tegrakernel/kernel/nvidia/drivers/net/wireless/bcmdhd/include/bcmmsgbuf.h

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2022-02-16 09:13:02 -06:00
/*
* MSGBUF network driver ioctl/indication encoding
* Broadcom 802.11abg Networking Device Driver
*
* Definitions subject to change without notice.
*
* Copyright (C) 1999-2015, Broadcom Corporation
*
* 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.
*
* $Id: bcmmsgbuf.h 530336 2015-01-29 22:52:35Z $
*/
#ifndef _bcmmsgbuf_h_
#define _bcmmsgbuf_h_
#include <proto/ethernet.h>
#include <wlioctl.h>
#include <bcmpcie.h>
#define MSGBUF_MAX_MSG_SIZE ETHER_MAX_LEN
#define D2H_EPOCH_MODULO 253 /* sequence number wrap */
#define D2H_EPOCH_INIT_VAL (D2H_EPOCH_MODULO + 1)
#define H2DRING_TXPOST_ITEMSIZE 48
#define H2DRING_RXPOST_ITEMSIZE 32
#define H2DRING_CTRL_SUB_ITEMSIZE 40
#define D2HRING_TXCMPLT_ITEMSIZE 16
#define D2HRING_RXCMPLT_ITEMSIZE 32
#define D2HRING_CTRL_CMPLT_ITEMSIZE 24
#define H2DRING_TXPOST_MAX_ITEM 512
#define H2DRING_RXPOST_MAX_ITEM 256
#define H2DRING_CTRL_SUB_MAX_ITEM 64
#define D2HRING_TXCMPLT_MAX_ITEM 1024
#define D2HRING_RXCMPLT_MAX_ITEM 256
#define D2HRING_CTRL_CMPLT_MAX_ITEM 64
enum {
DNGL_TO_HOST_MSGBUF,
HOST_TO_DNGL_MSGBUF
};
enum {
HOST_TO_DNGL_TXP_DATA,
HOST_TO_DNGL_RXP_DATA,
HOST_TO_DNGL_CTRL,
DNGL_TO_HOST_DATA,
DNGL_TO_HOST_CTRL
};
#define MESSAGE_PAYLOAD(a) (a & MSG_TYPE_INTERNAL_USE_START) ? TRUE : FALSE
#ifdef PCIE_API_REV1
#define BCMMSGBUF_DUMMY_REF(a, b) do {BCM_REFERENCE((a));BCM_REFERENCE((b));} while (0)
#define BCMMSGBUF_API_IFIDX(a) 0
#define BCMMSGBUF_API_SEQNUM(a) 0
#define BCMMSGBUF_IOCTL_XTID(a) 0
#define BCMMSGBUF_IOCTL_PKTID(a) ((a)->cmd_id)
#define BCMMSGBUF_SET_API_IFIDX(a, b) BCMMSGBUF_DUMMY_REF(a, b)
#define BCMMSGBUF_SET_API_SEQNUM(a, b) BCMMSGBUF_DUMMY_REF(a, b)
#define BCMMSGBUF_IOCTL_SET_PKTID(a, b) (BCMMSGBUF_IOCTL_PKTID(a) = (b))
#define BCMMSGBUF_IOCTL_SET_XTID(a, b) BCMMSGBUF_DUMMY_REF(a, b)
#else /* PCIE_API_REV1 */
#define BCMMSGBUF_API_IFIDX(a) ((a)->if_id)
#define BCMMSGBUF_IOCTL_PKTID(a) ((a)->pkt_id)
#define BCMMSGBUF_API_SEQNUM(a) ((a)->u.seq.seq_no)
#define BCMMSGBUF_IOCTL_XTID(a) ((a)->xt_id)
#define BCMMSGBUF_SET_API_IFIDX(a, b) (BCMMSGBUF_API_IFIDX((a)) = (b))
#define BCMMSGBUF_SET_API_SEQNUM(a, b) (BCMMSGBUF_API_SEQNUM((a)) = (b))
#define BCMMSGBUF_IOCTL_SET_PKTID(a, b) (BCMMSGBUF_IOCTL_PKTID((a)) = (b))
#define BCMMSGBUF_IOCTL_SET_XTID(a, b) (BCMMSGBUF_IOCTL_XTID((a)) = (b))
#endif /* PCIE_API_REV1 */
/* utility data structures */
union addr64 {
struct {
uint32 low;
uint32 high;
};
struct {
uint32 low_addr;
uint32 high_addr;
};
uint64 u64;
} DECLSPEC_ALIGN(8);
typedef union addr64 addr64_t;
