xref: /wlan-driver/fw-api/hw/qca6290/11ax/v1/rx_msdu_end.h (revision 5113495b16420b49004c444715d2daae2066e7dc)

/*
 * Copyright (c) 2016-2017 The Linux Foundation. All rights reserved.
 *
 * Permission to use, copy, modify, and/or distribute this software for
 * any purpose with or without fee is hereby granted, provided that the
 * above copyright notice and this permission notice appear in all
 * copies.
 *
 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
 * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
 * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
 * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
 * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
 * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
 * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
 * PERFORMANCE OF THIS SOFTWARE.
 */

#ifndef _RX_MSDU_END_H_
#define _RX_MSDU_END_H_
#if !defined(__ASSEMBLER__)
#endif


// ################ START SUMMARY #################
//
//	Dword	Fields
//	0	rxpcu_mpdu_filter_in_category[1:0], sw_frame_group_id[8:2], reserved_0[15:9], phy_ppdu_id[31:16]
//	1	ip_hdr_chksum[15:0], tcp_udp_chksum[31:16]
//	2	key_id_octet[7:0], cce_super_rule[13:8], cce_classify_not_done_truncate[14], cce_classify_not_done_cce_dis[15], ext_wapi_pn_63_48[31:16]
//	3	ext_wapi_pn_95_64[31:0]
//	4	ext_wapi_pn_127_96[31:0]
//	5	reported_mpdu_length[13:0], first_msdu[14], last_msdu[15], sa_idx_timeout[16], da_idx_timeout[17], msdu_limit_error[18], flow_idx_timeout[19], flow_idx_invalid[20], wifi_parser_error[21], amsdu_parser_error[22], sa_is_valid[23], da_is_valid[24], da_is_mcbc[25], l3_header_padding[27:26], reserved_5a[31:28]
//	6	ipv6_options_crc[31:0]
//	7	tcp_seq_number[31:0]
//	8	tcp_ack_number[31:0]
//	9	tcp_flag[8:0], lro_eligible[9], reserved_9a[15:10], window_size[31:16]
//	10	da_offset[5:0], sa_offset[11:6], da_offset_valid[12], sa_offset_valid[13], reserved_10a[15:14], l3_type[31:16]
//	11	rule_indication_31_0[31:0]
//	12	rule_indication_63_32[31:0]
//	13	sa_idx[15:0], da_idx[31:16]
//	14	msdu_drop[0], reo_destination_indication[5:1], flow_idx[25:6], reserved_14[31:26]
//	15	fse_metadata[31:0]
//	16	cce_metadata[15:0], sa_sw_peer_id[31:16]
//
// ################ END SUMMARY #################

#define NUM_OF_DWORDS_RX_MSDU_END 17

struct rx_msdu_end {
             uint32_t rxpcu_mpdu_filter_in_category   :  2, //[1:0]
                      sw_frame_group_id               :  7, //[8:2]
                      reserved_0                      :  7, //[15:9]
                      phy_ppdu_id                     : 16; //[31:16]
             uint32_t ip_hdr_chksum                   : 16, //[15:0]
                      tcp_udp_chksum                  : 16; //[31:16]
             uint32_t key_id_octet                    :  8, //[7:0]
                      cce_super_rule                  :  6, //[13:8]
                      cce_classify_not_done_truncate  :  1, //[14]
                      cce_classify_not_done_cce_dis   :  1, //[15]
                      ext_wapi_pn_63_48               : 16; //[31:16]
             uint32_t ext_wapi_pn_95_64               : 32; //[31:0]
             uint32_t ext_wapi_pn_127_96              : 32; //[31:0]
             uint32_t reported_mpdu_length            : 14, //[13:0]
                      first_msdu                      :  1, //[14]
                      last_msdu                       :  1, //[15]
                      sa_idx_timeout                  :  1, //[16]
                      da_idx_timeout                  :  1, //[17]
                      msdu_limit_error                :  1, //[18]
                      flow_idx_timeout                :  1, //[19]
                      flow_idx_invalid                :  1, //[20]
                      wifi_parser_error               :  1, //[21]
                      amsdu_parser_error              :  1, //[22]
                      sa_is_valid                     :  1, //[23]
                      da_is_valid                     :  1, //[24]
                      da_is_mcbc                      :  1, //[25]
                      l3_header_padding               :  2, //[27:26]
                      reserved_5a                     :  4; //[31:28]
             uint32_t ipv6_options_crc                : 32; //[31:0]
             uint32_t tcp_seq_number                  : 32; //[31:0]
             uint32_t tcp_ack_number                  : 32; //[31:0]
             uint32_t tcp_flag                        :  9, //[8:0]
                      lro_eligible                    :  1, //[9]
                      reserved_9a                     :  6, //[15:10]
                      window_size                     : 16; //[31:16]
             uint32_t da_offset                       :  6, //[5:0]
                      sa_offset                       :  6, //[11:6]
                      da_offset_valid                 :  1, //[12]
                      sa_offset_valid                 :  1, //[13]
                      reserved_10a                    :  2, //[15:14]
                      l3_type                         : 16; //[31:16]
             uint32_t rule_indication_31_0            : 32; //[31:0]
             uint32_t rule_indication_63_32           : 32; //[31:0]
             uint32_t sa_idx                          : 16, //[15:0]
                      da_idx                          : 16; //[31:16]
             uint32_t msdu_drop                       :  1, //[0]
                      reo_destination_indication      :  5, //[5:1]
                      flow_idx                        : 20, //[25:6]
                      reserved_14                     :  6; //[31:26]
             uint32_t fse_metadata                    : 32; //[31:0]
             uint32_t cce_metadata                    : 16, //[15:0]
                      sa_sw_peer_id                   : 16; //[31:16]
};

