qlge.h 62.5 KB
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/*
 * QLogic QLA41xx NIC HBA Driver
 * Copyright (c)  2003-2006 QLogic Corporation
 *
 * See LICENSE.qlge for copyright and licensing details.
 */
#ifndef _QLGE_H_
#define _QLGE_H_

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#include <linux/interrupt.h>
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#include <linux/pci.h>
#include <linux/netdevice.h>
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#include <linux/rtnetlink.h>
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#include <linux/if_vlan.h>
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/*
 * General definitions...
 */
#define DRV_NAME  	"qlge"
#define DRV_STRING 	"QLogic 10 Gigabit PCI-E Ethernet Driver "
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#define DRV_VERSION	"v1.00.00.32"
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#define WQ_ADDR_ALIGN	0x3	/* 4 byte alignment */

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#define QLGE_VENDOR_ID    0x1077
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#define QLGE_DEVICE_ID_8012	0x8012
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#define QLGE_DEVICE_ID_8000	0x8000
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#define QLGE_MEZZ_SSYS_ID_068	0x0068
#define QLGE_MEZZ_SSYS_ID_180	0x0180
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#define MAX_CPUS 8
#define MAX_TX_RINGS MAX_CPUS
#define MAX_RX_RINGS ((MAX_CPUS * 2) + 1)
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#define NUM_TX_RING_ENTRIES	256
#define NUM_RX_RING_ENTRIES	256

#define NUM_SMALL_BUFFERS   512
#define NUM_LARGE_BUFFERS   512
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#define DB_PAGE_SIZE 4096

/* Calculate the number of (4k) pages required to
 * contain a buffer queue of the given length.
 */
#define MAX_DB_PAGES_PER_BQ(x) \
		(((x * sizeof(u64)) / DB_PAGE_SIZE) + \
		(((x * sizeof(u64)) % DB_PAGE_SIZE) ? 1 : 0))
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#define RX_RING_SHADOW_SPACE	(sizeof(u64) + \
		MAX_DB_PAGES_PER_BQ(NUM_SMALL_BUFFERS) * sizeof(u64) + \
		MAX_DB_PAGES_PER_BQ(NUM_LARGE_BUFFERS) * sizeof(u64))
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#define LARGE_BUFFER_MAX_SIZE 8192
#define LARGE_BUFFER_MIN_SIZE 2048
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#define MAX_CQ 128
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#define DFLT_COALESCE_WAIT 100	/* 100 usec wait for coalescing */
#define MAX_INTER_FRAME_WAIT 10	/* 10 usec max interframe-wait for coalescing */
#define DFLT_INTER_FRAME_WAIT (MAX_INTER_FRAME_WAIT/2)
#define UDELAY_COUNT 3
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#define UDELAY_DELAY 100
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#define TX_DESC_PER_IOCB 8
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#if ((MAX_SKB_FRAGS - TX_DESC_PER_IOCB) + 2) > 0
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#define TX_DESC_PER_OAL ((MAX_SKB_FRAGS - TX_DESC_PER_IOCB) + 2)
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#else /* all other page sizes */
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#define TX_DESC_PER_OAL 0
#endif

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/* Word shifting for converting 64-bit
 * address to a series of 16-bit words.
 * This is used for some MPI firmware
 * mailbox commands.
 */
#define LSW(x)  ((u16)(x))
#define MSW(x)  ((u16)((u32)(x) >> 16))
#define LSD(x)  ((u32)((u64)(x)))
#define MSD(x)  ((u32)((((u64)(x)) >> 32)))

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/* MPI test register definitions. This register
 * is used for determining alternate NIC function's
 * PCI->func number.
 */
enum {
	MPI_TEST_FUNC_PORT_CFG = 0x1002,
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	MPI_TEST_FUNC_PRB_CTL = 0x100e,
		MPI_TEST_FUNC_PRB_EN = 0x18a20000,
	MPI_TEST_FUNC_RST_STS = 0x100a,
		MPI_TEST_FUNC_RST_FRC = 0x00000003,
	MPI_TEST_NIC_FUNC_MASK = 0x00000007,
	MPI_TEST_NIC1_FUNCTION_ENABLE = (1 << 0),
	MPI_TEST_NIC1_FUNCTION_MASK = 0x0000000e,
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	MPI_TEST_NIC1_FUNC_SHIFT = 1,
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	MPI_TEST_NIC2_FUNCTION_ENABLE = (1 << 4),
	MPI_TEST_NIC2_FUNCTION_MASK = 0x000000e0,
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	MPI_TEST_NIC2_FUNC_SHIFT = 5,
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	MPI_TEST_FC1_FUNCTION_ENABLE = (1 << 8),
	MPI_TEST_FC1_FUNCTION_MASK	= 0x00000e00,
	MPI_TEST_FC1_FUNCTION_SHIFT = 9,
	MPI_TEST_FC2_FUNCTION_ENABLE = (1 << 12),
	MPI_TEST_FC2_FUNCTION_MASK = 0x0000e000,
	MPI_TEST_FC2_FUNCTION_SHIFT = 13,

	MPI_NIC_READ = 0x00000000,
	MPI_NIC_REG_BLOCK = 0x00020000,
	MPI_NIC_FUNCTION_SHIFT = 6,
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};

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/*
 * Processor Address Register (PROC_ADDR) bit definitions.
 */
enum {

	/* Misc. stuff */
	MAILBOX_COUNT = 16,
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	MAILBOX_TIMEOUT = 5,
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	PROC_ADDR_RDY = (1 << 31),
	PROC_ADDR_R = (1 << 30),
	PROC_ADDR_ERR = (1 << 29),
	PROC_ADDR_DA = (1 << 28),
	PROC_ADDR_FUNC0_MBI = 0x00001180,
	PROC_ADDR_FUNC0_MBO = (PROC_ADDR_FUNC0_MBI + MAILBOX_COUNT),
	PROC_ADDR_FUNC0_CTL = 0x000011a1,
	PROC_ADDR_FUNC2_MBI = 0x00001280,
	PROC_ADDR_FUNC2_MBO = (PROC_ADDR_FUNC2_MBI + MAILBOX_COUNT),
	PROC_ADDR_FUNC2_CTL = 0x000012a1,
	PROC_ADDR_MPI_RISC = 0x00000000,
	PROC_ADDR_MDE = 0x00010000,
	PROC_ADDR_REGBLOCK = 0x00020000,
	PROC_ADDR_RISC_REG = 0x00030000,
};

/*
 * System Register (SYS) bit definitions.
 */
enum {
	SYS_EFE = (1 << 0),
	SYS_FAE = (1 << 1),
	SYS_MDC = (1 << 2),
	SYS_DST = (1 << 3),
	SYS_DWC = (1 << 4),
	SYS_EVW = (1 << 5),
	SYS_OMP_DLY_MASK = 0x3f000000,
	/*
	 * There are no values defined as of edit #15.
	 */
	SYS_ODI = (1 << 14),
};

/*
 *  Reset/Failover Register (RST_FO) bit definitions.
 */
enum {
	RST_FO_TFO = (1 << 0),
	RST_FO_RR_MASK = 0x00060000,
	RST_FO_RR_CQ_CAM = 0x00000000,
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	RST_FO_RR_DROP = 0x00000002,
	RST_FO_RR_DQ = 0x00000004,
	RST_FO_RR_RCV_FUNC_CQ = 0x00000006,
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	RST_FO_FRB = (1 << 12),
	RST_FO_MOP = (1 << 13),
	RST_FO_REG = (1 << 14),
	RST_FO_FR = (1 << 15),
};

/*
 * Function Specific Control Register (FSC) bit definitions.
 */
enum {
	FSC_DBRST_MASK = 0x00070000,
	FSC_DBRST_256 = 0x00000000,
	FSC_DBRST_512 = 0x00000001,
	FSC_DBRST_768 = 0x00000002,
	FSC_DBRST_1024 = 0x00000003,
	FSC_DBL_MASK = 0x00180000,
	FSC_DBL_DBRST = 0x00000000,
	FSC_DBL_MAX_PLD = 0x00000008,
	FSC_DBL_MAX_BRST = 0x00000010,
	FSC_DBL_128_BYTES = 0x00000018,
	FSC_EC = (1 << 5),
	FSC_EPC_MASK = 0x00c00000,
	FSC_EPC_INBOUND = (1 << 6),
	FSC_EPC_OUTBOUND = (1 << 7),
	FSC_VM_PAGESIZE_MASK = 0x07000000,
	FSC_VM_PAGE_2K = 0x00000100,
	FSC_VM_PAGE_4K = 0x00000200,
	FSC_VM_PAGE_8K = 0x00000300,
	FSC_VM_PAGE_64K = 0x00000600,
	FSC_SH = (1 << 11),
	FSC_DSB = (1 << 12),
	FSC_STE = (1 << 13),
	FSC_FE = (1 << 15),
};

/*
 *  Host Command Status Register (CSR) bit definitions.
 */
enum {
	CSR_ERR_STS_MASK = 0x0000003f,
	/*
	 * There are no valued defined as of edit #15.
	 */
	CSR_RR = (1 << 8),
	CSR_HRI = (1 << 9),
	CSR_RP = (1 << 10),
	CSR_CMD_PARM_SHIFT = 22,
	CSR_CMD_NOP = 0x00000000,
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	CSR_CMD_SET_RST = 0x10000000,
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	CSR_CMD_CLR_RST = 0x20000000,
	CSR_CMD_SET_PAUSE = 0x30000000,
	CSR_CMD_CLR_PAUSE = 0x40000000,
	CSR_CMD_SET_H2R_INT = 0x50000000,
	CSR_CMD_CLR_H2R_INT = 0x60000000,
	CSR_CMD_PAR_EN = 0x70000000,
	CSR_CMD_SET_BAD_PAR = 0x80000000,
	CSR_CMD_CLR_BAD_PAR = 0x90000000,
	CSR_CMD_CLR_R2PCI_INT = 0xa0000000,
};

/*
 *  Configuration Register (CFG) bit definitions.
 */
enum {
	CFG_LRQ = (1 << 0),
	CFG_DRQ = (1 << 1),
	CFG_LR = (1 << 2),
	CFG_DR = (1 << 3),
	CFG_LE = (1 << 5),
	CFG_LCQ = (1 << 6),
	CFG_DCQ = (1 << 7),
	CFG_Q_SHIFT = 8,
	CFG_Q_MASK = 0x7f000000,
};

/*
 *  Status Register (STS) bit definitions.
 */
enum {
	STS_FE = (1 << 0),
	STS_PI = (1 << 1),
	STS_PL0 = (1 << 2),
	STS_PL1 = (1 << 3),
	STS_PI0 = (1 << 4),
	STS_PI1 = (1 << 5),
	STS_FUNC_ID_MASK = 0x000000c0,
	STS_FUNC_ID_SHIFT = 6,
	STS_F0E = (1 << 8),
	STS_F1E = (1 << 9),
	STS_F2E = (1 << 10),
	STS_F3E = (1 << 11),
	STS_NFE = (1 << 12),
};

/*
 * Interrupt Enable Register (INTR_EN) bit definitions.
 */
enum {
	INTR_EN_INTR_MASK = 0x007f0000,
	INTR_EN_TYPE_MASK = 0x03000000,
	INTR_EN_TYPE_ENABLE = 0x00000100,
	INTR_EN_TYPE_DISABLE = 0x00000200,
	INTR_EN_TYPE_READ = 0x00000300,
	INTR_EN_IHD = (1 << 13),
	INTR_EN_IHD_MASK = (INTR_EN_IHD << 16),
	INTR_EN_EI = (1 << 14),
	INTR_EN_EN = (1 << 15),
};

/*
 * Interrupt Mask Register (INTR_MASK) bit definitions.
 */
enum {
	INTR_MASK_PI = (1 << 0),
	INTR_MASK_HL0 = (1 << 1),
	INTR_MASK_LH0 = (1 << 2),
	INTR_MASK_HL1 = (1 << 3),
	INTR_MASK_LH1 = (1 << 4),
	INTR_MASK_SE = (1 << 5),
	INTR_MASK_LSC = (1 << 6),
	INTR_MASK_MC = (1 << 7),
	INTR_MASK_LINK_IRQS = INTR_MASK_LSC | INTR_MASK_SE | INTR_MASK_MC,
};

/*
 *  Register (REV_ID) bit definitions.
 */
enum {
	REV_ID_MASK = 0x0000000f,
	REV_ID_NICROLL_SHIFT = 0,
	REV_ID_NICREV_SHIFT = 4,
	REV_ID_XGROLL_SHIFT = 8,
	REV_ID_XGREV_SHIFT = 12,
	REV_ID_CHIPREV_SHIFT = 28,
};

/*
 *  Force ECC Error Register (FRC_ECC_ERR) bit definitions.
 */
enum {
	FRC_ECC_ERR_VW = (1 << 12),
	FRC_ECC_ERR_VB = (1 << 13),
	FRC_ECC_ERR_NI = (1 << 14),
	FRC_ECC_ERR_NO = (1 << 15),
	FRC_ECC_PFE_SHIFT = 16,
	FRC_ECC_ERR_DO = (1 << 18),
	FRC_ECC_P14 = (1 << 19),
};

