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kernel/linux-imx6_3.14.28/include/linux/mlx4/qp.h 10.5 KB
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  /*
   * Copyright (c) 2007 Cisco Systems, Inc.  All rights reserved.
   *
   * This software is available to you under a choice of one of two
   * licenses.  You may choose to be licensed under the terms of the GNU
   * General Public License (GPL) Version 2, available from the file
   * COPYING in the main directory of this source tree, or the
   * OpenIB.org BSD license below:
   *
   *     Redistribution and use in source and binary forms, with or
   *     without modification, are permitted provided that the following
   *     conditions are met:
   *
   *	- Redistributions of source code must retain the above
   *	  copyright notice, this list of conditions and the following
   *	  disclaimer.
   *
   *	- Redistributions in binary form must reproduce the above
   *	  copyright notice, this list of conditions and the following
   *	  disclaimer in the documentation and/or other materials
   *	  provided with the distribution.
   *
   * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
   * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
   * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
   * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
   * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
   * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
   * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
   * SOFTWARE.
   */
  
  #ifndef MLX4_QP_H
  #define MLX4_QP_H
  
  #include <linux/types.h>
  #include <linux/if_ether.h>
  
  #include <linux/mlx4/device.h>
  
  #define MLX4_INVALID_LKEY	0x100
  
  enum mlx4_qp_optpar {
  	MLX4_QP_OPTPAR_ALT_ADDR_PATH		= 1 << 0,
  	MLX4_QP_OPTPAR_RRE			= 1 << 1,
  	MLX4_QP_OPTPAR_RAE			= 1 << 2,
  	MLX4_QP_OPTPAR_RWE			= 1 << 3,
  	MLX4_QP_OPTPAR_PKEY_INDEX		= 1 << 4,
  	MLX4_QP_OPTPAR_Q_KEY			= 1 << 5,
  	MLX4_QP_OPTPAR_RNR_TIMEOUT		= 1 << 6,
  	MLX4_QP_OPTPAR_PRIMARY_ADDR_PATH	= 1 << 7,
  	MLX4_QP_OPTPAR_SRA_MAX			= 1 << 8,
  	MLX4_QP_OPTPAR_RRA_MAX			= 1 << 9,
  	MLX4_QP_OPTPAR_PM_STATE			= 1 << 10,
  	MLX4_QP_OPTPAR_RETRY_COUNT		= 1 << 12,
  	MLX4_QP_OPTPAR_RNR_RETRY		= 1 << 13,
  	MLX4_QP_OPTPAR_ACK_TIMEOUT		= 1 << 14,
  	MLX4_QP_OPTPAR_SCHED_QUEUE		= 1 << 16,
  	MLX4_QP_OPTPAR_COUNTER_INDEX		= 1 << 20
  };
  
  enum mlx4_qp_state {
  	MLX4_QP_STATE_RST			= 0,
  	MLX4_QP_STATE_INIT			= 1,
  	MLX4_QP_STATE_RTR			= 2,
  	MLX4_QP_STATE_RTS			= 3,
  	MLX4_QP_STATE_SQER			= 4,
  	MLX4_QP_STATE_SQD			= 5,
  	MLX4_QP_STATE_ERR			= 6,
  	MLX4_QP_STATE_SQ_DRAINING		= 7,
  	MLX4_QP_NUM_STATE
  };
  
  enum {
  	MLX4_QP_ST_RC				= 0x0,
  	MLX4_QP_ST_UC				= 0x1,
  	MLX4_QP_ST_RD				= 0x2,
  	MLX4_QP_ST_UD				= 0x3,
  	MLX4_QP_ST_XRC				= 0x6,
  	MLX4_QP_ST_MLX				= 0x7
  };
  
  enum {
  	MLX4_QP_PM_MIGRATED			= 0x3,
  	MLX4_QP_PM_ARMED			= 0x0,
  	MLX4_QP_PM_REARM			= 0x1
  };
  
  enum {
  	/* params1 */
  	MLX4_QP_BIT_SRE				= 1 << 15,
  	MLX4_QP_BIT_SWE				= 1 << 14,
  	MLX4_QP_BIT_SAE				= 1 << 13,
  	/* params2 */
  	MLX4_QP_BIT_RRE				= 1 << 15,
  	MLX4_QP_BIT_RWE				= 1 << 14,
  	MLX4_QP_BIT_RAE				= 1 << 13,
  	MLX4_QP_BIT_RIC				= 1 <<	4,
  };
  
  enum {
  	MLX4_RSS_HASH_XOR			= 0,
  	MLX4_RSS_HASH_TOP			= 1,
  
  	MLX4_RSS_UDP_IPV6			= 1 << 0,
  	MLX4_RSS_UDP_IPV4			= 1 << 1,
  	MLX4_RSS_TCP_IPV6			= 1 << 2,
  	MLX4_RSS_IPV6				= 1 << 3,
  	MLX4_RSS_TCP_IPV4			= 1 << 4,
  	MLX4_RSS_IPV4				= 1 << 5,
  
