gpxe/src/drivers/infiniband/hermon.h - platform/external/syslinux - Git at Google

 #ifndef _HERMON_H
 #define _HERMON_H

 /** @file
  *
  * Mellanox Hermon Infiniband HCA driver
  *
  */

 FILE_LICENCE ( GPL2_OR_LATER );

 #include <stdint.h>
 #include <gpxe/uaccess.h>
 #include <gpxe/ib_packet.h>
 #include "mlx_bitops.h"
 #include "MT25408_PRM.h"

 /*
  * Hardware constants
  *
  */

 /* Ports in existence */
 #define HERMON_MAX_PORTS		2
 #define HERMON_PORT_BASE		1

 /* PCI BARs */
 #define HERMON_PCI_CONFIG_BAR		PCI_BASE_ADDRESS_0
 #define HERMON_PCI_CONFIG_BAR_SIZE	0x100000
 #define HERMON_PCI_UAR_BAR		PCI_BASE_ADDRESS_2

 /* Device reset */
 #define HERMON_RESET_OFFSET		0x0f0010
 #define HERMON_RESET_MAGIC		0x01000000UL
 #define HERMON_RESET_WAIT_TIME_MS	1000

 /* Work queue entry and completion queue entry opcodes */
 #define HERMON_OPCODE_NOP		0x00
 #define HERMON_OPCODE_SEND		0x0a
 #define HERMON_OPCODE_RECV_ERROR	0xfe
 #define HERMON_OPCODE_SEND_ERROR	0xff

 /* HCA command register opcodes */
 #define HERMON_HCR_QUERY_DEV_CAP	0x0003
 #define HERMON_HCR_QUERY_FW		0x0004
 #define HERMON_HCR_INIT_HCA		0x0007
 #define HERMON_HCR_CLOSE_HCA		0x0008
 #define HERMON_HCR_INIT_PORT		0x0009
 #define HERMON_HCR_CLOSE_PORT		0x000a
 #define HERMON_HCR_SW2HW_MPT		0x000d
 #define HERMON_HCR_WRITE_MTT		0x0011
 #define HERMON_HCR_MAP_EQ		0x0012
 #define HERMON_HCR_SW2HW_EQ		0x0013
 #define HERMON_HCR_HW2SW_EQ		0x0014
 #define HERMON_HCR_QUERY_EQ		0x0015
 #define HERMON_HCR_SW2HW_CQ		0x0016
 #define HERMON_HCR_HW2SW_CQ		0x0017
 #define HERMON_HCR_RST2INIT_QP		0x0019
 #define HERMON_HCR_INIT2RTR_QP		0x001a
 #define HERMON_HCR_RTR2RTS_QP		0x001b
 #define HERMON_HCR_RTS2RTS_QP		0x001c
 #define HERMON_HCR_2RST_QP		0x0021
 #define HERMON_HCR_QUERY_QP		0x0022
 #define HERMON_HCR_CONF_SPECIAL_QP	0x0023
 #define HERMON_HCR_MAD_IFC		0x0024
 #define HERMON_HCR_READ_MCG		0x0025
 #define HERMON_HCR_WRITE_MCG		0x0026
 #define HERMON_HCR_MGID_HASH		0x0027
 #define HERMON_HCR_SENSE_PORT		0x004d
 #define HERMON_HCR_RUN_FW		0x0ff6
 #define HERMON_HCR_DISABLE_LAM		0x0ff7
 #define HERMON_HCR_ENABLE_LAM		0x0ff8
 #define HERMON_HCR_UNMAP_ICM		0x0ff9
 #define HERMON_HCR_MAP_ICM		0x0ffa
 #define HERMON_HCR_UNMAP_ICM_AUX	0x0ffb
 #define HERMON_HCR_MAP_ICM_AUX		0x0ffc
 #define HERMON_HCR_SET_ICM_SIZE		0x0ffd
 #define HERMON_HCR_UNMAP_FA		0x0ffe
 #define HERMON_HCR_MAP_FA		0x0fff

 /* Service types */
 #define HERMON_ST_RC			0x00
 #define HERMON_ST_UD			0x03
 #define HERMON_ST_MLX			0x07

 /* MTUs */
 #define HERMON_MTU_2048			0x04

 #define HERMON_INVALID_LKEY		0x00000100UL

 #define HERMON_PAGE_SIZE		4096

 #define HERMON_DB_POST_SND_OFFSET	0x14
 #define HERMON_DB_EQ_OFFSET(_eqn)	\
 	( 0x800 + HERMON_PAGE_SIZE * ( (_eqn) / 4 ) + 0x08 * ( (_eqn) % 4 ) )

 #define HERMON_QP_OPT_PARAM_PM_STATE	0x00000400UL
 #define HERMON_QP_OPT_PARAM_QKEY	0x00000020UL
 #define HERMON_QP_OPT_PARAM_ALT_PATH	0x00000001UL

 #define HERMON_MAP_EQ			( 0UL << 31 )
 #define HERMON_UNMAP_EQ			( 1UL << 31 )

 #define HERMON_EV_PORT_STATE_CHANGE	0x09

 #define HERMON_SCHED_QP0		0x3f
 #define HERMON_SCHED_DEFAULT		0x83

 #define HERMON_PM_STATE_ARMED		0x00
 #define HERMON_PM_STATE_REARM		0x01
 #define HERMON_PM_STATE_MIGRATED	0x03