/*
 *  Error Status Register (ERR_STS) bit definitions.
 */
enum {
	ERR_STS_NOF = (1 << 0),
	ERR_STS_NIF = (1 << 1),
	ERR_STS_DRP = (1 << 2),
	ERR_STS_XGP = (1 << 3),
	ERR_STS_FOU = (1 << 4),
	ERR_STS_FOC = (1 << 5),
	ERR_STS_FOF = (1 << 6),
	ERR_STS_FIU = (1 << 7),
	ERR_STS_FIC = (1 << 8),
	ERR_STS_FIF = (1 << 9),
	ERR_STS_MOF = (1 << 10),
	ERR_STS_TA = (1 << 11),
	ERR_STS_MA = (1 << 12),
	ERR_STS_MPE = (1 << 13),
	ERR_STS_SCE = (1 << 14),
	ERR_STS_STE = (1 << 15),
	ERR_STS_FOW = (1 << 16),
	ERR_STS_UE = (1 << 17),
	ERR_STS_MCH = (1 << 26),
	ERR_STS_LOC_SHIFT = 27,
};

/*
 *  RAM Debug Address Register (RAM_DBG_ADDR) bit definitions.
 */
enum {
	RAM_DBG_ADDR_FW = (1 << 30),
	RAM_DBG_ADDR_FR = (1 << 31),
};

/*
 * Semaphore Register (SEM) bit definitions.
 */
enum {
	/*
	 * Example:
	 * reg = SEM_XGMAC0_MASK | (SEM_SET << SEM_XGMAC0_SHIFT)
	 */
	SEM_CLEAR = 0,
	SEM_SET = 1,
	SEM_FORCE = 3,
	SEM_XGMAC0_SHIFT = 0,
	SEM_XGMAC1_SHIFT = 2,
	SEM_ICB_SHIFT = 4,
	SEM_MAC_ADDR_SHIFT = 6,
	SEM_FLASH_SHIFT = 8,
	SEM_PROBE_SHIFT = 10,
	SEM_RT_IDX_SHIFT = 12,
	SEM_PROC_REG_SHIFT = 14,
	SEM_XGMAC0_MASK = 0x00030000,
	SEM_XGMAC1_MASK = 0x000c0000,
	SEM_ICB_MASK = 0x00300000,
	SEM_MAC_ADDR_MASK = 0x00c00000,
	SEM_FLASH_MASK = 0x03000000,
	SEM_PROBE_MASK = 0x0c000000,
	SEM_RT_IDX_MASK = 0x30000000,
	SEM_PROC_REG_MASK = 0xc0000000,
};

/*
 *  10G MAC Address  Register (XGMAC_ADDR) bit definitions.
 */
enum {
	XGMAC_ADDR_RDY = (1 << 31),
	XGMAC_ADDR_R = (1 << 30),
	XGMAC_ADDR_XME = (1 << 29),

	/* XGMAC control registers */
	PAUSE_SRC_LO = 0x00000100,
	PAUSE_SRC_HI = 0x00000104,
	GLOBAL_CFG = 0x00000108,
	GLOBAL_CFG_RESET = (1 << 0),
	GLOBAL_CFG_JUMBO = (1 << 6),
	GLOBAL_CFG_TX_STAT_EN = (1 << 10),
	GLOBAL_CFG_RX_STAT_EN = (1 << 11),
	TX_CFG = 0x0000010c,
	TX_CFG_RESET = (1 << 0),
	TX_CFG_EN = (1 << 1),
	TX_CFG_PREAM = (1 << 2),
	RX_CFG = 0x00000110,
	RX_CFG_RESET = (1 << 0),
	RX_CFG_EN = (1 << 1),
	RX_CFG_PREAM = (1 << 2),
	FLOW_CTL = 0x0000011c,
	PAUSE_OPCODE = 0x00000120,
	PAUSE_TIMER = 0x00000124,
	PAUSE_FRM_DEST_LO = 0x00000128,
	PAUSE_FRM_DEST_HI = 0x0000012c,
	MAC_TX_PARAMS = 0x00000134,
	MAC_TX_PARAMS_JUMBO = (1 << 31),
	MAC_TX_PARAMS_SIZE_SHIFT = 16,
	MAC_RX_PARAMS = 0x00000138,
	MAC_SYS_INT = 0x00000144,
	MAC_SYS_INT_MASK = 0x00000148,
	MAC_MGMT_INT = 0x0000014c,
	MAC_MGMT_IN_MASK = 0x00000150,
	EXT_ARB_MODE = 0x000001fc,

	/* XGMAC TX statistics  registers */
	TX_PKTS = 0x00000200,
	TX_BYTES = 0x00000208,
	TX_MCAST_PKTS = 0x00000210,
	TX_BCAST_PKTS = 0x00000218,
	TX_UCAST_PKTS = 0x00000220,
	TX_CTL_PKTS = 0x00000228,
	TX_PAUSE_PKTS = 0x00000230,
	TX_64_PKT = 0x00000238,
	TX_65_TO_127_PKT = 0x00000240,
	TX_128_TO_255_PKT = 0x00000248,
	TX_256_511_PKT = 0x00000250,
	TX_512_TO_1023_PKT = 0x00000258,
	TX_1024_TO_1518_PKT = 0x00000260,
	TX_1519_TO_MAX_PKT = 0x00000268,
	TX_UNDERSIZE_PKT = 0x00000270,
	TX_OVERSIZE_PKT = 0x00000278,

	/* XGMAC statistics control registers */
	RX_HALF_FULL_DET = 0x000002a0,
	TX_HALF_FULL_DET = 0x000002a4,
	RX_OVERFLOW_DET = 0x000002a8,
	TX_OVERFLOW_DET = 0x000002ac,
	RX_HALF_FULL_MASK = 0x000002b0,
	TX_HALF_FULL_MASK = 0x000002b4,
	RX_OVERFLOW_MASK = 0x000002b8,
	TX_OVERFLOW_MASK = 0x000002bc,
	STAT_CNT_CTL = 0x000002c0,
	STAT_CNT_CTL_CLEAR_TX = (1 << 0),
	STAT_CNT_CTL_CLEAR_RX = (1 << 1),
	AUX_RX_HALF_FULL_DET = 0x000002d0,
	AUX_TX_HALF_FULL_DET = 0x000002d4,
	AUX_RX_OVERFLOW_DET = 0x000002d8,
	AUX_TX_OVERFLOW_DET = 0x000002dc,
	AUX_RX_HALF_FULL_MASK = 0x000002f0,
	AUX_TX_HALF_FULL_MASK = 0x000002f4,
	AUX_RX_OVERFLOW_MASK = 0x000002f8,
	AUX_TX_OVERFLOW_MASK = 0x000002fc,

	/* XGMAC RX statistics  registers */
	RX_BYTES = 0x00000300,
	RX_BYTES_OK = 0x00000308,
	RX_PKTS = 0x00000310,
	RX_PKTS_OK = 0x00000318,
	RX_BCAST_PKTS = 0x00000320,
	RX_MCAST_PKTS = 0x00000328,
	RX_UCAST_PKTS = 0x00000330,
	RX_UNDERSIZE_PKTS = 0x00000338,
	RX_OVERSIZE_PKTS = 0x00000340,
	RX_JABBER_PKTS = 0x00000348,
	RX_UNDERSIZE_FCERR_PKTS = 0x00000350,
	RX_DROP_EVENTS = 0x00000358,
	RX_FCERR_PKTS = 0x00000360,
	RX_ALIGN_ERR = 0x00000368,
	RX_SYMBOL_ERR = 0x00000370,
	RX_MAC_ERR = 0x00000378,
	RX_CTL_PKTS = 0x00000380,
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	RX_PAUSE_PKTS = 0x00000388,
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	RX_64_PKTS = 0x00000390,
	RX_65_TO_127_PKTS = 0x00000398,
	RX_128_255_PKTS = 0x000003a0,
	RX_256_511_PKTS = 0x000003a8,
	RX_512_TO_1023_PKTS = 0x000003b0,
	RX_1024_TO_1518_PKTS = 0x000003b8,
	RX_1519_TO_MAX_PKTS = 0x000003c0,
	RX_LEN_ERR_PKTS = 0x000003c8,

	/* XGMAC MDIO control registers */
	MDIO_TX_DATA = 0x00000400,
	MDIO_RX_DATA = 0x00000410,
	MDIO_CMD = 0x00000420,
	MDIO_PHY_ADDR = 0x00000430,
	MDIO_PORT = 0x00000440,
	MDIO_STATUS = 0x00000450,

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	XGMAC_REGISTER_END = 0x00000740,
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};

/*
 *  Enhanced Transmission Schedule Registers (NIC_ETS,CNA_ETS) bit definitions.
 */
enum {
	ETS_QUEUE_SHIFT = 29,
	ETS_REF = (1 << 26),
	ETS_RS = (1 << 27),
	ETS_P = (1 << 28),
	ETS_FC_COS_SHIFT = 23,
};

/*
 *  Flash Address Register (FLASH_ADDR) bit definitions.
 */
enum {
	FLASH_ADDR_RDY = (1 << 31),
	FLASH_ADDR_R = (1 << 30),
	FLASH_ADDR_ERR = (1 << 29),
};

/*
 *  Stop CQ Processing Register (CQ_STOP) bit definitions.
 */
enum {
	CQ_STOP_QUEUE_MASK = (0x007f0000),
	CQ_STOP_TYPE_MASK = (0x03000000),
	CQ_STOP_TYPE_START = 0x00000100,
	CQ_STOP_TYPE_STOP = 0x00000200,
	CQ_STOP_TYPE_READ = 0x00000300,
	CQ_STOP_EN = (1 << 15),
};

/*
 *  MAC Protocol Address Index Register (MAC_ADDR_IDX) bit definitions.
 */
enum {
	MAC_ADDR_IDX_SHIFT = 4,
	MAC_ADDR_TYPE_SHIFT = 16,
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	MAC_ADDR_TYPE_COUNT = 10,
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	MAC_ADDR_TYPE_MASK = 0x000f0000,
	MAC_ADDR_TYPE_CAM_MAC = 0x00000000,
	MAC_ADDR_TYPE_MULTI_MAC = 0x00010000,
	MAC_ADDR_TYPE_VLAN = 0x00020000,
	MAC_ADDR_TYPE_MULTI_FLTR = 0x00030000,
	MAC_ADDR_TYPE_FC_MAC = 0x00040000,
	MAC_ADDR_TYPE_MGMT_MAC = 0x00050000,
	MAC_ADDR_TYPE_MGMT_VLAN = 0x00060000,
	MAC_ADDR_TYPE_MGMT_V4 = 0x00070000,
	MAC_ADDR_TYPE_MGMT_V6 = 0x00080000,
	MAC_ADDR_TYPE_MGMT_TU_DP = 0x00090000,
	MAC_ADDR_ADR = (1 << 25),
	MAC_ADDR_RS = (1 << 26),
	MAC_ADDR_E = (1 << 27),
	MAC_ADDR_MR = (1 << 30),
	MAC_ADDR_MW = (1 << 31),
	MAX_MULTICAST_ENTRIES = 32,
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	/* Entry count and words per entry
	 * for each address type in the filter.
	 */
	MAC_ADDR_MAX_CAM_ENTRIES = 512,
	MAC_ADDR_MAX_CAM_WCOUNT = 3,
	MAC_ADDR_MAX_MULTICAST_ENTRIES = 32,
	MAC_ADDR_MAX_MULTICAST_WCOUNT = 2,
	MAC_ADDR_MAX_VLAN_ENTRIES = 4096,
	MAC_ADDR_MAX_VLAN_WCOUNT = 1,
	MAC_ADDR_MAX_MCAST_FLTR_ENTRIES = 4096,
	MAC_ADDR_MAX_MCAST_FLTR_WCOUNT = 1,
	MAC_ADDR_MAX_FC_MAC_ENTRIES = 4,
	MAC_ADDR_MAX_FC_MAC_WCOUNT = 2,
	MAC_ADDR_MAX_MGMT_MAC_ENTRIES = 8,
	MAC_ADDR_MAX_MGMT_MAC_WCOUNT = 2,
	MAC_ADDR_MAX_MGMT_VLAN_ENTRIES = 16,
	MAC_ADDR_MAX_MGMT_VLAN_WCOUNT = 1,
	MAC_ADDR_MAX_MGMT_V4_ENTRIES = 4,
	MAC_ADDR_MAX_MGMT_V4_WCOUNT = 1,
	MAC_ADDR_MAX_MGMT_V6_ENTRIES = 4,
	MAC_ADDR_MAX_MGMT_V6_WCOUNT = 4,
	MAC_ADDR_MAX_MGMT_TU_DP_ENTRIES = 4,
	MAC_ADDR_MAX_MGMT_TU_DP_WCOUNT = 1,
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};

/*
 *  MAC Protocol Address Index Register (SPLT_HDR) bit definitions.
 */
enum {
	SPLT_HDR_EP = (1 << 31),
};

/*
 *  FCoE Receive Configuration Register (FC_RCV_CFG) bit definitions.
 */
enum {
	FC_RCV_CFG_ECT = (1 << 15),
	FC_RCV_CFG_DFH = (1 << 20),
	FC_RCV_CFG_DVF = (1 << 21),
	FC_RCV_CFG_RCE = (1 << 27),
	FC_RCV_CFG_RFE = (1 << 28),
	FC_RCV_CFG_TEE = (1 << 29),
	FC_RCV_CFG_TCE = (1 << 30),
	FC_RCV_CFG_TFE = (1 << 31),
};

/*
 *  NIC Receive Configuration Register (NIC_RCV_CFG) bit definitions.
 */
enum {
	NIC_RCV_CFG_PPE = (1 << 0),
	NIC_RCV_CFG_VLAN_MASK = 0x00060000,
	NIC_RCV_CFG_VLAN_ALL = 0x00000000,
	NIC_RCV_CFG_VLAN_MATCH_ONLY = 0x00000002,
	NIC_RCV_CFG_VLAN_MATCH_AND_NON = 0x00000004,
	NIC_RCV_CFG_VLAN_NONE_AND_NON = 0x00000006,
	NIC_RCV_CFG_RV = (1 << 3),
	NIC_RCV_CFG_DFQ_MASK = (0x7f000000),
	NIC_RCV_CFG_DFQ_SHIFT = 8,
	NIC_RCV_CFG_DFQ = 0,	/* HARDCODE default queue to 0. */
};