/*

rxpcu_mpdu_filter_in_category

			Field indicates what the reason was that this MPDU frame
			was allowed to come into the receive path by RXPCU

			<enum 0 rxpcu_filter_pass> This MPDU passed the normal
			frame filter programming of rxpcu

			<enum 1 rxpcu_monitor_client> This MPDU did NOT pass the
			regular frame filter and would have been dropped, were it
			not for the frame fitting into the 'monitor_client'
			category.

			<enum 2 rxpcu_monitor_other> This MPDU did NOT pass the
			regular frame filter and also did not pass the
			rxpcu_monitor_client filter. It would have been dropped
			accept that it did pass the 'monitor_other' category.

			<legal 0-2>

sw_frame_group_id

			SW processes frames based on certain classifications.
			This field indicates to what sw classification this MPDU is
			mapped.

			The classification is given in priority order



			<enum 0 sw_frame_group_NDP_frame>



			<enum 1 sw_frame_group_Multicast_data>

			<enum 2 sw_frame_group_Unicast_data>

			<enum 3 sw_frame_group_Null_data > This includes mpdus
			of type Data Null as well as QoS Data Null



			<enum 4 sw_frame_group_mgmt_0000 >

			<enum 5 sw_frame_group_mgmt_0001 >

			<enum 6 sw_frame_group_mgmt_0010 >

			<enum 7 sw_frame_group_mgmt_0011 >

			<enum 8 sw_frame_group_mgmt_0100 >

			<enum 9 sw_frame_group_mgmt_0101 >

			<enum 10 sw_frame_group_mgmt_0110 >

			<enum 11 sw_frame_group_mgmt_0111 >

			<enum 12 sw_frame_group_mgmt_1000 >

			<enum 13 sw_frame_group_mgmt_1001 >

			<enum 14 sw_frame_group_mgmt_1010 >

			<enum 15 sw_frame_group_mgmt_1011 >

			<enum 16 sw_frame_group_mgmt_1100 >

			<enum 17 sw_frame_group_mgmt_1101 >

			<enum 18 sw_frame_group_mgmt_1110 >

			<enum 19 sw_frame_group_mgmt_1111 >



			<enum 20 sw_frame_group_ctrl_0000 >

			<enum 21 sw_frame_group_ctrl_0001 >

			<enum 22 sw_frame_group_ctrl_0010 >

			<enum 23 sw_frame_group_ctrl_0011 >

			<enum 24 sw_frame_group_ctrl_0100 >

			<enum 25 sw_frame_group_ctrl_0101 >

			<enum 26 sw_frame_group_ctrl_0110 >

			<enum 27 sw_frame_group_ctrl_0111 >

			<enum 28 sw_frame_group_ctrl_1000 >

			<enum 29 sw_frame_group_ctrl_1001 >

			<enum 30 sw_frame_group_ctrl_1010 >

			<enum 31 sw_frame_group_ctrl_1011 >

			<enum 32 sw_frame_group_ctrl_1100 >

			<enum 33 sw_frame_group_ctrl_1101 >

			<enum 34 sw_frame_group_ctrl_1110 >

			<enum 35 sw_frame_group_ctrl_1111 >



			<enum 36 sw_frame_group_unsupported> This covers type 3
			and protocol version != 0






			<legal 0-37>

reserved_0

			<legal 0>

phy_ppdu_id

			A ppdu counter value that PHY increments for every PPDU
			received. The counter value wraps around

			<legal all>

ip_hdr_chksum

			This can include the IP header checksum or the pseudo
			header checksum used by TCP/UDP checksum.