 #define HERMON_RETRY_MAX		0x07

 /*
  * Datatypes that seem to be missing from the autogenerated documentation
  *
  */
 struct hermonprm_mgm_hash_st {
 	pseudo_bit_t reserved0[0x00020];
 /* -------------- */
 	pseudo_bit_t hash[0x00010];
 	pseudo_bit_t reserved1[0x00010];
 } __attribute__ (( packed ));

 struct hermonprm_mcg_entry_st {
 	struct hermonprm_mcg_hdr_st hdr;
 	struct hermonprm_mcg_qp_dw_st qp[8];
 } __attribute__ (( packed ));

 struct hermonprm_cq_db_record_st {
 	pseudo_bit_t update_ci[0x00018];
 	pseudo_bit_t reserved0[0x00008];
 /* -------------- */
 	pseudo_bit_t arm_ci[0x00018];
 	pseudo_bit_t cmd[0x00003];
 	pseudo_bit_t reserved1[0x00001];
 	pseudo_bit_t cmd_sn[0x00002];
 	pseudo_bit_t reserved2[0x00002];
 } __attribute__ (( packed ));

 struct hermonprm_send_db_register_st {
 	pseudo_bit_t reserved[0x00008];
 	pseudo_bit_t qn[0x00018];
 } __attribute__ (( packed ));

 struct hermonprm_event_db_register_st {
 	pseudo_bit_t ci[0x00018];
 	pseudo_bit_t reserver[0x00007];
 	pseudo_bit_t a[0x00001];
 } __attribute__ (( packed ));

 struct hermonprm_scalar_parameter_st {
 	pseudo_bit_t value_hi[0x00020];
 /* -------------- */
 	pseudo_bit_t value[0x00020];
 } __attribute__ (( packed ));

 struct hermonprm_event_mask_st {
 	pseudo_bit_t reserved0[0x00020];
 /* -------------- */
 	pseudo_bit_t completion[0x00001];
 	pseudo_bit_t reserved1[0x0008];
 	pseudo_bit_t port_state_change[0x00001];
 	pseudo_bit_t reserved2[0x00016];
 } __attribute__ (( packed ));

 struct hermonprm_port_state_change_event_st {
 	pseudo_bit_t reserved[0x00020];
 	struct hermonprm_port_state_change_st data;
 } __attribute__ (( packed ));

 /** Hermon sense port */
 struct hermonprm_sense_port_st {
 	pseudo_bit_t port_type[0x00020];
 /* -------------- */
 	pseudo_bit_t reserved[0x00020];
 };
 #define HERMON_PORT_TYPE_IB		1

 /*
  * Wrapper structures for hardware datatypes
  *
  */

 struct MLX_DECLARE_STRUCT ( hermonprm_completion_queue_context );
 struct MLX_DECLARE_STRUCT ( hermonprm_completion_queue_entry );
 struct MLX_DECLARE_STRUCT ( hermonprm_completion_with_error );
 struct MLX_DECLARE_STRUCT ( hermonprm_cq_db_record );
 struct MLX_DECLARE_STRUCT ( hermonprm_eqc );
 struct MLX_DECLARE_STRUCT ( hermonprm_event_db_register );
 struct MLX_DECLARE_STRUCT ( hermonprm_event_mask );
 struct MLX_DECLARE_STRUCT ( hermonprm_event_queue_entry );
 struct MLX_DECLARE_STRUCT ( hermonprm_hca_command_register );
 struct MLX_DECLARE_STRUCT ( hermonprm_init_hca );
 struct MLX_DECLARE_STRUCT ( hermonprm_init_port );
 struct MLX_DECLARE_STRUCT ( hermonprm_mad_ifc );
 struct MLX_DECLARE_STRUCT ( hermonprm_mcg_entry );
 struct MLX_DECLARE_STRUCT ( hermonprm_mgm_hash );
 struct MLX_DECLARE_STRUCT ( hermonprm_mpt );
 struct MLX_DECLARE_STRUCT ( hermonprm_mtt );
 struct MLX_DECLARE_STRUCT ( hermonprm_port_state_change_event );
 struct MLX_DECLARE_STRUCT ( hermonprm_qp_db_record );
 struct MLX_DECLARE_STRUCT ( hermonprm_qp_ee_state_transitions );
 struct MLX_DECLARE_STRUCT ( hermonprm_query_dev_cap );
 struct MLX_DECLARE_STRUCT ( hermonprm_query_fw );
 struct MLX_DECLARE_STRUCT ( hermonprm_queue_pair_ee_context_entry );
 struct MLX_DECLARE_STRUCT ( hermonprm_scalar_parameter );
 struct MLX_DECLARE_STRUCT ( hermonprm_sense_port );
 struct MLX_DECLARE_STRUCT ( hermonprm_send_db_register );
 struct MLX_DECLARE_STRUCT ( hermonprm_ud_address_vector );
 struct MLX_DECLARE_STRUCT ( hermonprm_virtual_physical_mapping );
 struct MLX_DECLARE_STRUCT ( hermonprm_wqe_segment_ctrl_mlx );
 struct MLX_DECLARE_STRUCT ( hermonprm_wqe_segment_ctrl_send );
 struct MLX_DECLARE_STRUCT ( hermonprm_wqe_segment_data_ptr );
 struct MLX_DECLARE_STRUCT ( hermonprm_wqe_segment_ud );

 /*
  * Composite hardware datatypes
  *
  */

 struct hermonprm_write_mtt {
 	struct hermonprm_scalar_parameter mtt_base_addr;
 	struct hermonprm_scalar_parameter reserved;
 	struct hermonprm_mtt mtt;
 } __attribute__ (( packed ));

 #define HERMON_MAX_GATHER 2

 struct hermonprm_ud_send_wqe {
 	struct hermonprm_wqe_segment_ctrl_send ctrl;
 	struct hermonprm_wqe_segment_ud ud;
 	struct hermonprm_wqe_segment_data_ptr data[HERMON_MAX_GATHER];
 } __attribute__ (( packed ));

 struct hermonprm_mlx_send_wqe {
 	struct hermonprm_wqe_segment_ctrl_mlx ctrl;
 	struct hermonprm_wqe_segment_data_ptr data[HERMON_MAX_GATHER];
 	uint8_t headers[IB_MAX_HEADER_SIZE];
 } __attribute__ (( packed ));

 struct hermonprm_rc_send_wqe {
 	struct hermonprm_wqe_segment_ctrl_send ctrl;
 	struct hermonprm_wqe_segment_data_ptr data[HERMON_MAX_GATHER];
 } __attribute__ (( packed ));

