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/**************************************************************************

Copyright (c) 2007-2009 Chelsio Inc.
All rights reserved.

Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are met:

 1. Redistributions of source code must retain the above copyright notice,
    this list of conditions and the following disclaimer.

 2. Neither the name of the Chelsio Corporation nor the names of its
    contributors may be used to endorse or promote products derived from
    this software without specific prior written permission.

THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
POSSIBILITY OF SUCH DAMAGE.

$FreeBSD: release/9.1.0/sys/dev/cxgb/common/cxgb_t3_cpl.h 194521 2009-06-19 23:34:32Z kmacy $

***************************************************************************/
#ifndef T3_CPL_H
#define T3_CPL_H

enum CPL_opcode {
	CPL_PASS_OPEN_REQ     = 0x1,
	CPL_PASS_ACCEPT_RPL   = 0x2,
	CPL_ACT_OPEN_REQ      = 0x3,
	CPL_SET_TCB           = 0x4,
	CPL_SET_TCB_FIELD     = 0x5,
	CPL_GET_TCB           = 0x6,
	CPL_PCMD              = 0x7,
	CPL_CLOSE_CON_REQ     = 0x8,
	CPL_CLOSE_LISTSRV_REQ = 0x9,
	CPL_ABORT_REQ         = 0xA,
	CPL_ABORT_RPL         = 0xB,
	CPL_TX_DATA           = 0xC,
	CPL_RX_DATA_ACK       = 0xD,
	CPL_TX_PKT            = 0xE,
	CPL_RTE_DELETE_REQ    = 0xF,
	CPL_RTE_WRITE_REQ     = 0x10,
	CPL_RTE_READ_REQ      = 0x11,
	CPL_L2T_WRITE_REQ     = 0x12,
	CPL_L2T_READ_REQ      = 0x13,
	CPL_SMT_WRITE_REQ     = 0x14,
	CPL_SMT_READ_REQ      = 0x15,
	CPL_TX_PKT_LSO        = 0x16,
	CPL_PCMD_READ         = 0x17,
	CPL_BARRIER           = 0x18,
	CPL_TID_RELEASE       = 0x1A,

	CPL_CLOSE_LISTSRV_RPL = 0x20,
	CPL_ERROR             = 0x21,
	CPL_GET_TCB_RPL       = 0x22,
	CPL_L2T_WRITE_RPL     = 0x23,
	CPL_PCMD_READ_RPL     = 0x24,
	CPL_PCMD_RPL          = 0x25,
	CPL_PEER_CLOSE        = 0x26,
	CPL_RTE_DELETE_RPL    = 0x27,
	CPL_RTE_WRITE_RPL     = 0x28,
	CPL_RX_DDP_COMPLETE   = 0x29,
	CPL_RX_PHYS_ADDR      = 0x2A,
	CPL_RX_PKT            = 0x2B,
	CPL_RX_URG_NOTIFY     = 0x2C,
	CPL_SET_TCB_RPL       = 0x2D,
	CPL_SMT_WRITE_RPL     = 0x2E,
	CPL_TX_DATA_ACK       = 0x2F,

	CPL_ABORT_REQ_RSS     = 0x30,
	CPL_ABORT_RPL_RSS     = 0x31,
	CPL_CLOSE_CON_RPL     = 0x32,
	CPL_ISCSI_HDR         = 0x33,
	CPL_L2T_READ_RPL      = 0x34,
	CPL_RDMA_CQE          = 0x35,
	CPL_RDMA_CQE_READ_RSP = 0x36,
	CPL_RDMA_CQE_ERR      = 0x37,
	CPL_RTE_READ_RPL      = 0x38,
	CPL_RX_DATA           = 0x39,

	CPL_ACT_OPEN_RPL      = 0x40,
	CPL_PASS_OPEN_RPL     = 0x41,
	CPL_RX_DATA_DDP       = 0x42,
	CPL_SMT_READ_RPL      = 0x43,

	CPL_ACT_ESTABLISH     = 0x50,
	CPL_PASS_ESTABLISH    = 0x51,

	CPL_PASS_ACCEPT_REQ   = 0x70,

	CPL_ASYNC_NOTIF       = 0x80, /* fake opcode for async notifications */

	CPL_TX_DMA_ACK        = 0xA0,
	CPL_RDMA_READ_REQ     = 0xA1,
	CPL_RDMA_TERMINATE    = 0xA2,
	CPL_TRACE_PKT         = 0xA3,
	CPL_RDMA_EC_STATUS    = 0xA5,
	CPL_SGE_EC_CR_RETURN  = 0xA6,

	NUM_CPL_CMDS    /* must be last and previous entries must be sorted */
};

enum CPL_error {
	CPL_ERR_NONE               = 0,
	CPL_ERR_TCAM_PARITY        = 1,
	CPL_ERR_TCAM_FULL          = 3,
	CPL_ERR_CONN_RESET         = 20,
	CPL_ERR_CONN_EXIST         = 22,
	CPL_ERR_ARP_MISS           = 23,
	CPL_ERR_BAD_SYN            = 24,
	CPL_ERR_CONN_TIMEDOUT      = 30,
	CPL_ERR_XMIT_TIMEDOUT      = 31,
	CPL_ERR_PERSIST_TIMEDOUT   = 32,
	CPL_ERR_FINWAIT2_TIMEDOUT  = 33,
	CPL_ERR_KEEPALIVE_TIMEDOUT = 34,
	CPL_ERR_RTX_NEG_ADVICE     = 35,
	CPL_ERR_PERSIST_NEG_ADVICE = 36,
	CPL_ERR_ABORT_FAILED       = 42,
	CPL_ERR_GENERAL            = 99
};

enum {
	CPL_CONN_POLICY_AUTO = 0,
	CPL_CONN_POLICY_ASK  = 1,
	CPL_CONN_POLICY_FILTER = 2,
	CPL_CONN_POLICY_DENY = 3
};

enum {
	ULP_MODE_NONE          = 0,
	ULP_MODE_TCP_DDP       = 1,
	ULP_MODE_ISCSI         = 2,
	ULP_MODE_RDMA          = 4,
	ULP_MODE_TCPDDP        = 5
};

enum {
	ULP_CRC_HEADER = 1 << 0,
	ULP_CRC_DATA   = 1 << 1
};

enum {
	CPL_PASS_OPEN_ACCEPT,
	CPL_PASS_OPEN_REJECT,
	CPL_PASS_OPEN_ACCEPT_TNL
};

enum {
	CPL_ABORT_SEND_RST = 0,
	CPL_ABORT_NO_RST,
	CPL_ABORT_POST_CLOSE_REQ = 2
};

enum {                     /* TX_PKT_LSO ethernet types */
	CPL_ETH_II,
	CPL_ETH_II_VLAN,
	CPL_ETH_802_3,
	CPL_ETH_802_3_VLAN
};

enum {                     /* TCP congestion control algorithms */
	CONG_ALG_RENO,
	CONG_ALG_TAHOE,
	CONG_ALG_NEWRENO,
	CONG_ALG_HIGHSPEED
};

enum {                     /* RSS hash type */
	RSS_HASH_NONE = 0,
	RSS_HASH_2_TUPLE = 1,
	RSS_HASH_4_TUPLE = 2,
	RSS_HASH_TCPV6 = 3
};

union opcode_tid {
	__be32 opcode_tid;
	__u8 opcode;
};

#define S_OPCODE 24
#define V_OPCODE(x) ((x) << S_OPCODE)
#define G_OPCODE(x) (((x) >> S_OPCODE) & 0xFF)
#define G_TID(x)    ((x) & 0xFFFFFF)

/* tid is assumed to be 24-bits */
#define MK_OPCODE_TID(opcode, tid) (V_OPCODE(opcode) | (tid))

#define OPCODE_TID(cmd) ((cmd)->ot.opcode_tid)

