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3222 3223 3224 3225 3226 3227 3228 3229 3230 3231 3232 3233 3234 3235 3236 3237 3238 3239 3240 3241 3242 3243 3244 3245 3246 3247 3248 3249 3250 3251 3252 3253 3254 3255 3256 3257 3258 3259 3260 3261 | /* SPDX-License-Identifier: (GPL-2.0 OR Linux-OpenIB) OR BSD-2-Clause */ /* Copyright (c) 2017-2020 Pensando Systems, Inc. All rights reserved. */ #ifndef _IONIC_IF_H_ #define _IONIC_IF_H_ #define IONIC_DEV_INFO_SIGNATURE 0x44455649 /* 'DEVI' */ #define IONIC_DEV_INFO_VERSION 1 #define IONIC_IFNAMSIZ 16 /* * enum ionic_cmd_opcode - Device commands */ enum ionic_cmd_opcode { IONIC_CMD_NOP = 0, /* Device commands */ IONIC_CMD_IDENTIFY = 1, IONIC_CMD_INIT = 2, IONIC_CMD_RESET = 3, IONIC_CMD_GETATTR = 4, IONIC_CMD_SETATTR = 5, /* Port commands */ IONIC_CMD_PORT_IDENTIFY = 10, IONIC_CMD_PORT_INIT = 11, IONIC_CMD_PORT_RESET = 12, IONIC_CMD_PORT_GETATTR = 13, IONIC_CMD_PORT_SETATTR = 14, /* LIF commands */ IONIC_CMD_LIF_IDENTIFY = 20, IONIC_CMD_LIF_INIT = 21, IONIC_CMD_LIF_RESET = 22, IONIC_CMD_LIF_GETATTR = 23, IONIC_CMD_LIF_SETATTR = 24, IONIC_CMD_LIF_SETPHC = 25, IONIC_CMD_RX_MODE_SET = 30, IONIC_CMD_RX_FILTER_ADD = 31, IONIC_CMD_RX_FILTER_DEL = 32, /* Queue commands */ IONIC_CMD_Q_IDENTIFY = 39, IONIC_CMD_Q_INIT = 40, IONIC_CMD_Q_CONTROL = 41, /* RDMA commands */ IONIC_CMD_RDMA_RESET_LIF = 50, IONIC_CMD_RDMA_CREATE_EQ = 51, IONIC_CMD_RDMA_CREATE_CQ = 52, IONIC_CMD_RDMA_CREATE_ADMINQ = 53, /* SR/IOV commands */ IONIC_CMD_VF_GETATTR = 60, IONIC_CMD_VF_SETATTR = 61, IONIC_CMD_VF_CTRL = 62, /* QoS commands */ IONIC_CMD_QOS_CLASS_IDENTIFY = 240, IONIC_CMD_QOS_CLASS_INIT = 241, IONIC_CMD_QOS_CLASS_RESET = 242, IONIC_CMD_QOS_CLASS_UPDATE = 243, IONIC_CMD_QOS_CLEAR_STATS = 244, IONIC_CMD_QOS_RESET = 245, /* Firmware commands */ IONIC_CMD_FW_DOWNLOAD = 252, IONIC_CMD_FW_CONTROL = 253, IONIC_CMD_FW_DOWNLOAD_V1 = 254, IONIC_CMD_FW_CONTROL_V1 = 255, }; /* * enum ionic_status_code - Device command return codes */ enum ionic_status_code { IONIC_RC_SUCCESS = 0, /* Success */ IONIC_RC_EVERSION = 1, /* Incorrect version for request */ IONIC_RC_EOPCODE = 2, /* Invalid cmd opcode */ IONIC_RC_EIO = 3, /* I/O error */ IONIC_RC_EPERM = 4, /* Permission denied */ IONIC_RC_EQID = 5, /* Bad qid */ IONIC_RC_EQTYPE = 6, /* Bad qtype */ IONIC_RC_ENOENT = 7, /* No such element */ IONIC_RC_EINTR = 8, /* operation interrupted */ IONIC_RC_EAGAIN = 9, /* Try again */ IONIC_RC_ENOMEM = 10, /* Out of memory */ IONIC_RC_EFAULT = 11, /* Bad address */ IONIC_RC_EBUSY = 12, /* Device or resource busy */ IONIC_RC_EEXIST = 13, /* object already exists */ IONIC_RC_EINVAL = 14, /* Invalid argument */ IONIC_RC_ENOSPC = 15, /* No space left or alloc failure */ IONIC_RC_ERANGE = 16, /* Parameter out of range */ IONIC_RC_BAD_ADDR = 17, /* Descriptor contains a bad ptr */ IONIC_RC_DEV_CMD = 18, /* Device cmd attempted on AdminQ */ IONIC_RC_ENOSUPP = 19, /* Operation not supported */ IONIC_RC_ERROR = 29, /* Generic error */ IONIC_RC_ERDMA = 30, /* Generic RDMA error */ IONIC_RC_EVFID = 31, /* VF ID does not exist */ IONIC_RC_EBAD_FW = 32, /* FW file is invalid or corrupted */ }; enum ionic_notifyq_opcode { IONIC_EVENT_LINK_CHANGE = 1, IONIC_EVENT_RESET = 2, IONIC_EVENT_HEARTBEAT = 3, IONIC_EVENT_LOG = 4, IONIC_EVENT_XCVR = 5, }; /** * struct ionic_admin_cmd - General admin command format * @opcode: Opcode for the command * @rsvd: reserved byte(s) * @lif_index: LIF index * @cmd_data: Opcode-specific command bytes */ struct ionic_admin_cmd { u8 opcode; u8 rsvd; __le16 lif_index; u8 cmd_data[60]; }; /** * struct ionic_admin_comp - General admin command completion format * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) * @comp_index: Index in the descriptor ring for which this is the completion * @cmd_data: Command-specific bytes * @color: Color bit (Always 0 for commands issued to the * Device Cmd Registers) */ struct ionic_admin_comp { u8 status; u8 rsvd; __le16 comp_index; u8 cmd_data[11]; u8 color; #define IONIC_COMP_COLOR_MASK 0x80 }; static inline u8 color_match(u8 color, u8 done_color) { return (!!(color & IONIC_COMP_COLOR_MASK)) == done_color; } /** * struct ionic_nop_cmd - NOP command * @opcode: opcode * @rsvd: reserved byte(s) */ struct ionic_nop_cmd { u8 opcode; u8 rsvd[63]; }; /** * struct ionic_nop_comp - NOP command completion * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) */ struct ionic_nop_comp { u8 status; u8 rsvd[15]; }; /** * struct ionic_dev_init_cmd - Device init command * @opcode: opcode * @type: Device type * @rsvd: reserved byte(s) */ struct ionic_dev_init_cmd { u8 opcode; u8 type; u8 rsvd[62]; }; /** * struct ionic_dev_init_comp - Device init command completion * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) */ struct ionic_dev_init_comp { u8 status; u8 rsvd[15]; }; /** * struct ionic_dev_reset_cmd - Device reset command * @opcode: opcode * @rsvd: reserved byte(s) */ struct ionic_dev_reset_cmd { u8 opcode; u8 rsvd[63]; }; /** * struct ionic_dev_reset_comp - Reset command completion * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) */ struct ionic_dev_reset_comp { u8 status; u8 rsvd[15]; }; #define IONIC_IDENTITY_VERSION_1 1 #define IONIC_DEV_IDENTITY_VERSION_2 2 /** * struct ionic_dev_identify_cmd - Driver/device identify command * @opcode: opcode * @ver: Highest version of identify supported by driver * @rsvd: reserved byte(s) */ struct ionic_dev_identify_cmd { u8 opcode; u8 ver; u8 rsvd[62]; }; /** * struct ionic_dev_identify_comp - Driver/device identify command completion * @status: Status of the command (enum ionic_status_code) * @ver: Version of identify returned by device * @rsvd: reserved byte(s) */ struct ionic_dev_identify_comp { u8 status; u8 ver; u8 rsvd[14]; }; enum ionic_os_type { IONIC_OS_TYPE_LINUX = 1, IONIC_OS_TYPE_WIN = 2, IONIC_OS_TYPE_DPDK = 3, IONIC_OS_TYPE_FREEBSD = 4, IONIC_OS_TYPE_IPXE = 5, IONIC_OS_TYPE_ESXI = 6, }; /** * union ionic_drv_identity - driver identity information * @os_type: OS type (see enum ionic_os_type) * @os_dist: OS distribution, numeric format * @os_dist_str: OS distribution, string format * @kernel_ver: Kernel version, numeric format * @kernel_ver_str: Kernel version, string format * @driver_ver_str: Driver version, string format * @words: word access to struct contents */ union ionic_drv_identity { struct { __le32 os_type; __le32 os_dist; char os_dist_str[128]; __le32 kernel_ver; char kernel_ver_str[32]; char driver_ver_str[32]; }; __le32 words[478]; }; /** * enum ionic_dev_capability - Device capabilities * @IONIC_DEV_CAP_VF_CTRL: Device supports VF ctrl operations */ enum ionic_dev_capability { IONIC_DEV_CAP_VF_CTRL = BIT(0), }; /** * union ionic_dev_identity - device identity information * @version: Version of device identify * @type: Identify type (0 for now) * @rsvd: reserved byte(s) * @nports: Number of ports provisioned * @rsvd2: reserved byte(s) * @nlifs: Number of LIFs provisioned * @nintrs: Number of interrupts provisioned * @ndbpgs_per_lif: Number of doorbell pages per LIF * @intr_coal_mult: Interrupt coalescing multiplication factor * Scale user-supplied interrupt coalescing * value in usecs to device units using: * device units = usecs * mult / div * @intr_coal_div: Interrupt coalescing division factor * Scale user-supplied interrupt coalescing * value in usecs to device units using: * device units = usecs * mult / div * @eq_count: Number of shared event queues * @hwstamp_mask: Bitmask for subtraction of hardware tick values. * @hwstamp_mult: Hardware tick to nanosecond multiplier. * @hwstamp_shift: Hardware tick to nanosecond divisor (power of two). * @capabilities: Device capabilities * @words: word access to struct contents */ union ionic_dev_identity { struct { u8 version; u8 type; u8 rsvd[2]; u8 nports; u8 rsvd2[3]; __le32 nlifs; __le32 nintrs; __le32 ndbpgs_per_lif; __le32 intr_coal_mult; __le32 intr_coal_div; __le32 eq_count; __le64 hwstamp_mask; __le32 hwstamp_mult; __le32 hwstamp_shift; __le64 capabilities; }; __le32 words[478]; }; enum ionic_lif_type { IONIC_LIF_TYPE_CLASSIC = 0, IONIC_LIF_TYPE_MACVLAN = 1, IONIC_LIF_TYPE_NETQUEUE = 2, }; /** * struct ionic_lif_identify_cmd - LIF identify command * @opcode: opcode * @type: LIF type (enum ionic_lif_type) * @ver: Version of identify returned by device * @rsvd: reserved byte(s) */ struct ionic_lif_identify_cmd { u8 opcode; u8 type; u8 ver; u8 rsvd[61]; }; /** * struct ionic_lif_identify_comp - LIF identify command completion * @status: Status of the command (enum ionic_status_code) * @ver: Version of identify returned by device * @rsvd2: reserved byte(s) */ struct ionic_lif_identify_comp { u8 status; u8 ver; u8 rsvd2[14]; }; /** * enum ionic_lif_capability - LIF capabilities * @IONIC_LIF_CAP_ETH: LIF supports Ethernet * @IONIC_LIF_CAP_RDMA: LIF supports RDMA */ enum ionic_lif_capability { IONIC_LIF_CAP_ETH = BIT(0), IONIC_LIF_CAP_RDMA = BIT(1), }; /** * enum ionic_logical_qtype - Logical Queue Types * @IONIC_QTYPE_ADMINQ: Administrative Queue * @IONIC_QTYPE_NOTIFYQ: Notify Queue * @IONIC_QTYPE_RXQ: Receive Queue * @IONIC_QTYPE_TXQ: Transmit Queue * @IONIC_QTYPE_EQ: Event Queue * @IONIC_QTYPE_MAX: Max queue type supported */ enum ionic_logical_qtype { IONIC_QTYPE_ADMINQ = 0, IONIC_QTYPE_NOTIFYQ = 1, IONIC_QTYPE_RXQ = 2, IONIC_QTYPE_TXQ = 3, IONIC_QTYPE_EQ = 4, IONIC_QTYPE_MAX = 16, }; /** * enum ionic_q_feature - Common Features for most queue types * * Common features use bits 0-15. Per-queue-type features use higher bits. * * @IONIC_QIDENT_F_CQ: Queue has completion ring * @IONIC_QIDENT_F_SG: Queue has scatter/gather ring * @IONIC_QIDENT_F_EQ: Queue can use event queue * @IONIC_QIDENT_F_CMB: Queue is in cmb bar * @IONIC_Q_F_2X_DESC: Double main descriptor size * @IONIC_Q_F_2X_CQ_DESC: Double cq descriptor size * @IONIC_Q_F_2X_SG_DESC: Double sg descriptor size * @IONIC_Q_F_4X_DESC: Quadruple main descriptor size * @IONIC_Q_F_4X_CQ_DESC: Quadruple cq descriptor size * @IONIC_Q_F_4X_SG_DESC: Quadruple sg descriptor size */ enum ionic_q_feature { IONIC_QIDENT_F_CQ = BIT_ULL(0), IONIC_QIDENT_F_SG = BIT_ULL(1), IONIC_QIDENT_F_EQ = BIT_ULL(2), IONIC_QIDENT_F_CMB = BIT_ULL(3), IONIC_Q_F_2X_DESC = BIT_ULL(4), IONIC_Q_F_2X_CQ_DESC = BIT_ULL(5), IONIC_Q_F_2X_SG_DESC = BIT_ULL(6), IONIC_Q_F_4X_DESC = BIT_ULL(7), IONIC_Q_F_4X_CQ_DESC = BIT_ULL(8), IONIC_Q_F_4X_SG_DESC = BIT_ULL(9), }; /** * enum ionic_rxq_feature - RXQ-specific Features * * Per-queue-type features use bits 16 and higher. * * @IONIC_RXQ_F_HWSTAMP: Queue supports Hardware Timestamping */ enum ionic_rxq_feature { IONIC_RXQ_F_HWSTAMP = BIT_ULL(16), }; /** * enum ionic_txq_feature - TXQ-specific Features * * Per-queue-type features use bits 16 and higher. * * @IONIC_TXQ_F_HWSTAMP: Queue supports Hardware Timestamping */ enum ionic_txq_feature { IONIC_TXQ_F_HWSTAMP = BIT(16), }; /** * enum ionic_hwstamp_bits - Hardware timestamp decoding bits * @IONIC_HWSTAMP_INVALID: Invalid hardware timestamp value * @IONIC_HWSTAMP_CQ_NEGOFFSET: Timestamp field negative offset * from the base cq descriptor. */ enum ionic_hwstamp_bits { IONIC_HWSTAMP_INVALID = ~0ull, IONIC_HWSTAMP_CQ_NEGOFFSET = 8, }; /** * struct ionic_lif_logical_qtype - Descriptor of logical to HW queue type * @qtype: Hardware Queue Type * @rsvd: reserved byte(s) * @qid_count: Number of Queue IDs of the logical type * @qid_base: Minimum Queue ID of the logical type */ struct ionic_lif_logical_qtype { u8 qtype; u8 rsvd[3]; __le32 qid_count; __le32 qid_base; }; /** * enum ionic_lif_state - LIF state * @IONIC_LIF_DISABLE: LIF disabled * @IONIC_LIF_ENABLE: LIF enabled * @IONIC_LIF_QUIESCE: LIF Quiesced */ enum ionic_lif_state { IONIC_LIF_QUIESCE = 0, IONIC_LIF_ENABLE = 1, IONIC_LIF_DISABLE = 2, }; /** * union ionic_lif_config - LIF configuration * @state: LIF state (enum ionic_lif_state) * @rsvd: reserved byte(s) * @name: LIF name * @mtu: MTU * @mac: Station MAC address * @vlan: Default Vlan ID * @features: Features (enum ionic_eth_hw_features) * @queue_count: Queue counts per queue-type * @words: word access to struct contents */ union ionic_lif_config { struct { u8 state; u8 rsvd[3]; char name[IONIC_IFNAMSIZ]; __le32 mtu; u8 mac[6]; __le16 vlan; __le64 features; __le32 queue_count[IONIC_QTYPE_MAX]; } __packed; __le32 words[64]; }; /** * struct ionic_lif_identity - LIF identity information (type-specific) * * @capabilities: LIF capabilities * * @eth: Ethernet identify structure * @eth.version: Ethernet identify structure version * @eth.rsvd: reserved byte(s) * @eth.max_ucast_filters: Number of perfect unicast addresses supported * @eth.max_mcast_filters: Number of perfect multicast addresses supported * @eth.min_frame_size: Minimum size of frames to be sent * @eth.max_frame_size: Maximum size of frames to be sent * @eth.rsvd2: reserved byte(s) * @eth.hwstamp_tx_modes: Bitmask of BIT_ULL(enum ionic_txstamp_mode) * @eth.hwstamp_rx_filters: Bitmask of enum ionic_pkt_class * @eth.rsvd3: reserved byte(s) * @eth.config: LIF config struct with features, mtu, mac, q counts * * @rdma: RDMA identify structure * @rdma.version: RDMA version of opcodes and queue descriptors * @rdma.qp_opcodes: Number of RDMA queue pair opcodes supported * @rdma.admin_opcodes: Number of RDMA admin opcodes supported * @rdma.rsvd: reserved byte(s) * @rdma.npts_per_lif: Page table size per LIF * @rdma.nmrs_per_lif: Number of memory regions per LIF * @rdma.nahs_per_lif: Number of address handles per LIF * @rdma.max_stride: Max work request stride * @rdma.cl_stride: Cache line stride * @rdma.pte_stride: Page table entry stride * @rdma.rrq_stride: Remote RQ work request stride * @rdma.rsq_stride: Remote SQ work request stride * @rdma.dcqcn_profiles: Number of DCQCN profiles * @rdma.rsvd_dimensions: reserved byte(s) * @rdma.aq_qtype: RDMA Admin Qtype * @rdma.sq_qtype: RDMA Send Qtype * @rdma.rq_qtype: RDMA Receive Qtype * @rdma.cq_qtype: RDMA Completion Qtype * @rdma.eq_qtype: RDMA Event Qtype * @words: word access to struct contents */ union ionic_lif_identity { struct { __le64 capabilities; struct { u8 version; u8 rsvd[3]; __le32 max_ucast_filters; __le32 max_mcast_filters; __le16 rss_ind_tbl_sz; __le32 min_frame_size; __le32 max_frame_size; u8 rsvd2[2]; __le64 hwstamp_tx_modes; __le64 hwstamp_rx_filters; u8 rsvd3[88]; union ionic_lif_config config; } __packed eth; struct { u8 version; u8 qp_opcodes; u8 admin_opcodes; u8 rsvd; __le32 npts_per_lif; __le32 nmrs_per_lif; __le32 nahs_per_lif; u8 max_stride; u8 cl_stride; u8 pte_stride; u8 rrq_stride; u8 rsq_stride; u8 dcqcn_profiles; u8 rsvd_dimensions[10]; struct ionic_lif_logical_qtype aq_qtype; struct ionic_lif_logical_qtype sq_qtype; struct ionic_lif_logical_qtype rq_qtype; struct ionic_lif_logical_qtype cq_qtype; struct ionic_lif_logical_qtype eq_qtype; } __packed rdma; } __packed; __le32 words[478]; }; /** * struct ionic_lif_init_cmd - LIF init command * @opcode: Opcode * @type: LIF type (enum ionic_lif_type) * @index: LIF index * @rsvd: reserved byte(s) * @info_pa: Destination address for LIF info (struct ionic_lif_info) * @rsvd2: reserved byte(s) */ struct ionic_lif_init_cmd { u8 opcode; u8 type; __le16 index; __le32 rsvd; __le64 info_pa; u8 rsvd2[48]; }; /** * struct ionic_lif_init_comp - LIF init command completion * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) * @hw_index: Hardware index of the initialized LIF * @rsvd2: reserved byte(s) */ struct ionic_lif_init_comp { u8 status; u8 rsvd; __le16 hw_index; u8 rsvd2[12]; }; /** * struct ionic_q_identify_cmd - queue identify command * @opcode: opcode * @rsvd: reserved byte(s) * @lif_type: LIF type (enum ionic_lif_type) * @type: Logical queue type (enum ionic_logical_qtype) * @ver: Highest queue type version that the driver supports * @rsvd2: reserved byte(s) */ struct ionic_q_identify_cmd { u8 opcode; u8 rsvd; __le16 lif_type; u8 type; u8 ver; u8 rsvd2[58]; }; /** * struct ionic_q_identify_comp - queue identify command completion * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) * @comp_index: Index in the descriptor ring for which this is the completion * @ver: Queue type version that can be used with FW * @rsvd2: reserved byte(s) */ struct ionic_q_identify_comp { u8 status; u8 rsvd; __le16 comp_index; u8 ver; u8 rsvd2[11]; }; /** * union ionic_q_identity - queue identity information * @version: Queue type version that can be used with FW * @supported: Bitfield of queue versions, first bit = ver 0 * @rsvd: reserved byte(s) * @features: Queue features (enum ionic_q_feature, etc) * @desc_sz: Descriptor size * @comp_sz: Completion descriptor size * @sg_desc_sz: Scatter/Gather descriptor size * @max_sg_elems: Maximum number of Scatter/Gather elements * @sg_desc_stride: Number of Scatter/Gather elements per descriptor * @words: word access to struct contents */ union ionic_q_identity { struct { u8 version; u8 supported; u8 rsvd[6]; __le64 features; __le16 desc_sz; __le16 comp_sz; __le16 sg_desc_sz; __le16 max_sg_elems; __le16 sg_desc_stride; }; __le32 words[478]; }; /** * struct ionic_q_init_cmd - Queue init command * @opcode: opcode * @rsvd: reserved byte(s) * @type: Logical queue type * @ver: Queue type version * @rsvd1: reserved byte(s) * @lif_index: LIF index * @index: (LIF, qtype) relative admin queue index * @intr_index: Interrupt control register index, or Event queue index * @pid: Process ID * @flags: * IRQ: Interrupt requested on completion * ENA: Enable the queue. If ENA=0 the queue is initialized * but remains disabled, to be later enabled with the * Queue Enable command. If ENA=1, then queue is * initialized and then enabled. * SG: Enable Scatter-Gather on the queue. * in number of descs. The actual ring size is * (1 << ring_size). For example, to * select a ring size of 64 descriptors write * ring_size = 6. The minimum ring_size value is 2 * for a ring size of 4 descriptors. The maximum * ring_size value is 16 for a ring size of 64k * descriptors. Values of ring_size <2 and >16 are * reserved. * EQ: Enable the Event Queue * @cos: Class of service for this queue * @ring_size: Queue ring size, encoded as a log2(size) * @ring_base: Queue ring base address * @cq_ring_base: Completion queue ring base address * @sg_ring_base: Scatter/Gather ring base address * @rsvd2: reserved byte(s) * @features: Mask of queue features to enable, if not in the flags above. */ struct ionic_q_init_cmd { u8 opcode; u8 rsvd; __le16 lif_index; u8 type; u8 ver; u8 rsvd1[2]; __le32 index; __le16 pid; __le16 intr_index; __le16 flags; #define IONIC_QINIT_F_IRQ 0x01 /* Request interrupt on completion */ #define IONIC_QINIT_F_ENA 0x02 /* Enable the queue */ #define IONIC_QINIT_F_SG 0x04 /* Enable scatter/gather on the queue */ #define IONIC_QINIT_F_EQ 0x08 /* Enable event queue */ #define IONIC_QINIT_F_CMB 0x10 /* Enable cmb-based queue */ #define IONIC_QINIT_F_DEBUG 0x80 /* Enable queue debugging */ u8 cos; u8 ring_size; __le64 ring_base; __le64 cq_ring_base; __le64 sg_ring_base; u8 rsvd2[12]; __le64 features; } __packed; /** * struct ionic_q_init_comp - Queue init command completion * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) * @comp_index: Index in the descriptor ring for which this is the completion * @hw_index: Hardware Queue ID * @hw_type: Hardware Queue type * @rsvd2: reserved byte(s) * @color: Color */ struct ionic_q_init_comp { u8 status; u8 rsvd; __le16 comp_index; __le32 hw_index; u8 hw_type; u8 rsvd2[6]; u8 color; }; /* the device's internal addressing uses up to 52 bits */ #define IONIC_ADDR_LEN 52 #define IONIC_ADDR_MASK (BIT_ULL(IONIC_ADDR_LEN) - 1) enum ionic_txq_desc_opcode { IONIC_TXQ_DESC_OPCODE_CSUM_NONE = 0, IONIC_TXQ_DESC_OPCODE_CSUM_PARTIAL = 1, IONIC_TXQ_DESC_OPCODE_CSUM_HW = 2, IONIC_TXQ_DESC_OPCODE_TSO = 3, }; /** * struct ionic_txq_desc - Ethernet Tx queue descriptor format * @cmd: Tx operation, see IONIC_TXQ_DESC_OPCODE_*: * * IONIC_TXQ_DESC_OPCODE_CSUM_NONE: * Non-offload send. No segmentation, * fragmentation or checksum calc/insertion is * performed by device; packet is prepared * to send by software stack and requires * no further manipulation from device. * * IONIC_TXQ_DESC_OPCODE_CSUM_PARTIAL: * Offload 16-bit L4 checksum * calculation/insertion. The device will * calculate the L4 checksum value and * insert the result in the packet's L4 * header checksum field. The L4 checksum * is calculated starting at @csum_start bytes * into the packet to the end of the packet. * The checksum insertion position is given * in @csum_offset, which is the offset from * @csum_start to the checksum field in the L4 * header. This feature is only applicable to * protocols such as TCP, UDP and ICMP where a * standard (i.e. the 'IP-style' checksum) * one's complement 16-bit checksum is used, * using an IP pseudo-header to seed the * calculation. Software will preload the L4 * checksum field with the IP pseudo-header * checksum. * * For tunnel