			(with the first byte in the MSB and the second byte in
			the LSB, i.e. requiring a byte-swap for little-endian FW/SW
			w.r.t. the byte order in a packet)

tcp_udp_chksum

			The value of the computed TCP/UDP checksum.  A mode bit
			selects whether this checksum is the full checksum or the
			partial checksum which does not include the pseudo header.
			(with the first byte in the MSB and the second byte in the
			LSB, i.e. requiring a byte-swap for little-endian FW/SW
			w.r.t. the byte order in a packet)

key_id_octet

			The key ID octet from the IV.  Only valid when
			first_msdu is set.

cce_super_rule

			Indicates the super filter rule

cce_classify_not_done_truncate

			Classification failed due to truncated frame

cce_classify_not_done_cce_dis

			Classification failed due to CCE global disable

ext_wapi_pn_63_48

			Extension PN (packet number) which is only used by WAPI.
			This corresponds to WAPI PN bits [63:48] (pn6 and pn7).
			The WAPI PN bits [63:0] are in the pn field of the
			rx_mpdu_start descriptor.

ext_wapi_pn_95_64

			Extension PN (packet number) which is only used by WAPI.
			This corresponds to WAPI PN bits [95:64] (pn8, pn9, pn10
			and pn11).

ext_wapi_pn_127_96

			Extension PN (packet number) which is only used by WAPI.
			This corresponds to WAPI PN bits [127:96] (pn12, pn13,
			pn14, pn15).

reported_mpdu_length

			MPDU length before decapsulation.  Only valid when
			first_msdu is set.  This field is taken directly from the
			length field of the A-MPDU delimiter or the preamble length
			field for non-A-MPDU frames.

first_msdu

			Indicates the first MSDU of A-MSDU.  If both first_msdu
			and last_msdu are set in the MSDU then this is a
			non-aggregated MSDU frame: normal MPDU.  Interior MSDU in an
			A-MSDU shall have both first_mpdu and last_mpdu bits set to
			0.

last_msdu

			Indicates the last MSDU of the A-MSDU.  MPDU end status
			is only valid when last_msdu is set.

sa_idx_timeout

			Indicates an unsuccessful MAC source address search due
			to the expiring of the search timer.

da_idx_timeout

			Indicates an unsuccessful MAC destination address search
			due to the expiring of the search timer.

msdu_limit_error

			Indicates that the MSDU threshold was exceeded and thus
			all the rest of the MSDUs will not be scattered and will not
			be decapsulated but will be DMA'ed in RAW format as a single
			MSDU buffer

flow_idx_timeout

			Indicates an unsuccessful flow search due to the
			expiring of the search timer.

			<legal all>

flow_idx_invalid

			flow id is not valid

			<legal all>

wifi_parser_error

			Indicates that the WiFi frame has one of the following
			errors

			o has less than minimum allowed bytes as per standard

			o has incomplete VLAN LLC/SNAP (only for non A-MSDUs)

			<legal all>

amsdu_parser_error

			A-MSDU could not be properly de-agregated.

			<legal all>

sa_is_valid

			Indicates that OLE found a valid SA entry

da_is_valid

			Indicates that OLE found a valid DA entry

da_is_mcbc

			Field Only valid if da_is_valid is set



			Indicates the DA address was a Multicast of Broadcast
			address.

l3_header_padding

			Number of bytes padded  to make sure that the L3 header
			will always start of a Dword   boundary

reserved_5a

			<legal 0>

ipv6_options_crc

			32 bit CRC computed out of  IP v6 extension headers

tcp_seq_number

			TCP sequence number (as a number assembled from a TCP
			packet in big-endian order, i.e. requiring a byte-swap for
			little-endian FW/SW w.r.t. the byte order in a packet)

tcp_ack_number

			TCP acknowledge number (as a number assembled from a TCP
			packet in big-endian order, i.e. requiring a byte-swap for
			little-endian FW/SW w.r.t. the byte order in a packet)

tcp_flag

			TCP flags

			{NS,CWR,ECE,URG,ACK,PSH, RST ,SYN,FIN}(with the NS bit
			in bit 8 and the FIN bit in bit 0, i.e. in big-endian order,
			i.e. requiring a byte-swap for little-endian FW/SW w.r.t.
			the byte order in a packet)

lro_eligible

			Computed out of TCP and IP fields to indicate that this
			MSDU is eligible for  LRO

reserved_9a

			NOTE: DO not assign a field... Internally used in
			RXOLE..

			<legal 0>

window_size

			TCP receive window size (as a number assembled from a
			TCP packet in big-endian order, i.e. requiring a byte-swap
			for little-endian FW/SW w.r.t. the byte order in a packet)

da_offset

			Offset into MSDU buffer for DA

sa_offset

			Offset into MSDU buffer for SA

da_offset_valid

			da_offset field is valid. This will be set to 0 in case
			of a dynamic A-MSDU when DA is compressed

sa_offset_valid

			sa_offset field is valid. This will be set to 0 in case
			of a dynamic A-MSDU when SA is compressed

reserved_10a

			<legal 0>

l3_type

			The 16-bit type value indicating the type of L3 later
			extracted from LLC/SNAP, set to zero if SNAP is not
			available

rule_indication_31_0

			Bitmap indicating which of rules 31-0 have matched

rule_indication_63_32

			Bitmap indicating which of rules 63-32 have matched

sa_idx

			The offset in the address table which matches the MAC
			source address.

da_idx

			The offset in the address table which matches the MAC
			source address

msdu_drop

			When set, REO shall drop this MSDU and not forward it to
			any other ring...