/* extract the TID from a CPL command */
#define GET_TID(cmd) (G_TID(ntohl(OPCODE_TID(cmd))))

struct tcp_options {
	__be16 mss;
	__u8 wsf;
#if defined(__LITTLE_ENDIAN_BITFIELD)
	__u8 :5;
	__u8 ecn:1;
	__u8 sack:1;
	__u8 tstamp:1;
#else
	__u8 tstamp:1;
	__u8 sack:1;
	__u8 ecn:1;
	__u8 :5;
#endif
};

struct rss_header {
	__u8 opcode;
#if defined(__LITTLE_ENDIAN_BITFIELD)
	__u8 cpu_idx:6;
	__u8 hash_type:2;
#else
	__u8 hash_type:2;
	__u8 cpu_idx:6;
#endif
	__be16 cq_idx;
	__be32 rss_hash_val;
};

#define S_HASHTYPE 22
#define M_HASHTYPE 0x3
#define G_HASHTYPE(x) (((x) >> S_HASHTYPE) & M_HASHTYPE)

#define S_QNUM 0
#define M_QNUM 0xFFFF
#define G_QNUM(x) (((x) >> S_QNUM) & M_QNUM)

#ifndef CHELSIO_FW
struct work_request_hdr {
	union {
		struct {
			__be32 wr_hi;
			__be32 wr_lo;
		} ilp32;
		struct {
			__be64 wr_hilo;
		} lp64;
	} u;
};

#define	wrh_hi		u.ilp32.wr_hi
#define	wrh_lo		u.ilp32.wr_lo
#define	wrh_hilo	u.lp64.wr_hilo

/* wr_hi fields */
#define S_WR_SGE_CREDITS    0
#define M_WR_SGE_CREDITS    0xFF
#define V_WR_SGE_CREDITS(x) ((x) << S_WR_SGE_CREDITS)
#define G_WR_SGE_CREDITS(x) (((x) >> S_WR_SGE_CREDITS) & M_WR_SGE_CREDITS)

#define S_WR_SGLSFLT    8
#define M_WR_SGLSFLT    0xFF
#define V_WR_SGLSFLT(x) ((x) << S_WR_SGLSFLT)
#define G_WR_SGLSFLT(x) (((x) >> S_WR_SGLSFLT) & M_WR_SGLSFLT)

#define S_WR_BCNTLFLT    16
#define M_WR_BCNTLFLT    0xF
#define V_WR_BCNTLFLT(x) ((x) << S_WR_BCNTLFLT)
#define G_WR_BCNTLFLT(x) (((x) >> S_WR_BCNTLFLT) & M_WR_BCNTLFLT)

/*
 * Applicable to BYPASS WRs only: the uP will add a CPL_BARRIER before
 * and after the BYPASS WR if the ATOMIC bit is set.
 */
#define S_WR_ATOMIC	16
#define V_WR_ATOMIC(x)	((x) << S_WR_ATOMIC)
#define F_WR_ATOMIC	V_WR_ATOMIC(1U)

/*
 * Applicable to BYPASS WRs only: the uP will flush buffered non abort
 * related WRs.
 */
#define S_WR_FLUSH	17
#define V_WR_FLUSH(x)	((x) << S_WR_FLUSH)
#define F_WR_FLUSH	V_WR_FLUSH(1U)

#define S_WR_CHN	18
#define V_WR_CHN(x)	((x) << S_WR_CHN)
#define F_WR_CHN	V_WR_CHN(1U)

#define S_WR_CHN_VLD	19
#define V_WR_CHN_VLD(x)	((x) << S_WR_CHN_VLD)
#define F_WR_CHN_VLD	V_WR_CHN_VLD(1U)

#define S_WR_DATATYPE    20
#define V_WR_DATATYPE(x) ((x) << S_WR_DATATYPE)
#define F_WR_DATATYPE    V_WR_DATATYPE(1U)

#define S_WR_COMPL    21
#define V_WR_COMPL(x) ((x) << S_WR_COMPL)
#define F_WR_COMPL    V_WR_COMPL(1U)

#define S_WR_EOP    22
#define V_WR_EOP(x) ((x) << S_WR_EOP)
#define F_WR_EOP    V_WR_EOP(1U)

#define S_WR_SOP    23
#define V_WR_SOP(x) ((x) << S_WR_SOP)
#define F_WR_SOP    V_WR_SOP(1U)

#define S_WR_OP    24
#define M_WR_OP    0xFF
#define V_WR_OP(x) ((x) << S_WR_OP)
#define G_WR_OP(x) (((x) >> S_WR_OP) & M_WR_OP)

/* wr_lo fields */
#define S_WR_LEN    0
#define M_WR_LEN    0xFF
#define V_WR_LEN(x) ((x) << S_WR_LEN)
#define G_WR_LEN(x) (((x) >> S_WR_LEN) & M_WR_LEN)

#define S_WR_TID    8
#define M_WR_TID    0xFFFFF
#define V_WR_TID(x) ((x) << S_WR_TID)
#define G_WR_TID(x) (((x) >> S_WR_TID) & M_WR_TID)

#define S_WR_CR_FLUSH    30
#define V_WR_CR_FLUSH(x) ((x) << S_WR_CR_FLUSH)
#define F_WR_CR_FLUSH    V_WR_CR_FLUSH(1U)

#define S_WR_GEN    31
#define V_WR_GEN(x) ((x) << S_WR_GEN)
#define F_WR_GEN    V_WR_GEN(1U)
#define G_WR_GEN(x) ((x) >> S_WR_GEN)

# define WR_HDR struct work_request_hdr wr
# define RSS_HDR
#else
# define WR_HDR
# define RSS_HDR struct rss_header rss_hdr;
#endif

/* option 0 lower-half fields */
#define S_CPL_STATUS    0
#define M_CPL_STATUS    0xFF
#define V_CPL_STATUS(x) ((x) << S_CPL_STATUS)
#define G_CPL_STATUS(x) (((x) >> S_CPL_STATUS) & M_CPL_STATUS)

#define S_INJECT_TIMER    6
#define V_INJECT_TIMER(x) ((x) << S_INJECT_TIMER)
#define F_INJECT_TIMER    V_INJECT_TIMER(1U)

#define S_NO_OFFLOAD    7
#define V_NO_OFFLOAD(x) ((x) << S_NO_OFFLOAD)
#define F_NO_OFFLOAD    V_NO_OFFLOAD(1U)

#define S_ULP_MODE    8
#define M_ULP_MODE    0xF
#define V_ULP_MODE(x) ((x) << S_ULP_MODE)
#define G_ULP_MODE(x) (((x) >> S_ULP_MODE) & M_ULP_MODE)

#define S_RCV_BUFSIZ    12
#define M_RCV_BUFSIZ    0x3FFF
#define V_RCV_BUFSIZ(x) ((x) << S_RCV_BUFSIZ)
#define G_RCV_BUFSIZ(x) (((x) >> S_RCV_BUFSIZ) & M_RCV_BUFSIZ)

#define S_TOS    26
#define M_TOS    0x3F
#define V_TOS(x) ((x) << S_TOS)
#define G_TOS(x) (((x) >> S_TOS) & M_TOS)

/* option 0 upper-half fields */
#define S_DELACK    0
#define V_DELACK(x) ((x) << S_DELACK)
#define F_DELACK    V_DELACK(1U)

#define S_NO_CONG    1
#define V_NO_CONG(x) ((x) << S_NO_CONG)
#define F_NO_CONG    V_NO_CONG(1U)

#define S_SRC_MAC_SEL    2
#define M_SRC_MAC_SEL    0x3
#define V_SRC_MAC_SEL(x) ((x) << S_SRC_MAC_SEL)
#define G_SRC_MAC_SEL(x) (((x) >> S_SRC_MAC_SEL) & M_SRC_MAC_SEL)

#define S_L2T_IDX    4
#define M_L2T_IDX    0x7FF
#define V_L2T_IDX(x) ((x) << S_L2T_IDX)
#define G_L2T_IDX(x) (((x) >> S_L2T_IDX) & M_L2T_IDX)

#define S_TX_CHANNEL    15
#define V_TX_CHANNEL(x) ((x) << S_TX_CHANNEL)
#define F_TX_CHANNEL    V_TX_CHANNEL(1U)