/*
 *   Mgmt Receive Configuration Register (MGMT_RCV_CFG) bit definitions.
 */
enum {
	MGMT_RCV_CFG_ARP = (1 << 0),
	MGMT_RCV_CFG_DHC = (1 << 1),
	MGMT_RCV_CFG_DHS = (1 << 2),
	MGMT_RCV_CFG_NP = (1 << 3),
	MGMT_RCV_CFG_I6N = (1 << 4),
	MGMT_RCV_CFG_I6R = (1 << 5),
	MGMT_RCV_CFG_DH6 = (1 << 6),
	MGMT_RCV_CFG_UD1 = (1 << 7),
	MGMT_RCV_CFG_UD0 = (1 << 8),
	MGMT_RCV_CFG_BCT = (1 << 9),
	MGMT_RCV_CFG_MCT = (1 << 10),
	MGMT_RCV_CFG_DM = (1 << 11),
	MGMT_RCV_CFG_RM = (1 << 12),
	MGMT_RCV_CFG_STL = (1 << 13),
	MGMT_RCV_CFG_VLAN_MASK = 0xc0000000,
	MGMT_RCV_CFG_VLAN_ALL = 0x00000000,
	MGMT_RCV_CFG_VLAN_MATCH_ONLY = 0x00004000,
	MGMT_RCV_CFG_VLAN_MATCH_AND_NON = 0x00008000,
	MGMT_RCV_CFG_VLAN_NONE_AND_NON = 0x0000c000,
};

/*
 *  Routing Index Register (RT_IDX) bit definitions.
 */
enum {
	RT_IDX_IDX_SHIFT = 8,
	RT_IDX_TYPE_MASK = 0x000f0000,
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	RT_IDX_TYPE_SHIFT = 16,
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	RT_IDX_TYPE_RT = 0x00000000,
	RT_IDX_TYPE_RT_INV = 0x00010000,
	RT_IDX_TYPE_NICQ = 0x00020000,
	RT_IDX_TYPE_NICQ_INV = 0x00030000,
	RT_IDX_DST_MASK = 0x00700000,
	RT_IDX_DST_RSS = 0x00000000,
	RT_IDX_DST_CAM_Q = 0x00100000,
	RT_IDX_DST_COS_Q = 0x00200000,
	RT_IDX_DST_DFLT_Q = 0x00300000,
	RT_IDX_DST_DEST_Q = 0x00400000,
	RT_IDX_RS = (1 << 26),
	RT_IDX_E = (1 << 27),
	RT_IDX_MR = (1 << 30),
	RT_IDX_MW = (1 << 31),

	/* Nic Queue format - type 2 bits */
	RT_IDX_BCAST = (1 << 0),
	RT_IDX_MCAST = (1 << 1),
	RT_IDX_MCAST_MATCH = (1 << 2),
	RT_IDX_MCAST_REG_MATCH = (1 << 3),
	RT_IDX_MCAST_HASH_MATCH = (1 << 4),
	RT_IDX_FC_MACH = (1 << 5),
	RT_IDX_ETH_FCOE = (1 << 6),
	RT_IDX_CAM_HIT = (1 << 7),
	RT_IDX_CAM_BIT0 = (1 << 8),
	RT_IDX_CAM_BIT1 = (1 << 9),
	RT_IDX_VLAN_TAG = (1 << 10),
	RT_IDX_VLAN_MATCH = (1 << 11),
	RT_IDX_VLAN_FILTER = (1 << 12),
	RT_IDX_ETH_SKIP1 = (1 << 13),
	RT_IDX_ETH_SKIP2 = (1 << 14),
	RT_IDX_BCAST_MCAST_MATCH = (1 << 15),
	RT_IDX_802_3 = (1 << 16),
	RT_IDX_LLDP = (1 << 17),
	RT_IDX_UNUSED018 = (1 << 18),
	RT_IDX_UNUSED019 = (1 << 19),
	RT_IDX_UNUSED20 = (1 << 20),
	RT_IDX_UNUSED21 = (1 << 21),
	RT_IDX_ERR = (1 << 22),
	RT_IDX_VALID = (1 << 23),
	RT_IDX_TU_CSUM_ERR = (1 << 24),
	RT_IDX_IP_CSUM_ERR = (1 << 25),
	RT_IDX_MAC_ERR = (1 << 26),
	RT_IDX_RSS_TCP6 = (1 << 27),
	RT_IDX_RSS_TCP4 = (1 << 28),
	RT_IDX_RSS_IPV6 = (1 << 29),
	RT_IDX_RSS_IPV4 = (1 << 30),
	RT_IDX_RSS_MATCH = (1 << 31),

	/* Hierarchy for the NIC Queue Mask */
	RT_IDX_ALL_ERR_SLOT = 0,
	RT_IDX_MAC_ERR_SLOT = 0,
	RT_IDX_IP_CSUM_ERR_SLOT = 1,
	RT_IDX_TCP_UDP_CSUM_ERR_SLOT = 2,
	RT_IDX_BCAST_SLOT = 3,
	RT_IDX_MCAST_MATCH_SLOT = 4,
	RT_IDX_ALLMULTI_SLOT = 5,
	RT_IDX_UNUSED6_SLOT = 6,
	RT_IDX_UNUSED7_SLOT = 7,
	RT_IDX_RSS_MATCH_SLOT = 8,
	RT_IDX_RSS_IPV4_SLOT = 8,
	RT_IDX_RSS_IPV6_SLOT = 9,
	RT_IDX_RSS_TCP4_SLOT = 10,
	RT_IDX_RSS_TCP6_SLOT = 11,
	RT_IDX_CAM_HIT_SLOT = 12,
	RT_IDX_UNUSED013 = 13,
	RT_IDX_UNUSED014 = 14,
	RT_IDX_PROMISCUOUS_SLOT = 15,
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	RT_IDX_MAX_RT_SLOTS = 8,
	RT_IDX_MAX_NIC_SLOTS = 16,
};

/*
 * Serdes Address Register (XG_SERDES_ADDR) bit definitions.
 */
enum {
	XG_SERDES_ADDR_RDY = (1 << 31),
	XG_SERDES_ADDR_R = (1 << 30),

	XG_SERDES_ADDR_STS = 0x00001E06,
	XG_SERDES_ADDR_XFI1_PWR_UP = 0x00000005,
	XG_SERDES_ADDR_XFI2_PWR_UP = 0x0000000a,
	XG_SERDES_ADDR_XAUI_PWR_DOWN = 0x00000001,

	/* Serdes coredump definitions. */
	XG_SERDES_XAUI_AN_START = 0x00000000,
	XG_SERDES_XAUI_AN_END = 0x00000034,
	XG_SERDES_XAUI_HSS_PCS_START = 0x00000800,
	XG_SERDES_XAUI_HSS_PCS_END = 0x0000880,
	XG_SERDES_XFI_AN_START = 0x00001000,
	XG_SERDES_XFI_AN_END = 0x00001034,
	XG_SERDES_XFI_TRAIN_START = 0x10001050,
	XG_SERDES_XFI_TRAIN_END = 0x1000107C,
	XG_SERDES_XFI_HSS_PCS_START = 0x00001800,
	XG_SERDES_XFI_HSS_PCS_END = 0x00001838,
	XG_SERDES_XFI_HSS_TX_START = 0x00001c00,
	XG_SERDES_XFI_HSS_TX_END = 0x00001c1f,
	XG_SERDES_XFI_HSS_RX_START = 0x00001c40,
	XG_SERDES_XFI_HSS_RX_END = 0x00001c5f,
	XG_SERDES_XFI_HSS_PLL_START = 0x00001e00,
	XG_SERDES_XFI_HSS_PLL_END = 0x00001e1f,
};

/*
 *  NIC Probe Mux Address Register (PRB_MX_ADDR) bit definitions.
 */
enum {
	PRB_MX_ADDR_ARE = (1 << 16),
	PRB_MX_ADDR_UP = (1 << 15),
	PRB_MX_ADDR_SWP = (1 << 14),

	/* Module select values. */
	PRB_MX_ADDR_MAX_MODS = 21,
	PRB_MX_ADDR_MOD_SEL_SHIFT = 9,
	PRB_MX_ADDR_MOD_SEL_TBD = 0,
	PRB_MX_ADDR_MOD_SEL_IDE1 = 1,
	PRB_MX_ADDR_MOD_SEL_IDE2 = 2,
	PRB_MX_ADDR_MOD_SEL_FRB = 3,
	PRB_MX_ADDR_MOD_SEL_ODE1 = 4,
	PRB_MX_ADDR_MOD_SEL_ODE2 = 5,
	PRB_MX_ADDR_MOD_SEL_DA1 = 6,
	PRB_MX_ADDR_MOD_SEL_DA2 = 7,
	PRB_MX_ADDR_MOD_SEL_IMP1 = 8,
	PRB_MX_ADDR_MOD_SEL_IMP2 = 9,
	PRB_MX_ADDR_MOD_SEL_OMP1 = 10,
	PRB_MX_ADDR_MOD_SEL_OMP2 = 11,
	PRB_MX_ADDR_MOD_SEL_ORS1 = 12,
	PRB_MX_ADDR_MOD_SEL_ORS2 = 13,
	PRB_MX_ADDR_MOD_SEL_REG = 14,
	PRB_MX_ADDR_MOD_SEL_MAC1 = 16,
	PRB_MX_ADDR_MOD_SEL_MAC2 = 17,
	PRB_MX_ADDR_MOD_SEL_VQM1 = 18,
	PRB_MX_ADDR_MOD_SEL_VQM2 = 19,
	PRB_MX_ADDR_MOD_SEL_MOP = 20,
	/* Bit fields indicating which modules
	 * are valid for each clock domain.
	 */
	PRB_MX_ADDR_VALID_SYS_MOD = 0x000f7ff7,
	PRB_MX_ADDR_VALID_PCI_MOD = 0x000040c1,
	PRB_MX_ADDR_VALID_XGM_MOD = 0x00037309,
	PRB_MX_ADDR_VALID_FC_MOD = 0x00003001,
	PRB_MX_ADDR_VALID_TOTAL = 34,

	/* Clock domain values. */
	PRB_MX_ADDR_CLOCK_SHIFT = 6,
	PRB_MX_ADDR_SYS_CLOCK = 0,
	PRB_MX_ADDR_PCI_CLOCK = 2,
	PRB_MX_ADDR_FC_CLOCK = 5,
	PRB_MX_ADDR_XGM_CLOCK = 6,

	PRB_MX_ADDR_MAX_MUX = 64,
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};

/*
 * Control Register Set Map
 */
enum {
	PROC_ADDR = 0,		/* Use semaphore */
	PROC_DATA = 0x04,	/* Use semaphore */
	SYS = 0x08,
	RST_FO = 0x0c,
	FSC = 0x10,
	CSR = 0x14,
	LED = 0x18,
	ICB_RID = 0x1c,		/* Use semaphore */
	ICB_L = 0x20,		/* Use semaphore */
	ICB_H = 0x24,		/* Use semaphore */
	CFG = 0x28,
	BIOS_ADDR = 0x2c,
	STS = 0x30,
	INTR_EN = 0x34,
	INTR_MASK = 0x38,
	ISR1 = 0x3c,
	ISR2 = 0x40,
	ISR3 = 0x44,
	ISR4 = 0x48,
	REV_ID = 0x4c,
	FRC_ECC_ERR = 0x50,
	ERR_STS = 0x54,
	RAM_DBG_ADDR = 0x58,
	RAM_DBG_DATA = 0x5c,
	ECC_ERR_CNT = 0x60,
	SEM = 0x64,
	GPIO_1 = 0x68,		/* Use semaphore */
	GPIO_2 = 0x6c,		/* Use semaphore */
	GPIO_3 = 0x70,		/* Use semaphore */
	RSVD2 = 0x74,
	XGMAC_ADDR = 0x78,	/* Use semaphore */
	XGMAC_DATA = 0x7c,	/* Use semaphore */
	NIC_ETS = 0x80,
	CNA_ETS = 0x84,
	FLASH_ADDR = 0x88,	/* Use semaphore */
	FLASH_DATA = 0x8c,	/* Use semaphore */
	CQ_STOP = 0x90,
	PAGE_TBL_RID = 0x94,
	WQ_PAGE_TBL_LO = 0x98,
	WQ_PAGE_TBL_HI = 0x9c,
	CQ_PAGE_TBL_LO = 0xa0,
	CQ_PAGE_TBL_HI = 0xa4,
	MAC_ADDR_IDX = 0xa8,	/* Use semaphore */
	MAC_ADDR_DATA = 0xac,	/* Use semaphore */
	COS_DFLT_CQ1 = 0xb0,
	COS_DFLT_CQ2 = 0xb4,
	ETYPE_SKIP1 = 0xb8,
	ETYPE_SKIP2 = 0xbc,
	SPLT_HDR = 0xc0,
	FC_PAUSE_THRES = 0xc4,
	NIC_PAUSE_THRES = 0xc8,
	FC_ETHERTYPE = 0xcc,
	FC_RCV_CFG = 0xd0,
	NIC_RCV_CFG = 0xd4,
	FC_COS_TAGS = 0xd8,
	NIC_COS_TAGS = 0xdc,
	MGMT_RCV_CFG = 0xe0,
	RT_IDX = 0xe4,
	RT_DATA = 0xe8,
	RSVD7 = 0xec,
	XG_SERDES_ADDR = 0xf0,
	XG_SERDES_DATA = 0xf4,
	PRB_MX_ADDR = 0xf8,	/* Use semaphore */
	PRB_MX_DATA = 0xfc,	/* Use semaphore */
};