/* IOCTL req Hdr */
/* cmn Msg Hdr */
typedef struct cmn_msg_hdr {
/* message type */
uint8 msg_type;
/* interface index this is valid for */
uint8 if_id;
/* flags */
uint8 flags;
/* sequence number */
uint8 epoch;
/* packet Identifier for the associated host buffer */
uint32 request_id;
} cmn_msg_hdr_t;
/* message type */
typedef enum bcmpcie_msgtype {
MSG_TYPE_GEN_STATUS = 0x1,
MSG_TYPE_RING_STATUS = 0x2,
MSG_TYPE_FLOW_RING_CREATE = 0x3,
MSG_TYPE_FLOW_RING_CREATE_CMPLT = 0x4,
MSG_TYPE_FLOW_RING_DELETE = 0x5,
MSG_TYPE_FLOW_RING_DELETE_CMPLT = 0x6,
MSG_TYPE_FLOW_RING_FLUSH = 0x7,
MSG_TYPE_FLOW_RING_FLUSH_CMPLT = 0x8,
MSG_TYPE_IOCTLPTR_REQ = 0x9,
MSG_TYPE_IOCTLPTR_REQ_ACK = 0xA,
MSG_TYPE_IOCTLRESP_BUF_POST = 0xB,
MSG_TYPE_IOCTL_CMPLT = 0xC,
MSG_TYPE_EVENT_BUF_POST = 0xD,
MSG_TYPE_WL_EVENT = 0xE,
MSG_TYPE_TX_POST = 0xF,
MSG_TYPE_TX_STATUS = 0x10,
MSG_TYPE_RXBUF_POST = 0x11,
MSG_TYPE_RX_CMPLT = 0x12,
MSG_TYPE_LPBK_DMAXFER = 0x13,
MSG_TYPE_LPBK_DMAXFER_CMPLT = 0x14,
MSG_TYPE_API_MAX_RSVD = 0x3F
} bcmpcie_msg_type_t;
typedef enum bcmpcie_msgtype_int {
MSG_TYPE_INTERNAL_USE_START = 0x40,
MSG_TYPE_EVENT_PYLD = 0x41,
MSG_TYPE_IOCT_PYLD = 0x42,
MSG_TYPE_RX_PYLD = 0x43,
MSG_TYPE_HOST_FETCH = 0x44,
MSG_TYPE_LPBK_DMAXFER_PYLD = 0x45,
MSG_TYPE_TXMETADATA_PYLD = 0x46,
MSG_TYPE_HOSTDMA_PTRS = 0x47
} bcmpcie_msgtype_int_t;
typedef enum bcmpcie_msgtype_u {
MSG_TYPE_TX_BATCH_POST = 0x80,
MSG_TYPE_IOCTL_REQ = 0x81,
MSG_TYPE_HOST_EVNT = 0x82,
MSG_TYPE_LOOPBACK = 0x83
} bcmpcie_msgtype_u_t;
/* if_id */
#define BCMPCIE_CMNHDR_IFIDX_PHYINTF_SHFT 5
#define BCMPCIE_CMNHDR_IFIDX_PHYINTF_MAX 0x7
#define BCMPCIE_CMNHDR_IFIDX_PHYINTF_MASK \
(BCMPCIE_CMNHDR_IFIDX_PHYINTF_MAX << BCMPCIE_CMNHDR_IFIDX_PHYINTF_SHFT)
#define BCMPCIE_CMNHDR_IFIDX_VIRTINTF_SHFT 0
#define BCMPCIE_CMNHDR_IFIDX_VIRTINTF_MAX 0x1F
#define BCMPCIE_CMNHDR_IFIDX_VIRTINTF_MASK \
(BCMPCIE_CMNHDR_IFIDX_PHYINTF_MAX << BCMPCIE_CMNHDR_IFIDX_PHYINTF_SHFT)
/* flags */
#define BCMPCIE_CMNHDR_FLAGS_DMA_R_IDX 0x1
#define BCMPCIE_CMNHDR_FLAGS_DMA_R_IDX_INTR 0x2
#define BCMPCIE_CMNHDR_FLAGS_PHASE_BIT 0x80
/* IOCTL request message */
typedef struct ioctl_req_msg {
/* common message header */
cmn_msg_hdr_t cmn_hdr;
/* ioctl command type */
uint32 cmd;
/* ioctl transaction ID, to pair with a ioctl response */
uint16 trans_id;
/* input arguments buffer len */
uint16 input_buf_len;
/* expected output len */
uint16 output_buf_len;
/* to aling the host address on 8 byte boundary */
uint16 rsvd[3];
/* always aling on 8 byte boundary */
addr64_t host_input_buf_addr;
/* rsvd */
uint32 rsvd1[2];
} ioctl_req_msg_t;
/* buffer post messages for device to use to return IOCTL responses, Events */
