bcmdhd.100.10.315.x/include/bcmpcie.h - kernel/amlogic-tv-modules/dhd-driver - Git at Google

 /*
  * Broadcom PCIE
  * Software-specific definitions shared between device and host side
  * Explains the shared area between host and dongle
  *
  * Copyright (C) 1999-2019, Broadcom.
  *
  *      Unless you and Broadcom execute a separate written software license
  * agreement governing use of this software, this software is licensed to you
  * under the terms of the GNU General Public License version 2 (the "GPL"),
  * available at http://www.broadcom.com/licenses/GPLv2.php, with the
  * following added to such license:
  *
  *      As a special exception, the copyright holders of this software give you
  * permission to link this software with independent modules, and to copy and
  * distribute the resulting executable under terms of your choice, provided that
  * you also meet, for each linked independent module, the terms and conditions of
  * the license of that module.  An independent module is a module which is not
  * derived from this software.  The special exception does not apply to any
  * modifications of the software.
  *
  *      Notwithstanding the above, under no circumstances may you combine this
  * software in any way with any other Broadcom software provided under a license
  * other than the GPL, without Broadcom's express prior written consent.
  *
  *
  * <<Broadcom-WL-IPTag/Open:>>
  *
  * $Id: bcmpcie.h 821465 2019-05-23 19:50:00Z $
  */

 #ifndef	_bcmpcie_h_
 #define	_bcmpcie_h_

 #include <typedefs.h>

 #define ADDR_64(x)			(x.addr)
 #define HIGH_ADDR_32(x)     ((uint32) (((sh_addr_t) x).high_addr))
 #define LOW_ADDR_32(x)      ((uint32) (((sh_addr_t) x).low_addr))

 typedef struct {
 	uint32 low_addr;
 	uint32 high_addr;
 } sh_addr_t;

 /* May be overridden by 43xxxxx-roml.mk */
 #if !defined(BCMPCIE_MAX_TX_FLOWS)
 #define BCMPCIE_MAX_TX_FLOWS	40
 #endif /* ! BCMPCIE_MAX_TX_FLOWS */

 #define PCIE_SHARED_VERSION_7		0x00007
 #define PCIE_SHARED_VERSION_6		0x00006 /* rev6 is compatible with rev 5 */
 #define PCIE_SHARED_VERSION_5		0x00005 /* rev6 is compatible with rev 5 */
 /**
  * Feature flags enabled in dongle. Advertised by dongle to DHD via the PCIe Shared structure that
  * is located in device memory.
  */
 #define PCIE_SHARED_VERSION_MASK	0x000FF
 #define PCIE_SHARED_ASSERT_BUILT	0x00100
 #define PCIE_SHARED_ASSERT		0x00200
 #define PCIE_SHARED_TRAP		0x00400
 #define PCIE_SHARED_IN_BRPT		0x00800
 #define PCIE_SHARED_SET_BRPT		0x01000
 #define PCIE_SHARED_PENDING_BRPT	0x02000
 /* BCMPCIE_SUPPORT_TX_PUSH_RING		0x04000 obsolete */
 #define PCIE_SHARED_EVT_SEQNUM		0x08000
 #define PCIE_SHARED_DMA_INDEX		0x10000

 /**
  * There are host types where a device interrupt can 'race ahead' of data written by the device into
  * host memory. The dongle can avoid this condition using a variety of techniques (read barrier,
  * using PCIe Message Signalled Interrupts, or by using the PCIE_DMA_INDEX feature). Unfortunately
  * these techniques have drawbacks on router platforms. For these platforms, it was decided to not
  * avoid the condition, but to detect the condition instead and act on it.
  * D2H M2M DMA Complete Sync mechanism: Modulo-253-SeqNum or XORCSUM
  */
 #define PCIE_SHARED_D2H_SYNC_SEQNUM     0x20000
 #define PCIE_SHARED_D2H_SYNC_XORCSUM    0x40000
 #define PCIE_SHARED_D2H_SYNC_MODE_MASK \
 	(PCIE_SHARED_D2H_SYNC_SEQNUM | PCIE_SHARED_D2H_SYNC_XORCSUM)
 #define PCIE_SHARED_IDLE_FLOW_RING		0x80000
 #define PCIE_SHARED_2BYTE_INDICES       0x100000

 #define PCIE_SHARED_FAST_DELETE_RING	0x00000020      /* Fast Delete Ring */
 #define PCIE_SHARED_EVENT_BUF_POOL_MAX	0x000000c0      /* event buffer pool max bits */
 #define PCIE_SHARED_EVENT_BUF_POOL_MAX_POS     6       /* event buffer pool max bit position */

 /* dongle supports fatal buf log collection */
 #define PCIE_SHARED_FATAL_LOGBUG_VALID	0x200000

 /* Implicit DMA with corerev 19 and after */
 #define PCIE_SHARED_IDMA		0x400000

 /* MSI support */
 #define PCIE_SHARED_D2H_MSI_MULTI_MSG   0x800000

 /* IFRM with corerev 19 and after */
 #define PCIE_SHARED_IFRM		0x1000000

 /**
  * From Rev6 and above, suspend/resume can be done using two handshake methods.
  * 1. Using ctrl post/ctrl cmpl messages (Default rev6)
  * 2. Using Mailbox data (old method as used in rev5)
  * This shared flag indicates whether to overide rev6 default method and use mailbox for
  * suspend/resume.
  */
 #define PCIE_SHARED_USE_MAILBOX		0x2000000

 /* Firmware compiled for mfgbuild purposes */
 #define PCIE_SHARED_MFGBUILD_FW		0x4000000

 /* Firmware could use DB0 value as host timestamp */
 #define PCIE_SHARED_TIMESTAMP_DB0	0x8000000
 /* Firmware could use Hostready (IPC rev7) */
 #define PCIE_SHARED_HOSTRDY_SUPPORT	0x10000000

 /* When set, Firmwar does not support OOB Device Wake based DS protocol */
 #define PCIE_SHARED_NO_OOB_DW		0x20000000

 /* When set, Firmwar supports Inband DS protocol */
 #define PCIE_SHARED_INBAND_DS		0x40000000

 /* use DAR registers */
 #define PCIE_SHARED_DAR			0x80000000

 /**
  * Following are the shared2 flags. All bits in flags have been used. A flags2
  * field got added and the definition for these flags come here:
  */
 /* WAR: D11 txstatus through unused status field of PCIe completion header */
 #define PCIE_SHARED2_EXTENDED_TRAP_DATA	0x00000001	/* using flags2 in shared area */
 #define PCIE_SHARED2_TXSTATUS_METADATA	0x00000002
 #define PCIE_SHARED2_BT_LOGGING		0x00000004	/* BT logging support */
 #define PCIE_SHARED2_SNAPSHOT_UPLOAD	0x00000008	/* BT/WLAN snapshot upload support */
 #define PCIE_SHARED2_SUBMIT_COUNT_WAR	0x00000010	/* submission count WAR */
 #define PCIE_SHARED2_FAST_DELETE_RING	0x00000020	/* Fast Delete ring support */
 #define PCIE_SHARED2_EVTBUF_MAX_MASK	0x000000C0	/* 0:32, 1:64, 2:128, 3: 256 */

 /* using flags2 to indicate firmware support added to reuse timesync to update PKT txstatus */
 #define PCIE_SHARED2_PKT_TX_STATUS	0x00000100
 #define PCIE_SHARED2_FW_SMALL_MEMDUMP	0x00000200	/* FW small memdump */
 #define PCIE_SHARED2_FW_HC_ON_TRAP	0x00000400
 #define PCIE_SHARED2_HSCB		0x00000800	/* Host SCB support */