 #define HERMON_MAX_SCATTER 1

 struct hermonprm_recv_wqe {
 	struct hermonprm_wqe_segment_data_ptr data[HERMON_MAX_SCATTER];
 } __attribute__ (( packed ));

 union hermonprm_completion_entry {
 	struct hermonprm_completion_queue_entry normal;
 	struct hermonprm_completion_with_error error;
 } __attribute__ (( packed ));

 union hermonprm_event_entry {
 	struct hermonprm_event_queue_entry generic;
 	struct hermonprm_port_state_change_event port_state_change;
 } __attribute__ (( packed ));

 union hermonprm_doorbell_register {
 	struct hermonprm_send_db_register send;
 	struct hermonprm_event_db_register event;
 	uint32_t dword[1];
 } __attribute__ (( packed ));

 union hermonprm_mad {
 	struct hermonprm_mad_ifc ifc;
 	union ib_mad mad;
 } __attribute__ (( packed ));

 /*
  * gPXE-specific definitions
  *
  */

 /** Hermon device capabilitiess */
 struct hermon_dev_cap {
 	/** CMPT entry size */
 	size_t cmpt_entry_size;
 	/** Number of reserved QPs */
 	unsigned int reserved_qps;
 	/** QP context entry size */
 	size_t qpc_entry_size;
 	/** Alternate path context entry size */
 	size_t altc_entry_size;
 	/** Auxiliary context entry size */
 	size_t auxc_entry_size;
 	/** Number of reserved SRQs */
 	unsigned int reserved_srqs;
 	/** SRQ context entry size */
 	size_t srqc_entry_size;
 	/** Number of reserved CQs */
 	unsigned int reserved_cqs;
 	/** CQ context entry size */
 	size_t cqc_entry_size;
 	/** Number of reserved EQs */
 	unsigned int reserved_eqs;
 	/** EQ context entry size */
 	size_t eqc_entry_size;
 	/** Number of reserved MTTs */
 	unsigned int reserved_mtts;
 	/** MTT entry size */
 	size_t mtt_entry_size;
 	/** Number of reserved MRWs */
 	unsigned int reserved_mrws;
 	/** DMPT entry size */
 	size_t dmpt_entry_size;
 	/** Number of reserved UARs */
 	unsigned int reserved_uars;
 	/** Number of ports */
 	unsigned int num_ports;
 	/** Dual-port different protocol */
 	int dpdp;
 };

 /** Number of cMPT entries of each type */
 #define HERMON_CMPT_MAX_ENTRIES ( 1 << 24 )

 /** Hermon ICM memory map entry */
 struct hermon_icm_map {
 	/** Offset (virtual address within ICM) */
 	uint64_t offset;
 	/** Length */
 	size_t len;
 };

 /** Discontiguous regions within Hermon ICM */
 enum hermon_icm_map_regions {
 	HERMON_ICM_QP_CMPT = 0,
 	HERMON_ICM_SRQ_CMPT,
 	HERMON_ICM_CQ_CMPT,
 	HERMON_ICM_EQ_CMPT,
 	HERMON_ICM_OTHER,
 	HERMON_ICM_NUM_REGIONS
 };

 /** UAR page for doorbell accesses
  *
  * Pages 0-127 are reserved for event queue doorbells only, so we use
  * page 128.
  */
 #define HERMON_UAR_NON_EQ_PAGE	128

 /** Maximum number of allocatable MTT entries
  *
  * This is a policy decision, not a device limit.
  */
 #define HERMON_MAX_MTTS		64

 /** A Hermon MTT descriptor */
 struct hermon_mtt {
 	/** MTT offset */
 	unsigned int mtt_offset;
 	/** Number of pages */
 	unsigned int num_pages;
 	/** MTT base address */
 	unsigned int mtt_base_addr;
 	/** Offset within page */
 	unsigned int page_offset;
 };

 /** Alignment of Hermon send work queue entries */
 #define HERMON_SEND_WQE_ALIGN 128

 /** A Hermon send work queue entry */
 union hermon_send_wqe {
 	struct hermonprm_wqe_segment_ctrl_send ctrl;
 	struct hermonprm_ud_send_wqe ud;
 	struct hermonprm_mlx_send_wqe mlx;
 	struct hermonprm_rc_send_wqe rc;
 	uint8_t force_align[HERMON_SEND_WQE_ALIGN];
 } __attribute__ (( packed ));

 /** A Hermon send work queue */
 struct hermon_send_work_queue {
 	/** Number of work queue entries, including headroom
 	 *
 	 * Hermon requires us to leave unused space within the send
 	 * WQ, so we create a send WQ with more entries than are
 	 * requested in the create_qp() call.
 	 */
 	unsigned int num_wqes;
 	/** Work queue entries */
 	union hermon_send_wqe *wqe;
 	/** Size of work queue */
 	size_t wqe_size;
 	/** Doorbell register */
 	void *doorbell;
 };

 /** Alignment of Hermon receive work queue entries */
 #define HERMON_RECV_WQE_ALIGN 16

 /** A Hermon receive work queue entry */
 union hermon_recv_wqe {
 	struct hermonprm_recv_wqe recv;
 	uint8_t force_align[HERMON_RECV_WQE_ALIGN];
 } __attribute__ (( packed ));

 /** A Hermon receive work queue */
 struct hermon_recv_work_queue {
 	/** Work queue entries */
 	union hermon_recv_wqe *wqe;
 	/** Size of work queue */
 	size_t wqe_size;
 	/** Doorbell */
 	struct hermonprm_qp_db_record doorbell __attribute__ (( aligned (4) ));
 };

 /** Number of special queue pairs */
 #define HERMON_NUM_SPECIAL_QPS 8

 /** Number of queue pairs reserved for the "special QP" block
  *
  * The special QPs must be within a contiguous block aligned on its
  * own size.
  */
 #define HERMON_RSVD_SPECIAL_QPS	( ( HERMON_NUM_SPECIAL_QPS << 1 ) - 1 )

 /** Maximum number of allocatable queue pairs
  *
  * This is a policy decision, not a device limit.
  */
 #define HERMON_MAX_QPS		8

 /** Queue pair number randomisation mask */
 #define HERMON_QPN_RANDOM_MASK 0xfff000

 /** Hermon queue pair state */
 enum hermon_queue_pair_state {
 	HERMON_QP_ST_RST = 0,
 	HERMON_QP_ST_INIT,
 	HERMON_QP_ST_RTR,
 	HERMON_QP_ST_RTS,
 };