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#ifdef CONFIG_HAVE_EFFICIENT_UNALIGNED_ACCESS
#define SMALL_BUFFER_SIZE 256
#define SMALL_BUF_MAP_SIZE SMALL_BUFFER_SIZE
#define SPLT_SETTING  FSC_DBRST_1024
#define SPLT_LEN 0
#define QLGE_SB_PAD 0
#else
#define SMALL_BUFFER_SIZE 512
#define SMALL_BUF_MAP_SIZE (SMALL_BUFFER_SIZE / 2)
#define SPLT_SETTING  FSC_SH
#define SPLT_LEN (SPLT_HDR_EP | \
	min(SMALL_BUF_MAP_SIZE, 1023))
#define QLGE_SB_PAD 32
#endif

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/*
 * CAM output format.
 */
enum {
	CAM_OUT_ROUTE_FC = 0,
	CAM_OUT_ROUTE_NIC = 1,
	CAM_OUT_FUNC_SHIFT = 2,
	CAM_OUT_RV = (1 << 4),
	CAM_OUT_SH = (1 << 15),
	CAM_OUT_CQ_ID_SHIFT = 5,
};

/*
 * Mailbox  definitions
 */
enum {
	/* Asynchronous Event Notifications */
	AEN_SYS_ERR = 0x00008002,
	AEN_LINK_UP = 0x00008011,
	AEN_LINK_DOWN = 0x00008012,
	AEN_IDC_CMPLT = 0x00008100,
	AEN_IDC_REQ = 0x00008101,
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	AEN_IDC_EXT = 0x00008102,
	AEN_DCBX_CHG = 0x00008110,
	AEN_AEN_LOST = 0x00008120,
	AEN_AEN_SFP_IN = 0x00008130,
	AEN_AEN_SFP_OUT = 0x00008131,
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	AEN_FW_INIT_DONE = 0x00008400,
	AEN_FW_INIT_FAIL = 0x00008401,

	/* Mailbox Command Opcodes. */
	MB_CMD_NOP = 0x00000000,
	MB_CMD_EX_FW = 0x00000002,
	MB_CMD_MB_TEST = 0x00000006,
	MB_CMD_CSUM_TEST = 0x00000007,	/* Verify Checksum */
	MB_CMD_ABOUT_FW = 0x00000008,
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	MB_CMD_COPY_RISC_RAM = 0x0000000a,
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	MB_CMD_LOAD_RISC_RAM = 0x0000000b,
	MB_CMD_DUMP_RISC_RAM = 0x0000000c,
	MB_CMD_WRITE_RAM = 0x0000000d,
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	MB_CMD_INIT_RISC_RAM = 0x0000000e,
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	MB_CMD_READ_RAM = 0x0000000f,
	MB_CMD_STOP_FW = 0x00000014,
	MB_CMD_MAKE_SYS_ERR = 0x0000002a,
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	MB_CMD_WRITE_SFP = 0x00000030,
	MB_CMD_READ_SFP = 0x00000031,
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	MB_CMD_INIT_FW = 0x00000060,
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	MB_CMD_GET_IFCB = 0x00000061,
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	MB_CMD_GET_FW_STATE = 0x00000069,
	MB_CMD_IDC_REQ = 0x00000100,	/* Inter-Driver Communication */
	MB_CMD_IDC_ACK = 0x00000101,	/* Inter-Driver Communication */
	MB_CMD_SET_WOL_MODE = 0x00000110,	/* Wake On Lan */
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	MB_WOL_DISABLE = 0,
	MB_WOL_MAGIC_PKT = (1 << 1),
	MB_WOL_FLTR = (1 << 2),
	MB_WOL_UCAST = (1 << 3),
	MB_WOL_MCAST = (1 << 4),
	MB_WOL_BCAST = (1 << 5),
	MB_WOL_LINK_UP = (1 << 6),
	MB_WOL_LINK_DOWN = (1 << 7),
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	MB_WOL_MODE_ON = (1 << 16),		/* Wake on Lan Mode on */
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	MB_CMD_SET_WOL_FLTR = 0x00000111,	/* Wake On Lan Filter */
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	MB_CMD_CLEAR_WOL_FLTR = 0x00000112, /* Wake On Lan Filter */
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	MB_CMD_SET_WOL_MAGIC = 0x00000113,	/* Wake On Lan Magic Packet */
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	MB_CMD_CLEAR_WOL_MAGIC = 0x00000114,/* Wake On Lan Magic Packet */
	MB_CMD_SET_WOL_IMMED = 0x00000115,
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	MB_CMD_PORT_RESET = 0x00000120,
	MB_CMD_SET_PORT_CFG = 0x00000122,
	MB_CMD_GET_PORT_CFG = 0x00000123,
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	MB_CMD_GET_LINK_STS = 0x00000124,
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	MB_CMD_SET_LED_CFG = 0x00000125, /* Set LED Configuration Register */
		QL_LED_BLINK = 0x03e803e8,
	MB_CMD_GET_LED_CFG = 0x00000126, /* Get LED Configuration Register */
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	MB_CMD_SET_MGMNT_TFK_CTL = 0x00000160, /* Set Mgmnt Traffic Control */
	MB_SET_MPI_TFK_STOP = (1 << 0),
	MB_SET_MPI_TFK_RESUME = (1 << 1),
	MB_CMD_GET_MGMNT_TFK_CTL = 0x00000161, /* Get Mgmnt Traffic Control */
	MB_GET_MPI_TFK_STOPPED = (1 << 0),
	MB_GET_MPI_TFK_FIFO_EMPTY = (1 << 1),
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	/* Sub-commands for IDC request.
	 * This describes the reason for the
	 * IDC request.
	 */
	MB_CMD_IOP_NONE = 0x0000,
	MB_CMD_IOP_PREP_UPDATE_MPI	= 0x0001,
	MB_CMD_IOP_COMP_UPDATE_MPI	= 0x0002,
	MB_CMD_IOP_PREP_LINK_DOWN	= 0x0010,
	MB_CMD_IOP_DVR_START	 = 0x0100,
	MB_CMD_IOP_FLASH_ACC	 = 0x0101,
	MB_CMD_IOP_RESTART_MPI	= 0x0102,
	MB_CMD_IOP_CORE_DUMP_MPI	= 0x0103,
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	/* Mailbox Command Status. */
	MB_CMD_STS_GOOD = 0x00004000,	/* Success. */
	MB_CMD_STS_INTRMDT = 0x00001000,	/* Intermediate Complete. */
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	MB_CMD_STS_INVLD_CMD = 0x00004001,	/* Invalid. */
	MB_CMD_STS_XFC_ERR = 0x00004002,	/* Interface Error. */
	MB_CMD_STS_CSUM_ERR = 0x00004003,	/* Csum Error. */
	MB_CMD_STS_ERR = 0x00004005,	/* System Error. */
	MB_CMD_STS_PARAM_ERR = 0x00004006,	/* Parameter Error. */
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};

struct mbox_params {
	u32 mbox_in[MAILBOX_COUNT];
	u32 mbox_out[MAILBOX_COUNT];
	int in_count;
	int out_count;
};

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struct flash_params_8012 {
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	u8 dev_id_str[4];
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	__le16 size;
	__le16 csum;
	__le16 ver;
	__le16 sub_dev_id;
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	u8 mac_addr[6];
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	__le16 res;
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};

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/* 8000 device's flash is a different structure
 * at a different offset in flash.
 */
#define FUNC0_FLASH_OFFSET 0x140200
#define FUNC1_FLASH_OFFSET 0x140600

/* Flash related data structures. */
struct flash_params_8000 {
	u8 dev_id_str[4];	/* "8000" */
	__le16 ver;
	__le16 size;
	__le16 csum;
	__le16 reserved0;
	__le16 total_size;
	__le16 entry_count;
	u8 data_type0;
	u8 data_size0;
	u8 mac_addr[6];
	u8 data_type1;
	u8 data_size1;
	u8 mac_addr1[6];
	u8 data_type2;
	u8 data_size2;
	__le16 vlan_id;
	u8 data_type3;
	u8 data_size3;
	__le16 last;
	u8 reserved1[464];
	__le16	subsys_ven_id;
	__le16	subsys_dev_id;
	u8 reserved2[4];
};

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union flash_params {
	struct flash_params_8012 flash_params_8012;
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	struct flash_params_8000 flash_params_8000;
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};
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/*
 * doorbell space for the rx ring context
 */
struct rx_doorbell_context {
	u32 cnsmr_idx;		/* 0x00 */
	u32 valid;		/* 0x04 */
	u32 reserved[4];	/* 0x08-0x14 */
	u32 lbq_prod_idx;	/* 0x18 */
	u32 sbq_prod_idx;	/* 0x1c */
};

/*
 * doorbell space for the tx ring context
 */
struct tx_doorbell_context {
	u32 prod_idx;		/* 0x00 */
	u32 valid;		/* 0x04 */
	u32 reserved[4];	/* 0x08-0x14 */
	u32 lbq_prod_idx;	/* 0x18 */
	u32 sbq_prod_idx;	/* 0x1c */
};

/* DATA STRUCTURES SHARED WITH HARDWARE. */
struct tx_buf_desc {
	__le64 addr;
	__le32 len;
#define TX_DESC_LEN_MASK	0x000fffff
#define TX_DESC_C	0x40000000
#define TX_DESC_E	0x80000000
1065
} __packed;
1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091

/*
 * IOCB Definitions...
 */

#define OPCODE_OB_MAC_IOCB 			0x01
#define OPCODE_OB_MAC_TSO_IOCB		0x02
#define OPCODE_IB_MAC_IOCB			0x20
#define OPCODE_IB_MPI_IOCB			0x21
#define OPCODE_IB_AE_IOCB			0x3f

struct ob_mac_iocb_req {
	u8 opcode;
	u8 flags1;
#define OB_MAC_IOCB_REQ_OI	0x01
#define OB_MAC_IOCB_REQ_I	0x02
#define OB_MAC_IOCB_REQ_D	0x08
#define OB_MAC_IOCB_REQ_F	0x10
	u8 flags2;
	u8 flags3;
#define OB_MAC_IOCB_DFP	0x02
#define OB_MAC_IOCB_V	0x04
	__le32 reserved1[2];
	__le16 frame_len;
#define OB_MAC_IOCB_LEN_MASK 0x3ffff
	__le16 reserved2;
1092 1093
	u32 tid;
	u32 txq_idx;
1094 1095 1096 1097
	__le32 reserved3;
	__le16 vlan_tci;
	__le16 reserved4;
	struct tx_buf_desc tbd[TX_DESC_PER_IOCB];
1098
} __packed;
1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111

struct ob_mac_iocb_rsp {
	u8 opcode;		/* */
	u8 flags1;		/* */
#define OB_MAC_IOCB_RSP_OI	0x01	/* */
#define OB_MAC_IOCB_RSP_I	0x02	/* */
#define OB_MAC_IOCB_RSP_E	0x08	/* */
#define OB_MAC_IOCB_RSP_S	0x10	/* too Short */
#define OB_MAC_IOCB_RSP_L	0x20	/* too Large */
#define OB_MAC_IOCB_RSP_P	0x40	/* Padded */
	u8 flags2;		/* */
	u8 flags3;		/* */
#define OB_MAC_IOCB_RSP_B	0x80	/* */
1112 1113
	u32 tid;
	u32 txq_idx;
1114
	__le32 reserved[13];
1115
} __packed;
1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134

struct ob_mac_tso_iocb_req {
	u8 opcode;
	u8 flags1;
#define OB_MAC_TSO_IOCB_OI	0x01
#define OB_MAC_TSO_IOCB_I	0x02
#define OB_MAC_TSO_IOCB_D	0x08
#define OB_MAC_TSO_IOCB_IP4	0x40
#define OB_MAC_TSO_IOCB_IP6	0x80
	u8 flags2;
#define OB_MAC_TSO_IOCB_LSO	0x20
#define OB_MAC_TSO_IOCB_UC	0x40
#define OB_MAC_TSO_IOCB_TC	0x80
	u8 flags3;
#define OB_MAC_TSO_IOCB_IC	0x01
#define OB_MAC_TSO_IOCB_DFP	0x02
#define OB_MAC_TSO_IOCB_V	0x04
	__le32 reserved1[2];
	__le32 frame_len;
1135 1136
	u32 tid;
	u32 txq_idx;
1137 1138 1139 1140 1141 1142
	__le16 total_hdrs_len;
	__le16 net_trans_offset;
#define OB_MAC_TRANSPORT_HDR_SHIFT 6
	__le16 vlan_tci;
	__le16 mss;
	struct tx_buf_desc tbd[TX_DESC_PER_IOCB];
1143
} __packed;
1144 1145 1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156

struct ob_mac_tso_iocb_rsp {
	u8 opcode;
	u8 flags1;
#define OB_MAC_TSO_IOCB_RSP_OI	0x01
#define OB_MAC_TSO_IOCB_RSP_I	0x02
#define OB_MAC_TSO_IOCB_RSP_E	0x08
#define OB_MAC_TSO_IOCB_RSP_S	0x10
#define OB_MAC_TSO_IOCB_RSP_L	0x20
#define OB_MAC_TSO_IOCB_RSP_P	0x40
	u8 flags2;		/* */
	u8 flags3;		/* */
#define OB_MAC_TSO_IOCB_RSP_B	0x8000
1157 1158
	u32 tid;
	u32 txq_idx;
1159
	__le32 reserved2[13];
1160
} __packed;
1161 1162 1163 1164 1165 1166