			<legal all>

reo_destination_indication

			The ID of the REO exit ring where the MSDU frame shall
			push after (MPDU level) reordering has finished.



			<enum 0 reo_destination_tcl> Reo will push the frame
			into the REO2TCL ring

			<enum 1 reo_destination_sw1> Reo will push the frame
			into the REO2SW1 ring

			<enum 2 reo_destination_sw2> Reo will push the frame
			into the REO2SW1 ring

			<enum 3 reo_destination_sw3> Reo will push the frame
			into the REO2SW1 ring

			<enum 4 reo_destination_sw4> Reo will push the frame
			into the REO2SW1 ring

			<enum 5 reo_destination_release> Reo will push the frame
			into the REO_release ring

			<enum 6 reo_destination_fw> Reo will push the frame into
			the REO2FW ring

			<enum 7 reo_destination_7> REO remaps this

			<enum 8 reo_destination_8> REO remaps this <enum 9
			reo_destination_9> REO remaps this <enum 10
			reo_destination_10> REO remaps this

			<enum 11 reo_destination_11> REO remaps this

			<enum 12 reo_destination_12> REO remaps this <enum 13
			reo_destination_13> REO remaps this

			<enum 14 reo_destination_14> REO remaps this

			<enum 15 reo_destination_15> REO remaps this

			<enum 16 reo_destination_16> REO remaps this

			<enum 17 reo_destination_17> REO remaps this

			<enum 18 reo_destination_18> REO remaps this

			<enum 19 reo_destination_19> REO remaps this

			<enum 20 reo_destination_20> REO remaps this

			<enum 21 reo_destination_21> REO remaps this

			<enum 22 reo_destination_22> REO remaps this

			<enum 23 reo_destination_23> REO remaps this

			<enum 24 reo_destination_24> REO remaps this

			<enum 25 reo_destination_25> REO remaps this

			<enum 26 reo_destination_26> REO remaps this

			<enum 27 reo_destination_27> REO remaps this

			<enum 28 reo_destination_28> REO remaps this

			<enum 29 reo_destination_29> REO remaps this

			<enum 30 reo_destination_30> REO remaps this

			<enum 31 reo_destination_31> REO remaps this



			<legal all>

flow_idx

			Flow table index

			<legal all>

reserved_14

			<legal 0>

fse_metadata

			FSE related meta data:

			<legal all>

cce_metadata

			CCE related meta data:

			<legal all>

sa_sw_peer_id

			sw_peer_id from the address search entry corresponding
			to the source address of the MSDU

			<legal 0>
*/


/* Description		RX_MSDU_END_0_RXPCU_MPDU_FILTER_IN_CATEGORY

			Field indicates what the reason was that this MPDU frame
			was allowed to come into the receive path by RXPCU

			<enum 0 rxpcu_filter_pass> This MPDU passed the normal
			frame filter programming of rxpcu

			<enum 1 rxpcu_monitor_client> This MPDU did NOT pass the
			regular frame filter and would have been dropped, were it
			not for the frame fitting into the 'monitor_client'
			category.

			<enum 2 rxpcu_monitor_other> This MPDU did NOT pass the
			regular frame filter and also did not pass the
			rxpcu_monitor_client filter. It would have been dropped
			accept that it did pass the 'monitor_other' category.

			<legal 0-2>
*/
#define RX_MSDU_END_0_RXPCU_MPDU_FILTER_IN_CATEGORY_OFFSET           0x00000000
#define RX_MSDU_END_0_RXPCU_MPDU_FILTER_IN_CATEGORY_LSB              0
#define RX_MSDU_END_0_RXPCU_MPDU_FILTER_IN_CATEGORY_MASK             0x00000003

/* Description		RX_MSDU_END_0_SW_FRAME_GROUP_ID

			SW processes frames based on certain classifications.
			This field indicates to what sw classification this MPDU is
			mapped.

