NVETHERNETRM_PIF#osi_hw_core_init/osi_core * deinitialization operation. * - -1 on NVETHERNETRM_PIF#osi_hw_core_init/osi_core core deinitialization operation fail * - -1 on NVETHERNETRM_PIF#osi_hw_core_init/osi_core is NULL * * @usage * - Allowed context for the API call * - Interrupt handler: No * - Signal handler: No * - Thread safe: No * - Async/Sync: Sync * - Required Privileges: None * - API Group: * - Initialization: Yes * - Run time: No * - De-initialization: No * */ #ifndef DOXYGEN_ICD /** * * Traceability Details: * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_001 */ #else /** * * @dir * - forward */ #endif nve32_t osi_hw_core_init(struct osi_core_priv_data *const osi_core); /** * @brief * Description: EQOS MAC deinitialization. * * @pre MAC has to be out of reset. * * @param[in] osi_core: A pointer to the osi_core_priv_data structure * * Range: A non-null pointer to NVETHERNETRM_PIF$osi_core_priv_data structure. * * @return * - 0 on successful completion of the NVETHERNETRM_PIF#osi_hw_core_deinit/osi_core * deinitialization operation. * - -1 on NVETHERNETRM_PIF#osi_hw_core_deinit/osi_core core deinitialization operation fail * - -1 on NVETHERNETRM_PIF#osi_hw_core_deinit/osi_core is NULL * * @usage * - Allowed context for the API call * - Interrupt handler: No * - Signal handler: No * - Thread safe: No * - Async/Sync: Sync * - Required Privileges: None * - API Group: * - Initialization: No * - Run time: No * - De-initialization: Yes * */ #ifndef DOXYGEN_ICD /** * * Traceability Details: * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_002 */ #else /** * * @dir * - forward */ #endif nve32_t osi_hw_core_deinit(struct osi_core_priv_data *const osi_core); /** * @brief * Description: Write to a PHY register through MAC over MDIO bus. * * @param[in] osi_core: A pointer to the osi_core_priv_data structure * * Range: A non-null pointer to NVETHERNETRM_PIF$osi_core_priv_data structure. * @param[in] phyaddr: PHY address (PHY ID) associated with PHY * * Range: 0 to UINT32_MAX * @param[in] phyreg: Register which needs to be write to PHY. * * Range: 0 to UINT32_MAX * @param[in] phydata: Data to write to a PHY register. * * Range: 0 to UINT32_MAX * * @pre MAC should be init and started. see osi_start_mac() * * @return * - 0 on NVETHERNETRM_PIF#osi_write_phy_reg/osi_core PHY register write operation success * - -1 on NVETHERNETRM_PIF#osi_write_phy_reg/osi_core PHY register write operation fail * - -1 on NVETHERNETRM_PIF#osi_write_phy_reg/osi_core is NULL * * @usage * - Allowed context for the API call * - Interrupt handler: No * - Signal handler: No * - Thread safe: No * - Async/Sync: Sync * - Required Privileges: None * - API Group: * - Initialization: Yes * - Run time: Yes * - De-initialization: No * */ #ifndef DOXYGEN_ICD /** * * Traceability Details: * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_003 */ #else /** * * @dir * - forward */ #endif nve32_t osi_write_phy_reg(struct osi_core_priv_data *const osi_core, const nveu32_t phyaddr, const nveu32_t phyreg, const nveu16_t phydata); /** * @brief * Description: Read from a PHY register through MAC over MDIO bus. * * @param[in] osi_core: A pointer to the osi_core_priv_data structure * * Range: A non-null pointer to NVETHERNETRM_PIF$osi_core_priv_data structure. * @param[in] phyaddr: PHY address (PHY ID) associated with PHY * * Range: 0 to UINT32_MAX * @param[in] phyreg: Register which needs to be read from PHY. * * Range: 0 to UINT32_MAX * * @pre MAC should be init and started. see osi_start_mac() * * @return * - 0 on NVETHERNETRM_PIF#osi_read_phy_reg/osi_core PHY register read operation success * - -1 on NVETHERNETRM_PIF#osi_read_phy_reg/osi_core PHY register read operation fail * - -1 on NVETHERNETRM_PIF#osi_read_phy_reg/osi_core is NULL * * @usage * - Allowed context for the API call * - Interrupt handler: No * - Signal handler: No * - Thread safe: No * - Async/Sync: Sync * - Required Privileges: None * - API Group: * - Initialization: Yes * - Run time: Yes * - De-initialization: No * */ #ifndef DOXYGEN_ICD /** * * Traceability Details: * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_004 * */ #else /** * * @dir * - forward */ #endif nve32_t osi_read_phy_reg(struct osi_core_priv_data *const osi_core, const nveu32_t phyaddr, const nveu32_t phyreg); /** * @brief * Description: initializing the core operations * * @param[in] osi_core: A pointer to the osi_core_priv_data structure * * Range: A non-null pointer to NVETHERNETRM_PIF$osi_core_priv_data structure. * * Used Structure variables: osi_core.use_virtualization * * Refer NVETHERNETRM_PIF$osi_core_priv_data/use_virtualization * * @pre Obtain a valid osi_core pointer by using the NVETHERNETRM_PIF#osi_get_core function. * * @return * - 0 on successful initialization of the NVETHERNETRM_PIF#osi_init_core_ops/osi_core operation * - -1 on NVETHERNETRM_PIF#osi_init_core_ops/osi_core is NULL * - -1 on