 /** A Hermon queue pair */
 struct hermon_queue_pair {
 	/** Work queue buffer */
 	void *wqe;
 	/** Size of work queue buffer */
 	size_t wqe_size;
 	/** MTT descriptor */
 	struct hermon_mtt mtt;
 	/** Send work queue */
 	struct hermon_send_work_queue send;
 	/** Receive work queue */
 	struct hermon_recv_work_queue recv;
 	/** Queue state */
 	enum hermon_queue_pair_state state;
 };

 /** Maximum number of allocatable completion queues
  *
  * This is a policy decision, not a device limit.
  */
 #define HERMON_MAX_CQS		8

 /** A Hermon completion queue */
 struct hermon_completion_queue {
 	/** Completion queue entries */
 	union hermonprm_completion_entry *cqe;
 	/** Size of completion queue */
 	size_t cqe_size;
 	/** MTT descriptor */
 	struct hermon_mtt mtt;
 	/** Doorbell */
 	struct hermonprm_cq_db_record doorbell __attribute__ (( aligned (8) ));
 };

 /** Maximum number of allocatable event queues
  *
  * This is a policy decision, not a device limit.
  */
 #define HERMON_MAX_EQS		8

 /** A Hermon event queue */
 struct hermon_event_queue {
 	/** Event queue entries */
 	union hermonprm_event_entry *eqe;
 	/** Size of event queue */
 	size_t eqe_size;
 	/** MTT descriptor */
 	struct hermon_mtt mtt;
 	/** Event queue number */
 	unsigned long eqn;
 	/** Next event queue entry index */
 	unsigned long next_idx;
 	/** Doorbell register */
 	void *doorbell;
 };

 /** Number of event queue entries
  *
  * This is a policy decision.
  */
 #define HERMON_NUM_EQES		4

 /** A Hermon resource bitmask */
 typedef uint32_t hermon_bitmask_t;

 /** Size of a hermon resource bitmask */
 #define HERMON_BITMASK_SIZE(max_entries)				     \
 	( ( (max_entries) + ( 8 * sizeof ( hermon_bitmask_t ) ) - 1 ) /	     \
 	  ( 8 * sizeof ( hermon_bitmask_t ) ) )

 /** A Hermon device */
 struct hermon {
 	/** PCI configuration registers */
 	void *config;
 	/** PCI user Access Region */
 	void *uar;

 	/** Command toggle */
 	unsigned int toggle;
 	/** Command input mailbox */
 	void *mailbox_in;
 	/** Command output mailbox */
 	void *mailbox_out;

 	/** Firmware area in external memory */
 	userptr_t firmware_area;
 	/** ICM map */
 	struct hermon_icm_map icm_map[HERMON_ICM_NUM_REGIONS];
 	/** ICM area */
 	userptr_t icm;

 	/** Event queue */
 	struct hermon_event_queue eq;
 	/** Unrestricted LKey
 	 *
 	 * Used to get unrestricted memory access.
 	 */
 	unsigned long lkey;

 	/** Completion queue in-use bitmask */
 	hermon_bitmask_t cq_inuse[ HERMON_BITMASK_SIZE ( HERMON_MAX_CQS ) ];
 	/** Queue pair in-use bitmask */
 	hermon_bitmask_t qp_inuse[ HERMON_BITMASK_SIZE ( HERMON_MAX_QPS ) ];
 	/** MTT entry in-use bitmask */
 	hermon_bitmask_t mtt_inuse[ HERMON_BITMASK_SIZE ( HERMON_MAX_MTTS ) ];

 	/** Device capabilities */
 	struct hermon_dev_cap cap;
 	/** Special QPN base */
 	unsigned long special_qpn_base;
 	/** QPN base */
 	unsigned long qpn_base;

 	/** Infiniband devices */
 	struct ib_device *ibdev[HERMON_MAX_PORTS];
 };

 /** Global protection domain */
 #define HERMON_GLOBAL_PD		0x123456

 /** Memory key prefix */
 #define HERMON_MKEY_PREFIX		0x77000000UL

 /*
  * HCA commands
  *
  */

 #define HERMON_HCR_BASE			0x80680
 #define HERMON_HCR_REG(x)		( HERMON_HCR_BASE + 4 * (x) )
 #define HERMON_HCR_MAX_WAIT_MS		2000
 #define HERMON_MBOX_ALIGN		4096
 #define HERMON_MBOX_SIZE		512

 /* HCA command is split into
  *
  * bits  11:0	Opcode
  * bit     12	Input uses mailbox
  * bit     13	Output uses mailbox
  * bits 22:14	Input parameter length (in dwords)
  * bits 31:23	Output parameter length (in dwords)
  *
  * Encoding the information in this way allows us to cut out several
  * parameters to the hermon_command() call.
  */
 #define HERMON_HCR_IN_MBOX		0x00001000UL
 #define HERMON_HCR_OUT_MBOX		0x00002000UL
 #define HERMON_HCR_OPCODE( _command )	( (_command) & 0xfff )
 #define HERMON_HCR_IN_LEN( _command )	( ( (_command) >> 12 ) & 0x7fc )
 #define HERMON_HCR_OUT_LEN( _command )	( ( (_command) >> 21 ) & 0x7fc )

 /** Build HCR command from component parts */
 #define HERMON_HCR_INOUT_CMD( _opcode, _in_mbox, _in_len,		     \
 			     _out_mbox, _out_len )			     \
 	( (_opcode) |							     \
 	  ( (_in_mbox) ? HERMON_HCR_IN_MBOX : 0 ) |			     \
 	  ( ( (_in_len) / 4 ) << 14 ) |					     \
 	  ( (_out_mbox) ? HERMON_HCR_OUT_MBOX : 0 ) |			     \
 	  ( ( (_out_len) / 4 ) << 23 ) )

 #define HERMON_HCR_IN_CMD( _opcode, _in_mbox, _in_len )			     \
 	HERMON_HCR_INOUT_CMD ( _opcode, _in_mbox, _in_len, 0, 0 )