struct ib_mac_iocb_rsp {
	u8 opcode;		/* 0x20 */
	u8 flags1;
#define IB_MAC_IOCB_RSP_OI	0x01	/* Overide intr delay */
#define IB_MAC_IOCB_RSP_I	0x02	/* Disble Intr Generation */
1167
#define IB_MAC_CSUM_ERR_MASK 0x1c	/* A mask to use for csum errs */
1168 1169 1170 1171 1172 1173 1174 1175 1176 1177 1178 1179 1180 1181 1182 1183 1184 1185 1186 1187 1188 1189 1190 1191 1192 1193 1194 1195 1196 1197 1198 1199 1200 1201 1202
#define IB_MAC_IOCB_RSP_TE	0x04	/* Checksum error */
#define IB_MAC_IOCB_RSP_NU	0x08	/* No checksum rcvd */
#define IB_MAC_IOCB_RSP_IE	0x10	/* IPv4 checksum error */
#define IB_MAC_IOCB_RSP_M_MASK	0x60	/* Multicast info */
#define IB_MAC_IOCB_RSP_M_NONE	0x00	/* Not mcast frame */
#define IB_MAC_IOCB_RSP_M_HASH	0x20	/* HASH mcast frame */
#define IB_MAC_IOCB_RSP_M_REG 	0x40	/* Registered mcast frame */
#define IB_MAC_IOCB_RSP_M_PROM 	0x60	/* Promiscuous mcast frame */
#define IB_MAC_IOCB_RSP_B	0x80	/* Broadcast frame */
	u8 flags2;
#define IB_MAC_IOCB_RSP_P	0x01	/* Promiscuous frame */
#define IB_MAC_IOCB_RSP_V	0x02	/* Vlan tag present */
#define IB_MAC_IOCB_RSP_ERR_MASK	0x1c	/*  */
#define IB_MAC_IOCB_RSP_ERR_CODE_ERR	0x04
#define IB_MAC_IOCB_RSP_ERR_OVERSIZE	0x08
#define IB_MAC_IOCB_RSP_ERR_UNDERSIZE	0x10
#define IB_MAC_IOCB_RSP_ERR_PREAMBLE	0x14
#define IB_MAC_IOCB_RSP_ERR_FRAME_LEN	0x18
#define IB_MAC_IOCB_RSP_ERR_CRC		0x1c
#define IB_MAC_IOCB_RSP_U	0x20	/* UDP packet */
#define IB_MAC_IOCB_RSP_T	0x40	/* TCP packet */
#define IB_MAC_IOCB_RSP_FO	0x80	/* Failover port */
	u8 flags3;
#define IB_MAC_IOCB_RSP_RSS_MASK	0x07	/* RSS mask */
#define IB_MAC_IOCB_RSP_M_NONE	0x00	/* No RSS match */
#define IB_MAC_IOCB_RSP_M_IPV4	0x04	/* IPv4 RSS match */
#define IB_MAC_IOCB_RSP_M_IPV6	0x02	/* IPv6 RSS match */
#define IB_MAC_IOCB_RSP_M_TCP_V4 	0x05	/* TCP with IPv4 */
#define IB_MAC_IOCB_RSP_M_TCP_V6 	0x03	/* TCP with IPv6 */
#define IB_MAC_IOCB_RSP_V4	0x08	/* IPV4 */
#define IB_MAC_IOCB_RSP_V6	0x10	/* IPV6 */
#define IB_MAC_IOCB_RSP_IH	0x20	/* Split after IP header */
#define IB_MAC_IOCB_RSP_DS	0x40	/* data is in small buffer */
#define IB_MAC_IOCB_RSP_DL	0x80	/* data is in large buffer */
	__le32 data_len;	/* */
1203
	__le64 data_addr;	/* */
1204 1205 1206 1207
	__le32 rss;		/* */
	__le16 vlan_id;		/* 12 bits */
#define IB_MAC_IOCB_RSP_C	0x1000	/* VLAN CFI bit */
#define IB_MAC_IOCB_RSP_COS_SHIFT	12	/* class of service value */
1208
#define IB_MAC_IOCB_RSP_VLAN_MASK	0x0ffff
1209 1210 1211

	__le16 reserved1;
	__le32 reserved2[6];
1212 1213 1214 1215 1216
	u8 reserved3[3];
	u8 flags4;
#define IB_MAC_IOCB_RSP_HV	0x20
#define IB_MAC_IOCB_RSP_HS	0x40
#define IB_MAC_IOCB_RSP_HL	0x80
1217
	__le32 hdr_len;		/* */
1218
	__le64 hdr_addr;	/* */
1219
} __packed;
1220 1221 1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239

struct ib_ae_iocb_rsp {
	u8 opcode;
	u8 flags1;
#define IB_AE_IOCB_RSP_OI		0x01
#define IB_AE_IOCB_RSP_I		0x02
	u8 event;
#define LINK_UP_EVENT              0x00
#define LINK_DOWN_EVENT            0x01
#define CAM_LOOKUP_ERR_EVENT       0x06
#define SOFT_ECC_ERROR_EVENT       0x07
#define MGMT_ERR_EVENT             0x08
#define TEN_GIG_MAC_EVENT          0x09
#define GPI0_H2L_EVENT       	0x10
#define GPI0_L2H_EVENT       	0x20
#define GPI1_H2L_EVENT       	0x11
#define GPI1_L2H_EVENT       	0x21
#define PCI_ERR_ANON_BUF_RD        0x40
	u8 q_id;
	__le32 reserved[15];
1240
} __packed;
1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251

/*
 * These three structures are for generic
 * handling of ib and ob iocbs.
 */
struct ql_net_rsp_iocb {
	u8 opcode;
	u8 flags0;
	__le16 length;
	__le32 tid;
	__le32 reserved[14];
1252
} __packed;
1253 1254 1255 1256 1257 1258 1259

struct net_req_iocb {
	u8 opcode;
	u8 flags0;
	__le16 flags1;
	__le32 tid;
	__le32 reserved1[30];
1260
} __packed;
1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273

/*
 * tx ring initialization control block for chip.
 * It is defined as:
 * "Work Queue Initialization Control Block"
 */
struct wqicb {
	__le16 len;
#define Q_LEN_V		(1 << 4)
#define Q_LEN_CPP_CONT	0x0000
#define Q_LEN_CPP_16	0x0001
#define Q_LEN_CPP_32	0x0002
#define Q_LEN_CPP_64	0x0003
1274
#define Q_LEN_CPP_512	0x0006
1275 1276 1277 1278 1279 1280 1281 1282 1283
	__le16 flags;
#define Q_PRI_SHIFT	1
#define Q_FLAGS_LC	0x1000
#define Q_FLAGS_LB	0x2000
#define Q_FLAGS_LI	0x4000
#define Q_FLAGS_LO	0x8000
	__le16 cq_id_rss;
#define Q_CQ_ID_RSS_RV 0x8000
	__le16 rid;
1284 1285
	__le64 addr;
	__le64 cnsmr_idx_addr;
1286
} __packed;
1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309

/*
 * rx ring initialization control block for chip.
 * It is defined as:
 * "Completion Queue Initialization Control Block"
 */
struct cqicb {
	u8 msix_vect;
	u8 reserved1;
	u8 reserved2;
	u8 flags;
#define FLAGS_LV	0x08
#define FLAGS_LS	0x10
#define FLAGS_LL	0x20
#define FLAGS_LI	0x40
#define FLAGS_LC	0x80
	__le16 len;
#define LEN_V		(1 << 4)
#define LEN_CPP_CONT	0x0000
#define LEN_CPP_32	0x0001
#define LEN_CPP_64	0x0002
#define LEN_CPP_128	0x0003
	__le16 rid;
1310 1311
	__le64 addr;
	__le64 prod_idx_addr;
1312 1313
	__le16 pkt_delay;
	__le16 irq_delay;
1314
	__le64 lbq_addr;
1315 1316
	__le16 lbq_buf_size;
	__le16 lbq_len;		/* entry count */
1317
	__le64 sbq_addr;
1318 1319
	__le16 sbq_buf_size;
	__le16 sbq_len;		/* entry count */
1320
} __packed;
1321 1322 1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334

struct ricb {
	u8 base_cq;
#define RSS_L4K 0x80
	u8 flags;
#define RSS_L6K 0x01
#define RSS_LI  0x02
#define RSS_LB  0x04
#define RSS_LM  0x08
#define RSS_RI4 0x10
#define RSS_RT4 0x20
#define RSS_RI6 0x40
#define RSS_RT6 0x80
	__le16 mask;
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	u8 hash_cq_id[1024];
1336 1337
	__le32 ipv6_hash_key[10];
	__le32 ipv4_hash_key[4];
1338
} __packed;
1339 1340 1341 1342 1343 1344 1345 1346

/* SOFTWARE/DRIVER DATA STRUCTURES. */

struct oal {
	struct tx_buf_desc oal[TX_DESC_PER_OAL];
};

struct map_list {
1347 1348
	DEFINE_DMA_UNMAP_ADDR(mapaddr);
	DEFINE_DMA_UNMAP_LEN(maplen);
1349 1350 1351 1352 1353
};

struct tx_ring_desc {
	struct sk_buff *skb;
	struct ob_mac_iocb_req *queue_entry;
1354
	u32 index;
1355
	struct oal oal;
1356
	struct map_list map[MAX_SKB_FRAGS + 2];
1357 1358 1359 1360
	int map_cnt;
	struct tx_ring_desc *next;
};

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struct page_chunk {
	struct page *page;	/* master page */
	char *va;		/* virt addr for this chunk */
	u64 map;		/* mapping for master */
	unsigned int offset;	/* offset for this chunk */
	unsigned int last_flag; /* flag set for last chunk in page */
};

1369 1370
struct bq_desc {
	union {
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		struct page_chunk pg_chunk;
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		struct sk_buff *skb;
	} p;
1374
	__le64 *addr;
1375
	u32 index;
1376 1377
	DEFINE_DMA_UNMAP_ADDR(mapaddr);
	DEFINE_DMA_UNMAP_LEN(maplen);
1378 1379 1380 1381 1382 1383 1384 1385 1386 1387 1388
};

#define QL_TXQ_IDX(qdev, skb) (smp_processor_id()%(qdev->tx_ring_count))

struct tx_ring {
	/*
	 * queue info.
	 */
	struct wqicb wqicb;	/* structure used to inform chip of new queue */
	void *wq_base;		/* pci_alloc:virtual addr for tx */
	dma_addr_t wq_base_dma;	/* pci_alloc:dma addr for tx */
1389
	__le32 *cnsmr_idx_sh_reg;	/* shadow copy of consumer idx */
1390 1391 1392 1393 1394 1395 1396 1397 1398 1399 1400 1401 1402 1403
	dma_addr_t cnsmr_idx_sh_reg_dma;	/* dma-shadow copy of consumer */
	u32 wq_size;		/* size in bytes of queue area */
	u32 wq_len;		/* number of entries in queue */
	void __iomem *prod_idx_db_reg;	/* doorbell area index reg at offset 0x00 */
	void __iomem *valid_db_reg;	/* doorbell area valid reg at offset 0x04 */
	u16 prod_idx;		/* current value for prod idx */
	u16 cq_id;		/* completion (rx) queue for tx completions */
	u8 wq_id;		/* queue id for this entry */
	u8 reserved1[3];
	struct tx_ring_desc *q;	/* descriptor list for the queue */
	spinlock_t lock;
	atomic_t tx_count;	/* counts down for every outstanding IO */
	struct delayed_work tx_work;
	struct ql_adapter *qdev;
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	u64 tx_packets;
	u64 tx_bytes;
	u64 tx_errors;
1407 1408 1409 1410 1411 1412 1413 1414 1415 1416 1417 1418 1419 1420 1421 1422 1423 1424 1425 1426
};

/*
 * Type of inbound queue.
 */
enum {
	DEFAULT_Q = 2,		/* Handles slow queue and chip/MPI events. */
	TX_Q = 3,		/* Handles outbound completions. */
	RX_Q = 4,		/* Handles inbound completions. */
};

struct rx_ring {
	struct cqicb cqicb;	/* The chip's completion queue init control block. */

	/* Completion queue elements. */
	void *cq_base;
	dma_addr_t cq_base_dma;
	u32 cq_size;
	u32 cq_len;
	u16 cq_id;
1427
	__le32 *prod_idx_sh_reg;	/* Shadowed producer register. */
1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441
	dma_addr_t prod_idx_sh_reg_dma;
	void __iomem *cnsmr_idx_db_reg;	/* PCI doorbell mem area + 0 */
	u32 cnsmr_idx;		/* current sw idx */
	struct ql_net_rsp_iocb *curr_entry;	/* next entry on queue */
	void __iomem *valid_db_reg;	/* PCI doorbell mem area + 0x04 */

	/* Large buffer queue elements. */
	u32 lbq_len;		/* entry count */
	u32 lbq_size;		/* size in bytes of queue */
	u32 lbq_buf_size;
	void *lbq_base;
	dma_addr_t lbq_base_dma;
	void *lbq_base_indirect;
	dma_addr_t lbq_base_indirect_dma;
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	struct page_chunk pg_chunk; /* current page for chunks */
1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465
	struct bq_desc *lbq;	/* array of control blocks */
	void __iomem *lbq_prod_idx_db_reg;	/* PCI doorbell mem area + 0x18 */
	u32 lbq_prod_idx;	/* current sw prod idx */
	u32 lbq_curr_idx;	/* next entry we expect */
	u32 lbq_clean_idx;	/* beginning of new descs */
	u32 lbq_free_cnt;	/* free buffer desc cnt */