			The classification is given in priority order



			<enum 0 sw_frame_group_NDP_frame>



			<enum 1 sw_frame_group_Multicast_data>

			<enum 2 sw_frame_group_Unicast_data>

			<enum 3 sw_frame_group_Null_data > This includes mpdus
			of type Data Null as well as QoS Data Null



			<enum 4 sw_frame_group_mgmt_0000 >

			<enum 5 sw_frame_group_mgmt_0001 >

			<enum 6 sw_frame_group_mgmt_0010 >

			<enum 7 sw_frame_group_mgmt_0011 >

			<enum 8 sw_frame_group_mgmt_0100 >

			<enum 9 sw_frame_group_mgmt_0101 >

			<enum 10 sw_frame_group_mgmt_0110 >

			<enum 11 sw_frame_group_mgmt_0111 >

			<enum 12 sw_frame_group_mgmt_1000 >

			<enum 13 sw_frame_group_mgmt_1001 >

			<enum 14 sw_frame_group_mgmt_1010 >

			<enum 15 sw_frame_group_mgmt_1011 >

			<enum 16 sw_frame_group_mgmt_1100 >

			<enum 17 sw_frame_group_mgmt_1101 >

			<enum 18 sw_frame_group_mgmt_1110 >

			<enum 19 sw_frame_group_mgmt_1111 >



			<enum 20 sw_frame_group_ctrl_0000 >

			<enum 21 sw_frame_group_ctrl_0001 >

			<enum 22 sw_frame_group_ctrl_0010 >

			<enum 23 sw_frame_group_ctrl_0011 >

			<enum 24 sw_frame_group_ctrl_0100 >

			<enum 25 sw_frame_group_ctrl_0101 >

			<enum 26 sw_frame_group_ctrl_0110 >

			<enum 27 sw_frame_group_ctrl_0111 >

			<enum 28 sw_frame_group_ctrl_1000 >

			<enum 29 sw_frame_group_ctrl_1001 >

			<enum 30 sw_frame_group_ctrl_1010 >

			<enum 31 sw_frame_group_ctrl_1011 >

			<enum 32 sw_frame_group_ctrl_1100 >

			<enum 33 sw_frame_group_ctrl_1101 >

			<enum 34 sw_frame_group_ctrl_1110 >

			<enum 35 sw_frame_group_ctrl_1111 >



			<enum 36 sw_frame_group_unsupported> This covers type 3
			and protocol version != 0






			<legal 0-37>
*/
#define RX_MSDU_END_0_SW_FRAME_GROUP_ID_OFFSET                       0x00000000
#define RX_MSDU_END_0_SW_FRAME_GROUP_ID_LSB                          2
#define RX_MSDU_END_0_SW_FRAME_GROUP_ID_MASK                         0x000001fc

/* Description		RX_MSDU_END_0_RESERVED_0

			<legal 0>
*/
#define RX_MSDU_END_0_RESERVED_0_OFFSET                              0x00000000
#define RX_MSDU_END_0_RESERVED_0_LSB                                 9
#define RX_MSDU_END_0_RESERVED_0_MASK                                0x0000fe00

/* Description		RX_MSDU_END_0_PHY_PPDU_ID

			A ppdu counter value that PHY increments for every PPDU
			received. The counter value wraps around

			<legal all>
*/
#define RX_MSDU_END_0_PHY_PPDU_ID_OFFSET                             0x00000000
#define RX_MSDU_END_0_PHY_PPDU_ID_LSB                                16
#define RX_MSDU_END_0_PHY_PPDU_ID_MASK                               0xffff0000

/* Description		RX_MSDU_END_1_IP_HDR_CHKSUM

			This can include the IP header checksum or the pseudo
			header checksum used by TCP/UDP checksum.

			(with the first byte in the MSB and the second byte in
			the LSB, i.e. requiring a byte-swap for little-endian FW/SW
			w.r.t. the byte order in a packet)
*/
#define RX_MSDU_END_1_IP_HDR_CHKSUM_OFFSET                           0x00000004
#define RX_MSDU_END_1_IP_HDR_CHKSUM_LSB                              0
#define RX_MSDU_END_1_IP_HDR_CHKSUM_MASK                             0x0000ffff

/* Description		RX_MSDU_END_1_TCP_UDP_CHKSUM

			The value of the computed TCP/UDP checksum.  A mode bit
			selects whether this checksum is the full checksum or the
			partial checksum which does not include the pseudo header.
			(with the first byte in the MSB and the second byte in the
			LSB, i.e. requiring a byte-swap for little-endian FW/SW
			w.r.t. the byte order in a packet)
*/
#define RX_MSDU_END_1_TCP_UDP_CHKSUM_OFFSET                          0x00000004
#define RX_MSDU_END_1_TCP_UDP_CHKSUM_LSB                             16
#define RX_MSDU_END_1_TCP_UDP_CHKSUM_MASK                            0xffff0000

/* Description		RX_MSDU_END_2_KEY_ID_OCTET

			The key ID octet from the IV.  Only valid when
			first_msdu is set.
*/
#define RX_MSDU_END_2_KEY_ID_OCTET_OFFSET                            0x00000008
#define RX_MSDU_END_2_KEY_ID_OCTET_LSB                               0
#define RX_MSDU_END_2_KEY_ID_OCTET_MASK                              0x000000ff

/* Description		RX_MSDU_END_2_CCE_SUPER_RULE

			Indicates the super filter rule
*/
#define RX_MSDU_END_2_CCE_SUPER_RULE_OFFSET                          0x00000008
#define RX_MSDU_END_2_CCE_SUPER_RULE_LSB                             8
#define RX_MSDU_END_2_CCE_SUPER_RULE_MASK                            0x00003f00