 #define HERMON_HCR_OUT_CMD( _opcode, _out_mbox, _out_len )		     \
 	HERMON_HCR_INOUT_CMD ( _opcode, 0, 0, _out_mbox, _out_len )

 #define HERMON_HCR_VOID_CMD( _opcode )					     \
 	HERMON_HCR_INOUT_CMD ( _opcode, 0, 0, 0, 0 )

 #endif /* _HERMON_H */
	#ifndef _HERMON_H
	#define _HERMON_H

	/** @file
	*
	* Mellanox Hermon Infiniband HCA driver
	*
	*/

	FILE_LICENCE ( GPL2_OR_LATER );

	#include <stdint.h>
	#include <gpxe/uaccess.h>
	#include <gpxe/ib_packet.h>
	#include "mlx_bitops.h"
	#include "MT25408_PRM.h"

	/*
	* Hardware constants
	*
	*/

	/* Ports in existence */
	#define HERMON_MAX_PORTS 2
	#define HERMON_PORT_BASE 1

	/* PCI BARs */
	#define HERMON_PCI_CONFIG_BAR PCI_BASE_ADDRESS_0
	#define HERMON_PCI_CONFIG_BAR_SIZE 0x100000
	#define HERMON_PCI_UAR_BAR PCI_BASE_ADDRESS_2

	/* Device reset */
	#define HERMON_RESET_OFFSET 0x0f0010
	#define HERMON_RESET_MAGIC 0x01000000UL
	#define HERMON_RESET_WAIT_TIME_MS 1000

	/* Work queue entry and completion queue entry opcodes */
	#define HERMON_OPCODE_NOP 0x00
	#define HERMON_OPCODE_SEND 0x0a
	#define HERMON_OPCODE_RECV_ERROR 0xfe
	#define HERMON_OPCODE_SEND_ERROR 0xff

	/* HCA command register opcodes */
	#define HERMON_HCR_QUERY_DEV_CAP 0x0003
	#define HERMON_HCR_QUERY_FW 0x0004
	#define HERMON_HCR_INIT_HCA 0x0007
	#define HERMON_HCR_CLOSE_HCA 0x0008
	#define HERMON_HCR_INIT_PORT 0x0009
	#define HERMON_HCR_CLOSE_PORT 0x000a
	#define HERMON_HCR_SW2HW_MPT 0x000d
	#define HERMON_HCR_WRITE_MTT 0x0011
	#define HERMON_HCR_MAP_EQ 0x0012
	#define HERMON_HCR_SW2HW_EQ 0x0013
	#define HERMON_HCR_HW2SW_EQ 0x0014
	#define HERMON_HCR_QUERY_EQ 0x0015
	#define HERMON_HCR_SW2HW_CQ 0x0016
	#define HERMON_HCR_HW2SW_CQ 0x0017
	#define HERMON_HCR_RST2INIT_QP 0x0019
	#define HERMON_HCR_INIT2RTR_QP 0x001a
	#define HERMON_HCR_RTR2RTS_QP 0x001b
	#define HERMON_HCR_RTS2RTS_QP 0x001c
	#define HERMON_HCR_2RST_QP 0x0021
	#define HERMON_HCR_QUERY_QP 0x0022
	#define HERMON_HCR_CONF_SPECIAL_QP 0x0023
	#define HERMON_HCR_MAD_IFC 0x0024
	#define HERMON_HCR_READ_MCG 0x0025
	#define HERMON_HCR_WRITE_MCG 0x0026
	#define HERMON_HCR_MGID_HASH 0x0027
	#define HERMON_HCR_SENSE_PORT 0x004d
	#define HERMON_HCR_RUN_FW 0x0ff6
	#define HERMON_HCR_DISABLE_LAM 0x0ff7
	#define HERMON_HCR_ENABLE_LAM 0x0ff8
	#define HERMON_HCR_UNMAP_ICM 0x0ff9
	#define HERMON_HCR_MAP_ICM 0x0ffa
	#define HERMON_HCR_UNMAP_ICM_AUX 0x0ffb
	#define HERMON_HCR_MAP_ICM_AUX 0x0ffc
	#define HERMON_HCR_SET_ICM_SIZE 0x0ffd
	#define HERMON_HCR_UNMAP_FA 0x0ffe
	#define HERMON_HCR_MAP_FA 0x0fff

	/* Service types */
	#define HERMON_ST_RC 0x00
	#define HERMON_ST_UD 0x03
	#define HERMON_ST_MLX 0x07

	/* MTUs */
	#define HERMON_MTU_2048 0x04

	#define HERMON_INVALID_LKEY 0x00000100UL

	#define HERMON_PAGE_SIZE 4096

	#define HERMON_DB_POST_SND_OFFSET 0x14
	#define HERMON_DB_EQ_OFFSET(_eqn) \
	( 0x800 + HERMON_PAGE_SIZE * ( (_eqn) / 4 ) + 0x08 * ( (_eqn) % 4 ) )

	#define HERMON_QP_OPT_PARAM_PM_STATE 0x00000400UL
	#define HERMON_QP_OPT_PARAM_QKEY 0x00000020UL
	#define HERMON_QP_OPT_PARAM_ALT_PATH 0x00000001UL

	#define HERMON_MAP_EQ ( 0UL << 31 )
	#define HERMON_UNMAP_EQ ( 1UL << 31 )

	#define HERMON_EV_PORT_STATE_CHANGE 0x09

	#define HERMON_SCHED_QP0 0x3f
	#define HERMON_SCHED_DEFAULT 0x83

	#define HERMON_PM_STATE_ARMED 0x00
	#define HERMON_PM_STATE_REARM 0x01
	#define HERMON_PM_STATE_MIGRATED 0x03