typedef struct ioctl_resp_evt_buf_post_msg {
/* common message header */
cmn_msg_hdr_t cmn_hdr;
/* length of the host buffer supplied */
uint16 host_buf_len;
/* to aling the host address on 8 byte boundary */
uint16 reserved[3];
/* always aling on 8 byte boundary */
addr64_t host_buf_addr;
uint32 rsvd[4];
} ioctl_resp_evt_buf_post_msg_t;
typedef struct pcie_dma_xfer_params {
/* common message header */
cmn_msg_hdr_t cmn_hdr;
/* always aling on 8 byte boundary */
addr64_t host_input_buf_addr;
/* always aling on 8 byte boundary */
addr64_t host_ouput_buf_addr;
/* length of transfer */
uint32 xfer_len;
/* delay before doing the src txfer */
uint32 srcdelay;
/* delay before doing the dest txfer */
uint32 destdelay;
uint32 rsvd;
} pcie_dma_xfer_params_t;
/* Complete msgbuf hdr for flow ring update from host to dongle */
typedef struct tx_flowring_create_request {
cmn_msg_hdr_t msg;
uint8 da[ETHER_ADDR_LEN];
uint8 sa[ETHER_ADDR_LEN];
uint8 tid;
uint8 if_flags;
uint16 flow_ring_id;
uint8 tc;
uint8 priority;
uint16 int_vector;
uint16 max_items;
uint16 len_item;
addr64_t flow_ring_ptr;
} tx_flowring_create_request_t;
typedef struct tx_flowring_delete_request {
cmn_msg_hdr_t msg;
uint16 flow_ring_id;
uint16 reason;
uint32 rsvd[7];
} tx_flowring_delete_request_t;
typedef struct tx_flowring_flush_request {
cmn_msg_hdr_t msg;
uint16 flow_ring_id;
uint16 reason;
uint32 rsvd[7];
} tx_flowring_flush_request_t;
typedef union ctrl_submit_item {
ioctl_req_msg_t ioctl_req;
ioctl_resp_evt_buf_post_msg_t resp_buf_post;
pcie_dma_xfer_params_t dma_xfer;
tx_flowring_create_request_t flow_create;
tx_flowring_delete_request_t flow_delete;
tx_flowring_flush_request_t flow_flush;
unsigned char check[H2DRING_CTRL_SUB_ITEMSIZE];
} ctrl_submit_item_t;
/* Control Completion messages (20 bytes) */
typedef struct compl_msg_hdr {
/* status for the completion */
int16 status;
/* submisison flow ring id which generated this status */
uint16 flow_ring_id;
} compl_msg_hdr_t;
/* XOR checksum or a magic number to audit DMA done */
typedef uint32 dma_done_t;
/* completion header status codes */
#define BCMPCIE_SUCCESS 0
#define BCMPCIE_NOTFOUND 1
#define BCMPCIE_NOMEM 2
#define BCMPCIE_BADOPTION 3
#define BCMPCIE_RING_IN_USE 4
#define BCMPCIE_RING_ID_INVALID 5
#define BCMPCIE_PKT_FLUSH 6
#define BCMPCIE_NO_EVENT_BUF 7
#define BCMPCIE_NO_RX_BUF 8
#define BCMPCIE_NO_IOCTLRESP_BUF 9
#define BCMPCIE_MAX_IOCTLRESP_BUF 10
#define BCMPCIE_MAX_EVENT_BUF 11
/* IOCTL completion response */
typedef struct ioctl_compl_resp_msg {
/* common message header */
cmn_msg_hdr_t cmn_hdr;
/* completion message header */
compl_msg_hdr_t compl_hdr;