/* Description		RX_MSDU_END_2_CCE_CLASSIFY_NOT_DONE_TRUNCATE

			Classification failed due to truncated frame
*/
#define RX_MSDU_END_2_CCE_CLASSIFY_NOT_DONE_TRUNCATE_OFFSET          0x00000008
#define RX_MSDU_END_2_CCE_CLASSIFY_NOT_DONE_TRUNCATE_LSB             14
#define RX_MSDU_END_2_CCE_CLASSIFY_NOT_DONE_TRUNCATE_MASK            0x00004000

/* Description		RX_MSDU_END_2_CCE_CLASSIFY_NOT_DONE_CCE_DIS

			Classification failed due to CCE global disable
*/
#define RX_MSDU_END_2_CCE_CLASSIFY_NOT_DONE_CCE_DIS_OFFSET           0x00000008
#define RX_MSDU_END_2_CCE_CLASSIFY_NOT_DONE_CCE_DIS_LSB              15
#define RX_MSDU_END_2_CCE_CLASSIFY_NOT_DONE_CCE_DIS_MASK             0x00008000

/* Description		RX_MSDU_END_2_EXT_WAPI_PN_63_48

			Extension PN (packet number) which is only used by WAPI.
			This corresponds to WAPI PN bits [63:48] (pn6 and pn7).
			The WAPI PN bits [63:0] are in the pn field of the
			rx_mpdu_start descriptor.
*/
#define RX_MSDU_END_2_EXT_WAPI_PN_63_48_OFFSET                       0x00000008
#define RX_MSDU_END_2_EXT_WAPI_PN_63_48_LSB                          16
#define RX_MSDU_END_2_EXT_WAPI_PN_63_48_MASK                         0xffff0000

/* Description		RX_MSDU_END_3_EXT_WAPI_PN_95_64

			Extension PN (packet number) which is only used by WAPI.
			This corresponds to WAPI PN bits [95:64] (pn8, pn9, pn10
			and pn11).
*/
#define RX_MSDU_END_3_EXT_WAPI_PN_95_64_OFFSET                       0x0000000c
#define RX_MSDU_END_3_EXT_WAPI_PN_95_64_LSB                          0
#define RX_MSDU_END_3_EXT_WAPI_PN_95_64_MASK                         0xffffffff

/* Description		RX_MSDU_END_4_EXT_WAPI_PN_127_96

			Extension PN (packet number) which is only used by WAPI.
			This corresponds to WAPI PN bits [127:96] (pn12, pn13,
			pn14, pn15).
*/
#define RX_MSDU_END_4_EXT_WAPI_PN_127_96_OFFSET                      0x00000010
#define RX_MSDU_END_4_EXT_WAPI_PN_127_96_LSB                         0
#define RX_MSDU_END_4_EXT_WAPI_PN_127_96_MASK                        0xffffffff

/* Description		RX_MSDU_END_5_REPORTED_MPDU_LENGTH

			MPDU length before decapsulation.  Only valid when
			first_msdu is set.  This field is taken directly from the
			length field of the A-MPDU delimiter or the preamble length
			field for non-A-MPDU frames.
*/
#define RX_MSDU_END_5_REPORTED_MPDU_LENGTH_OFFSET                    0x00000014
#define RX_MSDU_END_5_REPORTED_MPDU_LENGTH_LSB                       0
#define RX_MSDU_END_5_REPORTED_MPDU_LENGTH_MASK                      0x00003fff

/* Description		RX_MSDU_END_5_FIRST_MSDU

			Indicates the first MSDU of A-MSDU.  If both first_msdu
			and last_msdu are set in the MSDU then this is a
			non-aggregated MSDU frame: normal MPDU.  Interior MSDU in an
			A-MSDU shall have both first_mpdu and last_mpdu bits set to
			0.
*/
#define RX_MSDU_END_5_FIRST_MSDU_OFFSET                              0x00000014
#define RX_MSDU_END_5_FIRST_MSDU_LSB                                 14
#define RX_MSDU_END_5_FIRST_MSDU_MASK                                0x00004000

/* Description		RX_MSDU_END_5_LAST_MSDU

			Indicates the last MSDU of the A-MSDU.  MPDU end status
			is only valid when last_msdu is set.
*/
#define RX_MSDU_END_5_LAST_MSDU_OFFSET                               0x00000014
#define RX_MSDU_END_5_LAST_MSDU_LSB                                  15
#define RX_MSDU_END_5_LAST_MSDU_MASK                                 0x00008000