 #define PCIE_SHARED2_EDL_RING			0x00001000	/* Support Enhanced Debug Lane */
 #define PCIE_SHARED2_DEBUG_BUF_DEST		0x00002000	/* debug buf dest support */
 #define PCIE_SHARED2_PCIE_ENUM_RESET_FLR	0x00004000	/* BT producer index reset WAR */
 #define PCIE_SHARED2_PKT_TIMESTAMP		0x00008000	/* Timestamp in packet */

 #define PCIE_SHARED2_HP2P		0x00010000u	/* HP2P feature */
 #define PCIE_SHARED2_HWA		0x00020000u	/* HWA feature */
 #define PCIE_SHARED2_TRAP_ON_HOST_DB7	0x00040000u	/* can take a trap on DB7 from host */

 #define PCIE_SHARED2_DURATION_SCALE	0x00100000u

 #define PCIE_SHARED2_D2H_D11_TX_STATUS	0x40000000
 #define PCIE_SHARED2_H2D_D11_TX_STATUS	0x80000000

 #define PCIE_SHARED_D2H_MAGIC		0xFEDCBA09
 #define PCIE_SHARED_H2D_MAGIC		0x12345678

 typedef uint16			pcie_hwa_db_index_t;	/* 16 bit HWA index (IPC Rev 7) */
 #define PCIE_HWA_DB_INDEX_SZ	(2u)			/* 2 bytes  sizeof(pcie_hwa_db_index_t) */

 /**
  * Message rings convey messages between host and device. They are unidirectional, and are located
  * in host memory.
  *
  * This is the minimal set of message rings, known as 'common message rings':
  */
 #define BCMPCIE_H2D_MSGRING_CONTROL_SUBMIT		0
 #define BCMPCIE_H2D_MSGRING_RXPOST_SUBMIT		1
 #define BCMPCIE_D2H_MSGRING_CONTROL_COMPLETE		2
 #define BCMPCIE_D2H_MSGRING_TX_COMPLETE			3
 #define BCMPCIE_D2H_MSGRING_RX_COMPLETE			4
 #define BCMPCIE_COMMON_MSGRING_MAX_ID			4

 #define BCMPCIE_H2D_COMMON_MSGRINGS			2
 #define BCMPCIE_D2H_COMMON_MSGRINGS			3
 #define BCMPCIE_COMMON_MSGRINGS				5

 #define BCMPCIE_H2D_MSGRINGS(max_tx_flows) \
 	(BCMPCIE_H2D_COMMON_MSGRINGS + (max_tx_flows))

 /* different ring types */
 #define BCMPCIE_H2D_RING_TYPE_CTRL_SUBMIT		0x1
 #define BCMPCIE_H2D_RING_TYPE_TXFLOW_RING		0x2
 #define BCMPCIE_H2D_RING_TYPE_RXBUFPOST			0x3
 #define BCMPCIE_H2D_RING_TYPE_TXSUBMIT			0x4
 #define BCMPCIE_H2D_RING_TYPE_DBGBUF_SUBMIT		0x5
 #define BCMPCIE_H2D_RING_TYPE_BTLOG_SUBMIT		0x6

 #define BCMPCIE_D2H_RING_TYPE_CTRL_CPL			0x1
 #define BCMPCIE_D2H_RING_TYPE_TX_CPL			0x2
 #define BCMPCIE_D2H_RING_TYPE_RX_CPL			0x3
 #define BCMPCIE_D2H_RING_TYPE_DBGBUF_CPL		0x4
 #define BCMPCIE_D2H_RING_TYPE_AC_RX_COMPLETE		0x5
 #define BCMPCIE_D2H_RING_TYPE_BTLOG_CPL			0x6
 #define BCMPCIE_D2H_RING_TYPE_EDL                       0x7
 #define BCMPCIE_D2H_RING_TYPE_HPP_TX_CPL		0x8
 #define BCMPCIE_D2H_RING_TYPE_HPP_RX_CPL		0x9

 /**
  * H2D and D2H, WR and RD index, are maintained in the following arrays:
  * - Array of all H2D WR Indices
  * - Array of all H2D RD Indices
  * - Array of all D2H WR Indices
  * - Array of all D2H RD Indices
  *
  * The offset of the WR or RD indexes (for common rings) in these arrays are
  * listed below. Arrays ARE NOT indexed by a ring's id.
  *
  * D2H common rings WR and RD index start from 0, even though their ringids
  * start from BCMPCIE_H2D_COMMON_MSGRINGS
  */

 #define BCMPCIE_H2D_RING_IDX(h2d_ring_id) (h2d_ring_id)

 enum h2dring_idx {
 	/* H2D common rings */
 	BCMPCIE_H2D_MSGRING_CONTROL_SUBMIT_IDX =
 		BCMPCIE_H2D_RING_IDX(BCMPCIE_H2D_MSGRING_CONTROL_SUBMIT),
 	BCMPCIE_H2D_MSGRING_RXPOST_SUBMIT_IDX =
 		BCMPCIE_H2D_RING_IDX(BCMPCIE_H2D_MSGRING_RXPOST_SUBMIT),

 	/* First TxPost's WR or RD index starts after all H2D common rings */
 	BCMPCIE_H2D_MSGRING_TXFLOW_IDX_START =
 		BCMPCIE_H2D_RING_IDX(BCMPCIE_H2D_COMMON_MSGRINGS)
 };

 #define BCMPCIE_D2H_RING_IDX(d2h_ring_id) \
 	((d2h_ring_id) - BCMPCIE_H2D_COMMON_MSGRINGS)

 enum d2hring_idx {
 	/* D2H Common Rings */
 	BCMPCIE_D2H_MSGRING_CONTROL_COMPLETE_IDX =
 		BCMPCIE_D2H_RING_IDX(BCMPCIE_D2H_MSGRING_CONTROL_COMPLETE),
 	BCMPCIE_D2H_MSGRING_TX_COMPLETE_IDX =
 		BCMPCIE_D2H_RING_IDX(BCMPCIE_D2H_MSGRING_TX_COMPLETE),
 	BCMPCIE_D2H_MSGRING_RX_COMPLETE_IDX =
 		BCMPCIE_D2H_RING_IDX(BCMPCIE_D2H_MSGRING_RX_COMPLETE)
 };

 /**
  * Macros for managing arrays of RD WR indices:
  * rw_index_sz:
  *    - in dongle, rw_index_sz is known at compile time
  *    - in host/DHD, rw_index_sz is derived from advertized pci_shared flags
  *
  *  ring_idx: See h2dring_idx and d2hring_idx
  */

 /** Offset of a RD or WR index in H2D or D2H indices array */
 #define BCMPCIE_RW_INDEX_OFFSET(rw_index_sz, ring_idx) \
 	((rw_index_sz) * (ring_idx))

 /** Fetch the address of RD or WR index in H2D or D2H indices array */
 #define BCMPCIE_RW_INDEX_ADDR(indices_array_base, rw_index_sz, ring_idx) \
 	(void *)((uint32)(indices_array_base) + \
 	BCMPCIE_RW_INDEX_OFFSET((rw_index_sz), (ring_idx)))

 /** H2D DMA Indices array size: given max flow rings */
 #define BCMPCIE_H2D_RW_INDEX_ARRAY_SZ(rw_index_sz, max_tx_flows) \
 	((rw_index_sz) * BCMPCIE_H2D_MSGRINGS(max_tx_flows))