  	MLX4_RSS_BY_OUTER_HEADERS		= 0 << 6,
  	MLX4_RSS_BY_INNER_HEADERS		= 2 << 6,
  	MLX4_RSS_BY_INNER_HEADERS_IPONLY	= 3 << 6,
  
  	/* offset of mlx4_rss_context within mlx4_qp_context.pri_path */
  	MLX4_RSS_OFFSET_IN_QPC_PRI_PATH		= 0x24,
  	/* offset of being RSS indirection QP within mlx4_qp_context.flags */
  	MLX4_RSS_QPC_FLAG_OFFSET		= 13,
  };
  
  struct mlx4_rss_context {
  	__be32			base_qpn;
  	__be32			default_qpn;
  	u16			reserved;
  	u8			hash_fn;
  	u8			flags;
  	__be32			rss_key[10];
  	__be32			base_qpn_udp;
  };
  
  struct mlx4_qp_path {
  	u8			fl;
  	u8			vlan_control;
  	u8			disable_pkey_check;
  	u8			pkey_index;
  	u8			counter_index;
  	u8			grh_mylmc;
  	__be16			rlid;
  	u8			ackto;
  	u8			mgid_index;
  	u8			static_rate;
  	u8			hop_limit;
  	__be32			tclass_flowlabel;
  	u8			rgid[16];
  	u8			sched_queue;
  	u8			vlan_index;
  	u8			feup;
  	u8			fvl_rx;
  	u8			reserved4[2];
  	u8			dmac[ETH_ALEN];
  };
  
  enum { /* fl */
  	MLX4_FL_CV      = 1 << 6,
  	MLX4_FL_ETH_HIDE_CQE_VLAN       = 1 << 2
  };
  enum { /* vlan_control */
  	MLX4_VLAN_CTRL_ETH_TX_BLOCK_TAGGED	= 1 << 6,
  	MLX4_VLAN_CTRL_ETH_TX_BLOCK_PRIO_TAGGED	= 1 << 5, /* 802.1p priority tag */
  	MLX4_VLAN_CTRL_ETH_TX_BLOCK_UNTAGGED	= 1 << 4,
  	MLX4_VLAN_CTRL_ETH_RX_BLOCK_TAGGED	= 1 << 2,
  	MLX4_VLAN_CTRL_ETH_RX_BLOCK_PRIO_TAGGED	= 1 << 1, /* 802.1p priority tag */
  	MLX4_VLAN_CTRL_ETH_RX_BLOCK_UNTAGGED	= 1 << 0
  };
  
  enum { /* feup */
  	MLX4_FEUP_FORCE_ETH_UP          = 1 << 6, /* force Eth UP */
  	MLX4_FSM_FORCE_ETH_SRC_MAC      = 1 << 5, /* force Source MAC */
  	MLX4_FVL_FORCE_ETH_VLAN         = 1 << 3  /* force Eth vlan */
  };
  
  enum { /* fvl_rx */
  	MLX4_FVL_RX_FORCE_ETH_VLAN      = 1 << 0 /* enforce Eth rx vlan */
  };
  
  struct mlx4_qp_context {
  	__be32			flags;
  	__be32			pd;
  	u8			mtu_msgmax;
  	u8			rq_size_stride;
  	u8			sq_size_stride;
  	u8			rlkey;
  	__be32			usr_page;
  	__be32			local_qpn;
  	__be32			remote_qpn;
  	struct			mlx4_qp_path pri_path;
  	struct			mlx4_qp_path alt_path;
  	__be32			params1;
  	u32			reserved1;
  	__be32			next_send_psn;
  	__be32			cqn_send;
  	u32			reserved2[2];
  	__be32			last_acked_psn;
  	__be32			ssn;
  	__be32			params2;
  	__be32			rnr_nextrecvpsn;
  	__be32			xrcd;
  	__be32			cqn_recv;
  	__be64			db_rec_addr;
  	__be32			qkey;
  	__be32			srqn;
  	__be32			msn;
  	__be16			rq_wqe_counter;
  	__be16			sq_wqe_counter;
  	u32			reserved3[2];
  	__be32			param3;
  	__be32			nummmcpeers_basemkey;
  	u8			log_page_size;
  	u8			reserved4[2];
  	u8			mtt_base_addr_h;
  	__be32			mtt_base_addr_l;
  	u32			reserved5[10];
  };
  