/* Description		RX_MSDU_END_5_SA_IDX_TIMEOUT

			Indicates an unsuccessful MAC source address search due
			to the expiring of the search timer.
*/
#define RX_MSDU_END_5_SA_IDX_TIMEOUT_OFFSET                          0x00000014
#define RX_MSDU_END_5_SA_IDX_TIMEOUT_LSB                             16
#define RX_MSDU_END_5_SA_IDX_TIMEOUT_MASK                            0x00010000

/* Description		RX_MSDU_END_5_DA_IDX_TIMEOUT

			Indicates an unsuccessful MAC destination address search
			due to the expiring of the search timer.
*/
#define RX_MSDU_END_5_DA_IDX_TIMEOUT_OFFSET                          0x00000014
#define RX_MSDU_END_5_DA_IDX_TIMEOUT_LSB                             17
#define RX_MSDU_END_5_DA_IDX_TIMEOUT_MASK                            0x00020000

/* Description		RX_MSDU_END_5_MSDU_LIMIT_ERROR

			Indicates that the MSDU threshold was exceeded and thus
			all the rest of the MSDUs will not be scattered and will not
			be decapsulated but will be DMA'ed in RAW format as a single
			MSDU buffer
*/
#define RX_MSDU_END_5_MSDU_LIMIT_ERROR_OFFSET                        0x00000014
#define RX_MSDU_END_5_MSDU_LIMIT_ERROR_LSB                           18
#define RX_MSDU_END_5_MSDU_LIMIT_ERROR_MASK                          0x00040000

/* Description		RX_MSDU_END_5_FLOW_IDX_TIMEOUT

			Indicates an unsuccessful flow search due to the
			expiring of the search timer.

			<legal all>
*/
#define RX_MSDU_END_5_FLOW_IDX_TIMEOUT_OFFSET                        0x00000014
#define RX_MSDU_END_5_FLOW_IDX_TIMEOUT_LSB                           19
#define RX_MSDU_END_5_FLOW_IDX_TIMEOUT_MASK                          0x00080000

/* Description		RX_MSDU_END_5_FLOW_IDX_INVALID

			flow id is not valid

			<legal all>
*/
#define RX_MSDU_END_5_FLOW_IDX_INVALID_OFFSET                        0x00000014
#define RX_MSDU_END_5_FLOW_IDX_INVALID_LSB                           20
#define RX_MSDU_END_5_FLOW_IDX_INVALID_MASK                          0x00100000

/* Description		RX_MSDU_END_5_WIFI_PARSER_ERROR

			Indicates that the WiFi frame has one of the following
			errors

			o has less than minimum allowed bytes as per standard

			o has incomplete VLAN LLC/SNAP (only for non A-MSDUs)

			<legal all>
*/
#define RX_MSDU_END_5_WIFI_PARSER_ERROR_OFFSET                       0x00000014
#define RX_MSDU_END_5_WIFI_PARSER_ERROR_LSB                          21
#define RX_MSDU_END_5_WIFI_PARSER_ERROR_MASK                         0x00200000

/* Description		RX_MSDU_END_5_AMSDU_PARSER_ERROR

			A-MSDU could not be properly de-agregated.

			<legal all>
*/
#define RX_MSDU_END_5_AMSDU_PARSER_ERROR_OFFSET                      0x00000014
#define RX_MSDU_END_5_AMSDU_PARSER_ERROR_LSB                         22
#define RX_MSDU_END_5_AMSDU_PARSER_ERROR_MASK                        0x00400000

/* Description		RX_MSDU_END_5_SA_IS_VALID

			Indicates that OLE found a valid SA entry
*/
#define RX_MSDU_END_5_SA_IS_VALID_OFFSET                             0x00000014
#define RX_MSDU_END_5_SA_IS_VALID_LSB                                23
#define RX_MSDU_END_5_SA_IS_VALID_MASK                               0x00800000

/* Description		RX_MSDU_END_5_DA_IS_VALID

			Indicates that OLE found a valid DA entry
*/
#define RX_MSDU_END_5_DA_IS_VALID_OFFSET                             0x00000014
#define RX_MSDU_END_5_DA_IS_VALID_LSB                                24
#define RX_MSDU_END_5_DA_IS_VALID_MASK                               0x01000000

/* Description		RX_MSDU_END_5_DA_IS_MCBC

			Field Only valid if da_is_valid is set



			Indicates the DA address was a Multicast of Broadcast
			address.
*/
#define RX_MSDU_END_5_DA_IS_MCBC_OFFSET                              0x00000014
#define RX_MSDU_END_5_DA_IS_MCBC_LSB                                 25
#define RX_MSDU_END_5_DA_IS_MCBC_MASK                                0x02000000

/* Description		RX_MSDU_END_5_L3_HEADER_PADDING

			Number of bytes padded  to make sure that the L3 header
			will always start of a Dword   boundary
*/
#define RX_MSDU_END_5_L3_HEADER_PADDING_OFFSET                       0x00000014
#define RX_MSDU_END_5_L3_HEADER_PADDING_LSB                          26
#define RX_MSDU_END_5_L3_HEADER_PADDING_MASK                         0x0c000000