encapsulation, @csum_start and * @csum_offset refer to the inner L4 * header. Supported tunnels encapsulations * are: IPIP, GRE, and UDP. If the @encap * is clear, no further processing by the * device is required; software will * calculate the outer header checksums. If * the @encap is set, the device will * offload the outer header checksums using * LCO (local checksum offload) (see * Documentation/networking/checksum-offloads.rst * for more info). * * IONIC_TXQ_DESC_OPCODE_CSUM_HW: * Offload 16-bit checksum computation to hardware. * If @csum_l3 is set then the packet's L3 checksum is * updated. Similarly, if @csum_l4 is set the L4 * checksum is updated. If @encap is set then encap header * checksums are also updated. * * IONIC_TXQ_DESC_OPCODE_TSO: * Device performs TCP segmentation offload * (TSO). @hdr_len is the number of bytes * to the end of TCP header (the offset to * the TCP payload). @mss is the desired * MSS, the TCP payload length for each * segment. The device will calculate/ * insert IP (IPv4 only) and TCP checksums * for each segment. In the first data * buffer containing the header template, * the driver will set IPv4 checksum to 0 * and preload TCP checksum with the IP * pseudo header calculated with IP length = 0. * * Supported tunnel encapsulations are IPIP, * layer-3 GRE, and UDP. @hdr_len includes * both outer and inner headers. The driver * will set IPv4 checksum to zero and * preload TCP checksum with IP pseudo * header on the inner header. * * TCP ECN offload is supported. The device * will set CWR flag in the first segment if * CWR is set in the template header, and * clear CWR in remaining segments. * flags: * vlan: * Insert an L2 VLAN header using @vlan_tci * encap: * Calculate encap header checksum * csum_l3: * Compute L3 header checksum * csum_l4: * Compute L4 header checksum * tso_sot: * TSO start * tso_eot: * TSO end * num_sg_elems: Number of scatter-gather elements in SG * descriptor * addr: First data buffer's DMA address * (Subsequent data buffers are on txq_sg_desc) * @len: First data buffer's length, in bytes * @vlan_tci: VLAN tag to insert in the packet (if requested * by @V-bit). Includes .1p and .1q tags * @hword0: half word padding * @hdr_len: Length of packet headers, including * encapsulating outer header, if applicable * Valid for opcodes IONIC_TXQ_DESC_OPCODE_CALC_CSUM and * IONIC_TXQ_DESC_OPCODE_TSO. Should be set to zero for * all other modes. For * IONIC_TXQ_DESC_OPCODE_CALC_CSUM, @hdr_len is length * of headers up to inner-most L4 header. For * IONIC_TXQ_DESC_OPCODE_TSO, @hdr_len is up to * inner-most L4 payload, so inclusive of * inner-most L4 header. * @hword1: half word padding * @mss: Desired MSS value for TSO; only applicable for * IONIC_TXQ_DESC_OPCODE_TSO * @csum_start: Offset from packet to first byte checked in L4 checksum * @csum_offset: Offset from csum_start to L4 checksum field * @hword2: half word padding */ struct ionic_txq_desc { __le64 cmd; #define IONIC_TXQ_DESC_OPCODE_MASK 0xf #define IONIC_TXQ_DESC_OPCODE_SHIFT 4 #define IONIC_TXQ_DESC_FLAGS_MASK 0xf #define IONIC_TXQ_DESC_FLAGS_SHIFT 0 #define IONIC_TXQ_DESC_NSGE_MASK 0xf #define IONIC_TXQ_DESC_NSGE_SHIFT 8 #define IONIC_TXQ_DESC_ADDR_MASK (BIT_ULL(IONIC_ADDR_LEN) - 1) #define IONIC_TXQ_DESC_ADDR_SHIFT 12 /* common flags */ #define IONIC_TXQ_DESC_FLAG_VLAN 0x1 #define IONIC_TXQ_DESC_FLAG_ENCAP 0x2 /* flags for csum_hw opcode */ #define IONIC_TXQ_DESC_FLAG_CSUM_L3 0x4 #define IONIC_TXQ_DESC_FLAG_CSUM_L4 0x8 /* flags for tso opcode */ #define IONIC_TXQ_DESC_FLAG_TSO_SOT 0x4 #define IONIC_TXQ_DESC_FLAG_TSO_EOT 0x8 __le16 len; union { __le16 vlan_tci; __le16 hword0; }; union { __le16 csum_start; __le16 hdr_len; __le16 hword1; }; union { __le16 csum_offset; __le16 mss; __le16 hword2; }; }; static inline u64 encode_txq_desc_cmd(u8 opcode, u8 flags, u8 nsge, u64 addr) { u64 cmd; cmd = (opcode & IONIC_TXQ_DESC_OPCODE_MASK) << IONIC_TXQ_DESC_OPCODE_SHIFT; cmd |= (flags & IONIC_TXQ_DESC_FLAGS_MASK) << IONIC_TXQ_DESC_FLAGS_SHIFT; cmd |= (nsge & IONIC_TXQ_DESC_NSGE_MASK) << IONIC_TXQ_DESC_NSGE_SHIFT; cmd |= (addr & IONIC_TXQ_DESC_ADDR_MASK) << IONIC_TXQ_DESC_ADDR_SHIFT; return cmd; }; static inline void decode_txq_desc_cmd(u64 cmd, u8 *opcode, u8 *flags, u8 *nsge, u64 *addr) { *opcode = (cmd >> IONIC_TXQ_DESC_OPCODE_SHIFT) & IONIC_TXQ_DESC_OPCODE_MASK; *flags = (cmd >> IONIC_TXQ_DESC_FLAGS_SHIFT) & IONIC_TXQ_DESC_FLAGS_MASK; *nsge = (cmd >> IONIC_TXQ_DESC_NSGE_SHIFT) & IONIC_TXQ_DESC_NSGE_MASK; *addr = (cmd >> IONIC_TXQ_DESC_ADDR_SHIFT) & IONIC_TXQ_DESC_ADDR_MASK; }; /** * struct ionic_txq_sg_elem - Transmit scatter-gather (SG) descriptor element * @addr: DMA address of SG element data buffer * @len: Length of SG element data buffer, in bytes * @rsvd: reserved byte(s) */ struct ionic_txq_sg_elem { __le64 addr; __le16 len; __le16 rsvd[3]; }; /** * struct ionic_txq_sg_desc - Transmit scatter-gather (SG) list * @elems: Scatter-gather elements */ struct ionic_txq_sg_desc { #define IONIC_TX_MAX_SG_ELEMS 8 #define IONIC_TX_SG_DESC_STRIDE 8 struct ionic_txq_sg_elem elems[IONIC_TX_MAX_SG_ELEMS]; }; struct ionic_txq_sg_desc_v1 { #define IONIC_TX_MAX_SG_ELEMS_V1 15 #define IONIC_TX_SG_DESC_STRIDE_V1 16 struct ionic_txq_sg_elem elems[IONIC_TX_SG_DESC_STRIDE_V1]; }; /** * struct ionic_txq_comp - Ethernet transmit queue completion descriptor * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) * @comp_index: Index in the descriptor ring for which this is the completion * @rsvd2: reserved byte(s) * @color: Color bit */ struct ionic_txq_comp { u8 status; u8 rsvd; __le16 comp_index; u8 rsvd2[11]; u8 color; }; enum ionic_rxq_desc_opcode { IONIC_RXQ_DESC_OPCODE_SIMPLE = 0, IONIC_RXQ_DESC_OPCODE_SG = 1, }; /** * struct ionic_rxq_desc - Ethernet Rx queue descriptor format * @opcode: Rx operation, see IONIC_RXQ_DESC_OPCODE_*: * * IONIC_RXQ_DESC_OPCODE_SIMPLE: * Receive full packet into data buffer * starting at @addr. Results of * receive, including actual bytes received, * are recorded in Rx completion descriptor. * * @rsvd: reserved byte(s) * @len: Data buffer's length, in bytes * @addr: Data buffer's DMA address */ struct ionic_rxq_desc { u8 opcode; u8 rsvd[5]; __le16 len; __le64 addr; }; /** * struct ionic_rxq_sg_elem - Receive scatter-gather (SG) descriptor element * @addr: DMA address of SG element data buffer * @len: Length of SG element data buffer, in bytes * @rsvd: reserved byte(s) */ struct ionic_rxq_sg_elem { __le64 addr; __le16 len; __le16 rsvd[3]; }; /** * struct ionic_rxq_sg_desc - Receive scatter-gather (SG) list * @elems: Scatter-gather elements */ struct ionic_rxq_sg_desc { #define IONIC_RX_MAX_SG_ELEMS 8 #define IONIC_RX_SG_DESC_STRIDE 8 struct ionic_rxq_sg_elem elems[IONIC_RX_SG_DESC_STRIDE]; }; /** * struct ionic_rxq_comp - Ethernet receive queue completion descriptor * @status: Status of the command (enum ionic_status_code) * @num_sg_elems: Number of SG elements used by this descriptor * @comp_index: Index in the descriptor ring for which this is the completion * @rss_hash: 32-bit RSS hash * @csum: 16-bit sum of the packet's L2 payload * If the packet's L2 payload is odd length, an extra * zero-value byte is included in the @csum calculation but * not included in @len. * @vlan_tci: VLAN tag stripped from the packet. Valid if @VLAN is * set. Includes .1p and .1q tags. * @len: Received packet length, in bytes. Excludes FCS. * @csum_calc L2 payload checksum is computed or not * @csum_flags: See IONIC_RXQ_COMP_CSUM_F_*: * * IONIC_RXQ_COMP_CSUM_F_TCP_OK: * The TCP checksum calculated by the device * matched the checksum in the receive packet's * TCP header. * * IONIC_RXQ_COMP_CSUM_F_TCP_BAD: * The TCP checksum calculated by the device did * not match the checksum in the receive packet's * TCP header. * * IONIC_RXQ_COMP_CSUM_F_UDP_OK: * The UDP checksum calculated by the device * matched the checksum in the receive packet's * UDP header * * IONIC_RXQ_COMP_CSUM_F_UDP_BAD: * The UDP checksum calculated by the device did * not match the checksum in the receive packet's * UDP header. * * IONIC_RXQ_COMP_CSUM_F_IP_OK: * The IPv4 checksum calculated by the device * matched the checksum in the receive packet's * first IPv4 header. If the receive packet * contains both a tunnel IPv4 header and a * transport IPv4 header, the device validates the * checksum for the both IPv4 headers. * * IONIC_RXQ_COMP_CSUM_F_IP_BAD: * The IPv4 checksum calculated by the device did * not match the checksum in the receive packet's * first IPv4 header. If the receive packet * contains both a tunnel IPv4 header and a * transport IPv4 header, the device validates the * checksum for both IP headers. * * IONIC_RXQ_COMP_CSUM_F_VLAN: * The VLAN header was stripped and placed in @vlan_tci. * * IONIC_RXQ_COMP_CSUM_F_CALC: * The checksum was calculated by the device. * * @pkt_type_color: Packet type and color bit; see IONIC_RXQ_COMP_PKT_TYPE_MASK */ struct ionic_rxq_comp { u8 status; u8 num_sg_elems; __le16 comp_index; __le32 rss_hash; __le16 csum; __le16 vlan_tci; __le16 len; u8 csum_flags; #define IONIC_RXQ_COMP_CSUM_F_TCP_OK 0x01 #define IONIC_RXQ_COMP_CSUM_F_TCP_BAD 0x02 #define IONIC_RXQ_COMP_CSUM_F_UDP_OK 0x04 #define IONIC_RXQ_COMP_CSUM_F_UDP_BAD 0x08 #define IONIC_RXQ_COMP_CSUM_F_IP_OK 0x10 #define IONIC_RXQ_COMP_CSUM_F_IP_BAD 0x20 #define IONIC_RXQ_COMP_CSUM_F_VLAN 0x40 #define IONIC_RXQ_COMP_CSUM_F_CALC 0x80 u8 pkt_type_color; #define IONIC_RXQ_COMP_PKT_TYPE_MASK 0x7f }; enum ionic_pkt_type { IONIC_PKT_TYPE_NON_IP = 0x00, IONIC_PKT_TYPE_IPV4 = 0x01, IONIC_PKT_TYPE_IPV4_TCP = 0x03, IONIC_PKT_TYPE_IPV4_UDP = 0x05, IONIC_PKT_TYPE_IPV6 = 0x08, IONIC_PKT_TYPE_IPV6_TCP = 0x18, IONIC_PKT_TYPE_IPV6_UDP = 0x28, /* below types are only used if encap offloads are enabled on lif */ IONIC_PKT_TYPE_ENCAP_NON_IP = 0x40, IONIC_PKT_TYPE_ENCAP_IPV4 = 0x41, IONIC_PKT_TYPE_ENCAP_IPV4_TCP = 0x43, IONIC_PKT_TYPE_ENCAP_IPV4_UDP = 0x45, IONIC_PKT_TYPE_ENCAP_IPV6 = 0x48, IONIC_PKT_TYPE_ENCAP_IPV6_TCP = 0x58, IONIC_PKT_TYPE_ENCAP_IPV6_UDP = 0x68, }; enum ionic_eth_hw_features { IONIC_ETH_HW_VLAN_TX_TAG = BIT(0), IONIC_ETH_HW_VLAN_RX_STRIP = BIT(1), IONIC_ETH_HW_VLAN_RX_FILTER = BIT(2), IONIC_ETH_HW_RX_HASH = BIT(3), IONIC_ETH_HW_RX_CSUM = BIT(4), IONIC_ETH_HW_TX_SG = BIT(5), IONIC_ETH_HW_RX_SG = BIT(6), IONIC_ETH_HW_TX_CSUM = BIT(7), IONIC_ETH_HW_TSO = BIT(8), IONIC_ETH_HW_TSO_IPV6 = BIT(9), IONIC_ETH_HW_TSO_ECN = BIT(10), IONIC_ETH_HW_TSO_GRE = BIT(11), IONIC_ETH_HW_TSO_GRE_CSUM = BIT(12), IONIC_ETH_HW_TSO_IPXIP4 = BIT(13), IONIC_ETH_HW_TSO_IPXIP6 = BIT(14), IONIC_ETH_HW_TSO_UDP = BIT(15), IONIC_ETH_HW_TSO_UDP_CSUM = BIT(16), IONIC_ETH_HW_RX_CSUM_GENEVE = BIT(17), IONIC_ETH_HW_TX_CSUM_GENEVE = BIT(18), IONIC_ETH_HW_TSO_GENEVE = BIT(19), IONIC_ETH_HW_TIMESTAMP = BIT(20), }; /** * enum ionic_pkt_class - Packet classification mask. * * Used with rx steering filter, packets indicated by the mask can be steered * toward a specific receive queue. * * @IONIC_PKT_CLS_NTP_ALL: All NTP packets. * @IONIC_PKT_CLS_PTP1_SYNC: PTPv1 sync * @IONIC_PKT_CLS_PTP1_DREQ: PTPv1 delay-request * @IONIC_PKT_CLS_PTP1_ALL: PTPv1 all packets * @IONIC_PKT_CLS_PTP2_L4_SYNC: PTPv2-UDP sync * @IONIC_PKT_CLS_PTP2_L4_DREQ: PTPv2-UDP delay-request * @IONIC_PKT_CLS_PTP2_L4_ALL: PTPv2-UDP all packets * @IONIC_PKT_CLS_PTP2_L2_SYNC: PTPv2-ETH sync * @IONIC_PKT_CLS_PTP2_L2_DREQ: PTPv2-ETH delay-request * @IONIC_PKT_CLS_PTP2_L2_ALL: PTPv2-ETH all packets * @IONIC_PKT_CLS_PTP2_SYNC: PTPv2 sync * @IONIC_PKT_CLS_PTP2_DREQ: PTPv2 delay-request * @IONIC_PKT_CLS_PTP2_ALL: PTPv2 all packets * @IONIC_PKT_CLS_PTP_SYNC: PTP sync * @IONIC_PKT_CLS_PTP_DREQ: PTP delay-request * @IONIC_PKT_CLS_PTP_ALL: PTP all packets */ enum ionic_pkt_class { IONIC_PKT_CLS_NTP_ALL = BIT(0), IONIC_PKT_CLS_PTP1_SYNC = BIT(1), IONIC_PKT_CLS_PTP1_DREQ = BIT(2), IONIC_PKT_CLS_PTP1_ALL = BIT(3) | IONIC_PKT_CLS_PTP1_SYNC | IONIC_PKT_CLS_PTP1_DREQ, IONIC_PKT_CLS_PTP2_L4_SYNC = BIT(4), IONIC_PKT_CLS_PTP2_L4_DREQ = BIT(5), IONIC_PKT_CLS_PTP2_L4_ALL = BIT(6) | IONIC_PKT_CLS_PTP2_L4_SYNC | IONIC_PKT_CLS_PTP2_L4_DREQ, IONIC_PKT_CLS_PTP2_L2_SYNC = BIT(7), IONIC_PKT_CLS_PTP2_L2_DREQ = BIT(8), IONIC_PKT_CLS_PTP2_L2_ALL = BIT(9) | IONIC_PKT_CLS_PTP2_L2_SYNC | IONIC_PKT_CLS_PTP2_L2_DREQ, IONIC_PKT_CLS_PTP2_SYNC = IONIC_PKT_CLS_PTP2_L4_SYNC | IONIC_PKT_CLS_PTP2_L2_SYNC, IONIC_PKT_CLS_PTP2_DREQ = IONIC_PKT_CLS_PTP2_L4_DREQ | IONIC_PKT_CLS_PTP2_L2_DREQ, IONIC_PKT_CLS_PTP2_ALL = IONIC_PKT_CLS_PTP2_L4_ALL | IONIC_PKT_CLS_PTP2_L2_ALL, IONIC_PKT_CLS_PTP_SYNC = IONIC_PKT_CLS_PTP1_SYNC | IONIC_PKT_CLS_PTP2_SYNC, IONIC_PKT_CLS_PTP_DREQ = IONIC_PKT_CLS_PTP1_DREQ | IONIC_PKT_CLS_PTP2_DREQ, IONIC_PKT_CLS_PTP_ALL = IONIC_PKT_CLS_PTP1_ALL | IONIC_PKT_CLS_PTP2_ALL, }; /** * struct ionic_q_control_cmd - Queue control command * @opcode: opcode * @type: Queue type * @lif_index: LIF index * @index: Queue index * @oper: Operation (enum ionic_q_control_oper) * @rsvd: reserved byte(s) */ struct ionic_q_control_cmd { u8 opcode; u8 type; __le16 lif_index; __le32 index; u8 oper; u8 rsvd[55]; }; typedef struct ionic_admin_comp ionic_q_control_comp; enum ionic_q_control_oper { IONIC_Q_DISABLE = 0, IONIC_Q_ENABLE = 1, IONIC_Q_HANG_RESET = 2, }; /** * enum ionic_phy_type - Physical connection type * @IONIC_PHY_TYPE_NONE: No PHY installed * @IONIC_PHY_TYPE_COPPER: Copper PHY * @IONIC_PHY_TYPE_FIBER: Fiber PHY */ enum ionic_phy_type { IONIC_PHY_TYPE_NONE = 0, IONIC_PHY_TYPE_COPPER = 1, IONIC_PHY_TYPE_FIBER = 2, }; /** * enum ionic_xcvr_state - Transceiver status * @IONIC_XCVR_STATE_REMOVED: Transceiver removed * @IONIC_XCVR_STATE_INSERTED: Transceiver inserted * @IONIC_XCVR_STATE_PENDING: Transceiver pending * @IONIC_XCVR_STATE_SPROM_READ: Transceiver data read * @IONIC_XCVR_STATE_SPROM_READ_ERR: Transceiver data read error */ enum ionic_xcvr_state { IONIC_XCVR_STATE_REMOVED = 0, IONIC_XCVR_STATE_INSERTED = 1, IONIC_XCVR_STATE_PENDING = 2, IONIC_XCVR_STATE_SPROM_READ = 3, IONIC_XCVR_STATE_SPROM_READ_ERR = 4, }; /* * enum ionic_xcvr_pid - Supported link modes */ enum ionic_xcvr_pid { IONIC_XCVR_PID_UNKNOWN = 0, /* CU */ IONIC_XCVR_PID_QSFP_100G_CR4 = 1, IONIC_XCVR_PID_QSFP_40GBASE_CR4 = 2, IONIC_XCVR_PID_SFP_25GBASE_CR_S = 3, IONIC_XCVR_PID_SFP_25GBASE_CR_L = 4, IONIC_XCVR_PID_SFP_25GBASE_CR_N = 5, /* Fiber */ IONIC_XCVR_PID_QSFP_100G_AOC = 50, IONIC_XCVR_PID_QSFP_100G_ACC = 51, IONIC_XCVR_PID_QSFP_100G_SR4 = 52, IONIC_XCVR_PID_QSFP_100G_LR4 = 53, IONIC_XCVR_PID_QSFP_100G_ER4 = 54, IONIC_XCVR_PID_QSFP_40GBASE_ER4 = 55, IONIC_XCVR_PID_QSFP_40GBASE_SR4 = 56, IONIC_XCVR_PID_QSFP_40GBASE_LR4 = 57, IONIC_XCVR_PID_QSFP_40GBASE_AOC = 58, IONIC_XCVR_PID_SFP_25GBASE_SR = 59, IONIC_XCVR_PID_SFP_25GBASE_LR = 60, IONIC_XCVR_PID_SFP_25GBASE_ER = 61, IONIC_XCVR_PID_SFP_25GBASE_AOC = 62, IONIC_XCVR_PID_SFP_10GBASE_SR = 63, IONIC_XCVR_PID_SFP_10GBASE_LR = 64, IONIC_XCVR_PID_SFP_10GBASE_LRM = 65, IONIC_XCVR_PID_SFP_10GBASE_ER = 66, IONIC_XCVR_PID_SFP_10GBASE_AOC = 67, IONIC_XCVR_PID_SFP_10GBASE_CU = 68, IONIC_XCVR_PID_QSFP_100G_CWDM4 = 69, IONIC_XCVR_PID_QSFP_100G_PSM4 = 70, IONIC_XCVR_PID_SFP_25GBASE_ACC = 71, IONIC_XCVR_PID_SFP_10GBASE_T = 72, IONIC_XCVR_PID_SFP_1000BASE_T = 73, }; /** * enum ionic_port_type - Port types * @IONIC_PORT_TYPE_NONE: Port type not configured * @IONIC_PORT_TYPE_ETH: Port carries ethernet traffic (inband) * @IONIC_PORT_TYPE_MGMT: Port carries mgmt traffic (out-of-band) */ enum ionic_port_type { IONIC_PORT_TYPE_NONE = 0, IONIC_PORT_TYPE_ETH = 1, IONIC_PORT_TYPE_MGMT = 2, }; /** * enum ionic_port_admin_state - Port config state * @IONIC_PORT_ADMIN_STATE_NONE: Port admin state not configured * @IONIC_PORT_ADMIN_STATE_DOWN: Port admin disabled * @IONIC_PORT_ADMIN_STATE_UP: Port admin enabled */ enum ionic_port_admin_state { IONIC_PORT_ADMIN_STATE_NONE = 0, IONIC_PORT_ADMIN_STATE_DOWN = 1, IONIC_PORT_ADMIN_STATE_UP = 2, }; /** * enum ionic_port_oper_status - Port operational status * @IONIC_PORT_OPER_STATUS_NONE: Port disabled * @IONIC_PORT_OPER_STATUS_UP: Port link status up * @IONIC_PORT_OPER_STATUS_DOWN: Port link status down */ enum ionic_port_oper_status { IONIC_PORT_OPER_STATUS_NONE = 0, IONIC_PORT_OPER_STATUS_UP = 1, IONIC_PORT_OPER_STATUS_DOWN = 2, }; /** * enum ionic_port_fec_type - Ethernet Forward error correction (FEC) modes * @IONIC_PORT_FEC_TYPE_NONE: FEC Disabled * @IONIC_PORT_FEC_TYPE_FC: FireCode FEC * @IONIC_PORT_FEC_TYPE_RS: ReedSolomon FEC */ enum ionic_port_fec_type { IONIC_PORT_FEC_TYPE_NONE = 0, IONIC_PORT_FEC_TYPE_FC = 1, IONIC_PORT_FEC_TYPE_RS = 2, }; /** * enum ionic_port_pause_type - Ethernet pause (flow control) modes * @IONIC_PORT_PAUSE_TYPE_NONE: Disable Pause * @IONIC_PORT_PAUSE_TYPE_LINK: Link level pause * @IONIC_PORT_PAUSE_TYPE_PFC: Priority-Flow Control */ enum ionic_port_pause_type { IONIC_PORT_PAUSE_TYPE_NONE = 0, IONIC_PORT_PAUSE_TYPE_LINK = 1, IONIC_PORT_PAUSE_TYPE_PFC = 2, }; /** * enum ionic_port_loopback_mode - Loopback modes * @IONIC_PORT_LOOPBACK_MODE_NONE: Disable loopback * @IONIC_PORT_LOOPBACK_MODE_MAC: MAC loopback * @IONIC_PORT_LOOPBACK_MODE_PHY: PHY/SerDes loopback */ enum ionic_port_loopback_mode { IONIC_PORT_LOOPBACK_MODE_NONE = 0, IONIC_PORT_LOOPBACK_MODE_MAC = 1, IONIC_PORT_LOOPBACK_MODE_PHY = 2, }; /** * struct ionic_xcvr_status - Transceiver Status information * @state: Transceiver status (enum ionic_xcvr_state) * @phy: Physical connection type (enum ionic_phy_type) * @pid: Transceiver link mode (enum ionic_xcvr_pid) * @sprom: Transceiver sprom contents */ struct ionic_xcvr_status { u8 state; u8 phy; __le16 pid; u8 sprom[256]; }; /** * union ionic_port_config - Port configuration * @speed: port speed (in Mbps) * @mtu: mtu * @state: port admin state (enum ionic_port_admin_state) * @an_enable: autoneg enable * @fec_type: fec type (enum ionic_port_fec_type) * @pause_type: pause type (enum ionic_port_pause_type) * @loopback_mode: loopback mode (enum ionic_port_loopback_mode) * @words: word access to struct contents */ union ionic_port_config { struct { #define IONIC_SPEED_100G 100000 /* 100G in Mbps */ #define IONIC_SPEED_50G 50000 /* 50G in Mbps */ #define IONIC_SPEED_40G 40000 /* 40G in Mbps */ #define IONIC_SPEED_25G 25000 /* 25G in Mbps */ #define IONIC_SPEED_10G 10000 /* 10G in Mbps */ #define IONIC_SPEED_1G 1000 /* 1G in Mbps */ __le32 speed; __le32 mtu; u8 state; u8 an_enable; u8 fec_type; #define IONIC_PAUSE_TYPE_MASK 0x0f #define IONIC_PAUSE_FLAGS_MASK 0xf0 #define IONIC_PAUSE_F_TX 0x10 #define IONIC_PAUSE_F_RX 0x20 u8 pause_type; u8 loopback_mode; }; __le32 words[64]; }; /** * struct ionic_port_status - Port Status information * @status: link status (enum ionic_port_oper_status) * @id: port id * @speed: link speed (in Mbps) * @link_down_count: number of times link went from up to down * @fec_type: fec type (enum ionic_port_fec_type) * @rsvd: reserved byte(s) * @xcvr: transceiver status */ struct ionic_port_status { __le32 id; __le32 speed; u8 status; __le16 link_down_count; u8 fec_type; u8 rsvd[48]; struct ionic_xcvr_status xcvr; } __packed; /** * struct ionic_port_identify_cmd - Port identify command * @opcode: opcode * @index: port index * @ver: Highest version of identify supported by driver * @rsvd: reserved byte(s) */ struct ionic_port_identify_cmd { u8 opcode; u8 index; u8 ver; u8 rsvd[61]; }; /** * struct ionic_port_identify_comp - Port identify command completion * @status: Status of the command (enum ionic_status_code) * @ver: Version of identify returned by device * @rsvd: reserved byte(s) */ struct ionic_port_identify_comp { u8 status; u8 ver; u8 rsvd[14]; }; /** * struct ionic_port_init_cmd - Port initialization command * @opcode: opcode * @index: port index * @rsvd: reserved byte(s) * @info_pa: destination address for port info (struct ionic_port_info) * @rsvd2: reserved byte(s) */ struct ionic_port_init_cmd { u8 opcode; u8 index; u8 rsvd[6]; __le64 info_pa; u8 rsvd2[48]; }; /** * struct ionic_port_init_comp - Port initialization command completion * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) */ struct ionic_port_init_comp { u8 status; u8 rsvd[15]; }; /** * struct ionic_port_reset_cmd - Port reset command * @opcode: opcode * @index: port index * @rsvd: reserved byte(s) */ struct ionic_port_reset_cmd { u8 opcode; u8 index; u8 rsvd[62]; }; /** * struct ionic_port_reset_comp - Port reset command completion * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) */ struct ionic_port_reset_comp { u8 status; u8 rsvd[15]; }; /** * enum ionic_stats_ctl_cmd - List of commands for stats control * @IONIC_STATS_CTL_RESET: Reset statistics */ enum ionic_stats_ctl_cmd { IONIC_STATS_CTL_RESET = 0, }; /** * enum ionic_txstamp_mode - List of TX Timestamping Modes * @IONIC_TXSTAMP_OFF: Disable TX hardware timetamping. * @IONIC_TXSTAMP_ON: Enable local TX hardware timetamping. * @IONIC_TXSTAMP_ONESTEP_SYNC: Modify TX PTP Sync packets. * @IONIC_TXSTAMP_ONESTEP_P2P: Modify TX PTP Sync