/* response buffer len where a host buffer is involved */
uint16 resp_len;
/* transaction id to pair with a request */
uint16 trans_id;
/* cmd id */
uint32 cmd;
/* XOR checksum or a magic number to audit DMA done */
dma_done_t marker;
} ioctl_comp_resp_msg_t;
/* IOCTL request acknowledgement */
typedef struct ioctl_req_ack_msg {
/* common message header */
cmn_msg_hdr_t cmn_hdr;
/* completion message header */
compl_msg_hdr_t compl_hdr;
/* cmd id */
uint32 cmd;
uint32 rsvd[1];
/* XOR checksum or a magic number to audit DMA done */
dma_done_t marker;
} ioctl_req_ack_msg_t;
/* WL event message: send from device to host */
typedef struct wlevent_req_msg {
/* common message header */
cmn_msg_hdr_t cmn_hdr;
/* completion message header */
compl_msg_hdr_t compl_hdr;
/* event data len valid with the event buffer */
uint16 event_data_len;
/* sequence number */
uint16 seqnum;
/* rsvd */
uint32 rsvd;
/* XOR checksum or a magic number to audit DMA done */
dma_done_t marker;
} wlevent_req_msg_t;
/* dma xfer complete message */
typedef struct pcie_dmaxfer_cmplt {
/* common message header */
cmn_msg_hdr_t cmn_hdr;
/* completion message header */
compl_msg_hdr_t compl_hdr;
uint32 rsvd[2];
/* XOR checksum or a magic number to audit DMA done */
dma_done_t marker;
} pcie_dmaxfer_cmplt_t;
/* general status message */
typedef struct pcie_gen_status {
/* common message header */
cmn_msg_hdr_t cmn_hdr;
/* completion message header */
compl_msg_hdr_t compl_hdr;
uint32 rsvd[2];
/* XOR checksum or a magic number to audit DMA done */
dma_done_t marker;
} pcie_gen_status_t;
/* ring status message */
typedef struct pcie_ring_status {
/* common message header */
cmn_msg_hdr_t cmn_hdr;
/* completion message header */
compl_msg_hdr_t compl_hdr;
/* message which firmware couldn't decode */
uint16 write_idx;
uint16 rsvd[3];
/* XOR checksum or a magic number to audit DMA done */
dma_done_t marker;
} pcie_ring_status_t;
typedef struct tx_flowring_create_response {
cmn_msg_hdr_t msg;
compl_msg_hdr_t cmplt;
uint32 rsvd[2];
/* XOR checksum or a magic number to audit DMA done */
dma_done_t marker;
} tx_flowring_create_response_t;
typedef struct tx_flowring_delete_response {
cmn_msg_hdr_t msg;
compl_msg_hdr_t cmplt;
uint32 rsvd[2];
/* XOR checksum or a magic number to audit DMA done */
dma_done_t marker;
} tx_flowring_delete_response_t;
typedef struct tx_flowring_flush_response {
cmn_msg_hdr_t msg;
compl_msg_hdr_t cmplt;
uint32 rsvd[2];
/* XOR checksum or a magic number to audit DMA done */
dma_done_t marker;
} tx_flowring_flush_response_t;
/* Common layout of all d2h control messages */
typedef struct ctrl_compl_msg {
/* common message header */
cmn_msg_hdr_t cmn_hdr;