NVETHERNETRM_PIF#osi_init_core_ops/osi_core$use_virtualization> * NVETHERNETRM_PIF$OSI_ENABLE * - -1 on NVETHERNETRM_PIF#osi_init_core_ops/osi_core core operation init fail * * @usage * - Allowed context for the API call * - Interrupt handler: No * - Signal handler: No * - Thread safe: No * - Async/Sync: Sync * - Required Privileges: None * - API Group: * - Initialization: Yes * - Run time: No * - De-initialization: No * */ #ifndef DOXYGEN_ICD /** * Traceability Details: * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_005 * */ #else /** * * @dir * - forward */ #endif nve32_t osi_init_core_ops(struct osi_core_priv_data *const osi_core); /** * @brief * Description: API designed to manage runtime IOCTL commands. * * @pre MAC should be init and started. see osi_start_mac() * * @param[in] osi_core: A pointer to the osi_core_priv_data structure * * Range: A non-null pointer to NVETHERNETRM_PIF$osi_core_priv_data structure. * * Used Structure variables: none * @param[in] data: A pointer referring to the osi_ioctl data structure. * * Range: A non-null pointer to a valid NVETHERNETRM_PIF$osi_ioctl structure. * * Used Structure variables: data/all * * Refer NVETHERNETRM_PIF$osi_ioctl * * @usage * - Allowed context for the API call * - Interrupt handler: No * - Signal handler: No * - Thread safe: No * - Async/Sync: Sync * - Required Privileges: None * - API Group: * - Initialization: No * - Run time: Yes * - De-initialization: No * * @return * - 0 on successful execution of IOCTL command * - -1 on IOCTL command exection fail * - -1 on NVETHERNETRM_PIF#osi_handle_ioctl/osi_core is NULL * - -1 on NVETHERNETRM_PIF#osi_handle_ioctl/data is NULL * */ #ifndef DOXYGEN_ICD /** * Traceability Details: * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_006 to handle OSI_CMD_SUSPEND * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_007 to handle OSI_CMD_RESUME * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_008 to handle OSI_CMD_RXCSUM_OFFLOAD * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_009 to handle OSI_CMD_PAD_CALIBRATION * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_010 to handle OSI_CMD_READ_MMC * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_011 to handle OSI_CMD_CAP_TSC_PTP * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_012 to handle OSI_CMD_FREE_TS * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_013 to handle OSI_CMD_MAC_MTU * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_014 to handle OSI_CMD_CONFIG_EST * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_015 to handle OSI_CMD_SET_AVB * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_016 to handle OSI_CMD_GET_AVB * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_017 to handle OSI_CMD_CONF_M2M_TS * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_018 to handle OSI_CMD_GET_TX_TS * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_019 to handle OSI_CMD_SET_SPEED * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_020 to handle OSI_CMD_L3L4_FILTER * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_021 to handle OSI_CMD_L2_FILTER * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_022 to handle OSI_CMD_SET_SYSTOHW_TIME * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_023 to handle OSI_CMD_CONFIG_FRP * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_024 to handle OSI_CMD_CONFIG_FPE * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_025 to handle OSI_CMD_COMMON_ISR * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_026 to handle OSI_CMD_READ_HSI_ERR * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_027 to handle OSI_CMD_HSI_CONFIGURE * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_028 to handle OSI_CMD_CONFIG_PTP * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_029 to handle OSI_CMD_READ_STATS * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_030 to handle OSI_CMD_ADJ_FREQ * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_031 to handle OSI_CMD_ADJ_TIME * */ #else /** * * @dir * - forward */ #endif nve32_t osi_handle_ioctl(struct osi_core_priv_data *osi_core, struct osi_ioctl *data); /** * @brief * Description: Get pointer to osi_core data structure. * * @pre OSD layer should use this as first API to get osi_core pointer and * use the same in remaning API invocation. * * @usage * - Allowed context for the API call * - Interrupt handler: No * - Signal handler: No * - Thread safe: No * - Async/Sync: Sync * - Required Privileges: None * - API Group: * - Initialization: Yes * - Run time: No * - De-initialization: No * * @return * - NVETHERNETRM_PIF$osi_core_priv_data pointer on each success exection. * - NULL if the total enabled VFs exceed the maximum core * instances allowed (MAX_CORE_INSTANCES). * */ #ifndef DOXYGEN_ICD /** * * Traceability Details: * - SWUD_ID: NET_SWUD_TAG_NVETHERNETRM_032 */ #else /** * * @dir * - forward */ #endif struct osi_core_priv_data *osi_get_core(void); #endif /* INCLUDED_OSI_CORE_H */