 /** D2H DMA Indices array size */
 #define BCMPCIE_D2H_RW_INDEX_ARRAY_SZ(rw_index_sz) \
 	((rw_index_sz) * BCMPCIE_D2H_COMMON_MSGRINGS)

 /**
  * This type is used by a 'message buffer' (which is a FIFO for messages). Message buffers are used
  * for host<->device communication and are instantiated on both sides. ring_mem_t is instantiated
  * both in host as well as device memory.
  */
 typedef struct ring_mem {
 	uint16		idx;       /* ring id */
 	uint8		type;
 	uint8		rsvd;
 	uint16		max_item;  /* Max number of items in flow ring */
 	uint16		len_items; /* Items are fixed size. Length in bytes of one item */
 	sh_addr_t	base_addr; /* 64 bits address, either in host or device memory */
 } ring_mem_t;

 /**
  * Per flow ring, information is maintained in device memory, eg at what address the ringmem and
  * ringstate are located. The flow ring itself can be instantiated in either host or device memory.
  *
  * Perhaps this type should be renamed to make clear that it resides in device memory only.
  */
 typedef struct ring_info {
 	uint32		ringmem_ptr; /* ring mem location in dongle memory */

 	/* Following arrays are indexed using h2dring_idx and d2hring_idx, and not
 	 * by a ringid.
 	 */

 	/* 32bit ptr to arrays of WR or RD indices for all rings in dongle memory */
 	uint32		h2d_w_idx_ptr; /* Array of all H2D ring's WR indices */
 	uint32		h2d_r_idx_ptr; /* Array of all H2D ring's RD indices */
 	uint32		d2h_w_idx_ptr; /* Array of all D2H ring's WR indices */
 	uint32		d2h_r_idx_ptr; /* Array of all D2H ring's RD indices */

 	/* PCIE_DMA_INDEX feature: Dongle uses mem2mem DMA to sync arrays in host.
 	 * Host may directly fetch WR and RD indices from these host-side arrays.
 	 *
 	 * 64bit ptr to arrays of WR or RD indices for all rings in host memory.
 	 */
 	sh_addr_t	h2d_w_idx_hostaddr; /* Array of all H2D ring's WR indices */
 	sh_addr_t	h2d_r_idx_hostaddr; /* Array of all H2D ring's RD indices */
 	sh_addr_t	d2h_w_idx_hostaddr; /* Array of all D2H ring's WR indices */
 	sh_addr_t	d2h_r_idx_hostaddr; /* Array of all D2H ring's RD indices */

 	uint16		max_tx_flowrings; /* maximum number of H2D rings: common + flow */
 	uint16		max_submission_queues; /* maximum number of H2D rings: common + flow */
 	uint16		max_completion_rings; /* maximum number of H2D rings: common + flow */
 	uint16		max_vdevs; /* max number of virtual interfaces supported */

 	sh_addr_t	ifrm_w_idx_hostaddr; /* Array of all H2D ring's WR indices for IFRM */

 	/* 32bit ptr to arrays of HWA DB indices for all rings in dongle memory */
 	uint32		h2d_hwa_db_idx_ptr; /* Array of all H2D ring's HWA DB indices */
 	uint32		d2h_hwa_db_idx_ptr; /* Array of all D2H ring's HWA DB indices */

 } ring_info_t;

 /**
  * A structure located in TCM that is shared between host and device, primarily used during
  * initialization.
  */
 typedef struct {
 	/** shared area version captured at flags 7:0 */
 	uint32	flags;

 	uint32  trap_addr;
 	uint32  assert_exp_addr;
 	uint32  assert_file_addr;
 	uint32  assert_line;
 	uint32	console_addr;		/**< Address of hnd_cons_t */

 	uint32  msgtrace_addr;

 	uint32  fwid;

 	/* Used for debug/flow control */
 	uint16  total_lfrag_pkt_cnt;
 	uint16  max_host_rxbufs; /* rsvd in spec */

 	uint32 dma_rxoffset; /* rsvd in spec */

 	/** these will be used for sleep request/ack, d3 req/ack */
 	uint32  h2d_mb_data_ptr;
 	uint32  d2h_mb_data_ptr;

 	/* information pertinent to host IPC/msgbuf channels */
 	/** location in the TCM memory which has the ring_info */
 	uint32	rings_info_ptr;

 	/** block of host memory for the scratch buffer */
 	uint32		host_dma_scratch_buffer_len;
 	sh_addr_t	host_dma_scratch_buffer;

 	/* location in host memory for scb host offload structures */
 	sh_addr_t	host_scb_addr;
 	uint32		host_scb_size;

 	/* anonymous union for overloading fields in structure */
 	union {
 		uint32	buzz_dbg_ptr;	/* BUZZZ state format strings and trace buffer */
 		struct {
 			/* Host provided trap buffer length in words */
 			uint16	device_trap_debug_buffer_len;
 			uint16	rsvd2;
 		};
 	};

 	/* rev6 compatible changes */
 	uint32          flags2;
 	uint32          host_cap;

 	/* location in the host address space to write trap indication.
 	* At this point for the current rev of the spec, firmware will
 	* support only indications to 32 bit host addresses.
 	* This essentially is device_trap_debug_buffer_addr
 	*/
 	sh_addr_t       host_trap_addr;

 	/* location for host fatal error log buffer start address */
 	uint32		device_fatal_logbuf_start;

 	/* location in host memory for offloaded modules */
 	sh_addr_t	hoffload_addr;
 	uint32		flags3;
 	uint32		host_cap2;
 	uint32		host_cap3;
 } pciedev_shared_t;

 /* Device F/W provides the following access function:
  * pciedev_shared_t *hnd_get_pciedev_shared(void);
  */

 /* host capabilities */
 #define HOSTCAP_PCIEAPI_VERSION_MASK		0x000000FF
 #define HOSTCAP_H2D_VALID_PHASE			0x00000100
 #define HOSTCAP_H2D_ENABLE_TRAP_ON_BADPHASE	0x00000200
 #define HOSTCAP_H2D_ENABLE_HOSTRDY		0x00000400
 #define HOSTCAP_DB0_TIMESTAMP			0x00000800
 #define HOSTCAP_DS_NO_OOB_DW			0x00001000
 #define HOSTCAP_DS_INBAND_DW			0x00002000
 #define HOSTCAP_H2D_IDMA			0x00004000
 #define HOSTCAP_H2D_IFRM			0x00008000
 #define HOSTCAP_H2D_DAR				0x00010000
 #define HOSTCAP_EXTENDED_TRAP_DATA		0x00020000
 #define HOSTCAP_TXSTATUS_METADATA		0x00040000
 #define HOSTCAP_BT_LOGGING			0x00080000
 #define HOSTCAP_SNAPSHOT_UPLOAD			0x00100000
 #define HOSTCAP_FAST_DELETE_RING		0x00200000
 #define HOSTCAP_PKT_TXSTATUS			0x00400000
 #define HOSTCAP_UR_FW_NO_TRAP			0x00800000 /* Don't trap on UR */
 #define HOSTCAP_HSCB				0x02000000
 /* Host support for extended device trap debug buffer */
 #define HOSTCAP_EXT_TRAP_DBGBUF			0x04000000
 /* Host support for enhanced debug lane */
 #define HOSTCAP_EDL_RING			0x10000000
 #define HOSTCAP_PKT_TIMESTAMP			0x20000000
 #define HOSTCAP_PKT_HP2P			0x40000000
 #define HOSTCAP_HWA				0x80000000
 #define HOSTCAP2_DURATION_SCALE_MASK            0x0000003Fu