and PDelayResp. */ enum ionic_txstamp_mode { IONIC_TXSTAMP_OFF = 0, IONIC_TXSTAMP_ON = 1, IONIC_TXSTAMP_ONESTEP_SYNC = 2, IONIC_TXSTAMP_ONESTEP_P2P = 3, }; /** * enum ionic_port_attr - List of device attributes * @IONIC_PORT_ATTR_STATE: Port state attribute * @IONIC_PORT_ATTR_SPEED: Port speed attribute * @IONIC_PORT_ATTR_MTU: Port MTU attribute * @IONIC_PORT_ATTR_AUTONEG: Port autonegotiation attribute * @IONIC_PORT_ATTR_FEC: Port FEC attribute * @IONIC_PORT_ATTR_PAUSE: Port pause attribute * @IONIC_PORT_ATTR_LOOPBACK: Port loopback attribute * @IONIC_PORT_ATTR_STATS_CTRL: Port statistics control attribute */ enum ionic_port_attr { IONIC_PORT_ATTR_STATE = 0, IONIC_PORT_ATTR_SPEED = 1, IONIC_PORT_ATTR_MTU = 2, IONIC_PORT_ATTR_AUTONEG = 3, IONIC_PORT_ATTR_FEC = 4, IONIC_PORT_ATTR_PAUSE = 5, IONIC_PORT_ATTR_LOOPBACK = 6, IONIC_PORT_ATTR_STATS_CTRL = 7, }; /** * struct ionic_port_setattr_cmd - Set port attributes on the NIC * @opcode: Opcode * @index: Port index * @attr: Attribute type (enum ionic_port_attr) * @rsvd: reserved byte(s) * @state: Port state * @speed: Port speed * @mtu: Port MTU * @an_enable: Port autonegotiation setting * @fec_type: Port FEC type setting * @pause_type: Port pause type setting * @loopback_mode: Port loopback mode * @stats_ctl: Port stats setting * @rsvd2: reserved byte(s) */ struct ionic_port_setattr_cmd { u8 opcode; u8 index; u8 attr; u8 rsvd; union { u8 state; __le32 speed; __le32 mtu; u8 an_enable; u8 fec_type; u8 pause_type; u8 loopback_mode; u8 stats_ctl; u8 rsvd2[60]; }; }; /** * struct ionic_port_setattr_comp - Port set attr command completion * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) * @color: Color bit */ struct ionic_port_setattr_comp { u8 status; u8 rsvd[14]; u8 color; }; /** * struct ionic_port_getattr_cmd - Get port attributes from the NIC * @opcode: Opcode * @index: port index * @attr: Attribute type (enum ionic_port_attr) * @rsvd: reserved byte(s) */ struct ionic_port_getattr_cmd { u8 opcode; u8 index; u8 attr; u8 rsvd[61]; }; /** * struct ionic_port_getattr_comp - Port get attr command completion * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) * @state: Port state * @speed: Port speed * @mtu: Port MTU * @an_enable: Port autonegotiation setting * @fec_type: Port FEC type setting * @pause_type: Port pause type setting * @loopback_mode: Port loopback mode * @rsvd2: reserved byte(s) * @color: Color bit */ struct ionic_port_getattr_comp { u8 status; u8 rsvd[3]; union { u8 state; __le32 speed; __le32 mtu; u8 an_enable; u8 fec_type; u8 pause_type; u8 loopback_mode; u8 rsvd2[11]; } __packed; u8 color; }; /** * struct ionic_lif_status - LIF status register * @eid: most recent NotifyQ event id * @port_num: port the LIF is connected to * @rsvd: reserved byte(s) * @link_status: port status (enum ionic_port_oper_status) * @link_speed: speed of link in Mbps * @link_down_count: number of times link went from up to down * @rsvd2: reserved byte(s) */ struct ionic_lif_status { __le64 eid; u8 port_num; u8 rsvd; __le16 link_status; __le32 link_speed; /* units of 1Mbps: eg 10000 = 10Gbps */ __le16 link_down_count; u8 rsvd2[46]; }; /** * struct ionic_lif_reset_cmd - LIF reset command * @opcode: opcode * @rsvd: reserved byte(s) * @index: LIF index * @rsvd2: reserved byte(s) */ struct ionic_lif_reset_cmd { u8 opcode; u8 rsvd; __le16 index; __le32 rsvd2[15]; }; typedef struct ionic_admin_comp ionic_lif_reset_comp; enum ionic_dev_state { IONIC_DEV_DISABLE = 0, IONIC_DEV_ENABLE = 1, IONIC_DEV_HANG_RESET = 2, }; /** * enum ionic_dev_attr - List of device attributes * @IONIC_DEV_ATTR_STATE: Device state attribute * @IONIC_DEV_ATTR_NAME: Device name attribute * @IONIC_DEV_ATTR_FEATURES: Device feature attributes */ enum ionic_dev_attr { IONIC_DEV_ATTR_STATE = 0, IONIC_DEV_ATTR_NAME = 1, IONIC_DEV_ATTR_FEATURES = 2, }; /** * struct ionic_dev_setattr_cmd - Set Device attributes on the NIC * @opcode: Opcode * @attr: Attribute type (enum ionic_dev_attr) * @rsvd: reserved byte(s) * @state: Device state (enum ionic_dev_state) * @name: The bus info, e.g. PCI slot-device-function, 0 terminated * @features: Device features * @rsvd2: reserved byte(s) */ struct ionic_dev_setattr_cmd { u8 opcode; u8 attr; __le16 rsvd; union { u8 state; char name[IONIC_IFNAMSIZ]; __le64 features; u8 rsvd2[60]; } __packed; }; /** * struct ionic_dev_setattr_comp - Device set attr command completion * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) * @features: Device features * @rsvd2: reserved byte(s) * @color: Color bit */ struct ionic_dev_setattr_comp { u8 status; u8 rsvd[3]; union { __le64 features; u8 rsvd2[11]; } __packed; u8 color; }; /** * struct ionic_dev_getattr_cmd - Get Device attributes from the NIC * @opcode: opcode * @attr: Attribute type (enum ionic_dev_attr) * @rsvd: reserved byte(s) */ struct ionic_dev_getattr_cmd { u8 opcode; u8 attr; u8 rsvd[62]; }; /** * struct ionic_dev_getattr_comp - Device set attr command completion * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) * @features: Device features * @rsvd2: reserved byte(s) * @color: Color bit */ struct ionic_dev_getattr_comp { u8 status; u8 rsvd[3]; union { __le64 features; u8 rsvd2[11]; } __packed; u8 color; }; /* * RSS parameters */ #define IONIC_RSS_HASH_KEY_SIZE 40 enum ionic_rss_hash_types { IONIC_RSS_TYPE_IPV4 = BIT(0), IONIC_RSS_TYPE_IPV4_TCP = BIT(1), IONIC_RSS_TYPE_IPV4_UDP = BIT(2), IONIC_RSS_TYPE_IPV6 = BIT(3), IONIC_RSS_TYPE_IPV6_TCP = BIT(4), IONIC_RSS_TYPE_IPV6_UDP = BIT(5), }; /** * enum ionic_lif_attr - List of LIF attributes * @IONIC_LIF_ATTR_STATE: LIF state attribute * @IONIC_LIF_ATTR_NAME: LIF name attribute * @IONIC_LIF_ATTR_MTU: LIF MTU attribute * @IONIC_LIF_ATTR_MAC: LIF MAC attribute * @IONIC_LIF_ATTR_FEATURES: LIF features attribute * @IONIC_LIF_ATTR_RSS: LIF RSS attribute * @IONIC_LIF_ATTR_STATS_CTRL: LIF statistics control attribute * @IONIC_LIF_ATTR_TXSTAMP: LIF TX timestamping mode * @IONIC_LIF_ATTR_MAX: maximum attribute value */ enum ionic_lif_attr { IONIC_LIF_ATTR_STATE = 0, IONIC_LIF_ATTR_NAME = 1, IONIC_LIF_ATTR_MTU = 2, IONIC_LIF_ATTR_MAC = 3, IONIC_LIF_ATTR_FEATURES = 4, IONIC_LIF_ATTR_RSS = 5, IONIC_LIF_ATTR_STATS_CTRL = 6, IONIC_LIF_ATTR_TXSTAMP = 7, IONIC_LIF_ATTR_MAX = 255, }; /** * struct ionic_lif_setattr_cmd - Set LIF attributes on the NIC * @opcode: Opcode * @attr: Attribute type (enum ionic_lif_attr) * @index: LIF index * @state: LIF state (enum ionic_lif_state) * @name: The netdev name string, 0 terminated * @mtu: Mtu * @mac: Station mac * @features: Features (enum ionic_eth_hw_features) * @rss: RSS properties * @rss.types: The hash types to enable (see rss_hash_types) * @rss.key: The hash secret key * @rss.rsvd: reserved byte(s) * @rss.addr: Address for the indirection table shared memory * @stats_ctl: stats control commands (enum ionic_stats_ctl_cmd) * @txstamp_mode: TX Timestamping Mode (enum ionic_txstamp_mode) * @rsvd: reserved byte(s) */ struct ionic_lif_setattr_cmd { u8 opcode; u8 attr; __le16 index; union { u8 state; char name[IONIC_IFNAMSIZ]; __le32 mtu; u8 mac[6]; __le64 features; struct { __le16 types; u8 key[IONIC_RSS_HASH_KEY_SIZE]; u8 rsvd[6]; __le64 addr; } rss; u8 stats_ctl; __le16 txstamp_mode; u8 rsvd[60]; } __packed; }; /** * struct ionic_lif_setattr_comp - LIF set attr command completion * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) * @comp_index: Index in the descriptor ring for which this is the completion * @features: features (enum ionic_eth_hw_features) * @rsvd2: reserved byte(s) * @color: Color bit */ struct ionic_lif_setattr_comp { u8 status; u8 rsvd; __le16 comp_index; union { __le64 features; u8 rsvd2[11]; } __packed; u8 color; }; /** * struct ionic_lif_getattr_cmd - Get LIF attributes from the NIC * @opcode: Opcode * @attr: Attribute type (enum ionic_lif_attr) * @index: LIF index * @rsvd: reserved byte(s) */ struct ionic_lif_getattr_cmd { u8 opcode; u8 attr; __le16 index; u8 rsvd[60]; }; /** * struct ionic_lif_getattr_comp - LIF get attr command completion * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) * @comp_index: Index in the descriptor ring for which this is the completion * @state: LIF state (enum ionic_lif_state) * @mtu: Mtu * @mac: Station mac * @features: Features (enum ionic_eth_hw_features) * @txstamp_mode: TX Timestamping Mode (enum ionic_txstamp_mode) * @rsvd2: reserved byte(s) * @color: Color bit */ struct ionic_lif_getattr_comp { u8 status; u8 rsvd; __le16 comp_index; union { u8 state; __le32 mtu; u8 mac[6]; __le64 features; __le16 txstamp_mode; u8 rsvd2[11]; } __packed; u8 color; }; /** * struct ionic_lif_setphc_cmd - Set LIF PTP Hardware Clock * @opcode: Opcode * @rsvd1: reserved byte(s) * @lif_index: LIF index * @rsvd2: reserved byte(s) * @tick: Hardware stamp tick of an instant in time. * @nsec: Nanosecond stamp of the same instant. * @frac: Fractional nanoseconds at the same instant. * @mult: Cycle to nanosecond multiplier. * @shift: Cycle to nanosecond divisor (power of two). * @rsvd3: reserved byte(s) */ struct ionic_lif_setphc_cmd { u8 opcode; u8 rsvd1; __le16 lif_index; u8 rsvd2[4]; __le64 tick; __le64 nsec; __le64 frac; __le32 mult; __le32 shift; u8 rsvd3[24]; }; enum ionic_rx_mode { IONIC_RX_MODE_F_UNICAST = BIT(0), IONIC_RX_MODE_F_MULTICAST = BIT(1), IONIC_RX_MODE_F_BROADCAST = BIT(2), IONIC_RX_MODE_F_PROMISC = BIT(3), IONIC_RX_MODE_F_ALLMULTI = BIT(4), IONIC_RX_MODE_F_RDMA_SNIFFER = BIT(5), }; /** * struct ionic_rx_mode_set_cmd - Set LIF's Rx mode command * @opcode: opcode * @rsvd: reserved byte(s) * @lif_index: LIF index * @rx_mode: Rx mode flags: * IONIC_RX_MODE_F_UNICAST: Accept known unicast packets * IONIC_RX_MODE_F_MULTICAST: Accept known multicast packets * IONIC_RX_MODE_F_BROADCAST: Accept broadcast packets * IONIC_RX_MODE_F_PROMISC: Accept any packets * IONIC_RX_MODE_F_ALLMULTI: Accept any multicast packets * IONIC_RX_MODE_F_RDMA_SNIFFER: Sniff RDMA packets * @rsvd2: reserved byte(s) */ struct ionic_rx_mode_set_cmd { u8 opcode; u8 rsvd; __le16 lif_index; __le16 rx_mode; __le16 rsvd2[29]; }; typedef struct ionic_admin_comp ionic_rx_mode_set_comp; enum ionic_rx_filter_match_type { IONIC_RX_FILTER_MATCH_VLAN = 0x0, IONIC_RX_FILTER_MATCH_MAC = 0x1, IONIC_RX_FILTER_MATCH_MAC_VLAN = 0x2, IONIC_RX_FILTER_STEER_PKTCLASS = 0x10, }; /** * struct ionic_rx_filter_add_cmd - Add LIF Rx filter command * @opcode: opcode * @qtype: Queue type * @lif_index: LIF index * @qid: Queue ID * @match: Rx