/* completion message header */
compl_msg_hdr_t compl_hdr;
uint32 rsvd[2];
/* XOR checksum or a magic number to audit DMA done */
dma_done_t marker;
} ctrl_compl_msg_t;
typedef union ctrl_completion_item {
ioctl_comp_resp_msg_t ioctl_resp;
wlevent_req_msg_t event;
ioctl_req_ack_msg_t ioct_ack;
pcie_dmaxfer_cmplt_t pcie_xfer_cmplt;
pcie_gen_status_t pcie_gen_status;
pcie_ring_status_t pcie_ring_status;
tx_flowring_create_response_t txfl_create_resp;
tx_flowring_delete_response_t txfl_delete_resp;
tx_flowring_flush_response_t txfl_flush_resp;
ctrl_compl_msg_t ctrl_compl;
unsigned char check[D2HRING_CTRL_CMPLT_ITEMSIZE];
} ctrl_completion_item_t;
/* H2D Rxpost ring work items */
typedef struct host_rxbuf_post {
/* common message header */
cmn_msg_hdr_t cmn_hdr;
/* provided meta data buffer len */
uint16 metadata_buf_len;
/* provided data buffer len to receive data */
uint16 data_buf_len;
/* alignment to make the host buffers start on 8 byte boundary */
uint32 rsvd;
/* provided meta data buffer */
addr64_t metadata_buf_addr;
/* provided data buffer to receive data */
addr64_t data_buf_addr;
} host_rxbuf_post_t;
typedef union rxbuf_submit_item {
host_rxbuf_post_t rxpost;
unsigned char check[H2DRING_RXPOST_ITEMSIZE];
} rxbuf_submit_item_t;
/* D2H Rxcompletion ring work items */
typedef struct host_rxbuf_cmpl {
/* common message header */
cmn_msg_hdr_t cmn_hdr;
/* completion message header */
compl_msg_hdr_t compl_hdr;
/* filled up meta data len */
uint16 metadata_len;
/* filled up buffer len to receive data */
uint16 data_len;
/* offset in the host rx buffer where the data starts */
uint16 data_offset;
/* offset in the host rx buffer where the data starts */
uint16 flags;
/* rx status */
uint32 rx_status_0;
uint32 rx_status_1;
/* XOR checksum or a magic number to audit DMA done */
dma_done_t marker;
} host_rxbuf_cmpl_t;
typedef union rxbuf_complete_item {
host_rxbuf_cmpl_t rxcmpl;
unsigned char check[D2HRING_RXCMPLT_ITEMSIZE];
} rxbuf_complete_item_t;
typedef struct host_txbuf_post {
/* common message header */
cmn_msg_hdr_t cmn_hdr;
/* eth header */
uint8 txhdr[ETHER_HDR_LEN];
/* flags */
uint8 flags;
/* number of segments */
uint8 seg_cnt;
/* provided meta data buffer for txstatus */
addr64_t metadata_buf_addr;
/* provided data buffer to receive data */
addr64_t data_buf_addr;
/* provided meta data buffer len */
uint16 metadata_buf_len;
/* provided data buffer len to receive data */
uint16 data_len;
uint32 flag2;
} host_txbuf_post_t;
#define BCMPCIE_PKT_FLAGS_FRAME_802_3 0x01
#define BCMPCIE_PKT_FLAGS_FRAME_802_11 0x02
#define BCMPCIE_PKT_FLAGS_FRAME_EXEMPT_MASK 0x03 /* Exempt uses 2 bits */