	/* Small buffer queue elements. */
	u32 sbq_len;		/* entry count */
	u32 sbq_size;		/* size in bytes of queue */
	u32 sbq_buf_size;
	void *sbq_base;
	dma_addr_t sbq_base_dma;
	void *sbq_base_indirect;
	dma_addr_t sbq_base_indirect_dma;
	struct bq_desc *sbq;	/* array of control blocks */
	void __iomem *sbq_prod_idx_db_reg; /* PCI doorbell mem area + 0x1c */
	u32 sbq_prod_idx;	/* current sw prod idx */
	u32 sbq_curr_idx;	/* next entry we expect */
	u32 sbq_clean_idx;	/* beginning of new descs */
	u32 sbq_free_cnt;	/* free buffer desc cnt */

	/* Misc. handler elements. */
1466
	u32 type;		/* Type of queue, tx, rx. */
1467 1468 1469 1470 1471 1472
	u32 irq;		/* Which vector this ring is assigned. */
	u32 cpu;		/* Which CPU this should run on. */
	char name[IFNAMSIZ + 5];
	struct napi_struct napi;
	u8 reserved;
	struct ql_adapter *qdev;
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	u64 rx_packets;
	u64 rx_multicast;
	u64 rx_bytes;
	u64 rx_dropped;
	u64 rx_errors;
1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517 1518 1519 1520 1521 1522 1523 1524 1525 1526 1527 1528 1529 1530 1531 1532 1533 1534 1535 1536 1537 1538
};

/*
 * RSS Initialization Control Block
 */
struct hash_id {
	u8 value[4];
};

struct nic_stats {
	/*
	 * These stats come from offset 200h to 278h
	 * in the XGMAC register.
	 */
	u64 tx_pkts;
	u64 tx_bytes;
	u64 tx_mcast_pkts;
	u64 tx_bcast_pkts;
	u64 tx_ucast_pkts;
	u64 tx_ctl_pkts;
	u64 tx_pause_pkts;
	u64 tx_64_pkt;
	u64 tx_65_to_127_pkt;
	u64 tx_128_to_255_pkt;
	u64 tx_256_511_pkt;
	u64 tx_512_to_1023_pkt;
	u64 tx_1024_to_1518_pkt;
	u64 tx_1519_to_max_pkt;
	u64 tx_undersize_pkt;
	u64 tx_oversize_pkt;

	/*
	 * These stats come from offset 300h to 3C8h
	 * in the XGMAC register.
	 */
	u64 rx_bytes;
	u64 rx_bytes_ok;
	u64 rx_pkts;
	u64 rx_pkts_ok;
	u64 rx_bcast_pkts;
	u64 rx_mcast_pkts;
	u64 rx_ucast_pkts;
	u64 rx_undersize_pkts;
	u64 rx_oversize_pkts;
	u64 rx_jabber_pkts;
	u64 rx_undersize_fcerr_pkts;
	u64 rx_drop_events;
	u64 rx_fcerr_pkts;
	u64 rx_align_err;
	u64 rx_symbol_err;
	u64 rx_mac_err;
	u64 rx_ctl_pkts;
	u64 rx_pause_pkts;
	u64 rx_64_pkts;
	u64 rx_65_to_127_pkts;
	u64 rx_128_255_pkts;
	u64 rx_256_511_pkts;
	u64 rx_512_to_1023_pkts;
	u64 rx_1024_to_1518_pkts;
	u64 rx_1519_to_max_pkts;
	u64 rx_len_err_pkts;
1539 1540 1541 1542 1543 1544 1545 1546
	/* Receive Mac Err stats */
	u64 rx_code_err;
	u64 rx_oversize_err;
	u64 rx_undersize_err;
	u64 rx_preamble_err;
	u64 rx_frame_len_err;
	u64 rx_crc_err;
	u64 rx_err_count;
1547 1548 1549 1550 1551 1552 1553 1554 1555 1556 1557 1558 1559 1560 1561 1562 1563 1564 1565 1566 1567
	/*
	 * These stats come from offset 500h to 5C8h
	 * in the XGMAC register.
	 */
	u64 tx_cbfc_pause_frames0;
	u64 tx_cbfc_pause_frames1;
	u64 tx_cbfc_pause_frames2;
	u64 tx_cbfc_pause_frames3;
	u64 tx_cbfc_pause_frames4;
	u64 tx_cbfc_pause_frames5;
	u64 tx_cbfc_pause_frames6;
	u64 tx_cbfc_pause_frames7;
	u64 rx_cbfc_pause_frames0;
	u64 rx_cbfc_pause_frames1;
	u64 rx_cbfc_pause_frames2;
	u64 rx_cbfc_pause_frames3;
	u64 rx_cbfc_pause_frames4;
	u64 rx_cbfc_pause_frames5;
	u64 rx_cbfc_pause_frames6;
	u64 rx_cbfc_pause_frames7;
	u64 rx_nic_fifo_drop;
1568 1569
};

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/* Firmware coredump internal register address/length pairs. */
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enum {
	MPI_CORE_REGS_ADDR = 0x00030000,
	MPI_CORE_REGS_CNT = 127,
	MPI_CORE_SH_REGS_CNT = 16,
	TEST_REGS_ADDR = 0x00001000,
	TEST_REGS_CNT = 23,
	RMII_REGS_ADDR = 0x00001040,
	RMII_REGS_CNT = 64,
	FCMAC1_REGS_ADDR = 0x00001080,
	FCMAC2_REGS_ADDR = 0x000010c0,
	FCMAC_REGS_CNT = 64,
	FC1_MBX_REGS_ADDR = 0x00001100,
	FC2_MBX_REGS_ADDR = 0x00001240,
	FC_MBX_REGS_CNT = 64,
	IDE_REGS_ADDR = 0x00001140,
	IDE_REGS_CNT = 64,
	NIC1_MBX_REGS_ADDR = 0x00001180,
	NIC2_MBX_REGS_ADDR = 0x00001280,
	NIC_MBX_REGS_CNT = 64,
	SMBUS_REGS_ADDR = 0x00001200,
	SMBUS_REGS_CNT = 64,
	I2C_REGS_ADDR = 0x00001fc0,
	I2C_REGS_CNT = 64,
	MEMC_REGS_ADDR = 0x00003000,
	MEMC_REGS_CNT = 256,
	PBUS_REGS_ADDR = 0x00007c00,
	PBUS_REGS_CNT = 256,
	MDE_REGS_ADDR = 0x00010000,
	MDE_REGS_CNT = 6,
	CODE_RAM_ADDR = 0x00020000,
	CODE_RAM_CNT = 0x2000,
	MEMC_RAM_ADDR = 0x00100000,
	MEMC_RAM_CNT = 0x2000,
};

#define MPI_COREDUMP_COOKIE 0x5555aaaa
struct mpi_coredump_global_header {
	u32	cookie;
	u8	idString[16];
	u32	timeLo;
	u32	timeHi;
	u32	imageSize;
	u32	headerSize;
	u8	info[220];
};

struct mpi_coredump_segment_header {
	u32	cookie;
	u32	segNum;
	u32	segSize;
	u32	extra;
	u8	description[16];
};

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Ron Mercer 已提交
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/* Firmware coredump header segment numbers. */
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enum {
	CORE_SEG_NUM = 1,
	TEST_LOGIC_SEG_NUM = 2,
	RMII_SEG_NUM = 3,
	FCMAC1_SEG_NUM = 4,
	FCMAC2_SEG_NUM = 5,
	FC1_MBOX_SEG_NUM = 6,
	IDE_SEG_NUM = 7,
	NIC1_MBOX_SEG_NUM = 8,
	SMBUS_SEG_NUM = 9,
	FC2_MBOX_SEG_NUM = 10,
	NIC2_MBOX_SEG_NUM = 11,
	I2C_SEG_NUM = 12,
	MEMC_SEG_NUM = 13,
	PBUS_SEG_NUM = 14,
	MDE_SEG_NUM = 15,
	NIC1_CONTROL_SEG_NUM = 16,
	NIC2_CONTROL_SEG_NUM = 17,
	NIC1_XGMAC_SEG_NUM = 18,
	NIC2_XGMAC_SEG_NUM = 19,
	WCS_RAM_SEG_NUM = 20,
	MEMC_RAM_SEG_NUM = 21,
	XAUI_AN_SEG_NUM = 22,
	XAUI_HSS_PCS_SEG_NUM = 23,
	XFI_AN_SEG_NUM = 24,
	XFI_TRAIN_SEG_NUM = 25,
	XFI_HSS_PCS_SEG_NUM = 26,
	XFI_HSS_TX_SEG_NUM = 27,
	XFI_HSS_RX_SEG_NUM = 28,
	XFI_HSS_PLL_SEG_NUM = 29,
	MISC_NIC_INFO_SEG_NUM = 30,
	INTR_STATES_SEG_NUM = 31,
	CAM_ENTRIES_SEG_NUM = 32,
	ROUTING_WORDS_SEG_NUM = 33,
	ETS_SEG_NUM = 34,
	PROBE_DUMP_SEG_NUM = 35,
	ROUTING_INDEX_SEG_NUM = 36,
	MAC_PROTOCOL_SEG_NUM = 37,
	XAUI2_AN_SEG_NUM = 38,
	XAUI2_HSS_PCS_SEG_NUM = 39,
	XFI2_AN_SEG_NUM = 40,
	XFI2_TRAIN_SEG_NUM = 41,
	XFI2_HSS_PCS_SEG_NUM = 42,
	XFI2_HSS_TX_SEG_NUM = 43,
	XFI2_HSS_RX_SEG_NUM = 44,
	XFI2_HSS_PLL_SEG_NUM = 45,
	SEM_REGS_SEG_NUM = 50

};

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Ron Mercer 已提交
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/* There are 64 generic NIC registers. */
#define NIC_REGS_DUMP_WORD_COUNT		64
/* XGMAC word count. */
#define XGMAC_DUMP_WORD_COUNT		(XGMAC_REGISTER_END / 4)
/* Word counts for the SERDES blocks. */
#define XG_SERDES_XAUI_AN_COUNT		14
#define XG_SERDES_XAUI_HSS_PCS_COUNT	33
#define XG_SERDES_XFI_AN_COUNT		14
#define XG_SERDES_XFI_TRAIN_COUNT		12
#define XG_SERDES_XFI_HSS_PCS_COUNT	15
#define XG_SERDES_XFI_HSS_TX_COUNT		32
#define XG_SERDES_XFI_HSS_RX_COUNT		32
#define XG_SERDES_XFI_HSS_PLL_COUNT	32

/* There are 2 CNA ETS and 8 NIC ETS registers. */
#define ETS_REGS_DUMP_WORD_COUNT		10

/* Each probe mux entry stores the probe type plus 64 entries
 * that are each each 64-bits in length. There are a total of
 * 34 (PRB_MX_ADDR_VALID_TOTAL) valid probes.
 */
#define PRB_MX_ADDR_PRB_WORD_COUNT		(1 + (PRB_MX_ADDR_MAX_MUX * 2))
#define PRB_MX_DUMP_TOT_COUNT		(PRB_MX_ADDR_PRB_WORD_COUNT * \
							PRB_MX_ADDR_VALID_TOTAL)
/* Each routing entry consists of 4 32-bit words.
 * They are route type, index, index word, and result.
 * There are 2 route blocks with 8 entries each and
 *  2 NIC blocks with 16 entries each.
 * The totol entries is 48 with 4 words each.
 */
#define RT_IDX_DUMP_ENTRIES			48
#define RT_IDX_DUMP_WORDS_PER_ENTRY	4
#define RT_IDX_DUMP_TOT_WORDS		(RT_IDX_DUMP_ENTRIES * \
						RT_IDX_DUMP_WORDS_PER_ENTRY)
/* There are 10 address blocks in filter, each with
 * different entry counts and different word-count-per-entry.
 */
#define MAC_ADDR_DUMP_ENTRIES \
	((MAC_ADDR_MAX_CAM_ENTRIES * MAC_ADDR_MAX_CAM_WCOUNT) + \
	(MAC_ADDR_MAX_MULTICAST_ENTRIES * MAC_ADDR_MAX_MULTICAST_WCOUNT) + \
	(MAC_ADDR_MAX_VLAN_ENTRIES * MAC_ADDR_MAX_VLAN_WCOUNT) + \
	(MAC_ADDR_MAX_MCAST_FLTR_ENTRIES * MAC_ADDR_MAX_MCAST_FLTR_WCOUNT) + \
	(MAC_ADDR_MAX_FC_MAC_ENTRIES * MAC_ADDR_MAX_FC_MAC_WCOUNT) + \
	(MAC_ADDR_MAX_MGMT_MAC_ENTRIES * MAC_ADDR_MAX_MGMT_MAC_WCOUNT) + \
	(MAC_ADDR_MAX_MGMT_VLAN_ENTRIES * MAC_ADDR_MAX_MGMT_VLAN_WCOUNT) + \
	(MAC_ADDR_MAX_MGMT_V4_ENTRIES * MAC_ADDR_MAX_MGMT_V4_WCOUNT) + \
	(MAC_ADDR_MAX_MGMT_V6_ENTRIES * MAC_ADDR_MAX_MGMT_V6_WCOUNT) + \
	(MAC_ADDR_MAX_MGMT_TU_DP_ENTRIES * MAC_ADDR_MAX_MGMT_TU_DP_WCOUNT))
#define MAC_ADDR_DUMP_WORDS_PER_ENTRY	2
#define MAC_ADDR_DUMP_TOT_WORDS		(MAC_ADDR_DUMP_ENTRIES * \
						MAC_ADDR_DUMP_WORDS_PER_ENTRY)
/* Maximum of 4 functions whose semaphore registeres are
 * in the coredump.
 */
#define MAX_SEMAPHORE_FUNCTIONS		4
/* Defines for access the MPI shadow registers. */
#define RISC_124		0x0003007c
#define RISC_127		0x0003007f
#define SHADOW_OFFSET	0xb0000000
#define SHADOW_REG_SHIFT	20