	#define HERMON_RETRY_MAX 0x07

	/*
	* Datatypes that seem to be missing from the autogenerated documentation
	*
	*/
	struct hermonprm_mgm_hash_st {
	pseudo_bit_t reserved0[0x00020];
	/* -------------- */
	pseudo_bit_t hash[0x00010];
	pseudo_bit_t reserved1[0x00010];
	} __attribute__ (( packed ));

	struct hermonprm_mcg_entry_st {
	struct hermonprm_mcg_hdr_st hdr;
	struct hermonprm_mcg_qp_dw_st qp[8];
	} __attribute__ (( packed ));

	struct hermonprm_cq_db_record_st {
	pseudo_bit_t update_ci[0x00018];
	pseudo_bit_t reserved0[0x00008];
	/* -------------- */
	pseudo_bit_t arm_ci[0x00018];
	pseudo_bit_t cmd[0x00003];
	pseudo_bit_t reserved1[0x00001];
	pseudo_bit_t cmd_sn[0x00002];
	pseudo_bit_t reserved2[0x00002];
	} __attribute__ (( packed ));

	struct hermonprm_send_db_register_st {
	pseudo_bit_t reserved[0x00008];
	pseudo_bit_t qn[0x00018];
	} __attribute__ (( packed ));

	struct hermonprm_event_db_register_st {
	pseudo_bit_t ci[0x00018];
	pseudo_bit_t reserver[0x00007];
	pseudo_bit_t a[0x00001];
	} __attribute__ (( packed ));

	struct hermonprm_scalar_parameter_st {
	pseudo_bit_t value_hi[0x00020];
	/* -------------- */
	pseudo_bit_t value[0x00020];
	} __attribute__ (( packed ));

	struct hermonprm_event_mask_st {
	pseudo_bit_t reserved0[0x00020];
	/* -------------- */
	pseudo_bit_t completion[0x00001];
	pseudo_bit_t reserved1[0x0008];
	pseudo_bit_t port_state_change[0x00001];
	pseudo_bit_t reserved2[0x00016];
	} __attribute__ (( packed ));

	struct hermonprm_port_state_change_event_st {
	pseudo_bit_t reserved[0x00020];
	struct hermonprm_port_state_change_st data;
	} __attribute__ (( packed ));

	/** Hermon sense port */
	struct hermonprm_sense_port_st {
	pseudo_bit_t port_type[0x00020];
	/* -------------- */
	pseudo_bit_t reserved[0x00020];
	};
	#define HERMON_PORT_TYPE_IB 1

	/*
	* Wrapper structures for hardware datatypes
	*
	*/

	struct MLX_DECLARE_STRUCT ( hermonprm_completion_queue_context );
	struct MLX_DECLARE_STRUCT ( hermonprm_completion_queue_entry );
	struct MLX_DECLARE_STRUCT ( hermonprm_completion_with_error );
	struct MLX_DECLARE_STRUCT ( hermonprm_cq_db_record );
	struct MLX_DECLARE_STRUCT ( hermonprm_eqc );
	struct MLX_DECLARE_STRUCT ( hermonprm_event_db_register );
	struct MLX_DECLARE_STRUCT ( hermonprm_event_mask );
	struct MLX_DECLARE_STRUCT ( hermonprm_event_queue_entry );
	struct MLX_DECLARE_STRUCT ( hermonprm_hca_command_register );
	struct MLX_DECLARE_STRUCT ( hermonprm_init_hca );
	struct MLX_DECLARE_STRUCT ( hermonprm_init_port );
	struct MLX_DECLARE_STRUCT ( hermonprm_mad_ifc );
	struct MLX_DECLARE_STRUCT ( hermonprm_mcg_entry );
	struct MLX_DECLARE_STRUCT ( hermonprm_mgm_hash );
	struct MLX_DECLARE_STRUCT ( hermonprm_mpt );
	struct MLX_DECLARE_STRUCT ( hermonprm_mtt );
	struct MLX_DECLARE_STRUCT ( hermonprm_port_state_change_event );
	struct MLX_DECLARE_STRUCT ( hermonprm_qp_db_record );
	struct MLX_DECLARE_STRUCT ( hermonprm_qp_ee_state_transitions );
	struct MLX_DECLARE_STRUCT ( hermonprm_query_dev_cap );
	struct MLX_DECLARE_STRUCT ( hermonprm_query_fw );
	struct MLX_DECLARE_STRUCT ( hermonprm_queue_pair_ee_context_entry );
	struct MLX_DECLARE_STRUCT ( hermonprm_scalar_parameter );
	struct MLX_DECLARE_STRUCT ( hermonprm_sense_port );
	struct MLX_DECLARE_STRUCT ( hermonprm_send_db_register );
	struct MLX_DECLARE_STRUCT ( hermonprm_ud_address_vector );
	struct MLX_DECLARE_STRUCT ( hermonprm_virtual_physical_mapping );
	struct MLX_DECLARE_STRUCT ( hermonprm_wqe_segment_ctrl_mlx );
	struct MLX_DECLARE_STRUCT ( hermonprm_wqe_segment_ctrl_send );
	struct MLX_DECLARE_STRUCT ( hermonprm_wqe_segment_data_ptr );
	struct MLX_DECLARE_STRUCT ( hermonprm_wqe_segment_ud );

	/*
	* Composite hardware datatypes
	*
	*/

	struct hermonprm_write_mtt {
	struct hermonprm_scalar_parameter mtt_base_addr;
	struct hermonprm_scalar_parameter reserved;
	struct hermonprm_mtt mtt;
	} __attribute__ (( packed ));

	#define HERMON_MAX_GATHER 2

	struct hermonprm_ud_send_wqe {
	struct hermonprm_wqe_segment_ctrl_send ctrl;
	struct hermonprm_wqe_segment_ud ud;
	struct hermonprm_wqe_segment_data_ptr data[HERMON_MAX_GATHER];
	} __attribute__ (( packed ));

	struct hermonprm_mlx_send_wqe {
	struct hermonprm_wqe_segment_ctrl_mlx ctrl;
	struct hermonprm_wqe_segment_data_ptr data[HERMON_MAX_GATHER];
	uint8_t headers[IB_MAX_HEADER_SIZE];
	} __attribute__ (( packed ));

	struct hermonprm_rc_send_wqe {
	struct hermonprm_wqe_segment_ctrl_send ctrl;
	struct hermonprm_wqe_segment_data_ptr data[HERMON_MAX_GATHER];
	} __attribute__ (( packed ));