 /* extended trap debug buffer allocation sizes. Note that this buffer can be used for
  * other trap related purposes also.
  */
 #define BCMPCIE_HOST_EXT_TRAP_DBGBUF_LEN_MIN	(64u * 1024u)
 #define BCMPCIE_HOST_EXT_TRAP_DBGBUF_LEN_MAX	(256u * 1024u)

 /**
  * Mailboxes notify a remote party that an event took place, using interrupts. They use hardware
  * support.
  */

 /* H2D mail box Data */
 #define H2D_HOST_D3_INFORM		0x00000001
 #define H2D_HOST_DS_ACK		0x00000002
 #define H2D_HOST_DS_NAK		0x00000004
 #define H2D_HOST_D0_INFORM_IN_USE	0x00000008
 #define H2D_HOST_D0_INFORM		0x00000010
 #define H2DMB_DS_ACTIVE			0x00000020
 #define H2DMB_DS_DEVICE_WAKE	0x00000040
 #define H2D_HOST_IDMA_INITED	0x00000080
 #define H2D_HOST_ACK_NOINT		0x00010000 /* d2h_ack interrupt ignore */
 #define H2D_HOST_CONS_INT	0x80000000	/**< h2d int for console cmds  */
 #define H2D_FW_TRAP		0x20000000	/**< h2d force TRAP */
 #define H2DMB_DS_HOST_SLEEP_INFORM H2D_HOST_D3_INFORM
 #define H2DMB_DS_DEVICE_SLEEP_ACK  H2D_HOST_DS_ACK
 #define H2DMB_DS_DEVICE_SLEEP_NAK  H2D_HOST_DS_NAK
 #define H2DMB_D0_INFORM_IN_USE     H2D_HOST_D0_INFORM_IN_USE
 #define H2DMB_D0_INFORM            H2D_HOST_D0_INFORM
 #define H2DMB_FW_TRAP              H2D_FW_TRAP
 #define H2DMB_HOST_CONS_INT        H2D_HOST_CONS_INT
 #define H2DMB_DS_DEVICE_WAKE_ASSERT		H2DMB_DS_DEVICE_WAKE
 #define H2DMB_DS_DEVICE_WAKE_DEASSERT	H2DMB_DS_ACTIVE

 /* D2H mail box Data */
 #define D2H_DEV_D3_ACK					0x00000001
 #define D2H_DEV_DS_ENTER_REQ				0x00000002
 #define D2H_DEV_DS_EXIT_NOTE				0x00000004
 #define D2HMB_DS_HOST_SLEEP_EXIT_ACK			0x00000008
 #define D2H_DEV_IDMA_INITED				0x00000010
 #define D2HMB_DS_HOST_SLEEP_ACK         D2H_DEV_D3_ACK
 #define D2HMB_DS_DEVICE_SLEEP_ENTER_REQ D2H_DEV_DS_ENTER_REQ
 #define D2HMB_DS_DEVICE_SLEEP_EXIT      D2H_DEV_DS_EXIT_NOTE

 #define D2H_DEV_MB_MASK		(D2H_DEV_D3_ACK | D2H_DEV_DS_ENTER_REQ | \
 				D2H_DEV_DS_EXIT_NOTE | D2H_DEV_IDMA_INITED)
 #define D2H_DEV_MB_INVALIDATED(x)	((!x) || (x & ~D2H_DEV_MB_MASK))

 /* trap data codes */
 #define D2H_DEV_FWHALT					0x10000000
 #define D2H_DEV_EXT_TRAP_DATA				0x20000000
 #define D2H_DEV_TRAP_IN_TRAP				0x40000000
 #define D2H_DEV_TRAP_HOSTDB				0x80000000 /* trap as set by host DB */
 #define D2H_DEV_TRAP_DUE_TO_BT				0x01000000
 /* Indicates trap due to HMAP violation */
 #define D2H_DEV_TRAP_DUE_TO_HMAP			0x02000000
 /* Indicates whether HMAP violation was Write */
 #define D2H_DEV_TRAP_HMAP_WRITE				0x04000000
 #define D2H_DEV_TRAP_PING_HOST_FAILURE			0x08000000
 #define D2H_FWTRAP_MASK		0x0000001F	/* Adding maskbits for TRAP information */

 #define D2HMB_FWHALT                    D2H_DEV_FWHALT
 #define D2HMB_TRAP_IN_TRAP              D2H_DEV_TRAP_IN_TRAP
 #define D2HMB_EXT_TRAP_DATA             D2H_DEV_EXT_TRAP_DATA

 /* Size of Extended Trap data Buffer */
 #define BCMPCIE_EXT_TRAP_DATA_MAXLEN  4096

 /** These macro's operate on type 'inuse_lclbuf_pool_t' and are used by firmware only */
 #define PREVTXP(i, d)           (((i) == 0) ? ((d) - 1) : ((i) - 1))
 #define NEXTTXP(i, d)           ((((i)+1) >= (d)) ? 0 : ((i)+1))
 #define NEXTNTXP(i, n, d)       ((((i)+(n)) >= (d)) ? 0 : ((i)+(n)))
 #define NTXPACTIVE(r, w, d)     (((r) <= (w)) ? ((w)-(r)) : ((d)-(r)+(w)))
 #define NTXPAVAIL(r, w, d)      (((d) - NTXPACTIVE((r), (w), (d))) > 1)

 /* Function can be used to notify host of FW halt */
 #define READ_AVAIL_SPACE(w, r, d) ((w >= r) ? (uint32)(w - r) : (uint32)(d - r))
 #define WRITE_SPACE_AVAIL_CONTINUOUS(r, w, d) ((w >= r) ? (d - w) : (r - w))
 #define WRITE_SPACE_AVAIL(r, w, d) (d - (NTXPACTIVE(r, w, d)) - 1)
 #define CHECK_WRITE_SPACE(r, w, d) ((r) > (w)) ? \
 	(uint32)((r) - (w) - 1) : ((r) == 0 || (w) == 0) ? \
 	(uint32)((d) - (w) - 1) : (uint32)((d) - (w))

 #define CHECK_NOWRITE_SPACE(r, w, d) \
 	(((uint32)(r) == (uint32)((w) + 1)) || (((r) == 0) && ((w) == ((d) - 1))))

 #define WRT_PEND(x)	((x)->wr_pending)
 #define DNGL_RING_WPTR(msgbuf)		(*((msgbuf)->tcm_rs_w_ptr)) /**< advanced by producer */
 #define BCMMSGBUF_RING_SET_W_PTR(msgbuf, a)	(DNGL_RING_WPTR(msgbuf) = (a))

 #define DNGL_RING_RPTR(msgbuf)		(*((msgbuf)->tcm_rs_r_ptr)) /**< advanced by consumer */
 #define BCMMSGBUF_RING_SET_R_PTR(msgbuf, a)	(DNGL_RING_RPTR(msgbuf) = (a))

 #define MODULO_RING_IDX(x, y)	((x) % (y)->bitmap_size)

 #define  RING_READ_PTR(x)	((x)->ringstate->r_offset)
 #define  RING_WRITE_PTR(x)	((x)->ringstate->w_offset)
 #define  RING_START_PTR(x)	((x)->ringmem->base_addr.low_addr)
 #define  RING_MAX_ITEM(x)	((x)->ringmem->max_item)
 #define  RING_LEN_ITEMS(x)	((x)->ringmem->len_items)
 #define	 HOST_RING_BASE(x)	((x)->dma_buf.va)
 #define	 HOST_RING_END(x)	((uint8 *)HOST_RING_BASE((x)) + \
 					((RING_MAX_ITEM((x))-1)*RING_LEN_ITEMS((x))))