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struct ql_nic_misc {
	u32 rx_ring_count;
	u32 tx_ring_count;
	u32 intr_count;
	u32 function;
};

struct ql_reg_dump {

	/* segment 0 */
	struct mpi_coredump_global_header mpi_global_header;

	/* segment 16 */
	struct mpi_coredump_segment_header nic_regs_seg_hdr;
	u32 nic_regs[64];

	/* segment 30 */
	struct mpi_coredump_segment_header misc_nic_seg_hdr;
	struct ql_nic_misc misc_nic_info;

	/* segment 31 */
	/* one interrupt state for each CQ */
	struct mpi_coredump_segment_header intr_states_seg_hdr;
	u32 intr_states[MAX_CPUS];

	/* segment 32 */
	/* 3 cam words each for 16 unicast,
	 * 2 cam words for each of 32 multicast.
	 */
	struct mpi_coredump_segment_header cam_entries_seg_hdr;
	u32 cam_entries[(16 * 3) + (32 * 3)];

	/* segment 33 */
	struct mpi_coredump_segment_header nic_routing_words_seg_hdr;
	u32 nic_routing_words[16];

	/* segment 34 */
	struct mpi_coredump_segment_header ets_seg_hdr;
	u32 ets[8+2];
};

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Ron Mercer 已提交
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struct ql_mpi_coredump {
	/* segment 0 */
	struct mpi_coredump_global_header mpi_global_header;

	/* segment 1 */
	struct mpi_coredump_segment_header core_regs_seg_hdr;
	u32 mpi_core_regs[MPI_CORE_REGS_CNT];
	u32 mpi_core_sh_regs[MPI_CORE_SH_REGS_CNT];

	/* segment 2 */
	struct mpi_coredump_segment_header test_logic_regs_seg_hdr;
	u32 test_logic_regs[TEST_REGS_CNT];

	/* segment 3 */
	struct mpi_coredump_segment_header rmii_regs_seg_hdr;
	u32 rmii_regs[RMII_REGS_CNT];

	/* segment 4 */
	struct mpi_coredump_segment_header fcmac1_regs_seg_hdr;
	u32 fcmac1_regs[FCMAC_REGS_CNT];

	/* segment 5 */
	struct mpi_coredump_segment_header fcmac2_regs_seg_hdr;
	u32 fcmac2_regs[FCMAC_REGS_CNT];

	/* segment 6 */
	struct mpi_coredump_segment_header fc1_mbx_regs_seg_hdr;
	u32 fc1_mbx_regs[FC_MBX_REGS_CNT];

	/* segment 7 */
	struct mpi_coredump_segment_header ide_regs_seg_hdr;
	u32 ide_regs[IDE_REGS_CNT];

	/* segment 8 */
	struct mpi_coredump_segment_header nic1_mbx_regs_seg_hdr;
	u32 nic1_mbx_regs[NIC_MBX_REGS_CNT];

	/* segment 9 */
	struct mpi_coredump_segment_header smbus_regs_seg_hdr;
	u32 smbus_regs[SMBUS_REGS_CNT];

	/* segment 10 */
	struct mpi_coredump_segment_header fc2_mbx_regs_seg_hdr;
	u32 fc2_mbx_regs[FC_MBX_REGS_CNT];

	/* segment 11 */
	struct mpi_coredump_segment_header nic2_mbx_regs_seg_hdr;
	u32 nic2_mbx_regs[NIC_MBX_REGS_CNT];

	/* segment 12 */
	struct mpi_coredump_segment_header i2c_regs_seg_hdr;
	u32 i2c_regs[I2C_REGS_CNT];
	/* segment 13 */
	struct mpi_coredump_segment_header memc_regs_seg_hdr;
	u32 memc_regs[MEMC_REGS_CNT];

	/* segment 14 */
	struct mpi_coredump_segment_header pbus_regs_seg_hdr;
	u32 pbus_regs[PBUS_REGS_CNT];

	/* segment 15 */
	struct mpi_coredump_segment_header mde_regs_seg_hdr;
	u32 mde_regs[MDE_REGS_CNT];

	/* segment 16 */
	struct mpi_coredump_segment_header nic_regs_seg_hdr;
	u32 nic_regs[NIC_REGS_DUMP_WORD_COUNT];

	/* segment 17 */
	struct mpi_coredump_segment_header nic2_regs_seg_hdr;
	u32 nic2_regs[NIC_REGS_DUMP_WORD_COUNT];

	/* segment 18 */
	struct mpi_coredump_segment_header xgmac1_seg_hdr;
	u32 xgmac1[XGMAC_DUMP_WORD_COUNT];

	/* segment 19 */
	struct mpi_coredump_segment_header xgmac2_seg_hdr;
	u32 xgmac2[XGMAC_DUMP_WORD_COUNT];

	/* segment 20 */
	struct mpi_coredump_segment_header code_ram_seg_hdr;
	u32 code_ram[CODE_RAM_CNT];

	/* segment 21 */
	struct mpi_coredump_segment_header memc_ram_seg_hdr;
	u32 memc_ram[MEMC_RAM_CNT];

	/* segment 22 */
	struct mpi_coredump_segment_header xaui_an_hdr;
	u32 serdes_xaui_an[XG_SERDES_XAUI_AN_COUNT];

	/* segment 23 */
	struct mpi_coredump_segment_header xaui_hss_pcs_hdr;
	u32 serdes_xaui_hss_pcs[XG_SERDES_XAUI_HSS_PCS_COUNT];

	/* segment 24 */
	struct mpi_coredump_segment_header xfi_an_hdr;
	u32 serdes_xfi_an[XG_SERDES_XFI_AN_COUNT];

	/* segment 25 */
	struct mpi_coredump_segment_header xfi_train_hdr;
	u32 serdes_xfi_train[XG_SERDES_XFI_TRAIN_COUNT];

	/* segment 26 */
	struct mpi_coredump_segment_header xfi_hss_pcs_hdr;
	u32 serdes_xfi_hss_pcs[XG_SERDES_XFI_HSS_PCS_COUNT];

	/* segment 27 */
	struct mpi_coredump_segment_header xfi_hss_tx_hdr;
	u32 serdes_xfi_hss_tx[XG_SERDES_XFI_HSS_TX_COUNT];

	/* segment 28 */
	struct mpi_coredump_segment_header xfi_hss_rx_hdr;
	u32 serdes_xfi_hss_rx[XG_SERDES_XFI_HSS_RX_COUNT];

	/* segment 29 */
	struct mpi_coredump_segment_header xfi_hss_pll_hdr;
	u32 serdes_xfi_hss_pll[XG_SERDES_XFI_HSS_PLL_COUNT];

	/* segment 30 */
	struct mpi_coredump_segment_header misc_nic_seg_hdr;
	struct ql_nic_misc misc_nic_info;

	/* segment 31 */
	/* one interrupt state for each CQ */
	struct mpi_coredump_segment_header intr_states_seg_hdr;
	u32 intr_states[MAX_RX_RINGS];

	/* segment 32 */
	/* 3 cam words each for 16 unicast,
	 * 2 cam words for each of 32 multicast.
	 */
	struct mpi_coredump_segment_header cam_entries_seg_hdr;
	u32 cam_entries[(16 * 3) + (32 * 3)];

	/* segment 33 */
	struct mpi_coredump_segment_header nic_routing_words_seg_hdr;
	u32 nic_routing_words[16];
	/* segment 34 */
	struct mpi_coredump_segment_header ets_seg_hdr;
	u32 ets[ETS_REGS_DUMP_WORD_COUNT];

	/* segment 35 */
	struct mpi_coredump_segment_header probe_dump_seg_hdr;
	u32 probe_dump[PRB_MX_DUMP_TOT_COUNT];

	/* segment 36 */
	struct mpi_coredump_segment_header routing_reg_seg_hdr;
	u32 routing_regs[RT_IDX_DUMP_TOT_WORDS];

	/* segment 37 */
	struct mpi_coredump_segment_header mac_prot_reg_seg_hdr;
	u32 mac_prot_regs[MAC_ADDR_DUMP_TOT_WORDS];

	/* segment 38 */
	struct mpi_coredump_segment_header xaui2_an_hdr;
	u32 serdes2_xaui_an[XG_SERDES_XAUI_AN_COUNT];

	/* segment 39 */
	struct mpi_coredump_segment_header xaui2_hss_pcs_hdr;
	u32 serdes2_xaui_hss_pcs[XG_SERDES_XAUI_HSS_PCS_COUNT];

	/* segment 40 */
	struct mpi_coredump_segment_header xfi2_an_hdr;
	u32 serdes2_xfi_an[XG_SERDES_XFI_AN_COUNT];

	/* segment 41 */
	struct mpi_coredump_segment_header xfi2_train_hdr;
	u32 serdes2_xfi_train[XG_SERDES_XFI_TRAIN_COUNT];

	/* segment 42 */
	struct mpi_coredump_segment_header xfi2_hss_pcs_hdr;
	u32 serdes2_xfi_hss_pcs[XG_SERDES_XFI_HSS_PCS_COUNT];

	/* segment 43 */
	struct mpi_coredump_segment_header xfi2_hss_tx_hdr;
	u32 serdes2_xfi_hss_tx[XG_SERDES_XFI_HSS_TX_COUNT];

	/* segment 44 */
	struct mpi_coredump_segment_header xfi2_hss_rx_hdr;
	u32 serdes2_xfi_hss_rx[XG_SERDES_XFI_HSS_RX_COUNT];

	/* segment 45 */
	struct mpi_coredump_segment_header xfi2_hss_pll_hdr;
	u32 serdes2_xfi_hss_pll[XG_SERDES_XFI_HSS_PLL_COUNT];

	/* segment 50 */
	/* semaphore register for all 5 functions */
	struct mpi_coredump_segment_header sem_regs_seg_hdr;
	u32 sem_regs[MAX_SEMAPHORE_FUNCTIONS];
};

1971 1972 1973 1974 1975 1976 1977 1978
/*
 * intr_context structure is used during initialization
 * to hook the interrupts.  It is also used in a single
 * irq environment as a context to the ISR.
 */
struct intr_context {
	struct ql_adapter *qdev;
	u32 intr;
1979
	u32 irq_mask;		/* Mask of which rings the vector services. */
1980 1981 1982 1983 1984 1985 1986 1987 1988 1989 1990 1991 1992 1993 1994
	u32 hooked;
	u32 intr_en_mask;	/* value/mask used to enable this intr */
	u32 intr_dis_mask;	/* value/mask used to disable this intr */
	u32 intr_read_mask;	/* value/mask used to read this intr */
	char name[IFNAMSIZ * 2];
	atomic_t irq_cnt;	/* irq_cnt is used in single vector
				 * environment.  It's incremented for each
				 * irq handler that is scheduled.  When each
				 * handler finishes it decrements irq_cnt and
				 * enables interrupts if it's zero. */
	irq_handler_t handler;
};

/* adapter flags definitions. */
enum {
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Ron Mercer 已提交
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	QL_ADAPTER_UP = 0,	/* Adapter has been brought up. */
	QL_LEGACY_ENABLED = 1,
	QL_MSI_ENABLED = 2,
	QL_MSIX_ENABLED = 3,
	QL_DMA64 = 4,
	QL_PROMISCUOUS = 5,
	QL_ALLMULTI = 6,
	QL_PORT_CFG = 7,
	QL_CAM_RT_SET = 8,
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Ron Mercer 已提交
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	QL_SELFTEST = 9,
	QL_LB_LINK_UP = 10,
2006
	QL_FRC_COREDUMP = 11,
2007
	QL_EEH_FATAL = 12,
2008
	QL_ASIC_RECOVERY = 14, /* We are in ascic recovery. */
2009 2010 2011 2012
};

/* link_status bit definitions */
enum {
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	STS_LOOPBACK_MASK = 0x00000700,
	STS_LOOPBACK_PCS = 0x00000100,
	STS_LOOPBACK_HSS = 0x00000200,
	STS_LOOPBACK_EXT = 0x00000300,
	STS_PAUSE_MASK = 0x000000c0,
	STS_PAUSE_STD = 0x00000040,
	STS_PAUSE_PRI = 0x00000080,
	STS_SPEED_MASK = 0x00000038,
	STS_SPEED_100Mb = 0x00000000,
	STS_SPEED_1Gb = 0x00000008,
	STS_SPEED_10Gb = 0x00000010,
	STS_LINK_TYPE_MASK = 0x00000007,
	STS_LINK_TYPE_XFI = 0x00000001,
	STS_LINK_TYPE_XAUI = 0x00000002,
	STS_LINK_TYPE_XFI_BP = 0x00000003,
	STS_LINK_TYPE_XAUI_BP = 0x00000004,
	STS_LINK_TYPE_10GBASET = 0x00000005,
};

/* link_config bit definitions */
enum {
	CFG_JUMBO_FRAME_SIZE = 0x00010000,
	CFG_PAUSE_MASK = 0x00000060,
	CFG_PAUSE_STD = 0x00000020,
	CFG_PAUSE_PRI = 0x00000040,
	CFG_DCBX = 0x00000010,
	CFG_LOOPBACK_MASK = 0x00000007,
	CFG_LOOPBACK_PCS = 0x00000002,
	CFG_LOOPBACK_HSS = 0x00000004,
	CFG_LOOPBACK_EXT = 0x00000006,
	CFG_DEFAULT_MAX_FRAME_SIZE = 0x00002580,
2044 2045
};