  struct mlx4_update_qp_context {
  	__be64			qp_mask;
  	__be64			primary_addr_path_mask;
  	__be64			secondary_addr_path_mask;
  	u64			reserved1;
  	struct mlx4_qp_context	qp_context;
  	u64			reserved2[58];
  };
  
  enum {
  	MLX4_UPD_QP_MASK_PM_STATE	= 32,
  	MLX4_UPD_QP_MASK_VSD		= 33,
  };
  
  enum {
  	MLX4_UPD_QP_PATH_MASK_PKEY_INDEX		= 0 + 32,
  	MLX4_UPD_QP_PATH_MASK_FSM			= 1 + 32,
  	MLX4_UPD_QP_PATH_MASK_MAC_INDEX			= 2 + 32,
  	MLX4_UPD_QP_PATH_MASK_FVL			= 3 + 32,
  	MLX4_UPD_QP_PATH_MASK_CV			= 4 + 32,
  	MLX4_UPD_QP_PATH_MASK_VLAN_INDEX		= 5 + 32,
  	MLX4_UPD_QP_PATH_MASK_ETH_HIDE_CQE_VLAN		= 6 + 32,
  	MLX4_UPD_QP_PATH_MASK_ETH_TX_BLOCK_UNTAGGED	= 7 + 32,
  	MLX4_UPD_QP_PATH_MASK_ETH_TX_BLOCK_1P		= 8 + 32,
  	MLX4_UPD_QP_PATH_MASK_ETH_TX_BLOCK_TAGGED	= 9 + 32,
  	MLX4_UPD_QP_PATH_MASK_ETH_RX_BLOCK_UNTAGGED	= 10 + 32,
  	MLX4_UPD_QP_PATH_MASK_ETH_RX_BLOCK_1P		= 11 + 32,
  	MLX4_UPD_QP_PATH_MASK_ETH_RX_BLOCK_TAGGED	= 12 + 32,
  	MLX4_UPD_QP_PATH_MASK_FEUP			= 13 + 32,
  	MLX4_UPD_QP_PATH_MASK_SCHED_QUEUE		= 14 + 32,
  	MLX4_UPD_QP_PATH_MASK_IF_COUNTER_INDEX		= 15 + 32,
  	MLX4_UPD_QP_PATH_MASK_FVL_RX			= 16 + 32,
  };
  
  enum { /* param3 */
  	MLX4_STRIP_VLAN = 1 << 30
  };
  
  /* Which firmware version adds support for NEC (NoErrorCompletion) bit */
  #define MLX4_FW_VER_WQE_CTRL_NEC mlx4_fw_ver(2, 2, 232)
  
  enum {
  	MLX4_WQE_CTRL_NEC		= 1 << 29,
  	MLX4_WQE_CTRL_IIP		= 1 << 28,
  	MLX4_WQE_CTRL_ILP		= 1 << 27,
  	MLX4_WQE_CTRL_FENCE		= 1 << 6,
  	MLX4_WQE_CTRL_CQ_UPDATE		= 3 << 2,
  	MLX4_WQE_CTRL_SOLICITED		= 1 << 1,
  	MLX4_WQE_CTRL_IP_CSUM		= 1 << 4,
  	MLX4_WQE_CTRL_TCP_UDP_CSUM	= 1 << 5,
  	MLX4_WQE_CTRL_INS_VLAN		= 1 << 6,
  	MLX4_WQE_CTRL_STRONG_ORDER	= 1 << 7,
  	MLX4_WQE_CTRL_FORCE_LOOPBACK	= 1 << 0,
  };
  
  struct mlx4_wqe_ctrl_seg {
  	__be32			owner_opcode;
  	__be16			vlan_tag;
  	u8			ins_vlan;
  	u8			fence_size;
  	/*
  	 * High 24 bits are SRC remote buffer; low 8 bits are flags:
  	 * [7]   SO (strong ordering)
  	 * [5]   TCP/UDP checksum
  	 * [4]   IP checksum
  	 * [3:2] C (generate completion queue entry)
  	 * [1]   SE (solicited event)
  	 * [0]   FL (force loopback)
  	 */
  	union {
  		__be32			srcrb_flags;
  		__be16			srcrb_flags16[2];
  	};
  	/*
  	 * imm is immediate data for send/RDMA write w/ immediate;
  	 * also invalidation key for send with invalidate; input
  	 * modifier for WQEs on CCQs.
  	 */
  	__be32			imm;
  };
  
  enum {
  	MLX4_WQE_MLX_VL15	= 1 << 17,
  	MLX4_WQE_MLX_SLR	= 1 << 16
  };
  