 /* Trap types copied in the pciedev_shared.trap_addr */
 #define	FW_INITIATED_TRAP_TYPE	(0x1 << 7)
 #define	HEALTHCHECK_NODS_TRAP_TYPE	(0x1 << 6)

 #endif	/* _bcmpcie_h_ */
	/*
	* Broadcom PCIE
	* Software-specific definitions shared between device and host side
	* Explains the shared area between host and dongle
	*
	* Copyright (C) 1999-2019, Broadcom.
	*
	* Unless you and Broadcom execute a separate written software license
	* agreement governing use of this software, this software is licensed to you
	* under the terms of the GNU General Public License version 2 (the "GPL"),
	* available at http://www.broadcom.com/licenses/GPLv2.php, with the
	* following added to such license:
	*
	* As a special exception, the copyright holders of this software give you
	* permission to link this software with independent modules, and to copy and
	* distribute the resulting executable under terms of your choice, provided that
	* you also meet, for each linked independent module, the terms and conditions of
	* the license of that module. An independent module is a module which is not
	* derived from this software. The special exception does not apply to any
	* modifications of the software.
	*
	* Notwithstanding the above, under no circumstances may you combine this
	* software in any way with any other Broadcom software provided under a license
	* other than the GPL, without Broadcom's express prior written consent.
	*
	*
	* <<Broadcom-WL-IPTag/Open:>>
	*
	* $Id: bcmpcie.h 821465 2019-05-23 19:50:00Z $
	*/

	#ifndef _bcmpcie_h_
	#define _bcmpcie_h_

	#include <typedefs.h>

	#define ADDR_64(x) (x.addr)
	#define HIGH_ADDR_32(x) ((uint32) (((sh_addr_t) x).high_addr))
	#define LOW_ADDR_32(x) ((uint32) (((sh_addr_t) x).low_addr))

	typedef struct {
	uint32 low_addr;
	uint32 high_addr;
	} sh_addr_t;

	/* May be overridden by 43xxxxx-roml.mk */
	#if !defined(BCMPCIE_MAX_TX_FLOWS)
	#define BCMPCIE_MAX_TX_FLOWS 40
	#endif /* ! BCMPCIE_MAX_TX_FLOWS */

	#define PCIE_SHARED_VERSION_7 0x00007
	#define PCIE_SHARED_VERSION_6 0x00006 /* rev6 is compatible with rev 5 */
	#define PCIE_SHARED_VERSION_5 0x00005 /* rev6 is compatible with rev 5 */
	/**
	* Feature flags enabled in dongle. Advertised by dongle to DHD via the PCIe Shared structure that
	* is located in device memory.
	*/
	#define PCIE_SHARED_VERSION_MASK 0x000FF
	#define PCIE_SHARED_ASSERT_BUILT 0x00100
	#define PCIE_SHARED_ASSERT 0x00200
	#define PCIE_SHARED_TRAP 0x00400
	#define PCIE_SHARED_IN_BRPT 0x00800
	#define PCIE_SHARED_SET_BRPT 0x01000
	#define PCIE_SHARED_PENDING_BRPT 0x02000
	/* BCMPCIE_SUPPORT_TX_PUSH_RING 0x04000 obsolete */
	#define PCIE_SHARED_EVT_SEQNUM 0x08000
	#define PCIE_SHARED_DMA_INDEX 0x10000

	/**
	* There are host types where a device interrupt can 'race ahead' of data written by the device into
	* host memory. The dongle can avoid this condition using a variety of techniques (read barrier,
	* using PCIe Message Signalled Interrupts, or by using the PCIE_DMA_INDEX feature). Unfortunately
	* these techniques have drawbacks on router platforms. For these platforms, it was decided to not
	* avoid the condition, but to detect the condition instead and act on it.
	* D2H M2M DMA Complete Sync mechanism: Modulo-253-SeqNum or XORCSUM
	*/
	#define PCIE_SHARED_D2H_SYNC_SEQNUM 0x20000
	#define PCIE_SHARED_D2H_SYNC_XORCSUM 0x40000
	#define PCIE_SHARED_D2H_SYNC_MODE_MASK \
	(PCIE_SHARED_D2H_SYNC_SEQNUM \| PCIE_SHARED_D2H_SYNC_XORCSUM)
	#define PCIE_SHARED_IDLE_FLOW_RING 0x80000
	#define PCIE_SHARED_2BYTE_INDICES 0x100000

	#define PCIE_SHARED_FAST_DELETE_RING 0x00000020 /* Fast Delete Ring */
	#define PCIE_SHARED_EVENT_BUF_POOL_MAX 0x000000c0 /* event buffer pool max bits */
	#define PCIE_SHARED_EVENT_BUF_POOL_MAX_POS 6 /* event buffer pool max bit position */

	/* dongle supports fatal buf log collection */
	#define PCIE_SHARED_FATAL_LOGBUG_VALID 0x200000

	/* Implicit DMA with corerev 19 and after */
	#define PCIE_SHARED_IDMA 0x400000

	/* MSI support */
	#define PCIE_SHARED_D2H_MSI_MULTI_MSG 0x800000

	/* IFRM with corerev 19 and after */
	#define PCIE_SHARED_IFRM 0x1000000

	/**
	* From Rev6 and above, suspend/resume can be done using two handshake methods.
	* 1. Using ctrl post/ctrl cmpl messages (Default rev6)
	* 2. Using Mailbox data (old method as used in rev5)
	* This shared flag indicates whether to overide rev6 default method and use mailbox for
	* suspend/resume.
	*/
	#define PCIE_SHARED_USE_MAILBOX 0x2000000

	/* Firmware compiled for mfgbuild purposes */
	#define PCIE_SHARED_MFGBUILD_FW 0x4000000

	/* Firmware could use DB0 value as host timestamp */
	#define PCIE_SHARED_TIMESTAMP_DB0 0x8000000
	/* Firmware could use Hostready (IPC rev7) */
	#define PCIE_SHARED_HOSTRDY_SUPPORT 0x10000000

	/* When set, Firmwar does not support OOB Device Wake based DS protocol */
	#define PCIE_SHARED_NO_OOB_DW 0x20000000

	/* When set, Firmwar supports Inband DS protocol */
	#define PCIE_SHARED_INBAND_DS 0x40000000

	/* use DAR registers */
	#define PCIE_SHARED_DAR 0x80000000

	/**
	* Following are the shared2 flags. All bits in flags have been used. A flags2
	* field got added and the definition for these flags come here:
	*/
	/* WAR: D11 txstatus through unused status field of PCIe completion header */
	#define PCIE_SHARED2_EXTENDED_TRAP_DATA 0x00000001 /* using flags2 in shared area */
	#define PCIE_SHARED2_TXSTATUS_METADATA 0x00000002
	#define PCIE_SHARED2_BT_LOGGING 0x00000004 /* BT logging support */
	#define PCIE_SHARED2_SNAPSHOT_UPLOAD 0x00000008 /* BT/WLAN snapshot upload support */
	#define PCIE_SHARED2_SUBMIT_COUNT_WAR 0x00000010 /* submission count WAR */
	#define PCIE_SHARED2_FAST_DELETE_RING 0x00000020 /* Fast Delete ring support */
	#define PCIE_SHARED2_EVTBUF_MAX_MASK 0x000000C0 /* 0:32, 1:64, 2:128, 3: 256 */

	/* using flags2 to indicate firmware support added to reuse timesync to update PKT txstatus */
	#define PCIE_SHARED2_PKT_TX_STATUS 0x00000100
	#define PCIE_SHARED2_FW_SMALL_MEMDUMP 0x00000200 /* FW small memdump */
	#define PCIE_SHARED2_FW_HC_ON_TRAP 0x00000400
	#define PCIE_SHARED2_HSCB 0x00000800 /* Host SCB support */