filter match type (see IONIC_RX_FILTER_MATCH_xxx) * @vlan: VLAN filter * @vlan.vlan: VLAN ID * @mac: MAC filter * @mac.addr: MAC address (network-byte order) * @mac_vlan: MACVLAN filter * @mac_vlan.vlan: VLAN ID * @mac_vlan.addr: MAC address (network-byte order) * @pkt_class: Packet classification filter * @rsvd: reserved byte(s) */ struct ionic_rx_filter_add_cmd { u8 opcode; u8 qtype; __le16 lif_index; __le32 qid; __le16 match; union { struct { __le16 vlan; } vlan; struct { u8 addr[6]; } mac; struct { __le16 vlan; u8 addr[6]; } mac_vlan; __le64 pkt_class; u8 rsvd[54]; } __packed; }; /** * struct ionic_rx_filter_add_comp - Add LIF Rx filter command completion * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) * @comp_index: Index in the descriptor ring for which this is the completion * @filter_id: Filter ID * @rsvd2: reserved byte(s) * @color: Color bit */ struct ionic_rx_filter_add_comp { u8 status; u8 rsvd; __le16 comp_index; __le32 filter_id; u8 rsvd2[7]; u8 color; }; /** * struct ionic_rx_filter_del_cmd - Delete LIF Rx filter command * @opcode: opcode * @rsvd: reserved byte(s) * @lif_index: LIF index * @filter_id: Filter ID * @rsvd2: reserved byte(s) */ struct ionic_rx_filter_del_cmd { u8 opcode; u8 rsvd; __le16 lif_index; __le32 filter_id; u8 rsvd2[56]; }; typedef struct ionic_admin_comp ionic_rx_filter_del_comp; enum ionic_vf_attr { IONIC_VF_ATTR_SPOOFCHK = 1, IONIC_VF_ATTR_TRUST = 2, IONIC_VF_ATTR_MAC = 3, IONIC_VF_ATTR_LINKSTATE = 4, IONIC_VF_ATTR_VLAN = 5, IONIC_VF_ATTR_RATE = 6, IONIC_VF_ATTR_STATSADDR = 7, }; /** * enum ionic_vf_link_status - Virtual Function link status * @IONIC_VF_LINK_STATUS_AUTO: Use link state of the uplink * @IONIC_VF_LINK_STATUS_UP: Link always up * @IONIC_VF_LINK_STATUS_DOWN: Link always down */ enum ionic_vf_link_status { IONIC_VF_LINK_STATUS_AUTO = 0, IONIC_VF_LINK_STATUS_UP = 1, IONIC_VF_LINK_STATUS_DOWN = 2, }; /** * struct ionic_vf_setattr_cmd - Set VF attributes on the NIC * @opcode: Opcode * @attr: Attribute type (enum ionic_vf_attr) * @vf_index: VF index * @macaddr: mac address * @vlanid: vlan ID * @maxrate: max Tx rate in Mbps * @spoofchk: enable address spoof checking * @trust: enable VF trust * @linkstate: set link up or down * @stats_pa: set DMA address for VF stats * @pad: reserved byte(s) */ struct ionic_vf_setattr_cmd { u8 opcode; u8 attr; __le16 vf_index; union { u8 macaddr[6]; __le16 vlanid; __le32 maxrate; u8 spoofchk; u8 trust; u8 linkstate; __le64 stats_pa; u8 pad[60]; } __packed; }; struct ionic_vf_setattr_comp { u8 status; u8 attr; __le16 vf_index; __le16 comp_index; u8 rsvd[9]; u8 color; }; /** * struct ionic_vf_getattr_cmd - Get VF attributes from the NIC * @opcode: Opcode * @attr: Attribute type (enum ionic_vf_attr) * @vf_index: VF index * @rsvd: reserved byte(s) */ struct ionic_vf_getattr_cmd { u8 opcode; u8 attr; __le16 vf_index; u8 rsvd[60]; }; struct ionic_vf_getattr_comp { u8 status; u8 attr; __le16 vf_index; union { u8 macaddr[6]; __le16 vlanid; __le32 maxrate; u8 spoofchk; u8 trust; u8 linkstate; __le64 stats_pa; u8 pad[11]; } __packed; u8 color; }; enum ionic_vf_ctrl_opcode { IONIC_VF_CTRL_START_ALL = 0, IONIC_VF_CTRL_START = 1, }; /** * struct ionic_vf_ctrl_cmd - VF control command * @opcode: Opcode for the command * @ctrl_opcode: VF control operation type * @vf_index: VF Index. It is unused if op START_ALL is used. */ struct ionic_vf_ctrl_cmd { u8 opcode; u8 ctrl_opcode; __le16 vf_index; /* private: */ u8 rsvd1[60]; }; /** * struct ionic_vf_ctrl_comp - VF_CTRL command completion. * @status: Status of the command (enum ionic_status_code) */ struct ionic_vf_ctrl_comp { u8 status; /* private: */ u8 rsvd[15]; }; /** * struct ionic_qos_identify_cmd - QoS identify command * @opcode: opcode * @ver: Highest version of identify supported by driver * @rsvd: reserved byte(s) */ struct ionic_qos_identify_cmd { u8 opcode; u8 ver; u8 rsvd[62]; }; /** * struct ionic_qos_identify_comp - QoS identify command completion * @status: Status of the command (enum ionic_status_code) * @ver: Version of identify returned by device * @rsvd: reserved byte(s) */ struct ionic_qos_identify_comp { u8 status; u8 ver; u8 rsvd[14]; }; #define IONIC_QOS_TC_MAX 8 #define IONIC_QOS_ALL_TC 0xFF /* Capri max supported, should be renamed. */ #define IONIC_QOS_CLASS_MAX 7 #define IONIC_QOS_PCP_MAX 8 #define IONIC_QOS_CLASS_NAME_SZ 32 #define IONIC_QOS_DSCP_MAX 64 #define IONIC_QOS_ALL_PCP 0xFF #define IONIC_DSCP_BLOCK_SIZE 8 /* * enum ionic_qos_class */ enum ionic_qos_class { IONIC_QOS_CLASS_DEFAULT = 0, IONIC_QOS_CLASS_USER_DEFINED_1 = 1, IONIC_QOS_CLASS_USER_DEFINED_2 = 2, IONIC_QOS_CLASS_USER_DEFINED_3 = 3, IONIC_QOS_CLASS_USER_DEFINED_4 = 4, IONIC_QOS_CLASS_USER_DEFINED_5 = 5, IONIC_QOS_CLASS_USER_DEFINED_6 = 6, }; /** * enum ionic_qos_class_type - Traffic classification criteria * @IONIC_QOS_CLASS_TYPE_NONE: No QoS * @IONIC_QOS_CLASS_TYPE_PCP: Dot1Q PCP * @IONIC_QOS_CLASS_TYPE_DSCP: IP DSCP */ enum ionic_qos_class_type { IONIC_QOS_CLASS_TYPE_NONE = 0, IONIC_QOS_CLASS_TYPE_PCP = 1, IONIC_QOS_CLASS_TYPE_DSCP = 2, }; /** * enum ionic_qos_sched_type - QoS class scheduling type * @IONIC_QOS_SCHED_TYPE_STRICT: Strict priority * @IONIC_QOS_SCHED_TYPE_DWRR: Deficit weighted round-robin */ enum ionic_qos_sched_type { IONIC_QOS_SCHED_TYPE_STRICT = 0, IONIC_QOS_SCHED_TYPE_DWRR = 1, }; /** * union ionic_qos_config - QoS configuration structure * @flags: Configuration flags * IONIC_QOS_CONFIG_F_ENABLE enable * IONIC_QOS_CONFIG_F_NO_DROP drop/nodrop * IONIC_QOS_CONFIG_F_RW_DOT1Q_PCP enable dot1q pcp rewrite * IONIC_QOS_CONFIG_F_RW_IP_DSCP enable ip dscp rewrite * IONIC_QOS_CONFIG_F_NON_DISRUPTIVE Non-disruptive TC update * @sched_type: QoS class scheduling type (enum ionic_qos_sched_type) * @class_type: QoS class type (enum ionic_qos_class_type) * @pause_type: QoS pause type (enum ionic_qos_pause_type) * @name: QoS class name * @mtu: MTU of the class * @pfc_cos: Priority-Flow Control class of service * @dwrr_weight: QoS class scheduling weight * @strict_rlmt: Rate limit for strict priority scheduling * @rw_dot1q_pcp: Rewrite dot1q pcp to value (valid iff F_RW_DOT1Q_PCP) * @rw_ip_dscp: Rewrite ip dscp to value (valid iff F_RW_IP_DSCP) * @dot1q_pcp: Dot1q pcp value * @ndscp: Number of valid dscp values in the ip_dscp field * @ip_dscp: IP dscp values * @words: word access to struct contents */ union ionic_qos_config { struct { #define IONIC_QOS_CONFIG_F_ENABLE BIT(0) #define IONIC_QOS_CONFIG_F_NO_DROP BIT(1) /* Used to rewrite PCP or DSCP value. */ #define IONIC_QOS_CONFIG_F_RW_DOT1Q_PCP BIT(2) #define IONIC_QOS_CONFIG_F_RW_IP_DSCP BIT(3) /* Non-disruptive TC update */ #define IONIC_QOS_CONFIG_F_NON_DISRUPTIVE BIT(4) u8 flags; u8 sched_type; u8 class_type; u8 pause_type; char name[IONIC_QOS_CLASS_NAME_SZ]; __le32 mtu; /* flow control */ u8 pfc_cos; /* scheduler */ union { u8 dwrr_weight; __le64 strict_rlmt; }; /* marking */ /* Used to rewrite PCP or DSCP value. */ union { u8 rw_dot1q_pcp; u8 rw_ip_dscp; }; /* classification */ union { u8 dot1q_pcp; struct { u8 ndscp; u8 ip_dscp[IONIC_QOS_DSCP_MAX]; }; }; }; __le32 words[64]; }; /** * union ionic_qos_identity - QoS identity structure * @version: Version of the identify structure * @type: QoS system type * @rsvd: reserved byte(s) * @config: Current configuration of classes * @words: word access to struct contents */ union ionic_qos_identity { struct { u8 version; u8 type; u8 rsvd[62]; union ionic_qos_config config[IONIC_QOS_CLASS_MAX]; }; __le32 words[478]; }; /** * struct ionic_qos_init_cmd - QoS config init command * @opcode: Opcode * @group: QoS class id * @rsvd: reserved byte(s) * @info_pa: destination address for qos info * @rsvd1: reserved byte(s) */ struct ionic_qos_init_cmd { u8 opcode; u8 group; u8 rsvd[6]; __le64 info_pa; u8 rsvd1[48]; }; typedef struct ionic_admin_comp ionic_qos_init_comp; /** * struct ionic_qos_reset_cmd - QoS config reset command * @opcode: Opcode * @group: QoS class id * @rsvd: reserved byte(s) */ struct ionic_qos_reset_cmd { u8 opcode; u8 group; u8 rsvd[62]; }; /** * struct ionic_qos_clear_stats_cmd - Qos config reset command * @opcode: Opcode * @group_bitmap: bitmap of groups to be cleared * @rsvd: reserved byte(s) */ struct ionic_qos_clear_stats_cmd { u8 opcode; u8 group_bitmap; u8 rsvd[62]; }; typedef struct ionic_admin_comp ionic_qos_reset_comp; /** * struct ionic_fw_download_cmd - Firmware download command * @opcode: opcode * @rsvd: reserved byte(s) * @addr: dma address of the firmware buffer * @offset: offset of the firmware buffer within the full image * @length: number of valid bytes in the firmware buffer */ struct ionic_fw_download_cmd { u8 opcode; u8 rsvd[3]; __le32 offset; __le64 addr; __le32 length; }; typedef struct ionic_admin_comp ionic_fw_download_comp; /** * enum ionic_fw_control_oper - FW control operations * @IONIC_FW_RESET: Reset firmware * @IONIC_FW_INSTALL: Install firmware * @IONIC_FW_ACTIVATE: Activate firmware * @IONIC_FW_INSTALL_ASYNC: Install firmware asynchronously * @IONIC_FW_INSTALL_STATUS: Firmware installation status * @IONIC_FW_ACTIVATE_ASYNC: Activate firmware asynchronously * @IONIC_FW_ACTIVATE_STATUS: Firmware activate status * @IONIC_FW_UPDATE_CLEANUP: Clean up after an interrupted fw update */ enum ionic_fw_control_oper { IONIC_FW_RESET = 0, IONIC_FW_INSTALL = 1, IONIC_FW_ACTIVATE = 2, IONIC_FW_INSTALL_ASYNC = 3, IONIC_FW_INSTALL_STATUS = 4, IONIC_FW_ACTIVATE_ASYNC = 5, IONIC_FW_ACTIVATE_STATUS = 6, IONIC_FW_UPDATE_CLEANUP = 7, }; /** * struct ionic_fw_control_cmd - Firmware control command * @opcode: opcode * @rsvd: reserved byte(s) * @oper: firmware control operation (enum ionic_fw_control_oper) * @slot: slot to activate * @rsvd1: reserved byte(s) */ struct ionic_fw_control_cmd { u8 opcode; u8 rsvd[3]; u8 oper; u8 slot; u8 rsvd1[58]; }; /** * struct ionic_fw_control_comp - Firmware control copletion * @status: Status of the command (enum ionic_status_code) * @rsvd: reserved byte(s) * @comp_index: Index in the descriptor ring for which this is the completion * @slot: Slot where the firmware was installed * @rsvd1: reserved byte(s) * @color: Color bit */ struct ionic_fw_control_comp { u8 status; u8 rsvd; __le16 comp_index; u8 slot; u8 rsvd1[10]; u8 color; }; /****************************************************************** ******************* RDMA Commands ******************************** ******************************************************************/ /** * struct ionic_rdma_reset_cmd - Reset RDMA LIF cmd * @opcode: opcode * @rsvd: reserved byte(s) * @lif_index: LIF index * @rsvd2: reserved byte(s) * * There is no RDMA specific dev command completion struct. Completion uses * the common struct ionic_admin_comp. Only the status is indicated. * Nonzero status means the LIF does not support RDMA. **/ struct ionic_rdma_reset_cmd { u8 opcode; u8 rsvd; __le16 lif_index; u8 rsvd2[60]; }; /** * struct ionic_rdma_queue_cmd - Create RDMA Queue command * @opcode: opcode, 52, 53 * @rsvd: reserved byte(s) * @lif_index: LIF index * @qid_ver: (qid | (RDMA version << 24)) * @cid: intr, eq_id, or cq_id * @dbid: doorbell page id * @depth_log2: log base two of queue depth * @stride_log2: log base two of queue stride * @dma_addr: address of the queue memory * @rsvd2: reserved byte(s) * * The same command struct is used to create an RDMA event queue, completion * queue, or RDMA admin queue. The cid is an interrupt number for an event * queue, an event queue id for a completion queue, or a completion queue id * for an RDMA admin queue. * * The queue created via a dev command must be contiguous in dma space. * * The dev commands are intended only to be used during driver initialization, * to create queues supporting the RDMA admin queue. Other queues, and other * types of RDMA resources like memory regions, will be created and registered * via the RDMA admin queue, and will support a more complete interface * providing scatter gather lists for larger, scattered queue buffers and * memory registration. * * There is no RDMA specific dev command completion struct. Completion uses * the common struct ionic_admin_comp. Only the status is indicated. **/ struct ionic_rdma_queue_cmd { u8 opcode; u8 rsvd; __le16 lif_index; __le32 qid_ver; __le32 cid; __le16 dbid; u8 depth_log2; u8 stride_log2; __le64 dma_addr; u8 rsvd2[40]; }; /****************************************************************** ******************* Notify Events ******************************** ******************************************************************/ /** * struct ionic_notifyq_event - Generic event reporting structure * @eid: event number * @ecode: event code * @data: unspecified data about the event * * This is the generic event report struct from which the other * actual events will be formed. */ struct ionic_notifyq_event { __le64 eid; __le16 ecode; u8 data[54]; }; /** * struct ionic_link_change_event - Link change event notification * @eid: event number * @ecode: event code = IONIC_EVENT_LINK_CHANGE * @link_status: link up/down, with error bits (enum ionic_port_status) * @link_speed: speed of the network link * @rsvd: reserved byte(s) * * Sent when the network link state changes between UP and DOWN */ struct ionic_link_change_event { __le64 eid; __le16 ecode; __le16 link_status; __le32 link_speed; /* units of 1Mbps: e.g. 10000 = 10Gbps */ u8 rsvd[48]; }; /** * struct ionic_reset_event - Reset event notification * @eid: event number * @ecode: event code = IONIC_EVENT_RESET * @reset_code: reset type * @state: 0=pending, 1=complete, 2=error * @rsvd: reserved byte(s) * * Sent when the NIC or some subsystem is going to be or * has been reset. */ struct ionic_reset_event { __le64 eid; __le16 ecode; u8 reset_code; u8 state; u8 rsvd[52]; }; /** * struct ionic_heartbeat_event - Sent periodically by NIC to indicate health * @eid: event number * @ecode: event code = IONIC_EVENT_HEARTBEAT * @rsvd: reserved byte(s) */ struct ionic_heartbeat_event { __le64 eid; __le16 ecode; u8 rsvd[54]; }; /** * struct ionic_log_event - Sent to notify the driver of an internal error * @eid: event number * @ecode: event code = IONIC_EVENT_LOG * @data: log data */ struct ionic_log_event { __le64 eid; __le16 ecode; u8 data[54]; }; /** * struct ionic_xcvr_event - Transceiver change event * @eid: event number * @ecode: event code = IONIC_EVENT_XCVR * @rsvd: reserved byte(s) */ struct ionic_xcvr_event { __le64 eid; __le16 ecode; u8 rsvd[54]; }; /* * struct ionic_port_stats - Port statistics structure */ struct ionic_port_stats { __le64 frames_rx_ok; __le64 frames_rx_all; __le64 frames_rx_bad_fcs; __le64 frames_rx_bad_all; __le64 octets_rx_ok; __le64 octets_rx_all; __le64 frames_rx_unicast; __le64 frames_rx_multicast; __le64 frames_rx_broadcast; __le64 frames_rx_pause; __le64 frames_rx_bad_length; __le64 frames_rx_undersized; __le64 frames_rx_oversized; __le64 frames_rx_fragments; __le64 frames_rx_jabber; __le64 frames_rx_pripause; __le64 frames_rx_stomped_crc; __le64 frames_rx_too_long; __le64 frames_rx_vlan_good; __le64 frames_rx_dropped; __le64 frames_rx_less_than_64b; __le64 frames_rx_64b; __le64 frames_rx_65b_127b; __le64 frames_rx_128b_255b; __le64 frames_rx_256b_511b; __le64 frames_rx_512b_1023b; __le64 frames_rx_1024b_1518b; __le64 frames_rx_1519b_2047b; __le64 frames_rx_2048b_4095b; __le64 frames_rx_4096b_8191b; __le64 frames_rx_8192b_9215b; __le64 frames_rx_other; __le64 frames_tx_ok; __le64 frames_tx_all; __le64 frames_tx_bad; __le64 octets_tx_ok; __le64 octets_tx_total; __le64 frames_tx_unicast; __le64 frames_tx_multicast; __le64 frames_tx_broadcast; __le64 frames_tx_pause; __le64 frames_tx_pripause; __le64 frames_tx_vlan; __le64 frames_tx_less_than_64b; __le64 frames_tx_64b; __le64 frames_tx_65b_127b; __le64 frames_tx_128b_255b; __le64 frames_tx_256b_511b; __le64 frames_tx_512b_1023b; __le64 frames_tx_1024b_1518b; __le64 frames_tx_1519b_2047b; __le64 frames_tx_2048b_4095b; __le64 frames_tx_4096b_8191b; __le64 frames_tx_8192b_9215b; __le64 frames_tx_other; __le64 frames_tx_pri_0; __le64 frames_tx_pri_1; __le64 frames_tx_pri_2; __le64 frames_tx_pri_3; __le64 frames_tx_pri_4; __le64 frames_tx_pri_5; __le64 frames_tx_pri_6; __le64 frames_tx_pri_7; __le64 frames_rx_pri_0; __le64 frames_rx_pri_1; __le64 frames_rx_pri_2; __le64 frames_rx_pri_3; __le64 frames_rx_pri_4; __le64 frames_rx_pri_5; __le64 frames_rx_pri_6; __le64 frames_rx_pri_7; __le64 tx_pripause_0_1us_count; __le64 tx_pripause_1_1us_count; __le64 tx_pripause_2_1us_count; __le64 tx_pripause_3_1us_count; __le64 tx_pripause_4_1us_count; __le64 tx_pripause_5_1us_count; __le64 tx_pripause_6_1us_count; __le64 tx_pripause_7_1us_count; __le64 rx_pripause_0_1us_count; __le64 rx_pripause_1_1us_count; __le64 rx_pripause_2_1us_count; __le64 rx_pripause_3_1us_count; __le64 rx_pripause_4_1us_count; __le64 rx_pripause_5_1us_count; __le64 rx_pripause_6_1us_count; __le64 rx_pripause_7_1us_count; __le64 rx_pause_1us_count; __le64 frames_tx_truncated; }; struct ionic_mgmt_port_stats { __le64 frames_rx_ok; __le64 frames_rx_all; __le64 frames_rx_bad_fcs; __le64 frames_rx_bad_all; __le64 octets_rx_ok; __le64 octets_rx_all; __le64 frames_rx_unicast; __le64 frames_rx_multicast; __le64 frames_rx_broadcast; __le64 frames_rx_pause; __le64 frames_rx_bad_length; __le64 frames_rx_undersized; __le64 frames_rx_oversized; __le64 frames_rx_fragments; __le64 frames_rx_jabber; __le64 frames_rx_64b; __le64 frames_rx_65b_127b; __le64 frames_rx_128b_255b; __le64 frames_rx_256b_511b; __le64 frames_rx_512b_1023b; __le64 frames_rx_1024b_1518b; __le64 frames_rx_gt_1518b; __le64 frames_rx_fifo_full; __le64 frames_tx_ok; __le64 frames_tx_all; __le64 frames_tx_bad; __le64 octets_tx_ok; __le64 octets_tx_total; __le64 frames_tx_unicast; __le64 frames_tx_multicast; __le64 frames_tx_broadcast; __le64 frames_tx_pause; }; enum ionic_pb_buffer_drop_stats { IONIC_BUFFER_INTRINSIC_DROP = 0, IONIC_BUFFER_DISCARDED, IONIC_BUFFER_ADMITTED, IONIC_BUFFER_OUT_OF_CELLS_DROP, IONIC_BUFFER_OUT_OF_CELLS_DROP_2, IONIC_BUFFER_OUT_OF_CREDIT_DROP, IONIC_BUFFER_TRUNCATION_DROP, IONIC_BUFFER_PORT_DISABLED_DROP, IONIC_BUFFER_COPY_TO_CPU_TAIL_DROP, IONIC_BUFFER_SPAN_TAIL_DROP, IONIC_BUFFER_MIN_SIZE_VIOLATION_DROP, IONIC_BUFFER_ENQUEUE_ERROR_DROP, IONIC_BUFFER_INVALID_PORT_DROP, IONIC_BUFFER_INVALID_OUTPUT_QUEUE_DROP, IONIC_BUFFER_DROP_MAX, }; enum ionic_oflow_drop_stats { IONIC_OFLOW_OCCUPANCY_DROP, IONIC_OFLOW_EMERGENCY_STOP_DROP, IONIC_OFLOW_WRITE_BUFFER_ACK_FILL_UP_DROP, IONIC_OFLOW_WRITE_BUFFER_ACK_FULL_DROP, IONIC_OFLOW_WRITE_BUFFER_FULL_DROP, IONIC_OFLOW_CONTROL_FIFO_FULL_DROP, IONIC_OFLOW_DROP_MAX, }; /* struct ionic_port_pb_stats - packet buffers system stats * uses ionic_pb_buffer_drop_stats for drop_counts[] */ struct ionic_port_pb_stats { __le64 sop_count_in; __le64 eop_count_in; __le64 sop_count_out; __le64 eop_count_out; __le64 drop_counts[IONIC_BUFFER_DROP_MAX]; __le64 input_queue_buffer_occupancy[IONIC_QOS_TC_MAX]; __le64 input_queue_port_monitor[IONIC_QOS_TC_MAX]; __le64 output_queue_port_monitor[IONIC_QOS_TC_MAX]; __le64 oflow_drop_counts[IONIC_OFLOW_DROP_MAX]; __le64 input_queue_good_pkts_in[IONIC_QOS_TC_MAX]; __le64 input_queue_good_pkts_out[IONIC_QOS_TC_MAX]; __le64 input_queue_err_pkts_in[IONIC_QOS_TC_MAX]; __le64 input_queue_fifo_depth[IONIC_QOS_TC_MAX]; __le64 input_queue_max_fifo_depth[IONIC_QOS_TC_MAX]; __le64 input_queue_peak_occupancy[IONIC_QOS_TC_MAX]; __le64 output_queue_buffer_occupancy[IONIC_QOS_TC_MAX]; }; /** * struct ionic_port_identity - port identity structure * @version: identity structure version * @type: type of port (enum ionic_port_type) * @num_lanes: number of lanes for the port * @autoneg: autoneg supported * @min_frame_size: minimum frame size supported * @max_frame_size: maximum frame size supported * @fec_type: supported fec types * @pause_type: supported pause types * @loopback_mode: supported loopback mode * @speeds: supported speeds * @rsvd2: reserved byte(s) * @config: current port configuration * @words: word access to struct contents */ union ionic_port_identity { struct { u8 version; u8 type; u8 num_lanes; u8 autoneg; __le32 min_frame_size; __le32 max_frame_size; u8 fec_type[4]; u8 pause_type[2]; u8 loopback_mode[2]; __le32 speeds[16]; u8 rsvd2[44]; union ionic_port_config config; }; __le32 words[478]; }; /** * struct ionic_port_info - port info structure * @config: Port configuration data * @status: Port status data * @stats: Port statistics data * @mgmt_stats: Port management statistics data * @rsvd: reserved byte(s) * @pb_stats: uplink pb drop stats */ struct ionic_port_info { union ionic_port_config config; struct ionic_port_status status; union { struct ionic_port_stats stats; struct ionic_mgmt_port_stats mgmt_stats; }; /* room for pb_stats to start at 2k offset */ u8 rsvd[760]; struct ionic_port_pb_stats pb_stats; }; /* * struct ionic_lif_stats - LIF statistics structure */ struct