	#define HERMON_MAX_SCATTER 1

	struct hermonprm_recv_wqe {
	struct hermonprm_wqe_segment_data_ptr data[HERMON_MAX_SCATTER];
	} __attribute__ (( packed ));

	union hermonprm_completion_entry {
	struct hermonprm_completion_queue_entry normal;
	struct hermonprm_completion_with_error error;
	} __attribute__ (( packed ));

	union hermonprm_event_entry {
	struct hermonprm_event_queue_entry generic;
	struct hermonprm_port_state_change_event port_state_change;
	} __attribute__ (( packed ));

	union hermonprm_doorbell_register {
	struct hermonprm_send_db_register send;
	struct hermonprm_event_db_register event;
	uint32_t dword[1];
	} __attribute__ (( packed ));

	union hermonprm_mad {
	struct hermonprm_mad_ifc ifc;
	union ib_mad mad;
	} __attribute__ (( packed ));

	/*
	* gPXE-specific definitions
	*
	*/

	/** Hermon device capabilitiess */
	struct hermon_dev_cap {
	/** CMPT entry size */
	size_t cmpt_entry_size;
	/** Number of reserved QPs */
	unsigned int reserved_qps;
	/** QP context entry size */
	size_t qpc_entry_size;
	/** Alternate path context entry size */
	size_t altc_entry_size;
	/** Auxiliary context entry size */
	size_t auxc_entry_size;
	/** Number of reserved SRQs */
	unsigned int reserved_srqs;
	/** SRQ context entry size */
	size_t srqc_entry_size;
	/** Number of reserved CQs */
	unsigned int reserved_cqs;
	/** CQ context entry size */
	size_t cqc_entry_size;
	/** Number of reserved EQs */
	unsigned int reserved_eqs;
	/** EQ context entry size */
	size_t eqc_entry_size;
	/** Number of reserved MTTs */
	unsigned int reserved_mtts;
	/** MTT entry size */
	size_t mtt_entry_size;
	/** Number of reserved MRWs */
	unsigned int reserved_mrws;
	/** DMPT entry size */
	size_t dmpt_entry_size;
	/** Number of reserved UARs */
	unsigned int reserved_uars;
	/** Number of ports */
	unsigned int num_ports;
	/** Dual-port different protocol */
	int dpdp;
	};

	/** Number of cMPT entries of each type */
	#define HERMON_CMPT_MAX_ENTRIES ( 1 << 24 )

	/** Hermon ICM memory map entry */
	struct hermon_icm_map {
	/** Offset (virtual address within ICM) */
	uint64_t offset;
	/** Length */
	size_t len;
	};

	/** Discontiguous regions within Hermon ICM */
	enum hermon_icm_map_regions {
	HERMON_ICM_QP_CMPT = 0,
	HERMON_ICM_SRQ_CMPT,
	HERMON_ICM_CQ_CMPT,
	HERMON_ICM_EQ_CMPT,
	HERMON_ICM_OTHER,
	HERMON_ICM_NUM_REGIONS
	};

	/** UAR page for doorbell accesses
	*
	* Pages 0-127 are reserved for event queue doorbells only, so we use
	* page 128.
	*/
	#define HERMON_UAR_NON_EQ_PAGE 128

	/** Maximum number of allocatable MTT entries
	*
	* This is a policy decision, not a device limit.
	*/
	#define HERMON_MAX_MTTS 64

	/** A Hermon MTT descriptor */
	struct hermon_mtt {
	/** MTT offset */
	unsigned int mtt_offset;
	/** Number of pages */
	unsigned int num_pages;
	/** MTT base address */
	unsigned int mtt_base_addr;
	/** Offset within page */
	unsigned int page_offset;
	};

	/** Alignment of Hermon send work queue entries */
	#define HERMON_SEND_WQE_ALIGN 128

	/** A Hermon send work queue entry */
	union hermon_send_wqe {
	struct hermonprm_wqe_segment_ctrl_send ctrl;
	struct hermonprm_ud_send_wqe ud;
	struct hermonprm_mlx_send_wqe mlx;
	struct hermonprm_rc_send_wqe rc;
	uint8_t force_align[HERMON_SEND_WQE_ALIGN];
	} __attribute__ (( packed ));

	/** A Hermon send work queue */
	struct hermon_send_work_queue {
	/** Number of work queue entries, including headroom
	*
	* Hermon requires us to leave unused space within the send
	* WQ, so we create a send WQ with more entries than are
	* requested in the create_qp() call.
	*/
	unsigned int num_wqes;
	/** Work queue entries */
	union hermon_send_wqe *wqe;
	/** Size of work queue */
	size_t wqe_size;
	/** Doorbell register */
	void *doorbell;
	};

	/** Alignment of Hermon receive work queue entries */
	#define HERMON_RECV_WQE_ALIGN 16

	/** A Hermon receive work queue entry */
	union hermon_recv_wqe {
	struct hermonprm_recv_wqe recv;
	uint8_t force_align[HERMON_RECV_WQE_ALIGN];
	} __attribute__ (( packed ));

	/** A Hermon receive work queue */
	struct hermon_recv_work_queue {
	/** Work queue entries */
	union hermon_recv_wqe *wqe;
	/** Size of work queue */
	size_t wqe_size;
	/** Doorbell */
	struct hermonprm_qp_db_record doorbell __attribute__ (( aligned (4) ));
	};

	/** Number of special queue pairs */
	#define HERMON_NUM_SPECIAL_QPS 8

	/** Number of queue pairs reserved for the "special QP" block
	*
	* The special QPs must be within a contiguous block aligned on its
	* own size.
	*/
	#define HERMON_RSVD_SPECIAL_QPS ( ( HERMON_NUM_SPECIAL_QPS << 1 ) - 1 )

	/** Maximum number of allocatable queue pairs
	*
	* This is a policy decision, not a device limit.
	*/
	#define HERMON_MAX_QPS 8

	/** Queue pair number randomisation mask */
	#define HERMON_QPN_RANDOM_MASK 0xfff000

	/** Hermon queue pair state */
	enum hermon_queue_pair_state {
	HERMON_QP_ST_RST = 0,
	HERMON_QP_ST_INIT,
	HERMON_QP_ST_RTR,
	HERMON_QP_ST_RTS,
	};