#define S_TCAM_BYPASS    16
#define V_TCAM_BYPASS(x) ((x) << S_TCAM_BYPASS)
#define F_TCAM_BYPASS    V_TCAM_BYPASS(1U)

#define S_NAGLE    17
#define V_NAGLE(x) ((x) << S_NAGLE)
#define F_NAGLE    V_NAGLE(1U)

#define S_WND_SCALE    18
#define M_WND_SCALE    0xF
#define V_WND_SCALE(x) ((x) << S_WND_SCALE)
#define G_WND_SCALE(x) (((x) >> S_WND_SCALE) & M_WND_SCALE)

#define S_KEEP_ALIVE    22
#define V_KEEP_ALIVE(x) ((x) << S_KEEP_ALIVE)
#define F_KEEP_ALIVE    V_KEEP_ALIVE(1U)

#define S_MAX_RETRANS    23
#define M_MAX_RETRANS    0xF
#define V_MAX_RETRANS(x) ((x) << S_MAX_RETRANS)
#define G_MAX_RETRANS(x) (((x) >> S_MAX_RETRANS) & M_MAX_RETRANS)

#define S_MAX_RETRANS_OVERRIDE    27
#define V_MAX_RETRANS_OVERRIDE(x) ((x) << S_MAX_RETRANS_OVERRIDE)
#define F_MAX_RETRANS_OVERRIDE    V_MAX_RETRANS_OVERRIDE(1U)

#define S_MSS_IDX    28
#define M_MSS_IDX    0xF
#define V_MSS_IDX(x) ((x) << S_MSS_IDX)
#define G_MSS_IDX(x) (((x) >> S_MSS_IDX) & M_MSS_IDX)

/* option 1 fields */
#define S_RSS_ENABLE    0
#define V_RSS_ENABLE(x) ((x) << S_RSS_ENABLE)
#define F_RSS_ENABLE    V_RSS_ENABLE(1U)

#define S_RSS_MASK_LEN    1
#define M_RSS_MASK_LEN    0x7
#define V_RSS_MASK_LEN(x) ((x) << S_RSS_MASK_LEN)
#define G_RSS_MASK_LEN(x) (((x) >> S_RSS_MASK_LEN) & M_RSS_MASK_LEN)

#define S_CPU_IDX    4
#define M_CPU_IDX    0x3F
#define V_CPU_IDX(x) ((x) << S_CPU_IDX)
#define G_CPU_IDX(x) (((x) >> S_CPU_IDX) & M_CPU_IDX)

#define S_OPT1_VLAN    6
#define M_OPT1_VLAN    0xFFF
#define V_OPT1_VLAN(x) ((x) << S_OPT1_VLAN)
#define G_OPT1_VLAN(x) (((x) >> S_OPT1_VLAN) & M_OPT1_VLAN)

#define S_MAC_MATCH_VALID    18
#define V_MAC_MATCH_VALID(x) ((x) << S_MAC_MATCH_VALID)
#define F_MAC_MATCH_VALID    V_MAC_MATCH_VALID(1U)

#define S_CONN_POLICY    19
#define M_CONN_POLICY    0x3
#define V_CONN_POLICY(x) ((x) << S_CONN_POLICY)
#define G_CONN_POLICY(x) (((x) >> S_CONN_POLICY) & M_CONN_POLICY)

#define S_SYN_DEFENSE    21
#define V_SYN_DEFENSE(x) ((x) << S_SYN_DEFENSE)
#define F_SYN_DEFENSE    V_SYN_DEFENSE(1U)

#define S_VLAN_PRI    22
#define M_VLAN_PRI    0x3
#define V_VLAN_PRI(x) ((x) << S_VLAN_PRI)
#define G_VLAN_PRI(x) (((x) >> S_VLAN_PRI) & M_VLAN_PRI)

#define S_VLAN_PRI_VALID    24
#define V_VLAN_PRI_VALID(x) ((x) << S_VLAN_PRI_VALID)
#define F_VLAN_PRI_VALID    V_VLAN_PRI_VALID(1U)

#define S_PKT_TYPE    25
#define M_PKT_TYPE    0x3
#define V_PKT_TYPE(x) ((x) << S_PKT_TYPE)
#define G_PKT_TYPE(x) (((x) >> S_PKT_TYPE) & M_PKT_TYPE)

#define S_MAC_MATCH    27
#define M_MAC_MATCH    0x1F
#define V_MAC_MATCH(x) ((x) << S_MAC_MATCH)
#define G_MAC_MATCH(x) (((x) >> S_MAC_MATCH) & M_MAC_MATCH)

/* option 2 fields */
#define S_CPU_INDEX    0
#define M_CPU_INDEX    0x7F
#define V_CPU_INDEX(x) ((x) << S_CPU_INDEX)
#define G_CPU_INDEX(x) (((x) >> S_CPU_INDEX) & M_CPU_INDEX)

#define S_CPU_INDEX_VALID    7
#define V_CPU_INDEX_VALID(x) ((x) << S_CPU_INDEX_VALID)
#define F_CPU_INDEX_VALID    V_CPU_INDEX_VALID(1U)

#define S_RX_COALESCE    8
#define M_RX_COALESCE    0x3
#define V_RX_COALESCE(x) ((x) << S_RX_COALESCE)
#define G_RX_COALESCE(x) (((x) >> S_RX_COALESCE) & M_RX_COALESCE)

#define S_RX_COALESCE_VALID    10
#define V_RX_COALESCE_VALID(x) ((x) << S_RX_COALESCE_VALID)
#define F_RX_COALESCE_VALID    V_RX_COALESCE_VALID(1U)

#define S_CONG_CONTROL_FLAVOR    11
#define M_CONG_CONTROL_FLAVOR    0x3
#define V_CONG_CONTROL_FLAVOR(x) ((x) << S_CONG_CONTROL_FLAVOR)
#define G_CONG_CONTROL_FLAVOR(x) (((x) >> S_CONG_CONTROL_FLAVOR) & M_CONG_CONTROL_FLAVOR)

#define S_PACING_FLAVOR    13
#define M_PACING_FLAVOR    0x3
#define V_PACING_FLAVOR(x) ((x) << S_PACING_FLAVOR)
#define G_PACING_FLAVOR(x) (((x) >> S_PACING_FLAVOR) & M_PACING_FLAVOR)

#define S_FLAVORS_VALID    15
#define V_FLAVORS_VALID(x) ((x) << S_FLAVORS_VALID)
#define F_FLAVORS_VALID    V_FLAVORS_VALID(1U)

#define S_RX_FC_DISABLE    16
#define V_RX_FC_DISABLE(x) ((x) << S_RX_FC_DISABLE)
#define F_RX_FC_DISABLE    V_RX_FC_DISABLE(1U)

#define S_RX_FC_VALID    17
#define V_RX_FC_VALID(x) ((x) << S_RX_FC_VALID)
#define F_RX_FC_VALID    V_RX_FC_VALID(1U)

struct cpl_pass_open_req {
	WR_HDR;
	union opcode_tid ot;
	__be16 local_port;
	__be16 peer_port;
	__be32 local_ip;
	__be32 peer_ip;
	__be32 opt0h;
	__be32 opt0l;
	__be32 peer_netmask;
	__be32 opt1;
};

struct cpl_pass_open_rpl {
	RSS_HDR
	union opcode_tid ot;
	__be16 local_port;
	__be16 peer_port;
	__be32 local_ip;
	__be32 peer_ip;
	__u8 resvd[7];
	__u8 status;
};

struct cpl_pass_establish {
	RSS_HDR
	union opcode_tid ot;
	__be16 local_port;
	__be16 peer_port;
	__be32 local_ip;
	__be32 peer_ip;
	__be32 tos_tid;
	__be16 l2t_idx;
	__be16 tcp_opt;
	__be32 snd_isn;
	__be32 rcv_isn;
};

/* cpl_pass_establish.tos_tid fields */
#define S_PASS_OPEN_TID    0
#define M_PASS_OPEN_TID    0xFFFFFF
#define V_PASS_OPEN_TID(x) ((x) << S_PASS_OPEN_TID)
#define G_PASS_OPEN_TID(x) (((x) >> S_PASS_OPEN_TID) & M_PASS_OPEN_TID)