  struct mlx4_wqe_mlx_seg {
  	u8			owner;
  	u8			reserved1[2];
  	u8			opcode;
  	__be16			sched_prio;
  	u8			reserved2;
  	u8			size;
  	/*
  	 * [17]    VL15
  	 * [16]    SLR
  	 * [15:12] static rate
  	 * [11:8]  SL
  	 * [4]     ICRC
  	 * [3:2]   C
  	 * [0]     FL (force loopback)
  	 */
  	__be32			flags;
  	__be16			rlid;
  	u16			reserved3;
  };
  
  struct mlx4_wqe_datagram_seg {
  	__be32			av[8];
  	__be32			dqpn;
  	__be32			qkey;
  	__be16			vlan;
  	u8			mac[ETH_ALEN];
  };
  
  struct mlx4_wqe_lso_seg {
  	__be32			mss_hdr_size;
  	__be32			header[0];
  };
  
  enum mlx4_wqe_bind_seg_flags2 {
  	MLX4_WQE_BIND_ZERO_BASED = (1 << 30),
  	MLX4_WQE_BIND_TYPE_2     = (1 << 31),
  };
  
  struct mlx4_wqe_bind_seg {
  	__be32			flags1;
  	__be32			flags2;
  	__be32			new_rkey;
  	__be32			lkey;
  	__be64			addr;
  	__be64			length;
  };
  
  enum {
  	MLX4_WQE_FMR_PERM_LOCAL_READ	= 1 << 27,
  	MLX4_WQE_FMR_PERM_LOCAL_WRITE	= 1 << 28,
  	MLX4_WQE_FMR_AND_BIND_PERM_REMOTE_READ	= 1 << 29,
  	MLX4_WQE_FMR_AND_BIND_PERM_REMOTE_WRITE	= 1 << 30,
  	MLX4_WQE_FMR_AND_BIND_PERM_ATOMIC	= 1 << 31
  };
  
  struct mlx4_wqe_fmr_seg {
  	__be32			flags;
  	__be32			mem_key;
  	__be64			buf_list;
  	__be64			start_addr;
  	__be64			reg_len;
  	__be32			offset;
  	__be32			page_size;
  	u32			reserved[2];
  };
  
  struct mlx4_wqe_fmr_ext_seg {
  	u8			flags;
  	u8			reserved;
  	__be16			app_mask;
  	__be16			wire_app_tag;
  	__be16			mem_app_tag;
  	__be32			wire_ref_tag_base;
  	__be32			mem_ref_tag_base;
  };
  
  struct mlx4_wqe_local_inval_seg {
  	u64			reserved1;
  	__be32			mem_key;
  	u32			reserved2;
  	u64			reserved3[2];
  };
  
  struct mlx4_wqe_raddr_seg {
  	__be64			raddr;
  	__be32			rkey;
  	u32			reserved;
  };
  
  struct mlx4_wqe_atomic_seg {
  	__be64			swap_add;
  	__be64			compare;
  };
  
  struct mlx4_wqe_masked_atomic_seg {
  	__be64			swap_add;
  	__be64			compare;
  	__be64			swap_add_mask;
  	__be64			compare_mask;
  };
  
  struct mlx4_wqe_data_seg {
  	__be32			byte_count;
  	__be32			lkey;
  	__be64			addr;
  };
  
  enum {
  	MLX4_INLINE_ALIGN	= 64,
  	MLX4_INLINE_SEG		= 1 << 31,
  };
  
  struct mlx4_wqe_inline_seg {
  	__be32			byte_count;
  };
  
  int mlx4_qp_modify(struct mlx4_dev *dev, struct mlx4_mtt *mtt,
  		   enum mlx4_qp_state cur_state, enum mlx4_qp_state new_state,
  		   struct mlx4_qp_context *context, enum mlx4_qp_optpar optpar,
  		   int sqd_event, struct mlx4_qp *qp);
  
  int mlx4_qp_query(struct mlx4_dev *dev, struct mlx4_qp *qp,
  		  struct mlx4_qp_context *context);
  
  int mlx4_qp_to_ready(struct mlx4_dev *dev, struct mlx4_mtt *mtt,
  		     struct mlx4_qp_context *context,
  		     struct mlx4_qp *qp, enum mlx4_qp_state *qp_state);
  
  static inline struct mlx4_qp *__mlx4_qp_lookup(struct mlx4_dev *dev, u32 qpn)
  {
  	return radix_tree_lookup(&dev->qp_table_tree, qpn & (dev->caps.num_qps - 1));
  }
  
  void mlx4_qp_remove(struct mlx4_dev *dev, struct mlx4_qp *qp);
  
  #endif /* MLX4_QP_H */