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struct nic_operations {

	int (*get_flash) (struct ql_adapter *);
	int (*port_initialize) (struct ql_adapter *);
};

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/*
 * The main Adapter structure definition.
 * This structure has all fields relevant to the hardware.
 */
struct ql_adapter {
	struct ricb ricb;
	unsigned long flags;
	u32 wol;

	struct nic_stats nic_stats;

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Jiri Pirko 已提交
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	unsigned long active_vlans[BITS_TO_LONGS(VLAN_N_VID)];
2064 2065 2066 2067 2068 2069 2070

	/* PCI Configuration information for this device */
	struct pci_dev *pdev;
	struct net_device *ndev;	/* Parent NET device */

	/* Hardware information */
	u32 chip_rev_id;
2071
	u32 fw_rev_id;
2072
	u32 func;		/* PCI function for this adapter */
2073 2074
	u32 alt_func;		/* PCI function for alternate adapter */
	u32 port;		/* Port number this adapter */
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	spinlock_t adapter_lock;
	spinlock_t hw_lock;
	spinlock_t stats_lock;

	/* PCI Bus Relative Register Addresses */
	void __iomem *reg_base;
	void __iomem *doorbell_area;
	u32 doorbell_area_size;

	u32 msg_enable;

	/* Page for Shadow Registers */
	void *rx_ring_shadow_reg_area;
	dma_addr_t rx_ring_shadow_reg_dma;
	void *tx_ring_shadow_reg_area;
	dma_addr_t tx_ring_shadow_reg_dma;

	u32 mailbox_in;
	u32 mailbox_out;
2095
	struct mbox_params idc_mbc;
2096
	struct mutex	mpi_mutex;
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	int tx_ring_size;
	int rx_ring_size;
	u32 intr_count;
	struct msix_entry *msi_x_entry;
	struct intr_context intr_context[MAX_RX_RINGS];

	int tx_ring_count;	/* One per online CPU. */
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	u32 rss_ring_count;	/* One per irq vector.  */
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	/*
	 * rx_ring_count =
	 *  (CPU count * outbound completion rx_ring) +
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	 *  (irq_vector_cnt * inbound (RSS) completion rx_ring)
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	 */
	int rx_ring_count;
	int ring_mem_size;
	void *ring_mem;
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	struct rx_ring rx_ring[MAX_RX_RINGS];
	struct tx_ring tx_ring[MAX_TX_RINGS];
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	unsigned int lbq_buf_order;
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	int rx_csum;
	u32 default_rx_queue;

	u16 rx_coalesce_usecs;	/* cqicb->int_delay */
	u16 rx_max_coalesced_frames;	/* cqicb->pkt_int_delay */
	u16 tx_coalesce_usecs;	/* cqicb->int_delay */
	u16 tx_max_coalesced_frames;	/* cqicb->pkt_int_delay */

	u32 xg_sem_mask;
	u32 port_link_up;
	u32 port_init;
	u32 link_status;
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	struct ql_mpi_coredump *mpi_coredump;
	u32 core_is_dumped;
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	u32 link_config;
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	u32 led_config;
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	u32 max_frame_size;
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	union flash_params flash;
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	struct workqueue_struct *workqueue;
	struct delayed_work asic_reset_work;
	struct delayed_work mpi_reset_work;
	struct delayed_work mpi_work;
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	struct delayed_work mpi_port_cfg_work;
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	struct delayed_work mpi_idc_work;
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	struct delayed_work mpi_core_to_log;
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	struct completion ide_completion;
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	const struct nic_operations *nic_ops;
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	u16 device_id;
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	struct timer_list timer;
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	atomic_t lb_count;
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	/* Keep local copy of current mac address. */
	char current_mac_addr[6];
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};

/*
 * Typical Register accessor for memory mapped device.
 */
static inline u32 ql_read32(const struct ql_adapter *qdev, int reg)
{
	return readl(qdev->reg_base + reg);
}

/*
 * Typical Register accessor for memory mapped device.
 */
static inline void ql_write32(const struct ql_adapter *qdev, int reg, u32 val)
{
	writel(val, qdev->reg_base + reg);
}

/*
 * Doorbell Registers:
 * Doorbell registers are virtual registers in the PCI memory space.
 * The space is allocated by the chip during PCI initialization.  The
 * device driver finds the doorbell address in BAR 3 in PCI config space.
 * The registers are used to control outbound and inbound queues. For
 * example, the producer index for an outbound queue.  Each queue uses
 * 1 4k chunk of memory.  The lower half of the space is for outbound
 * queues. The upper half is for inbound queues.
 */
static inline void ql_write_db_reg(u32 val, void __iomem *addr)
{
	writel(val, addr);
	mmiowb();
}

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/*
 * Shadow Registers:
 * Outbound queues have a consumer index that is maintained by the chip.
 * Inbound queues have a producer index that is maintained by the chip.
 * For lower overhead, these registers are "shadowed" to host memory
 * which allows the device driver to track the queue progress without
 * PCI reads. When an entry is placed on an inbound queue, the chip will
 * update the relevant index register and then copy the value to the
 * shadow register in host memory.
 */
static inline u32 ql_read_sh_reg(__le32  *addr)
{
	u32 reg;
	reg =  le32_to_cpu(*addr);
	rmb();
	return reg;
}

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extern char qlge_driver_name[];
extern const char qlge_driver_version[];
extern const struct ethtool_ops qlge_ethtool_ops;

extern int ql_sem_spinlock(struct ql_adapter *qdev, u32 sem_mask);
extern void ql_sem_unlock(struct ql_adapter *qdev, u32 sem_mask);
extern int ql_read_xgmac_reg(struct ql_adapter *qdev, u32 reg, u32 *data);
extern int ql_get_mac_addr_reg(struct ql_adapter *qdev, u32 type, u16 index,
			       u32 *value);
extern int ql_get_routing_reg(struct ql_adapter *qdev, u32 index, u32 *value);
extern int ql_write_cfg(struct ql_adapter *qdev, void *ptr, int size, u32 bit,
			u16 q_id);
void ql_queue_fw_error(struct ql_adapter *qdev);
void ql_mpi_work(struct work_struct *work);
void ql_mpi_reset_work(struct work_struct *work);
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void ql_mpi_core_to_log(struct work_struct *work);
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int ql_wait_reg_rdy(struct ql_adapter *qdev, u32 reg, u32 bit, u32 ebit);
void ql_queue_asic_error(struct ql_adapter *qdev);
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u32 ql_enable_completion_interrupt(struct ql_adapter *qdev, u32 intr);
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void ql_set_ethtool_ops(struct net_device *ndev);
int ql_read_xgmac_reg64(struct ql_adapter *qdev, u32 reg, u64 *data);
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void ql_mpi_idc_work(struct work_struct *work);
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void ql_mpi_port_cfg_work(struct work_struct *work);
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int ql_mb_get_fw_state(struct ql_adapter *qdev);
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int ql_cam_route_initialize(struct ql_adapter *qdev);
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int ql_read_mpi_reg(struct ql_adapter *qdev, u32 reg, u32 *data);
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int ql_write_mpi_reg(struct ql_adapter *qdev, u32 reg, u32 data);
int ql_unpause_mpi_risc(struct ql_adapter *qdev);
int ql_pause_mpi_risc(struct ql_adapter *qdev);
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int ql_hard_reset_mpi_risc(struct ql_adapter *qdev);
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int ql_soft_reset_mpi_risc(struct ql_adapter *qdev);
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int ql_dump_risc_ram_area(struct ql_adapter *qdev, void *buf,
		u32 ram_addr, int word_count);
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int ql_core_dump(struct ql_adapter *qdev,
		struct ql_mpi_coredump *mpi_coredump);
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int ql_mb_about_fw(struct ql_adapter *qdev);
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int ql_mb_wol_set_magic(struct ql_adapter *qdev, u32 enable_wol);
int ql_mb_wol_mode(struct ql_adapter *qdev, u32 wol);
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int ql_mb_set_led_cfg(struct ql_adapter *qdev, u32 led_config);
int ql_mb_get_led_cfg(struct ql_adapter *qdev);
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void ql_link_on(struct ql_adapter *qdev);
void ql_link_off(struct ql_adapter *qdev);
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int ql_mb_set_mgmnt_traffic_ctl(struct ql_adapter *qdev, u32 control);
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int ql_mb_get_port_cfg(struct ql_adapter *qdev);
int ql_mb_set_port_cfg(struct ql_adapter *qdev);
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int ql_wait_fifo_empty(struct ql_adapter *qdev);
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void ql_get_dump(struct ql_adapter *qdev, void *buff);
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void ql_gen_reg_dump(struct ql_adapter *qdev,
			struct ql_reg_dump *mpi_coredump);
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netdev_tx_t ql_lb_send(struct sk_buff *skb, struct net_device *ndev);
void ql_check_lb_frame(struct ql_adapter *, struct sk_buff *);
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int ql_own_firmware(struct ql_adapter *qdev);
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int ql_clean_lb_rx_ring(struct rx_ring *rx_ring, int budget);
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/* #define QL_ALL_DUMP */
/* #define QL_REG_DUMP */
/* #define QL_DEV_DUMP */
/* #define QL_CB_DUMP */
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/* #define QL_IB_DUMP */
/* #define QL_OB_DUMP */

#ifdef QL_REG_DUMP
extern void ql_dump_xgmac_control_regs(struct ql_adapter *qdev);
extern void ql_dump_routing_entries(struct ql_adapter *qdev);
extern void ql_dump_regs(struct ql_adapter *qdev);
#define QL_DUMP_REGS(qdev) ql_dump_regs(qdev)
#define QL_DUMP_ROUTE(qdev) ql_dump_routing_entries(qdev)
#define QL_DUMP_XGMAC_CONTROL_REGS(qdev) ql_dump_xgmac_control_regs(qdev)
#else
#define QL_DUMP_REGS(qdev)
#define QL_DUMP_ROUTE(qdev)
#define QL_DUMP_XGMAC_CONTROL_REGS(qdev)
#endif

#ifdef QL_STAT_DUMP
extern void ql_dump_stat(struct ql_adapter *qdev);
#define QL_DUMP_STAT(qdev) ql_dump_stat(qdev)
#else
#define QL_DUMP_STAT(qdev)
#endif

#ifdef QL_DEV_DUMP
extern void ql_dump_qdev(struct ql_adapter *qdev);
#define QL_DUMP_QDEV(qdev) ql_dump_qdev(qdev)
#else
#define QL_DUMP_QDEV(qdev)
#endif

#ifdef QL_CB_DUMP
extern void ql_dump_wqicb(struct wqicb *wqicb);
extern void ql_dump_tx_ring(struct tx_ring *tx_ring);
extern void ql_dump_ricb(struct ricb *ricb);
extern void ql_dump_cqicb(struct cqicb *cqicb);
extern void ql_dump_rx_ring(struct rx_ring *rx_ring);
extern void ql_dump_hw_cb(struct ql_adapter *qdev, int size, u32 bit, u16 q_id);
#define QL_DUMP_RICB(ricb) ql_dump_ricb(ricb)
#define QL_DUMP_WQICB(wqicb) ql_dump_wqicb(wqicb)
#define QL_DUMP_TX_RING(tx_ring) ql_dump_tx_ring(tx_ring)
#define QL_DUMP_CQICB(cqicb) ql_dump_cqicb(cqicb)
#define QL_DUMP_RX_RING(rx_ring) ql_dump_rx_ring(rx_ring)
#define QL_DUMP_HW_CB(qdev, size, bit, q_id) \
		ql_dump_hw_cb(qdev, size, bit, q_id)
#else
#define QL_DUMP_RICB(ricb)
#define QL_DUMP_WQICB(wqicb)
#define QL_DUMP_TX_RING(tx_ring)
#define QL_DUMP_CQICB(cqicb)
#define QL_DUMP_RX_RING(rx_ring)
#define QL_DUMP_HW_CB(qdev, size, bit, q_id)
#endif

#ifdef QL_OB_DUMP
extern void ql_dump_tx_desc(struct tx_buf_desc *tbd);
extern void ql_dump_ob_mac_iocb(struct ob_mac_iocb_req *ob_mac_iocb);
extern void ql_dump_ob_mac_rsp(struct ob_mac_iocb_rsp *ob_mac_rsp);
#define QL_DUMP_OB_MAC_IOCB(ob_mac_iocb) ql_dump_ob_mac_iocb(ob_mac_iocb)
#define QL_DUMP_OB_MAC_RSP(ob_mac_rsp) ql_dump_ob_mac_rsp(ob_mac_rsp)
#else
#define QL_DUMP_OB_MAC_IOCB(ob_mac_iocb)
#define QL_DUMP_OB_MAC_RSP(ob_mac_rsp)
#endif

#ifdef QL_IB_DUMP
extern void ql_dump_ib_mac_rsp(struct ib_mac_iocb_rsp *ib_mac_rsp);
#define QL_DUMP_IB_MAC_RSP(ib_mac_rsp) ql_dump_ib_mac_rsp(ib_mac_rsp)
#else
#define QL_DUMP_IB_MAC_RSP(ib_mac_rsp)
#endif

#ifdef	QL_ALL_DUMP
extern void ql_dump_all(struct ql_adapter *qdev);
#define QL_DUMP_ALL(qdev) ql_dump_all(qdev)
#else
#define QL_DUMP_ALL(qdev)
#endif

#endif /* _QLGE_H_ */