#define S_PASS_OPEN_TOS    24
#define M_PASS_OPEN_TOS    0xFF
#define V_PASS_OPEN_TOS(x) ((x) << S_PASS_OPEN_TOS)
#define G_PASS_OPEN_TOS(x) (((x) >> S_PASS_OPEN_TOS) & M_PASS_OPEN_TOS)

/* cpl_pass_establish.l2t_idx fields */
#define S_L2T_IDX16    5
#define M_L2T_IDX16    0x7FF
#define V_L2T_IDX16(x) ((x) << S_L2T_IDX16)
#define G_L2T_IDX16(x) (((x) >> S_L2T_IDX16) & M_L2T_IDX16)

/* cpl_pass_establish.tcp_opt fields (also applies act_open_establish) */
#define G_TCPOPT_WSCALE_OK(x)  (((x) >> 5) & 1)
#define G_TCPOPT_SACK(x)       (((x) >> 6) & 1)
#define G_TCPOPT_TSTAMP(x)     (((x) >> 7) & 1)
#define G_TCPOPT_SND_WSCALE(x) (((x) >> 8) & 0xf)
#define G_TCPOPT_MSS(x)        (((x) >> 12) & 0xf)

struct cpl_pass_accept_req {
	RSS_HDR
	union opcode_tid ot;
	__be16 local_port;
	__be16 peer_port;
	__be32 local_ip;
	__be32 peer_ip;
	__be32 tos_tid;
	struct tcp_options tcp_options;
	__u8  dst_mac[6];
	__be16 vlan_tag;
	__u8  src_mac[6];
#if defined(__LITTLE_ENDIAN_BITFIELD)
	__u8  :3;
	__u8  addr_idx:3;
	__u8  port_idx:1;
	__u8  exact_match:1;
#else
	__u8  exact_match:1;
	__u8  port_idx:1;
	__u8  addr_idx:3;
	__u8  :3;
#endif
	__u8  rsvd;
	__be32 rcv_isn;
	__be32 rsvd2;
};

struct cpl_pass_accept_rpl {
	WR_HDR;
	union opcode_tid ot;
	__be32 opt2;
	__be32 rsvd;
	__be32 peer_ip;
	__be32 opt0h;
	__be32 opt0l_status;
};

struct cpl_act_open_req {
	WR_HDR;
	union opcode_tid ot;
	__be16 local_port;
	__be16 peer_port;
	__be32 local_ip;
	__be32 peer_ip;
	__be32 opt0h;
	__be32 opt0l;
	__be32 params;
	__be32 opt2;
};

/* cpl_act_open_req.params fields */
#define S_AOPEN_VLAN_PRI    9
#define M_AOPEN_VLAN_PRI    0x3
#define V_AOPEN_VLAN_PRI(x) ((x) << S_AOPEN_VLAN_PRI)
#define G_AOPEN_VLAN_PRI(x) (((x) >> S_AOPEN_VLAN_PRI) & M_AOPEN_VLAN_PRI)

#define S_AOPEN_VLAN_PRI_VALID    11
#define V_AOPEN_VLAN_PRI_VALID(x) ((x) << S_AOPEN_VLAN_PRI_VALID)
#define F_AOPEN_VLAN_PRI_VALID    V_AOPEN_VLAN_PRI_VALID(1U)

#define S_AOPEN_PKT_TYPE    12
#define M_AOPEN_PKT_TYPE    0x3
#define V_AOPEN_PKT_TYPE(x) ((x) << S_AOPEN_PKT_TYPE)
#define G_AOPEN_PKT_TYPE(x) (((x) >> S_AOPEN_PKT_TYPE) & M_AOPEN_PKT_TYPE)

#define S_AOPEN_MAC_MATCH    14
#define M_AOPEN_MAC_MATCH    0x1F
#define V_AOPEN_MAC_MATCH(x) ((x) << S_AOPEN_MAC_MATCH)
#define G_AOPEN_MAC_MATCH(x) (((x) >> S_AOPEN_MAC_MATCH) & M_AOPEN_MAC_MATCH)

#define S_AOPEN_MAC_MATCH_VALID    19
#define V_AOPEN_MAC_MATCH_VALID(x) ((x) << S_AOPEN_MAC_MATCH_VALID)
#define F_AOPEN_MAC_MATCH_VALID    V_AOPEN_MAC_MATCH_VALID(1U)

#define S_AOPEN_IFF_VLAN    20
#define M_AOPEN_IFF_VLAN    0xFFF
#define V_AOPEN_IFF_VLAN(x) ((x) << S_AOPEN_IFF_VLAN)
#define G_AOPEN_IFF_VLAN(x) (((x) >> S_AOPEN_IFF_VLAN) & M_AOPEN_IFF_VLAN)

struct cpl_act_open_rpl {
	RSS_HDR
	union opcode_tid ot;
	__be16 local_port;
	__be16 peer_port;
	__be32 local_ip;
	__be32 peer_ip;
	__be32 atid;
	__u8  rsvd[3];
	__u8  status;
};

struct cpl_act_establish {
	RSS_HDR
	union opcode_tid ot;
	__be16 local_port;
	__be16 peer_port;
	__be32 local_ip;
	__be32 peer_ip;
	__be32 tos_tid;
	__be16 l2t_idx;
	__be16 tcp_opt;
	__be32 snd_isn;
	__be32 rcv_isn;
};

struct cpl_get_tcb {
	WR_HDR;
	union opcode_tid ot;
	__be16 cpuno;
	__be16 rsvd;
};

struct cpl_get_tcb_rpl {
	RSS_HDR
	union opcode_tid ot;
	__u8 rsvd;
	__u8 status;
	__be16 len;
};

struct cpl_set_tcb {
	WR_HDR;
	union opcode_tid ot;
	__u8  reply;
	__u8  cpu_idx;
	__be16 len;
};

/* cpl_set_tcb.reply fields */
#define S_NO_REPLY    7
#define V_NO_REPLY(x) ((x) << S_NO_REPLY)
#define F_NO_REPLY    V_NO_REPLY(1U)

struct cpl_set_tcb_field {
	WR_HDR;
	union opcode_tid ot;
	__u8  reply;
	__u8  cpu_idx;
	__be16 word;
	__be64 mask;
	__be64 val;
};

struct cpl_set_tcb_rpl {
	RSS_HDR
	union opcode_tid ot;
	__u8 rsvd[3];
	__u8 status;
};

struct cpl_pcmd {
	WR_HDR;
	union opcode_tid ot;
	__u8 rsvd[3];
#if defined(__LITTLE_ENDIAN_BITFIELD)
	__u8 src:1;
	__u8 bundle:1;
	__u8 channel:1;
	__u8 :5;
#else
	__u8 :5;
	__u8 channel:1;
	__u8 bundle:1;
	__u8 src:1;
#endif
	__be32 pcmd_parm[2];
};

struct cpl_pcmd_reply {
	RSS_HDR
	union opcode_tid ot;
	__u8  status;
	__u8  rsvd;
	__be16 len;
};

struct cpl_close_con_req {
	WR_HDR;
	union opcode_tid ot;
	__be32 rsvd;
};

struct cpl_close_con_rpl {
	RSS_HDR
	union opcode_tid ot;
	__u8  rsvd[3];
	__u8  status;
	__be32 snd_nxt;
	__be32 rcv_nxt;
};

struct cpl_close_listserv_req {
	WR_HDR;
	union opcode_tid ot;
	__u8  rsvd0;
	__u8  cpu_idx;
	__be16 rsvd1;
};

struct cpl_close_listserv_rpl {
	RSS_HDR
	union opcode_tid ot;
	__u8 rsvd[3];
	__u8 status;
};

struct cpl_abort_req_rss {
	RSS_HDR
	union opcode_tid ot;
	__be32 rsvd0;
	__u8  rsvd1;
	__u8  status;
	__u8  rsvd2[6];
};

struct cpl_abort_req {
	WR_HDR;
	union opcode_tid ot;
	__be32 rsvd0;
	__u8  rsvd1;
	__u8  cmd;
	__u8  rsvd2[6];
};

struct cpl_abort_rpl_rss {
	RSS_HDR
	union opcode_tid ot;
	__be32 rsvd0;
	__u8  rsvd1;
	__u8  status;
	__u8  rsvd2[6];
};

struct cpl_abort_rpl {
	WR_HDR;
	union opcode_tid ot;
	__be32 rsvd0;
	__u8  rsvd1;
	__u8  cmd;
	__u8  rsvd2[6];
};

struct cpl_peer_close {
	RSS_HDR
	union opcode_tid ot;
	__be32 rcv_nxt;
};

struct tx_data_wr {
	WR_HDR;
	__be32 len;
	__be32 flags;
	__be32 sndseq;
	__be32 param;
};