	#define PCIE_SHARED2_EDL_RING 0x00001000 /* Support Enhanced Debug Lane */
	#define PCIE_SHARED2_DEBUG_BUF_DEST 0x00002000 /* debug buf dest support */
	#define PCIE_SHARED2_PCIE_ENUM_RESET_FLR 0x00004000 /* BT producer index reset WAR */
	#define PCIE_SHARED2_PKT_TIMESTAMP 0x00008000 /* Timestamp in packet */

	#define PCIE_SHARED2_HP2P 0x00010000u /* HP2P feature */
	#define PCIE_SHARED2_HWA 0x00020000u /* HWA feature */
	#define PCIE_SHARED2_TRAP_ON_HOST_DB7 0x00040000u /* can take a trap on DB7 from host */

	#define PCIE_SHARED2_DURATION_SCALE 0x00100000u

	#define PCIE_SHARED2_D2H_D11_TX_STATUS 0x40000000
	#define PCIE_SHARED2_H2D_D11_TX_STATUS 0x80000000

	#define PCIE_SHARED_D2H_MAGIC 0xFEDCBA09
	#define PCIE_SHARED_H2D_MAGIC 0x12345678

	typedef uint16 pcie_hwa_db_index_t; /* 16 bit HWA index (IPC Rev 7) */
	#define PCIE_HWA_DB_INDEX_SZ (2u) /* 2 bytes sizeof(pcie_hwa_db_index_t) */

	/**
	* Message rings convey messages between host and device. They are unidirectional, and are located
	* in host memory.
	*
	* This is the minimal set of message rings, known as 'common message rings':
	*/
	#define BCMPCIE_H2D_MSGRING_CONTROL_SUBMIT 0
	#define BCMPCIE_H2D_MSGRING_RXPOST_SUBMIT 1
	#define BCMPCIE_D2H_MSGRING_CONTROL_COMPLETE 2
	#define BCMPCIE_D2H_MSGRING_TX_COMPLETE 3
	#define BCMPCIE_D2H_MSGRING_RX_COMPLETE 4
	#define BCMPCIE_COMMON_MSGRING_MAX_ID 4

	#define BCMPCIE_H2D_COMMON_MSGRINGS 2
	#define BCMPCIE_D2H_COMMON_MSGRINGS 3
	#define BCMPCIE_COMMON_MSGRINGS 5

	#define BCMPCIE_H2D_MSGRINGS(max_tx_flows) \
	(BCMPCIE_H2D_COMMON_MSGRINGS + (max_tx_flows))

	/* different ring types */
	#define BCMPCIE_H2D_RING_TYPE_CTRL_SUBMIT 0x1
	#define BCMPCIE_H2D_RING_TYPE_TXFLOW_RING 0x2
	#define BCMPCIE_H2D_RING_TYPE_RXBUFPOST 0x3
	#define BCMPCIE_H2D_RING_TYPE_TXSUBMIT 0x4
	#define BCMPCIE_H2D_RING_TYPE_DBGBUF_SUBMIT 0x5
	#define BCMPCIE_H2D_RING_TYPE_BTLOG_SUBMIT 0x6

	#define BCMPCIE_D2H_RING_TYPE_CTRL_CPL 0x1
	#define BCMPCIE_D2H_RING_TYPE_TX_CPL 0x2
	#define BCMPCIE_D2H_RING_TYPE_RX_CPL 0x3
	#define BCMPCIE_D2H_RING_TYPE_DBGBUF_CPL 0x4
	#define BCMPCIE_D2H_RING_TYPE_AC_RX_COMPLETE 0x5
	#define BCMPCIE_D2H_RING_TYPE_BTLOG_CPL 0x6
	#define BCMPCIE_D2H_RING_TYPE_EDL 0x7
	#define BCMPCIE_D2H_RING_TYPE_HPP_TX_CPL 0x8
	#define BCMPCIE_D2H_RING_TYPE_HPP_RX_CPL 0x9

	/**
	* H2D and D2H, WR and RD index, are maintained in the following arrays:
	* - Array of all H2D WR Indices
	* - Array of all H2D RD Indices
	* - Array of all D2H WR Indices
	* - Array of all D2H RD Indices
	*
	* The offset of the WR or RD indexes (for common rings) in these arrays are
	* listed below. Arrays ARE NOT indexed by a ring's id.
	*
	* D2H common rings WR and RD index start from 0, even though their ringids
	* start from BCMPCIE_H2D_COMMON_MSGRINGS
	*/

	#define BCMPCIE_H2D_RING_IDX(h2d_ring_id) (h2d_ring_id)

	enum h2dring_idx {
	/* H2D common rings */
	BCMPCIE_H2D_MSGRING_CONTROL_SUBMIT_IDX =
	BCMPCIE_H2D_RING_IDX(BCMPCIE_H2D_MSGRING_CONTROL_SUBMIT),
	BCMPCIE_H2D_MSGRING_RXPOST_SUBMIT_IDX =
	BCMPCIE_H2D_RING_IDX(BCMPCIE_H2D_MSGRING_RXPOST_SUBMIT),

	/* First TxPost's WR or RD index starts after all H2D common rings */
	BCMPCIE_H2D_MSGRING_TXFLOW_IDX_START =
	BCMPCIE_H2D_RING_IDX(BCMPCIE_H2D_COMMON_MSGRINGS)
	};

	#define BCMPCIE_D2H_RING_IDX(d2h_ring_id) \
	((d2h_ring_id) - BCMPCIE_H2D_COMMON_MSGRINGS)

	enum d2hring_idx {
	/* D2H Common Rings */
	BCMPCIE_D2H_MSGRING_CONTROL_COMPLETE_IDX =
	BCMPCIE_D2H_RING_IDX(BCMPCIE_D2H_MSGRING_CONTROL_COMPLETE),
	BCMPCIE_D2H_MSGRING_TX_COMPLETE_IDX =
	BCMPCIE_D2H_RING_IDX(BCMPCIE_D2H_MSGRING_TX_COMPLETE),
	BCMPCIE_D2H_MSGRING_RX_COMPLETE_IDX =
	BCMPCIE_D2H_RING_IDX(BCMPCIE_D2H_MSGRING_RX_COMPLETE)
	};

	/**
	* Macros for managing arrays of RD WR indices:
	* rw_index_sz:
	* - in dongle, rw_index_sz is known at compile time
	* - in host/DHD, rw_index_sz is derived from advertized pci_shared flags
	*
	* ring_idx: See h2dring_idx and d2hring_idx
	*/

	/** Offset of a RD or WR index in H2D or D2H indices array */
	#define BCMPCIE_RW_INDEX_OFFSET(rw_index_sz, ring_idx) \
	((rw_index_sz) * (ring_idx))

	/** Fetch the address of RD or WR index in H2D or D2H indices array */
	#define BCMPCIE_RW_INDEX_ADDR(indices_array_base, rw_index_sz, ring_idx) \
	(void *)((uint32)(indices_array_base) + \
	BCMPCIE_RW_INDEX_OFFSET((rw_index_sz), (ring_idx)))

	/** H2D DMA Indices array size: given max flow rings */
	#define BCMPCIE_H2D_RW_INDEX_ARRAY_SZ(rw_index_sz, max_tx_flows) \
	((rw_index_sz) * BCMPCIE_H2D_MSGRINGS(max_tx_flows))