ionic_lif_stats { /* RX */ __le64 rx_ucast_bytes; __le64 rx_ucast_packets; __le64 rx_mcast_bytes; __le64 rx_mcast_packets; __le64 rx_bcast_bytes; __le64 rx_bcast_packets; __le64 rsvd0; __le64 rsvd1; /* RX drops */ __le64 rx_ucast_drop_bytes; __le64 rx_ucast_drop_packets; __le64 rx_mcast_drop_bytes; __le64 rx_mcast_drop_packets; __le64 rx_bcast_drop_bytes; __le64 rx_bcast_drop_packets; __le64 rx_dma_error; __le64 rsvd2; /* TX */ __le64 tx_ucast_bytes; __le64 tx_ucast_packets; __le64 tx_mcast_bytes; __le64 tx_mcast_packets; __le64 tx_bcast_bytes; __le64 tx_bcast_packets; __le64 rsvd3; __le64 rsvd4; /* TX drops */ __le64 tx_ucast_drop_bytes; __le64 tx_ucast_drop_packets; __le64 tx_mcast_drop_bytes; __le64 tx_mcast_drop_packets; __le64 tx_bcast_drop_bytes; __le64 tx_bcast_drop_packets; __le64 tx_dma_error; __le64 rsvd5; /* Rx Queue/Ring drops */ __le64 rx_queue_disabled; __le64 rx_queue_empty; __le64 rx_queue_error; __le64 rx_desc_fetch_error; __le64 rx_desc_data_error; __le64 rsvd6; __le64 rsvd7; __le64 rsvd8; /* Tx Queue/Ring drops */ __le64 tx_queue_disabled; __le64 tx_queue_error; __le64 tx_desc_fetch_error; __le64 tx_desc_data_error; __le64 tx_queue_empty; __le64 rsvd10; __le64 rsvd11; __le64 rsvd12; /* RDMA/ROCE TX */ __le64 tx_rdma_ucast_bytes; __le64 tx_rdma_ucast_packets; __le64 tx_rdma_mcast_bytes; __le64 tx_rdma_mcast_packets; __le64 tx_rdma_cnp_packets; __le64 rsvd13; __le64 rsvd14; __le64 rsvd15; /* RDMA/ROCE RX */ __le64 rx_rdma_ucast_bytes; __le64 rx_rdma_ucast_packets; __le64 rx_rdma_mcast_bytes; __le64 rx_rdma_mcast_packets; __le64 rx_rdma_cnp_packets; __le64 rx_rdma_ecn_packets; __le64 rsvd16; __le64 rsvd17; __le64 rsvd18; __le64 rsvd19; __le64 rsvd20; __le64 rsvd21; __le64 rsvd22; __le64 rsvd23; __le64 rsvd24; __le64 rsvd25; __le64 rsvd26; __le64 rsvd27; __le64 rsvd28; __le64 rsvd29; __le64 rsvd30; __le64 rsvd31; __le64 rsvd32; __le64 rsvd33; __le64 rsvd34; __le64 rsvd35; __le64 rsvd36; __le64 rsvd37; __le64 rsvd38; __le64 rsvd39; __le64 rsvd40; __le64 rsvd41; __le64 rsvd42; __le64 rsvd43; __le64 rsvd44; __le64 rsvd45; __le64 rsvd46; __le64 rsvd47; __le64 rsvd48; __le64 rsvd49; /* RDMA/ROCE REQ Error/Debugs (768 - 895) */ __le64 rdma_req_rx_pkt_seq_err; __le64 rdma_req_rx_rnr_retry_err; __le64 rdma_req_rx_remote_access_err; __le64 rdma_req_rx_remote_inv_req_err; __le64 rdma_req_rx_remote_oper_err; __le64 rdma_req_rx_implied_nak_seq_err; __le64 rdma_req_rx_cqe_err; __le64 rdma_req_rx_cqe_flush_err; __le64 rdma_req_rx_dup_responses; __le64 rdma_req_rx_invalid_packets; __le64 rdma_req_tx_local_access_err; __le64 rdma_req_tx_local_oper_err; __le64 rdma_req_tx_memory_mgmt_err; __le64 rsvd52; __le64 rsvd53; __le64 rsvd54; /* RDMA/ROCE RESP Error/Debugs (896 - 1023) */ __le64 rdma_resp_rx_dup_requests; __le64 rdma_resp_rx_out_of_buffer; __le64 rdma_resp_rx_out_of_seq_pkts; __le64 rdma_resp_rx_cqe_err; __le64 rdma_resp_rx_cqe_flush_err; __le64 rdma_resp_rx_local_len_err; __le64 rdma_resp_rx_inv_request_err; __le64 rdma_resp_rx_local_qp_oper_err; __le64 rdma_resp_rx_out_of_atomic_resource; __le64 rdma_resp_tx_pkt_seq_err; __le64 rdma_resp_tx_remote_inv_req_err; __le64 rdma_resp_tx_remote_access_err; __le64 rdma_resp_tx_remote_oper_err; __le64 rdma_resp_tx_rnr_retry_err; __le64 rsvd57; __le64 rsvd58; }; /** * struct ionic_lif_info - LIF info structure * @config: LIF configuration structure * @status: LIF status structure * @stats: LIF statistics structure */ struct ionic_lif_info { union ionic_lif_config config; struct ionic_lif_status status; struct ionic_lif_stats stats; }; union ionic_dev_cmd { u32 words[16]; struct ionic_admin_cmd cmd; struct ionic_nop_cmd nop; struct ionic_dev_identify_cmd identify; struct ionic_dev_init_cmd init; struct ionic_dev_reset_cmd reset; struct ionic_dev_getattr_cmd getattr; struct ionic_dev_setattr_cmd setattr; struct ionic_port_identify_cmd port_identify; struct ionic_port_init_cmd port_init; struct ionic_port_reset_cmd port_reset; struct ionic_port_getattr_cmd port_getattr; struct ionic_port_setattr_cmd port_setattr; struct ionic_vf_setattr_cmd vf_setattr; struct ionic_vf_getattr_cmd vf_getattr; struct ionic_vf_ctrl_cmd vf_ctrl; struct ionic_lif_identify_cmd lif_identify; struct ionic_lif_init_cmd lif_init; struct ionic_lif_reset_cmd lif_reset; struct ionic_qos_identify_cmd qos_identify; struct ionic_qos_init_cmd qos_init; struct ionic_qos_reset_cmd qos_reset; struct ionic_qos_clear_stats_cmd qos_clear_stats; struct ionic_q_identify_cmd q_identify; struct ionic_q_init_cmd q_init; struct ionic_q_control_cmd q_control; struct ionic_fw_download_cmd fw_download; struct ionic_fw_control_cmd fw_control; }; union ionic_dev_cmd_comp { u32 words[4]; u8 status; struct ionic_admin_comp comp; struct ionic_nop_comp nop; struct ionic_dev_identify_comp identify; struct ionic_dev_init_comp init; struct ionic_dev_reset_comp reset; struct ionic_dev_getattr_comp getattr; struct ionic_dev_setattr_comp setattr; struct ionic_port_identify_comp port_identify; struct ionic_port_init_comp port_init; struct ionic_port_reset_comp port_reset; struct ionic_port_getattr_comp port_getattr; struct ionic_port_setattr_comp port_setattr; struct ionic_vf_setattr_comp vf_setattr; struct ionic_vf_getattr_comp vf_getattr; struct ionic_vf_ctrl_comp vf_ctrl; struct ionic_lif_identify_comp lif_identify; struct ionic_lif_init_comp lif_init; ionic_lif_reset_comp lif_reset; struct ionic_qos_identify_comp qos_identify; ionic_qos_init_comp qos_init; ionic_qos_reset_comp qos_reset; struct ionic_q_identify_comp q_identify; struct ionic_q_init_comp q_init; ionic_fw_download_comp fw_download; struct ionic_fw_control_comp fw_control; }; /** * struct ionic_hwstamp_regs - Hardware current timestamp registers * @tick_low: Low 32 bits of hardware timestamp * @tick_high: High 32 bits of hardware timestamp */ struct ionic_hwstamp_regs { u32 tick_low; u32 tick_high; }; /** * union ionic_dev_info_regs - Device info register format (read-only) * @signature: Signature value of 0x44455649 ('DEVI') * @version: Current version of info * @asic_type: Asic type * @asic_rev: Asic revision * @fw_status: Firmware status * bit 0 - 1 = fw running * bit 4-7 - 4 bit generation number, changes on fw restart * @fw_heartbeat: Firmware heartbeat counter * @serial_num: Serial number * @rsvd_pad1024: reserved byte(s) * @fw_version: Firmware version * @hwstamp: Hardware current timestamp registers * @words: word access to struct contents */ union ionic_dev_info_regs { #define IONIC_DEVINFO_FWVERS_BUFLEN 32 #define IONIC_DEVINFO_SERIAL_BUFLEN 32 struct { u32 signature; u8 version; u8 asic_type; u8 asic_rev; #define IONIC_FW_STS_F_RUNNING 0x01 #define IONIC_FW_STS_F_GENERATION 0xF0 u8 fw_status; u32 fw_heartbeat; char fw_version[IONIC_DEVINFO_FWVERS_BUFLEN]; char serial_num[IONIC_DEVINFO_SERIAL_BUFLEN]; u8 rsvd_pad1024[948]; struct ionic_hwstamp_regs hwstamp; }; u32 words[512]; }; /** * union ionic_dev_cmd_regs - Device command register format (read-write) * @doorbell: Device Cmd Doorbell, write-only * Write a 1 to signal device to process cmd, * poll done for completion. * @done: Done indicator, bit 0 == 1 when command is complete * @cmd: Opcode-specific command bytes * @comp: Opcode-specific response bytes * @rsvd: reserved byte(s) * @data: Opcode-specific side-data * @words: word access to struct contents */ union ionic_dev_cmd_regs { struct { u32 doorbell; u32 done; union ionic_dev_cmd cmd; union ionic_dev_cmd_comp comp; u8 rsvd[48]; u32 data[478]; } __packed; u32 words[512]; }; /** * union ionic_dev_regs - Device register format for bar 0 page 0 * @info: Device info registers * @devcmd: Device command registers * @words: word access to struct contents */ union ionic_dev_regs { struct { union ionic_dev_info_regs info; union ionic_dev_cmd_regs devcmd; } __packed; __le32 words[1024]; }; union ionic_adminq_cmd { struct ionic_admin_cmd cmd; struct ionic_nop_cmd nop; struct ionic_q_identify_cmd q_identify; struct ionic_q_init_cmd q_init; struct ionic_q_control_cmd q_control; struct ionic_lif_setattr_cmd lif_setattr; struct ionic_lif_getattr_cmd lif_getattr; struct ionic_lif_setphc_cmd lif_setphc; struct ionic_rx_mode_set_cmd rx_mode_set; struct ionic_rx_filter_add_cmd rx_filter_add; struct ionic_rx_filter_del_cmd rx_filter_del; struct ionic_rdma_reset_cmd rdma_reset; struct ionic_rdma_queue_cmd rdma_queue; struct ionic_fw_download_cmd fw_download; struct ionic_fw_control_cmd fw_control; }; union ionic_adminq_comp { struct ionic_admin_comp comp; struct ionic_nop_comp nop; struct ionic_q_identify_comp q_identify; struct ionic_q_init_comp q_init; struct ionic_lif_setattr_comp lif_setattr; struct ionic_lif_getattr_comp lif_getattr; struct ionic_admin_comp lif_setphc; struct ionic_rx_filter_add_comp rx_filter_add; struct ionic_fw_control_comp fw_control; }; #define IONIC_BARS_MAX 6 #define IONIC_PCI_BAR_DBELL 1 #define IONIC_PCI_BAR_CMB 2 #define IONIC_BAR0_SIZE 0x8000 #define IONIC_BAR2_SIZE 0x800000 #define IONIC_BAR0_DEV_INFO_REGS_OFFSET 0x0000 #define IONIC_BAR0_DEV_CMD_REGS_OFFSET 0x0800 #define IONIC_BAR0_DEV_CMD_DATA_REGS_OFFSET 0x0c00 #define IONIC_BAR0_INTR_STATUS_OFFSET 0x1000 #define IONIC_BAR0_INTR_CTRL_OFFSET 0x2000 #define IONIC_DEV_CMD_DONE 0x00000001 #define IONIC_ASIC_TYPE_CAPRI 0 /** * struct ionic_doorbell - Doorbell register layout * @p_index: Producer index * @ring: Selects the specific ring of the queue to update * Type-specific meaning: * ring=0: Default producer/consumer queue * ring=1: (CQ, EQ) Re-Arm queue. RDMA CQs * send events to EQs when armed. EQs send * interrupts when armed. * @qid_lo: Queue destination for the producer index and flags (low bits) * @qid_hi: Queue destination for the producer index and flags (high bits) * @rsvd2: reserved byte(s) */ struct ionic_doorbell { __le16 p_index; u8 ring; u8 qid_lo; __le16 qid_hi; u16 rsvd2; }; struct ionic_intr_status { u32 status[2]; }; struct ionic_notifyq_cmd { __le32 data; /* Not used but needed for qcq structure */ }; union ionic_notifyq_comp { struct ionic_notifyq_event event; struct ionic_link_change_event link_change; struct ionic_reset_event reset; struct ionic_heartbeat_event heartbeat; struct ionic_log_event log; }; /* Deprecate */ struct ionic_identity { union ionic_drv_identity drv; union ionic_dev_identity dev; union ionic_lif_identity lif; union ionic_port_identity port; union ionic_qos_identity qos; union ionic_q_identity txq; }; #endif /* _IONIC_IF_H_ */ |