/* tx_data_wr.flags fields */
#define S_TX_ACK_PAGES		21
#define M_TX_ACK_PAGES		0x7
#define V_TX_ACK_PAGES(x) 	((x) << S_TX_ACK_PAGES)
#define G_TX_ACK_PAGES(x) 	(((x) >> S_TX_ACK_PAGES) & M_TX_ACK_PAGES)

/* tx_data_wr.param fields */
#define S_TX_PORT    0
#define M_TX_PORT    0x7
#define V_TX_PORT(x) ((x) << S_TX_PORT)
#define G_TX_PORT(x) (((x) >> S_TX_PORT) & M_TX_PORT)

#define S_TX_MSS    4
#define M_TX_MSS    0xF
#define V_TX_MSS(x) ((x) << S_TX_MSS)
#define G_TX_MSS(x) (((x) >> S_TX_MSS) & M_TX_MSS)

#define S_TX_QOS    8
#define M_TX_QOS    0xFF
#define V_TX_QOS(x) ((x) << S_TX_QOS)
#define G_TX_QOS(x) (((x) >> S_TX_QOS) & M_TX_QOS)

#define S_TX_SNDBUF 16
#define M_TX_SNDBUF 0xFFFF
#define V_TX_SNDBUF(x) ((x) << S_TX_SNDBUF)
#define G_TX_SNDBUF(x) (((x) >> S_TX_SNDBUF) & M_TX_SNDBUF)

struct cpl_tx_data {
	union opcode_tid ot;
	__be32 len;
	__be32 rsvd;
	__be16 urg;
	__be16 flags;
};

/* cpl_tx_data.flags fields */
#define S_TX_ULP_SUBMODE    6
#define M_TX_ULP_SUBMODE    0xF
#define V_TX_ULP_SUBMODE(x) ((x) << S_TX_ULP_SUBMODE)
#define G_TX_ULP_SUBMODE(x) (((x) >> S_TX_ULP_SUBMODE) & M_TX_ULP_SUBMODE)

#define S_TX_ULP_MODE    10
#define M_TX_ULP_MODE    0xF
#define V_TX_ULP_MODE(x) ((x) << S_TX_ULP_MODE)
#define G_TX_ULP_MODE(x) (((x) >> S_TX_ULP_MODE) & M_TX_ULP_MODE)

#define S_TX_SHOVE    14
#define V_TX_SHOVE(x) ((x) << S_TX_SHOVE)
#define F_TX_SHOVE    V_TX_SHOVE(1U)

#define S_TX_MORE    15
#define V_TX_MORE(x) ((x) << S_TX_MORE)
#define F_TX_MORE    V_TX_MORE(1U)

/* additional tx_data_wr.flags fields */
#define S_TX_CPU_IDX    0
#define M_TX_CPU_IDX    0x3F
#define V_TX_CPU_IDX(x) ((x) << S_TX_CPU_IDX)
#define G_TX_CPU_IDX(x) (((x) >> S_TX_CPU_IDX) & M_TX_CPU_IDX)

#define S_TX_URG    16
#define V_TX_URG(x) ((x) << S_TX_URG)
#define F_TX_URG    V_TX_URG(1U)

#define S_TX_CLOSE    17
#define V_TX_CLOSE(x) ((x) << S_TX_CLOSE)
#define F_TX_CLOSE    V_TX_CLOSE(1U)

#define S_TX_INIT    18
#define V_TX_INIT(x) ((x) << S_TX_INIT)
#define F_TX_INIT    V_TX_INIT(1U)

#define S_TX_IMM_ACK    19
#define V_TX_IMM_ACK(x) ((x) << S_TX_IMM_ACK)
#define F_TX_IMM_ACK    V_TX_IMM_ACK(1U)

#define S_TX_IMM_DMA    20
#define V_TX_IMM_DMA(x) ((x) << S_TX_IMM_DMA)
#define F_TX_IMM_DMA    V_TX_IMM_DMA(1U)

struct cpl_tx_data_ack {
	RSS_HDR
	union opcode_tid ot;
	__be32 ack_seq;
};

struct cpl_wr_ack {
	RSS_HDR
	union opcode_tid ot;
	__be16 credits;
	__be16 rsvd;
	__be32 snd_nxt;
	__be32 snd_una;
};

struct cpl_sge_ec_cr_return {
	RSS_HDR
	union opcode_tid ot;
	__be16 sge_ec_id;
	__u8 cr;
	__u8 rsvd;
};

struct cpl_rdma_ec_status {
	RSS_HDR
	union opcode_tid ot;
	__u8  rsvd[3];
	__u8  status;
};

struct mngt_pktsched_wr {
	WR_HDR;
	__u8  mngt_opcode;
	__u8  rsvd[7];
	__u8  sched;
	__u8  idx;
	__u8  min;
	__u8  max;
	__u8  binding;
	__u8  rsvd1[3];
};

struct cpl_iscsi_hdr {
	RSS_HDR
	union opcode_tid ot;
	__be16 pdu_len_ddp;
	__be16 len;
	__be32 seq;
	__be16 urg;
	__u8  rsvd;
	__u8  status;
};

/* cpl_iscsi_hdr.pdu_len_ddp fields */
#define S_ISCSI_PDU_LEN    0
#define M_ISCSI_PDU_LEN    0x7FFF
#define V_ISCSI_PDU_LEN(x) ((x) << S_ISCSI_PDU_LEN)
#define G_ISCSI_PDU_LEN(x) (((x) >> S_ISCSI_PDU_LEN) & M_ISCSI_PDU_LEN)

#define S_ISCSI_DDP    15
#define V_ISCSI_DDP(x) ((x) << S_ISCSI_DDP)
#define F_ISCSI_DDP    V_ISCSI_DDP(1U)

struct cpl_rx_data {
	RSS_HDR
	union opcode_tid ot;
	__be16 rsvd;
	__be16 len;
	__be32 seq;
	__be16 urg;
#if defined(__LITTLE_ENDIAN_BITFIELD)
	__u8  dack_mode:2;
	__u8  psh:1;
	__u8  heartbeat:1;
	__u8  ddp_off:1;
	__u8  :3;
#else
	__u8  :3;
	__u8  ddp_off:1;
	__u8  heartbeat:1;
	__u8  psh:1;
	__u8  dack_mode:2;
#endif
	__u8  status;
};

struct cpl_rx_data_ack {
	WR_HDR;
	union opcode_tid ot;
	__be32 credit_dack;
};

/* cpl_rx_data_ack.ack_seq fields */
#define S_RX_CREDITS    0
#define M_RX_CREDITS    0x7FFFFFF
#define V_RX_CREDITS(x) ((x) << S_RX_CREDITS)
#define G_RX_CREDITS(x) (((x) >> S_RX_CREDITS) & M_RX_CREDITS)

#define S_RX_MODULATE    27
#define V_RX_MODULATE(x) ((x) << S_RX_MODULATE)
#define F_RX_MODULATE    V_RX_MODULATE(1U)

#define S_RX_FORCE_ACK    28
#define V_RX_FORCE_ACK(x) ((x) << S_RX_FORCE_ACK)
#define F_RX_FORCE_ACK    V_RX_FORCE_ACK(1U)