	/** D2H DMA Indices array size */
	#define BCMPCIE_D2H_RW_INDEX_ARRAY_SZ(rw_index_sz) \
	((rw_index_sz) * BCMPCIE_D2H_COMMON_MSGRINGS)

	/**
	* This type is used by a 'message buffer' (which is a FIFO for messages). Message buffers are used
	* for host<->device communication and are instantiated on both sides. ring_mem_t is instantiated
	* both in host as well as device memory.
	*/
	typedef struct ring_mem {
	uint16 idx; /* ring id */
	uint8 type;
	uint8 rsvd;
	uint16 max_item; /* Max number of items in flow ring */
	uint16 len_items; /* Items are fixed size. Length in bytes of one item */
	sh_addr_t base_addr; /* 64 bits address, either in host or device memory */
	} ring_mem_t;

	/**
	* Per flow ring, information is maintained in device memory, eg at what address the ringmem and
	* ringstate are located. The flow ring itself can be instantiated in either host or device memory.
	*
	* Perhaps this type should be renamed to make clear that it resides in device memory only.
	*/
	typedef struct ring_info {
	uint32 ringmem_ptr; /* ring mem location in dongle memory */

	/* Following arrays are indexed using h2dring_idx and d2hring_idx, and not
	* by a ringid.
	*/

	/* 32bit ptr to arrays of WR or RD indices for all rings in dongle memory */
	uint32 h2d_w_idx_ptr; /* Array of all H2D ring's WR indices */
	uint32 h2d_r_idx_ptr; /* Array of all H2D ring's RD indices */
	uint32 d2h_w_idx_ptr; /* Array of all D2H ring's WR indices */
	uint32 d2h_r_idx_ptr; /* Array of all D2H ring's RD indices */

	/* PCIE_DMA_INDEX feature: Dongle uses mem2mem DMA to sync arrays in host.
	* Host may directly fetch WR and RD indices from these host-side arrays.
	*
	* 64bit ptr to arrays of WR or RD indices for all rings in host memory.
	*/
	sh_addr_t h2d_w_idx_hostaddr; /* Array of all H2D ring's WR indices */
	sh_addr_t h2d_r_idx_hostaddr; /* Array of all H2D ring's RD indices */
	sh_addr_t d2h_w_idx_hostaddr; /* Array of all D2H ring's WR indices */
	sh_addr_t d2h_r_idx_hostaddr; /* Array of all D2H ring's RD indices */

	uint16 max_tx_flowrings; /* maximum number of H2D rings: common + flow */
	uint16 max_submission_queues; /* maximum number of H2D rings: common + flow */
	uint16 max_completion_rings; /* maximum number of H2D rings: common + flow */
	uint16 max_vdevs; /* max number of virtual interfaces supported */

	sh_addr_t ifrm_w_idx_hostaddr; /* Array of all H2D ring's WR indices for IFRM */

	/* 32bit ptr to arrays of HWA DB indices for all rings in dongle memory */
	uint32 h2d_hwa_db_idx_ptr; /* Array of all H2D ring's HWA DB indices */
	uint32 d2h_hwa_db_idx_ptr; /* Array of all D2H ring's HWA DB indices */

	} ring_info_t;

	/**
	* A structure located in TCM that is shared between host and device, primarily used during
	* initialization.
	*/
	typedef struct {
	/** shared area version captured at flags 7:0 */
	uint32 flags;

	uint32 trap_addr;
	uint32 assert_exp_addr;
	uint32 assert_file_addr;
	uint32 assert_line;
	uint32 console_addr; /*< Address of hnd_cons_t /

	uint32 msgtrace_addr;

	uint32 fwid;

	/* Used for debug/flow control */
	uint16 total_lfrag_pkt_cnt;
	uint16 max_host_rxbufs; /* rsvd in spec */

	uint32 dma_rxoffset; /* rsvd in spec */

	/** these will be used for sleep request/ack, d3 req/ack */
	uint32 h2d_mb_data_ptr;
	uint32 d2h_mb_data_ptr;

	/* information pertinent to host IPC/msgbuf channels */
	/** location in the TCM memory which has the ring_info */
	uint32 rings_info_ptr;

	/** block of host memory for the scratch buffer */
	uint32 host_dma_scratch_buffer_len;
	sh_addr_t host_dma_scratch_buffer;

	/* location in host memory for scb host offload structures */
	sh_addr_t host_scb_addr;
	uint32 host_scb_size;

	/* anonymous union for overloading fields in structure */
	union {
	uint32 buzz_dbg_ptr; /* BUZZZ state format strings and trace buffer */
	struct {
	/* Host provided trap buffer length in words */
	uint16 device_trap_debug_buffer_len;
	uint16 rsvd2;
	};
	};

	/* rev6 compatible changes */
	uint32 flags2;
	uint32 host_cap;

	/* location in the host address space to write trap indication.
	* At this point for the current rev of the spec, firmware will
	* support only indications to 32 bit host addresses.
	* This essentially is device_trap_debug_buffer_addr
	*/
	sh_addr_t host_trap_addr;

	/* location for host fatal error log buffer start address */
	uint32 device_fatal_logbuf_start;

	/* location in host memory for offloaded modules */
	sh_addr_t hoffload_addr;
	uint32 flags3;
	uint32 host_cap2;
	uint32 host_cap3;
	} pciedev_shared_t;

	/* Device F/W provides the following access function:
	* pciedev_shared_t *hnd_get_pciedev_shared(void);
	*/

	/* host capabilities */
	#define HOSTCAP_PCIEAPI_VERSION_MASK 0x000000FF
	#define HOSTCAP_H2D_VALID_PHASE 0x00000100
	#define HOSTCAP_H2D_ENABLE_TRAP_ON_BADPHASE 0x00000200
	#define HOSTCAP_H2D_ENABLE_HOSTRDY 0x00000400
	#define HOSTCAP_DB0_TIMESTAMP 0x00000800
	#define HOSTCAP_DS_NO_OOB_DW 0x00001000
	#define HOSTCAP_DS_INBAND_DW 0x00002000
	#define HOSTCAP_H2D_IDMA 0x00004000
	#define HOSTCAP_H2D_IFRM 0x00008000
	#define HOSTCAP_H2D_DAR 0x00010000
	#define HOSTCAP_EXTENDED_TRAP_DATA 0x00020000
	#define HOSTCAP_TXSTATUS_METADATA 0x00040000
	#define HOSTCAP_BT_LOGGING 0x00080000
	#define HOSTCAP_SNAPSHOT_UPLOAD 0x00100000
	#define HOSTCAP_FAST_DELETE_RING 0x00200000
	#define HOSTCAP_PKT_TXSTATUS 0x00400000
	#define HOSTCAP_UR_FW_NO_TRAP 0x00800000 /* Don't trap on UR */
	#define HOSTCAP_HSCB 0x02000000
	/* Host support for extended device trap debug buffer */
	#define HOSTCAP_EXT_TRAP_DBGBUF 0x04000000
	/* Host support for enhanced debug lane */
	#define HOSTCAP_EDL_RING 0x10000000
	#define HOSTCAP_PKT_TIMESTAMP 0x20000000
	#define HOSTCAP_PKT_HP2P 0x40000000
	#define HOSTCAP_HWA 0x80000000
	#define HOSTCAP2_DURATION_SCALE_MASK 0x0000003Fu

	/* extended trap debug buffer allocation sizes. Note that this buffer can be used for
	* other trap related purposes also.
	*/
	#define BCMPCIE_HOST_EXT_TRAP_DBGBUF_LEN_MIN (64u * 1024u)
	#define BCMPCIE_HOST_EXT_TRAP_DBGBUF_LEN_MAX (256u * 1024u)