#define BCMPCIE_PKT_FLAGS_FRAME_EXEMPT_SHIFT 0x02 /* needs to be shifted past other bits */
#define BCMPCIE_PKT_FLAGS_PRIO_SHIFT 5
#define BCMPCIE_PKT_FLAGS_PRIO_MASK (7 << BCMPCIE_PKT_FLAGS_PRIO_SHIFT)
/* These are added to fix up teh compile issues */
#define BCMPCIE_TXPOST_FLAGS_FRAME_802_3 BCMPCIE_PKT_FLAGS_FRAME_802_3
#define BCMPCIE_TXPOST_FLAGS_FRAME_802_11 BCMPCIE_PKT_FLAGS_FRAME_802_11
#define BCMPCIE_TXPOST_FLAGS_PRIO_SHIFT BCMPCIE_PKT_FLAGS_PRIO_SHIFT
#define BCMPCIE_TXPOST_FLAGS_PRIO_MASK BCMPCIE_PKT_FLAGS_PRIO_MASK
#define BCMPCIE_PKT_FLAGS2_FORCELOWRATE_MASK 0x01
#define BCMPCIE_PKT_FLAGS2_FORCELOWRATE_SHIFT 0
/* H2D Txpost ring work items */
typedef union txbuf_submit_item {
host_txbuf_post_t txpost;
unsigned char check[H2DRING_TXPOST_ITEMSIZE];
} txbuf_submit_item_t;
/* D2H Txcompletion ring work items */
typedef struct host_txbuf_cmpl {
/* common message header */
cmn_msg_hdr_t cmn_hdr;
/* completion message header */
compl_msg_hdr_t compl_hdr;
union {
struct {
/* provided meta data len */
uint16 metadata_len;
/* WLAN side txstatus */
uint16 tx_status;
};
/* XOR checksum or a magic number to audit DMA done */
dma_done_t marker;
};
} host_txbuf_cmpl_t;
typedef union txbuf_complete_item {
host_txbuf_cmpl_t txcmpl;
unsigned char check[D2HRING_TXCMPLT_ITEMSIZE];
} txbuf_complete_item_t;
#define BCMPCIE_D2H_METADATA_HDRLEN 4
#define BCMPCIE_D2H_METADATA_MINLEN (BCMPCIE_D2H_METADATA_HDRLEN + 4)
/* ret buf struct */
typedef struct ret_buf_ptr {
uint32 low_addr;
uint32 high_addr;
} ret_buf_t;
#ifdef PCIE_API_REV1
/* ioctl specific hdr */
typedef struct ioctl_hdr {
uint16 cmd;
uint16 retbuf_len;
uint32 cmd_id;
} ioctl_hdr_t;
typedef struct ioctlptr_hdr {
uint16 cmd;
uint16 retbuf_len;
uint16 buflen;
uint16 rsvd;
uint32 cmd_id;
} ioctlptr_hdr_t;
#else /* PCIE_API_REV1 */
typedef struct ioctl_req_hdr {
uint32 pkt_id; /* Packet ID */
uint32 cmd; /* IOCTL ID */
uint16 retbuf_len;
uint16 buflen;
uint16 xt_id; /* transaction ID */
uint16 rsvd[1];
} ioctl_req_hdr_t;
#endif /* PCIE_API_REV1 */
/* Complete msgbuf hdr for ioctl from host to dongle */
typedef struct ioct_reqst_hdr {
cmn_msg_hdr_t msg;
#ifdef PCIE_API_REV1
ioctl_hdr_t ioct_hdr;
#else
ioctl_req_hdr_t ioct_hdr;
#endif
ret_buf_t ret_buf;
} ioct_reqst_hdr_t;
typedef struct ioctptr_reqst_hdr {
cmn_msg_hdr_t msg;
#ifdef PCIE_API_REV1
ioctlptr_hdr_t ioct_hdr;
#else
ioctl_req_hdr_t ioct_hdr;
#endif
ret_buf_t ret_buf;
ret_buf_t ioct_buf;
} ioctptr_reqst_hdr_t;
/* ioctl response header */
typedef struct ioct_resp_hdr {
cmn_msg_hdr_t msg;
#ifdef PCIE_API_REV1
uint32 cmd_id;
#else
uint32 pkt_id;
#endif
uint32 status;
uint32 ret_len;
uint32 inline_data;
#ifdef PCIE_API_REV1
#else