#define S_RX_DACK_MODE    29
#define M_RX_DACK_MODE    0x3
#define V_RX_DACK_MODE(x) ((x) << S_RX_DACK_MODE)
#define G_RX_DACK_MODE(x) (((x) >> S_RX_DACK_MODE) & M_RX_DACK_MODE)

#define S_RX_DACK_CHANGE    31
#define V_RX_DACK_CHANGE(x) ((x) << S_RX_DACK_CHANGE)
#define F_RX_DACK_CHANGE    V_RX_DACK_CHANGE(1U)

struct cpl_rx_urg_notify {
	RSS_HDR
	union opcode_tid ot;
	__be32 seq;
};

struct cpl_rx_ddp_complete {
	RSS_HDR
	union opcode_tid ot;
	__be32 ddp_report;
};

struct cpl_rx_data_ddp {
	RSS_HDR
	union opcode_tid ot;
	__be16 urg;
	__be16 len;
	__be32 seq;
	union {
		__be32 nxt_seq;
		__be32 ddp_report;
	} u;
	__be32 ulp_crc;
	__be32 ddpvld_status;
};

/* cpl_rx_data_ddp.ddpvld_status fields */
#define S_DDP_STATUS    0
#define M_DDP_STATUS    0xFF
#define V_DDP_STATUS(x) ((x) << S_DDP_STATUS)
#define G_DDP_STATUS(x) (((x) >> S_DDP_STATUS) & M_DDP_STATUS)

#define S_DDP_VALID    15
#define M_DDP_VALID    0x1FFFF
#define V_DDP_VALID(x) ((x) << S_DDP_VALID)
#define G_DDP_VALID(x) (((x) >> S_DDP_VALID) & M_DDP_VALID)

#define S_DDP_PPOD_MISMATCH    15
#define V_DDP_PPOD_MISMATCH(x) ((x) << S_DDP_PPOD_MISMATCH)
#define F_DDP_PPOD_MISMATCH    V_DDP_PPOD_MISMATCH(1U)

#define S_DDP_PDU    16
#define V_DDP_PDU(x) ((x) << S_DDP_PDU)
#define F_DDP_PDU    V_DDP_PDU(1U)

#define S_DDP_LLIMIT_ERR    17
#define V_DDP_LLIMIT_ERR(x) ((x) << S_DDP_LLIMIT_ERR)
#define F_DDP_LLIMIT_ERR    V_DDP_LLIMIT_ERR(1U)

#define S_DDP_PPOD_PARITY_ERR    18
#define V_DDP_PPOD_PARITY_ERR(x) ((x) << S_DDP_PPOD_PARITY_ERR)
#define F_DDP_PPOD_PARITY_ERR    V_DDP_PPOD_PARITY_ERR(1U)

#define S_DDP_PADDING_ERR    19
#define V_DDP_PADDING_ERR(x) ((x) << S_DDP_PADDING_ERR)
#define F_DDP_PADDING_ERR    V_DDP_PADDING_ERR(1U)

#define S_DDP_HDRCRC_ERR    20
#define V_DDP_HDRCRC_ERR(x) ((x) << S_DDP_HDRCRC_ERR)
#define F_DDP_HDRCRC_ERR    V_DDP_HDRCRC_ERR(1U)

#define S_DDP_DATACRC_ERR    21
#define V_DDP_DATACRC_ERR(x) ((x) << S_DDP_DATACRC_ERR)
#define F_DDP_DATACRC_ERR    V_DDP_DATACRC_ERR(1U)

#define S_DDP_INVALID_TAG    22
#define V_DDP_INVALID_TAG(x) ((x) << S_DDP_INVALID_TAG)
#define F_DDP_INVALID_TAG    V_DDP_INVALID_TAG(1U)

#define S_DDP_ULIMIT_ERR    23
#define V_DDP_ULIMIT_ERR(x) ((x) << S_DDP_ULIMIT_ERR)
#define F_DDP_ULIMIT_ERR    V_DDP_ULIMIT_ERR(1U)

#define S_DDP_OFFSET_ERR    24
#define V_DDP_OFFSET_ERR(x) ((x) << S_DDP_OFFSET_ERR)
#define F_DDP_OFFSET_ERR    V_DDP_OFFSET_ERR(1U)

#define S_DDP_COLOR_ERR    25
#define V_DDP_COLOR_ERR(x) ((x) << S_DDP_COLOR_ERR)
#define F_DDP_COLOR_ERR    V_DDP_COLOR_ERR(1U)

#define S_DDP_TID_MISMATCH    26
#define V_DDP_TID_MISMATCH(x) ((x) << S_DDP_TID_MISMATCH)
#define F_DDP_TID_MISMATCH    V_DDP_TID_MISMATCH(1U)

#define S_DDP_INVALID_PPOD    27
#define V_DDP_INVALID_PPOD(x) ((x) << S_DDP_INVALID_PPOD)
#define F_DDP_INVALID_PPOD    V_DDP_INVALID_PPOD(1U)

#define S_DDP_ULP_MODE    28
#define M_DDP_ULP_MODE    0xF
#define V_DDP_ULP_MODE(x) ((x) << S_DDP_ULP_MODE)
#define G_DDP_ULP_MODE(x) (((x) >> S_DDP_ULP_MODE) & M_DDP_ULP_MODE)

/* cpl_rx_data_ddp.ddp_report fields */
#define S_DDP_OFFSET    0
#define M_DDP_OFFSET    0x3FFFFF
#define V_DDP_OFFSET(x) ((x) << S_DDP_OFFSET)
#define G_DDP_OFFSET(x) (((x) >> S_DDP_OFFSET) & M_DDP_OFFSET)

#define S_DDP_DACK_MODE    22
#define M_DDP_DACK_MODE    0x3
#define V_DDP_DACK_MODE(x) ((x) << S_DDP_DACK_MODE)
#define G_DDP_DACK_MODE(x) (((x) >> S_DDP_DACK_MODE) & M_DDP_DACK_MODE)

#define S_DDP_URG    24
#define V_DDP_URG(x) ((x) << S_DDP_URG)
#define F_DDP_URG    V_DDP_URG(1U)

#define S_DDP_PSH    25
#define V_DDP_PSH(x) ((x) << S_DDP_PSH)
#define F_DDP_PSH    V_DDP_PSH(1U)

#define S_DDP_BUF_COMPLETE    26
#define V_DDP_BUF_COMPLETE(x) ((x) << S_DDP_BUF_COMPLETE)
#define F_DDP_BUF_COMPLETE    V_DDP_BUF_COMPLETE(1U)

#define S_DDP_BUF_TIMED_OUT    27
#define V_DDP_BUF_TIMED_OUT(x) ((x) << S_DDP_BUF_TIMED_OUT)
#define F_DDP_BUF_TIMED_OUT    V_DDP_BUF_TIMED_OUT(1U)

#define S_DDP_BUF_IDX    28
#define V_DDP_BUF_IDX(x) ((x) << S_DDP_BUF_IDX)
#define F_DDP_BUF_IDX    V_DDP_BUF_IDX(1U)

struct cpl_tx_pkt {
	WR_HDR;
	__be32 cntrl;
	__be32 len;
};

struct cpl_tx_pkt_coalesce {
	__be32 cntrl;
	__be32 len;
	__be64 addr;
};

struct tx_pkt_coalesce_wr {
	WR_HDR;
	struct cpl_tx_pkt_coalesce cpl[0];
};

struct cpl_tx_pkt_lso {
	WR_HDR;
	__be32 cntrl;
	__be32 len;

	__be32 rsvd;
	__be32 lso_info;
};

struct cpl_tx_pkt_batch_entry {
	__be32 cntrl;
	__be32 len;
	__be64 addr;
};

struct cpl_tx_pkt_batch {
	WR_HDR;
	struct cpl_tx_pkt_batch_entry pkt_entry[7];
};


/* cpl_tx_pkt*.cntrl fields */
#define S_TXPKT_VLAN    0
#define M_TXPKT_VLAN    0xFFFF
#define V_TXPKT_VLAN(x) ((x) << S_TXPKT_VLAN)
#define G_TXPKT_VLAN(x) (((x) >> S_TXPKT_VLAN) & M_TXPKT_VLAN)