	/**
	* Mailboxes notify a remote party that an event took place, using interrupts. They use hardware
	* support.
	*/

	/* H2D mail box Data */
	#define H2D_HOST_D3_INFORM 0x00000001
	#define H2D_HOST_DS_ACK 0x00000002
	#define H2D_HOST_DS_NAK 0x00000004
	#define H2D_HOST_D0_INFORM_IN_USE 0x00000008
	#define H2D_HOST_D0_INFORM 0x00000010
	#define H2DMB_DS_ACTIVE 0x00000020
	#define H2DMB_DS_DEVICE_WAKE 0x00000040
	#define H2D_HOST_IDMA_INITED 0x00000080
	#define H2D_HOST_ACK_NOINT 0x00010000 /* d2h_ack interrupt ignore */
	#define H2D_HOST_CONS_INT 0x80000000 /*< h2d int for console cmds /
	#define H2D_FW_TRAP 0x20000000 /*< h2d force TRAP /
	#define H2DMB_DS_HOST_SLEEP_INFORM H2D_HOST_D3_INFORM
	#define H2DMB_DS_DEVICE_SLEEP_ACK H2D_HOST_DS_ACK
	#define H2DMB_DS_DEVICE_SLEEP_NAK H2D_HOST_DS_NAK
	#define H2DMB_D0_INFORM_IN_USE H2D_HOST_D0_INFORM_IN_USE
	#define H2DMB_D0_INFORM H2D_HOST_D0_INFORM
	#define H2DMB_FW_TRAP H2D_FW_TRAP
	#define H2DMB_HOST_CONS_INT H2D_HOST_CONS_INT
	#define H2DMB_DS_DEVICE_WAKE_ASSERT H2DMB_DS_DEVICE_WAKE
	#define H2DMB_DS_DEVICE_WAKE_DEASSERT H2DMB_DS_ACTIVE

	/* D2H mail box Data */
	#define D2H_DEV_D3_ACK 0x00000001
	#define D2H_DEV_DS_ENTER_REQ 0x00000002
	#define D2H_DEV_DS_EXIT_NOTE 0x00000004
	#define D2HMB_DS_HOST_SLEEP_EXIT_ACK 0x00000008
	#define D2H_DEV_IDMA_INITED 0x00000010
	#define D2HMB_DS_HOST_SLEEP_ACK D2H_DEV_D3_ACK
	#define D2HMB_DS_DEVICE_SLEEP_ENTER_REQ D2H_DEV_DS_ENTER_REQ
	#define D2HMB_DS_DEVICE_SLEEP_EXIT D2H_DEV_DS_EXIT_NOTE

	#define D2H_DEV_MB_MASK (D2H_DEV_D3_ACK \| D2H_DEV_DS_ENTER_REQ \| \
	D2H_DEV_DS_EXIT_NOTE \| D2H_DEV_IDMA_INITED)
	#define D2H_DEV_MB_INVALIDATED(x) ((!x) \|\| (x & ~D2H_DEV_MB_MASK))

	/* trap data codes */
	#define D2H_DEV_FWHALT 0x10000000
	#define D2H_DEV_EXT_TRAP_DATA 0x20000000
	#define D2H_DEV_TRAP_IN_TRAP 0x40000000
	#define D2H_DEV_TRAP_HOSTDB 0x80000000 /* trap as set by host DB */
	#define D2H_DEV_TRAP_DUE_TO_BT 0x01000000
	/* Indicates trap due to HMAP violation */
	#define D2H_DEV_TRAP_DUE_TO_HMAP 0x02000000
	/* Indicates whether HMAP violation was Write */
	#define D2H_DEV_TRAP_HMAP_WRITE 0x04000000
	#define D2H_DEV_TRAP_PING_HOST_FAILURE 0x08000000
	#define D2H_FWTRAP_MASK 0x0000001F /* Adding maskbits for TRAP information */

	#define D2HMB_FWHALT D2H_DEV_FWHALT
	#define D2HMB_TRAP_IN_TRAP D2H_DEV_TRAP_IN_TRAP
	#define D2HMB_EXT_TRAP_DATA D2H_DEV_EXT_TRAP_DATA

	/* Size of Extended Trap data Buffer */
	#define BCMPCIE_EXT_TRAP_DATA_MAXLEN 4096

	/** These macro's operate on type 'inuse_lclbuf_pool_t' and are used by firmware only */
	#define PREVTXP(i, d) (((i) == 0) ? ((d) - 1) : ((i) - 1))
	#define NEXTTXP(i, d) ((((i)+1) >= (d)) ? 0 : ((i)+1))
	#define NEXTNTXP(i, n, d) ((((i)+(n)) >= (d)) ? 0 : ((i)+(n)))
	#define NTXPACTIVE(r, w, d) (((r) <= (w)) ? ((w)-(r)) : ((d)-(r)+(w)))
	#define NTXPAVAIL(r, w, d) (((d) - NTXPACTIVE((r), (w), (d))) > 1)

	/* Function can be used to notify host of FW halt */
	#define READ_AVAIL_SPACE(w, r, d) ((w >= r) ? (uint32)(w - r) : (uint32)(d - r))
	#define WRITE_SPACE_AVAIL_CONTINUOUS(r, w, d) ((w >= r) ? (d - w) : (r - w))
	#define WRITE_SPACE_AVAIL(r, w, d) (d - (NTXPACTIVE(r, w, d)) - 1)
	#define CHECK_WRITE_SPACE(r, w, d) ((r) > (w)) ? \
	(uint32)((r) - (w) - 1) : ((r) == 0 \|\| (w) == 0) ? \
	(uint32)((d) - (w) - 1) : (uint32)((d) - (w))

	#define CHECK_NOWRITE_SPACE(r, w, d) \
	(((uint32)(r) == (uint32)((w) + 1)) \|\| (((r) == 0) && ((w) == ((d) - 1))))

	#define WRT_PEND(x) ((x)->wr_pending)
	#define DNGL_RING_WPTR(msgbuf) (((msgbuf)->tcm_rs_w_ptr)) /< advanced by producer /
	#define BCMMSGBUF_RING_SET_W_PTR(msgbuf, a) (DNGL_RING_WPTR(msgbuf) = (a))

	#define DNGL_RING_RPTR(msgbuf) (((msgbuf)->tcm_rs_r_ptr)) /< advanced by consumer /
	#define BCMMSGBUF_RING_SET_R_PTR(msgbuf, a) (DNGL_RING_RPTR(msgbuf) = (a))

	#define MODULO_RING_IDX(x, y) ((x) % (y)->bitmap_size)

	#define RING_READ_PTR(x) ((x)->ringstate->r_offset)
	#define RING_WRITE_PTR(x) ((x)->ringstate->w_offset)
	#define RING_START_PTR(x) ((x)->ringmem->base_addr.low_addr)
	#define RING_MAX_ITEM(x) ((x)->ringmem->max_item)
	#define RING_LEN_ITEMS(x) ((x)->ringmem->len_items)
	#define HOST_RING_BASE(x) ((x)->dma_buf.va)
	#define HOST_RING_END(x) ((uint8 *)HOST_RING_BASE((x)) + \
	((RING_MAX_ITEM((x))-1)*RING_LEN_ITEMS((x))))

	/* Trap types copied in the pciedev_shared.trap_addr */
	#define FW_INITIATED_TRAP_TYPE (0x1 << 7)
	#define HEALTHCHECK_NODS_TRAP_TYPE (0x1 << 6)

	#endif /* _bcmpcie_h_ */