	/** A Hermon queue pair */
	struct hermon_queue_pair {
	/** Work queue buffer */
	void *wqe;
	/** Size of work queue buffer */
	size_t wqe_size;
	/** MTT descriptor */
	struct hermon_mtt mtt;
	/** Send work queue */
	struct hermon_send_work_queue send;
	/** Receive work queue */
	struct hermon_recv_work_queue recv;
	/** Queue state */
	enum hermon_queue_pair_state state;
	};

	/** Maximum number of allocatable completion queues
	*
	* This is a policy decision, not a device limit.
	*/
	#define HERMON_MAX_CQS 8

	/** A Hermon completion queue */
	struct hermon_completion_queue {
	/** Completion queue entries */
	union hermonprm_completion_entry *cqe;
	/** Size of completion queue */
	size_t cqe_size;
	/** MTT descriptor */
	struct hermon_mtt mtt;
	/** Doorbell */
	struct hermonprm_cq_db_record doorbell __attribute__ (( aligned (8) ));
	};

	/** Maximum number of allocatable event queues
	*
	* This is a policy decision, not a device limit.
	*/
	#define HERMON_MAX_EQS 8

	/** A Hermon event queue */
	struct hermon_event_queue {
	/** Event queue entries */
	union hermonprm_event_entry *eqe;
	/** Size of event queue */
	size_t eqe_size;
	/** MTT descriptor */
	struct hermon_mtt mtt;
	/** Event queue number */
	unsigned long eqn;
	/** Next event queue entry index */
	unsigned long next_idx;
	/** Doorbell register */
	void *doorbell;
	};

	/** Number of event queue entries
	*
	* This is a policy decision.
	*/
	#define HERMON_NUM_EQES 4

	/** A Hermon resource bitmask */
	typedef uint32_t hermon_bitmask_t;

	/** Size of a hermon resource bitmask */
	#define HERMON_BITMASK_SIZE(max_entries) \
	( ( (max_entries) + ( 8 * sizeof ( hermon_bitmask_t ) ) - 1 ) / \
	( 8 * sizeof ( hermon_bitmask_t ) ) )

	/** A Hermon device */
	struct hermon {
	/** PCI configuration registers */
	void *config;
	/** PCI user Access Region */
	void *uar;

	/** Command toggle */
	unsigned int toggle;
	/** Command input mailbox */
	void *mailbox_in;
	/** Command output mailbox */
	void *mailbox_out;

	/** Firmware area in external memory */
	userptr_t firmware_area;
	/** ICM map */
	struct hermon_icm_map icm_map[HERMON_ICM_NUM_REGIONS];
	/** ICM area */
	userptr_t icm;

	/** Event queue */
	struct hermon_event_queue eq;
	/** Unrestricted LKey
	*
	* Used to get unrestricted memory access.
	*/
	unsigned long lkey;

	/** Completion queue in-use bitmask */
	hermon_bitmask_t cq_inuse[ HERMON_BITMASK_SIZE ( HERMON_MAX_CQS ) ];
	/** Queue pair in-use bitmask */
	hermon_bitmask_t qp_inuse[ HERMON_BITMASK_SIZE ( HERMON_MAX_QPS ) ];
	/** MTT entry in-use bitmask */
	hermon_bitmask_t mtt_inuse[ HERMON_BITMASK_SIZE ( HERMON_MAX_MTTS ) ];

	/** Device capabilities */
	struct hermon_dev_cap cap;
	/** Special QPN base */
	unsigned long special_qpn_base;
	/** QPN base */
	unsigned long qpn_base;

	/** Infiniband devices */
	struct ib_device *ibdev[HERMON_MAX_PORTS];
	};

	/** Global protection domain */
	#define HERMON_GLOBAL_PD 0x123456

	/** Memory key prefix */
	#define HERMON_MKEY_PREFIX 0x77000000UL

	/*
	* HCA commands
	*
	*/

	#define HERMON_HCR_BASE 0x80680
	#define HERMON_HCR_REG(x) ( HERMON_HCR_BASE + 4 * (x) )
	#define HERMON_HCR_MAX_WAIT_MS 2000
	#define HERMON_MBOX_ALIGN 4096
	#define HERMON_MBOX_SIZE 512

	/* HCA command is split into
	*
	* bits 11:0 Opcode
	* bit 12 Input uses mailbox
	* bit 13 Output uses mailbox
	* bits 22:14 Input parameter length (in dwords)
	* bits 31:23 Output parameter length (in dwords)
	*
	* Encoding the information in this way allows us to cut out several
	* parameters to the hermon_command() call.
	*/
	#define HERMON_HCR_IN_MBOX 0x00001000UL
	#define HERMON_HCR_OUT_MBOX 0x00002000UL
	#define HERMON_HCR_OPCODE( _command ) ( (_command) & 0xfff )
	#define HERMON_HCR_IN_LEN( _command ) ( ( (_command) >> 12 ) & 0x7fc )
	#define HERMON_HCR_OUT_LEN( _command ) ( ( (_command) >> 21 ) & 0x7fc )

	/** Build HCR command from component parts */
	#define HERMON_HCR_INOUT_CMD( _opcode, _in_mbox, _in_len, \
	_out_mbox, _out_len ) \
	( (_opcode) \| \
	( (_in_mbox) ? HERMON_HCR_IN_MBOX : 0 ) \| \
	( ( (_in_len) / 4 ) << 14 ) \| \
	( (_out_mbox) ? HERMON_HCR_OUT_MBOX : 0 ) \| \
	( ( (_out_len) / 4 ) << 23 ) )

	#define HERMON_HCR_IN_CMD( _opcode, _in_mbox, _in_len ) \
	HERMON_HCR_INOUT_CMD ( _opcode, _in_mbox, _in_len, 0, 0 )

	#define HERMON_HCR_OUT_CMD( _opcode, _out_mbox, _out_len ) \
	HERMON_HCR_INOUT_CMD ( _opcode, 0, 0, _out_mbox, _out_len )

	#define HERMON_HCR_VOID_CMD( _opcode ) \
	HERMON_HCR_INOUT_CMD ( _opcode, 0, 0, 0, 0 )

	#endif /* _HERMON_H */