#define S_TXPKT_INTF    16
#define M_TXPKT_INTF    0xF
#define V_TXPKT_INTF(x) ((x) << S_TXPKT_INTF)
#define G_TXPKT_INTF(x) (((x) >> S_TXPKT_INTF) & M_TXPKT_INTF)

#define S_TXPKT_IPCSUM_DIS    20
#define V_TXPKT_IPCSUM_DIS(x) ((x) << S_TXPKT_IPCSUM_DIS)
#define F_TXPKT_IPCSUM_DIS    V_TXPKT_IPCSUM_DIS(1U)

#define S_TXPKT_L4CSUM_DIS    21
#define V_TXPKT_L4CSUM_DIS(x) ((x) << S_TXPKT_L4CSUM_DIS)
#define F_TXPKT_L4CSUM_DIS    V_TXPKT_L4CSUM_DIS(1U)

#define S_TXPKT_VLAN_VLD    22
#define V_TXPKT_VLAN_VLD(x) ((x) << S_TXPKT_VLAN_VLD)
#define F_TXPKT_VLAN_VLD    V_TXPKT_VLAN_VLD(1U)

#define S_TXPKT_LOOPBACK    23
#define V_TXPKT_LOOPBACK(x) ((x) << S_TXPKT_LOOPBACK)
#define F_TXPKT_LOOPBACK    V_TXPKT_LOOPBACK(1U)

#define S_TXPKT_OPCODE    24
#define M_TXPKT_OPCODE    0xFF
#define V_TXPKT_OPCODE(x) ((x) << S_TXPKT_OPCODE)
#define G_TXPKT_OPCODE(x) (((x) >> S_TXPKT_OPCODE) & M_TXPKT_OPCODE)

/* cpl_tx_pkt_lso.lso_info fields */
#define S_LSO_MSS    0
#define M_LSO_MSS    0x3FFF
#define V_LSO_MSS(x) ((x) << S_LSO_MSS)
#define G_LSO_MSS(x) (((x) >> S_LSO_MSS) & M_LSO_MSS)

#define S_LSO_ETH_TYPE    14
#define M_LSO_ETH_TYPE    0x3
#define V_LSO_ETH_TYPE(x) ((x) << S_LSO_ETH_TYPE)
#define G_LSO_ETH_TYPE(x) (((x) >> S_LSO_ETH_TYPE) & M_LSO_ETH_TYPE)

#define S_LSO_TCPHDR_WORDS    16
#define M_LSO_TCPHDR_WORDS    0xF
#define V_LSO_TCPHDR_WORDS(x) ((x) << S_LSO_TCPHDR_WORDS)
#define G_LSO_TCPHDR_WORDS(x) (((x) >> S_LSO_TCPHDR_WORDS) & M_LSO_TCPHDR_WORDS)

#define S_LSO_IPHDR_WORDS    20
#define M_LSO_IPHDR_WORDS    0xF
#define V_LSO_IPHDR_WORDS(x) ((x) << S_LSO_IPHDR_WORDS)
#define G_LSO_IPHDR_WORDS(x) (((x) >> S_LSO_IPHDR_WORDS) & M_LSO_IPHDR_WORDS)

#define S_LSO_IPV6    24
#define V_LSO_IPV6(x) ((x) << S_LSO_IPV6)
#define F_LSO_IPV6    V_LSO_IPV6(1U)

struct cpl_trace_pkt {
#ifdef CHELSIO_FW
	__u8 rss_opcode;
#if defined(__LITTLE_ENDIAN_BITFIELD)
	__u8 err:1;
	__u8 :7;
#else
	__u8 :7;
	__u8 err:1;
#endif
	__u8 rsvd0;
#if defined(__LITTLE_ENDIAN_BITFIELD)
	__u8 qid:4;
	__u8 :4;
#else
	__u8 :4;
	__u8 qid:4;
#endif
	__be32 tstamp;
#endif /* CHELSIO_FW */

	__u8  opcode;
#if defined(__LITTLE_ENDIAN_BITFIELD)
	__u8  iff:4;
	__u8  :4;
#else
	__u8  :4;
	__u8  iff:4;
#endif
	__u8  rsvd[4];
	__be16 len;
};

struct cpl_rx_pkt {
	RSS_HDR
	__u8 opcode;
#if defined(__LITTLE_ENDIAN_BITFIELD)
	__u8 iff:4;
	__u8 csum_valid:1;
	__u8 ipmi_pkt:1;
	__u8 vlan_valid:1;
	__u8 fragment:1;
#else
	__u8 fragment:1;
	__u8 vlan_valid:1;
	__u8 ipmi_pkt:1;
	__u8 csum_valid:1;
	__u8 iff:4;
#endif
	__be16 csum;
	__be16 vlan;
	__be16 len;
};

struct cpl_l2t_write_req {
	WR_HDR;
	union opcode_tid ot;
	__be32 params;
	__u8  rsvd;
	__u8  port_idx;
	__u8  dst_mac[6];
};

/* cpl_l2t_write_req.params fields */
#define S_L2T_W_IDX    0
#define M_L2T_W_IDX    0x7FF
#define V_L2T_W_IDX(x) ((x) << S_L2T_W_IDX)
#define G_L2T_W_IDX(x) (((x) >> S_L2T_W_IDX) & M_L2T_W_IDX)

#define S_L2T_W_VLAN    11
#define M_L2T_W_VLAN    0xFFF
#define V_L2T_W_VLAN(x) ((x) << S_L2T_W_VLAN)
#define G_L2T_W_VLAN(x) (((x) >> S_L2T_W_VLAN) & M_L2T_W_VLAN)

#define S_L2T_W_IFF    23
#define M_L2T_W_IFF    0xF
#define V_L2T_W_IFF(x) ((x) << S_L2T_W_IFF)
#define G_L2T_W_IFF(x) (((x) >> S_L2T_W_IFF) & M_L2T_W_IFF)

#define S_L2T_W_PRIO    27
#define M_L2T_W_PRIO    0x7
#define V_L2T_W_PRIO(x) ((x) << S_L2T_W_PRIO)
#define G_L2T_W_PRIO(x) (((x) >> S_L2T_W_PRIO) & M_L2T_W_PRIO)

struct cpl_l2t_write_rpl {
	RSS_HDR
	union opcode_tid ot;
	__u8 status;
	__u8 rsvd[3];
};

struct cpl_l2t_read_req {
	WR_HDR;
	union opcode_tid ot;
	__be16 rsvd;
	__be16 l2t_idx;
};

struct cpl_l2t_read_rpl {
	RSS_HDR
	union opcode_tid ot;
	__be32 params;
	__u8 rsvd[2];
	__u8 dst_mac[6];
};

/* cpl_l2t_read_rpl.params fields */
#define S_L2T_R_PRIO    0
#define M_L2T_R_PRIO    0x7
#define V_L2T_R_PRIO(x) ((x) << S_L2T_R_PRIO)
#define G_L2T_R_PRIO(x) (((x) >> S_L2T_R_PRIO) & M_L2T_R_PRIO)

#define S_L2T_R_VLAN    8
#define M_L2T_R_VLAN    0xFFF
#define V_L2T_R_VLAN(x) ((x) << S_L2T_R_VLAN)
#define G_L2T_R_VLAN(x) (((x) >> S_L2T_R_VLAN) & M_L2T_R_VLAN)

#define S_L2T_R_IFF    20
#define M_L2T_R_IFF    0xF
#define V_L2T_R_IFF(x) ((x) << S_L2T_R_IFF)
#define G_L2T_R_IFF(x) (((x) >> S_L2T_R_IFF) & M_L2T_R_IFF)