uint16 xt_id; /* transaction ID */
uint16 rsvd[1];
#endif
} ioct_resp_hdr_t;
/* ioct resp header used in dongle */
/* ret buf hdr will be stripped off inside dongle itself */
typedef struct msgbuf_ioctl_resp {
ioct_resp_hdr_t ioct_hdr;
ret_buf_t ret_buf; /* ret buf pointers */
} msgbuf_ioct_resp_t;
/* WL evet hdr info */
typedef struct wl_event_hdr {
cmn_msg_hdr_t msg;
uint16 event;
uint8 flags;
uint8 rsvd;
uint16 retbuf_len;
uint16 rsvd1;
uint32 rxbufid;
} wl_event_hdr_t;
#define TXDESCR_FLOWID_PCIELPBK_1 0xFF
#define TXDESCR_FLOWID_PCIELPBK_2 0xFE
typedef struct txbatch_lenptr_tup {
uint32 pktid;
uint16 pktlen;
uint16 rsvd;
ret_buf_t ret_buf; /* ret buf pointers */
} txbatch_lenptr_tup_t;
typedef struct txbatch_cmn_msghdr {
cmn_msg_hdr_t msg;
uint8 priority;
uint8 hdrlen;
uint8 pktcnt;
uint8 flowid;
uint8 txhdr[ETHER_HDR_LEN];
uint16 rsvd;
} txbatch_cmn_msghdr_t;
typedef struct txbatch_msghdr {
txbatch_cmn_msghdr_t txcmn;
txbatch_lenptr_tup_t tx_tup[0]; /* Based on packet count */
} txbatch_msghdr_t;
/* TX desc posting header */
typedef struct tx_lenptr_tup {
uint16 pktlen;
uint16 rsvd;
ret_buf_t ret_buf; /* ret buf pointers */
} tx_lenptr_tup_t;
typedef struct txdescr_cmn_msghdr {
cmn_msg_hdr_t msg;
uint8 priority;
uint8 hdrlen;
uint8 descrcnt;
uint8 flowid;
uint32 pktid;
} txdescr_cmn_msghdr_t;
typedef struct txdescr_msghdr {
txdescr_cmn_msghdr_t txcmn;
uint8 txhdr[ETHER_HDR_LEN];
uint16 rsvd;
tx_lenptr_tup_t tx_tup[0]; /* Based on descriptor count */
} txdescr_msghdr_t;
/* Tx status header info */
typedef struct txstatus_hdr {
cmn_msg_hdr_t msg;
uint32 pktid;
} txstatus_hdr_t;
/* RX bufid-len-ptr tuple */
typedef struct rx_lenptr_tup {
uint32 rxbufid;
uint16 len;
uint16 rsvd2;
ret_buf_t ret_buf; /* ret buf pointers */
} rx_lenptr_tup_t;
/* Rx descr Post hdr info */
typedef struct rxdesc_msghdr {
cmn_msg_hdr_t msg;
uint16 rsvd0;
uint8 rsvd1;
uint8 descnt;
rx_lenptr_tup_t rx_tup[0];
} rxdesc_msghdr_t;
/* RX complete tuples */
typedef struct rxcmplt_tup {
uint16 retbuf_len;
uint16 data_offset;
uint32 rxstatus0;
uint32 rxstatus1;
uint32 rxbufid;
} rxcmplt_tup_t;
/* RX complete messge hdr */
typedef struct rxcmplt_hdr {
cmn_msg_hdr_t msg;
uint16 rsvd0;
uint16 rxcmpltcnt;
rxcmplt_tup_t rx_tup[0];
} rxcmplt_hdr_t;
typedef struct hostevent_hdr {
cmn_msg_hdr_t msg;
uint32 evnt_pyld;
} hostevent_hdr_t;
typedef struct dma_xfer_params {
uint32 src_physaddr_hi;
uint32 src_physaddr_lo;
uint32 dest_physaddr_hi;
uint32 dest_physaddr_lo;
uint32 len;
uint32 srcdelay;
uint32 destdelay;
} dma_xfer_params_t;
enum {
HOST_EVENT_CONS_CMD = 1
};
/* defines for flags */
#define MSGBUF_IOC_ACTION_MASK 0x1
#endif /* _bcmmsgbuf_h_ */