#define S_L2T_STATUS    24
#define M_L2T_STATUS    0xFF
#define V_L2T_STATUS(x) ((x) << S_L2T_STATUS)
#define G_L2T_STATUS(x) (((x) >> S_L2T_STATUS) & M_L2T_STATUS)

struct cpl_smt_write_req {
	WR_HDR;
	union opcode_tid ot;
	__u8 rsvd0;
#if defined(__LITTLE_ENDIAN_BITFIELD)
	__u8 mtu_idx:4;
	__u8 iff:4;
#else
	__u8 iff:4;
	__u8 mtu_idx:4;
#endif
	__be16 rsvd2;
	__be16 rsvd3;
	__u8  src_mac1[6];
	__be16 rsvd4;
	__u8  src_mac0[6];
};

struct cpl_smt_write_rpl {
	RSS_HDR
	union opcode_tid ot;
	__u8 status;
	__u8 rsvd[3];
};

struct cpl_smt_read_req {
	WR_HDR;
	union opcode_tid ot;
	__u8 rsvd0;
#if defined(__LITTLE_ENDIAN_BITFIELD)
	__u8 :4;
	__u8 iff:4;
#else
	__u8 iff:4;
	__u8 :4;
#endif
	__be16 rsvd2;
};

struct cpl_smt_read_rpl {
	RSS_HDR
	union opcode_tid ot;
	__u8 status;
#if defined(__LITTLE_ENDIAN_BITFIELD)
	__u8 mtu_idx:4;
	__u8 :4;
#else
	__u8 :4;
	__u8 mtu_idx:4;
#endif
	__be16 rsvd2;
	__be16 rsvd3;
	__u8  src_mac1[6];
	__be16 rsvd4;
	__u8  src_mac0[6];
};

struct cpl_rte_delete_req {
	WR_HDR;
	union opcode_tid ot;
	__be32 params;
};

/* { cpl_rte_delete_req, cpl_rte_read_req }.params fields */
#define S_RTE_REQ_LUT_IX    8
#define M_RTE_REQ_LUT_IX    0x7FF
#define V_RTE_REQ_LUT_IX(x) ((x) << S_RTE_REQ_LUT_IX)
#define G_RTE_REQ_LUT_IX(x) (((x) >> S_RTE_REQ_LUT_IX) & M_RTE_REQ_LUT_IX)

#define S_RTE_REQ_LUT_BASE    19
#define M_RTE_REQ_LUT_BASE    0x7FF
#define V_RTE_REQ_LUT_BASE(x) ((x) << S_RTE_REQ_LUT_BASE)
#define G_RTE_REQ_LUT_BASE(x) (((x) >> S_RTE_REQ_LUT_BASE) & M_RTE_REQ_LUT_BASE)

#define S_RTE_READ_REQ_SELECT    31
#define V_RTE_READ_REQ_SELECT(x) ((x) << S_RTE_READ_REQ_SELECT)
#define F_RTE_READ_REQ_SELECT    V_RTE_READ_REQ_SELECT(1U)

struct cpl_rte_delete_rpl {
	RSS_HDR
	union opcode_tid ot;
	__u8 status;
	__u8 rsvd[3];
};

struct cpl_rte_write_req {
	WR_HDR;
	union opcode_tid ot;
#if defined(__LITTLE_ENDIAN_BITFIELD)
	__u8 :6;
	__u8 write_tcam:1;
	__u8 write_l2t_lut:1;
#else
	__u8 write_l2t_lut:1;
	__u8 write_tcam:1;
	__u8 :6;
#endif
	__u8 rsvd[3];
	__be32 lut_params;
	__be16 rsvd2;
	__be16 l2t_idx;
	__be32 netmask;
	__be32 faddr;
};

/* cpl_rte_write_req.lut_params fields */
#define S_RTE_WRITE_REQ_LUT_IX    10
#define M_RTE_WRITE_REQ_LUT_IX    0x7FF
#define V_RTE_WRITE_REQ_LUT_IX(x) ((x) << S_RTE_WRITE_REQ_LUT_IX)
#define G_RTE_WRITE_REQ_LUT_IX(x) (((x) >> S_RTE_WRITE_REQ_LUT_IX) & M_RTE_WRITE_REQ_LUT_IX)

#define S_RTE_WRITE_REQ_LUT_BASE    21
#define M_RTE_WRITE_REQ_LUT_BASE    0x7FF
#define V_RTE_WRITE_REQ_LUT_BASE(x) ((x) << S_RTE_WRITE_REQ_LUT_BASE)
#define G_RTE_WRITE_REQ_LUT_BASE(x) (((x) >> S_RTE_WRITE_REQ_LUT_BASE) & M_RTE_WRITE_REQ_LUT_BASE)

struct cpl_rte_write_rpl {
	RSS_HDR
	union opcode_tid ot;
	__u8 status;
	__u8 rsvd[3];
};

struct cpl_rte_read_req {
	WR_HDR;
	union opcode_tid ot;
	__be32 params;
};

struct cpl_rte_read_rpl {
	RSS_HDR
	union opcode_tid ot;
	__u8 status;
	__u8 rsvd0;
	__be16 l2t_idx;
#if defined(__LITTLE_ENDIAN_BITFIELD)
	__u8 :7;
	__u8 select:1;
#else
	__u8 select:1;
	__u8 :7;
#endif
	__u8 rsvd2[3];
	__be32 addr;
};

struct cpl_tid_release {
	WR_HDR;
	union opcode_tid ot;
	__be32 rsvd;
};

struct cpl_barrier {
	WR_HDR;
	__u8 opcode;
	__u8 rsvd[7];
};

struct cpl_rdma_read_req {
	__u8 opcode;
	__u8 rsvd[15];
};

struct cpl_rdma_terminate {
#ifdef CHELSIO_FW
	__u8 opcode;
	__u8 rsvd[2];
#if defined(__LITTLE_ENDIAN_BITFIELD)
	__u8 rspq:3;
	__u8 :5;
#else
	__u8 :5;
	__u8 rspq:3;
#endif
	__be32 tid_len;
#endif
	__be32 msn;
	__be32 mo;
	__u8  data[0];
};

/* cpl_rdma_terminate.tid_len fields */
#define S_FLIT_CNT    0
#define M_FLIT_CNT    0xFF
#define V_FLIT_CNT(x) ((x) << S_FLIT_CNT)
#define G_FLIT_CNT(x) (((x) >> S_FLIT_CNT) & M_FLIT_CNT)

#define S_TERM_TID    8
#define M_TERM_TID    0xFFFFF
#define V_TERM_TID(x) ((x) << S_TERM_TID)
#define G_TERM_TID(x) (((x) >> S_TERM_TID) & M_TERM_TID)

/* ULP_TX opcodes */
enum { ULP_MEM_READ = 2, ULP_MEM_WRITE = 3, ULP_TXPKT = 4 };

#define S_ULPTX_CMD    28
#define M_ULPTX_CMD    0xF
#define V_ULPTX_CMD(x) ((x) << S_ULPTX_CMD)

#define S_ULPTX_NFLITS    0
#define M_ULPTX_NFLITS    0xFF
#define V_ULPTX_NFLITS(x) ((x) << S_ULPTX_NFLITS)

struct ulp_mem_io {
	WR_HDR;
	__be32 cmd_lock_addr;
	__be32 len;
};

/* ulp_mem_io.cmd_lock_addr fields */
#define S_ULP_MEMIO_ADDR    0
#define M_ULP_MEMIO_ADDR    0x7FFFFFF
#define V_ULP_MEMIO_ADDR(x) ((x) << S_ULP_MEMIO_ADDR)

#define S_ULP_MEMIO_LOCK    27
#define V_ULP_MEMIO_LOCK(x) ((x) << S_ULP_MEMIO_LOCK)
#define F_ULP_MEMIO_LOCK    V_ULP_MEMIO_LOCK(1U)

/* ulp_mem_io.len fields */
#define S_ULP_MEMIO_DATA_LEN    28
#define M_ULP_MEMIO_DATA_LEN    0xF
#define V_ULP_MEMIO_DATA_LEN(x) ((x) << S_ULP_MEMIO_DATA_LEN)

struct ulp_txpkt {
	__be32 cmd_dest;
	__be32 len;
};

/* ulp_txpkt.cmd_dest fields */
#define S_ULP_TXPKT_DEST    24
#define M_ULP_TXPKT_DEST    0xF
#define V_ULP_TXPKT_DEST(x) ((x) << S_ULP_TXPKT_DEST)

#endif  /* T3_CPL_H */

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