/* Description		RX_MSDU_END_5_RESERVED_5A

			<legal 0>
*/
#define RX_MSDU_END_5_RESERVED_5A_OFFSET                             0x00000014
#define RX_MSDU_END_5_RESERVED_5A_LSB                                28
#define RX_MSDU_END_5_RESERVED_5A_MASK                               0xf0000000

/* Description		RX_MSDU_END_6_IPV6_OPTIONS_CRC

			32 bit CRC computed out of  IP v6 extension headers
*/
#define RX_MSDU_END_6_IPV6_OPTIONS_CRC_OFFSET                        0x00000018
#define RX_MSDU_END_6_IPV6_OPTIONS_CRC_LSB                           0
#define RX_MSDU_END_6_IPV6_OPTIONS_CRC_MASK                          0xffffffff

/* Description		RX_MSDU_END_7_TCP_SEQ_NUMBER

			TCP sequence number (as a number assembled from a TCP
			packet in big-endian order, i.e. requiring a byte-swap for
			little-endian FW/SW w.r.t. the byte order in a packet)
*/
#define RX_MSDU_END_7_TCP_SEQ_NUMBER_OFFSET                          0x0000001c
#define RX_MSDU_END_7_TCP_SEQ_NUMBER_LSB                             0
#define RX_MSDU_END_7_TCP_SEQ_NUMBER_MASK                            0xffffffff

/* Description		RX_MSDU_END_8_TCP_ACK_NUMBER

			TCP acknowledge number (as a number assembled from a TCP
			packet in big-endian order, i.e. requiring a byte-swap for
			little-endian FW/SW w.r.t. the byte order in a packet)
*/
#define RX_MSDU_END_8_TCP_ACK_NUMBER_OFFSET                          0x00000020
#define RX_MSDU_END_8_TCP_ACK_NUMBER_LSB                             0
#define RX_MSDU_END_8_TCP_ACK_NUMBER_MASK                            0xffffffff

/* Description		RX_MSDU_END_9_TCP_FLAG

			TCP flags

			{NS,CWR,ECE,URG,ACK,PSH, RST ,SYN,FIN}(with the NS bit
			in bit 8 and the FIN bit in bit 0, i.e. in big-endian order,
			i.e. requiring a byte-swap for little-endian FW/SW w.r.t.
			the byte order in a packet)
*/
#define RX_MSDU_END_9_TCP_FLAG_OFFSET                                0x00000024
#define RX_MSDU_END_9_TCP_FLAG_LSB                                   0
#define RX_MSDU_END_9_TCP_FLAG_MASK                                  0x000001ff

/* Description		RX_MSDU_END_9_LRO_ELIGIBLE

			Computed out of TCP and IP fields to indicate that this
			MSDU is eligible for  LRO
*/
#define RX_MSDU_END_9_LRO_ELIGIBLE_OFFSET                            0x00000024
#define RX_MSDU_END_9_LRO_ELIGIBLE_LSB                               9
#define RX_MSDU_END_9_LRO_ELIGIBLE_MASK                              0x00000200

/* Description		RX_MSDU_END_9_RESERVED_9A

			NOTE: DO not assign a field... Internally used in
			RXOLE..

			<legal 0>
*/
#define RX_MSDU_END_9_RESERVED_9A_OFFSET                             0x00000024
#define RX_MSDU_END_9_RESERVED_9A_LSB                                10
#define RX_MSDU_END_9_RESERVED_9A_MASK                               0x0000fc00

/* Description		RX_MSDU_END_9_WINDOW_SIZE

			TCP receive window size (as a number assembled from a
			TCP packet in big-endian order, i.e. requiring a byte-swap
			for little-endian FW/SW w.r.t. the byte order in a packet)
*/
#define RX_MSDU_END_9_WINDOW_SIZE_OFFSET                             0x00000024
#define RX_MSDU_END_9_WINDOW_SIZE_LSB                                16
#define RX_MSDU_END_9_WINDOW_SIZE_MASK                               0xffff0000

/* Description		RX_MSDU_END_10_DA_OFFSET

			Offset into MSDU buffer for DA
*/
#define RX_MSDU_END_10_DA_OFFSET_OFFSET                              0x00000028
#define RX_MSDU_END_10_DA_OFFSET_LSB                                 0
#define RX_MSDU_END_10_DA_OFFSET_MASK                                0x0000003f

/* Description		RX_MSDU_END_10_SA_OFFSET

			Offset into MSDU buffer for SA
*/
#define RX_MSDU_END_10_SA_OFFSET_OFFSET                              0x00000028
#define RX_MSDU_END_10_SA_OFFSET_LSB                                 6
#define RX_MSDU_END_10_SA_OFFSET_MASK                                0x00000fc0

/* Description		RX_MSDU_END_10_DA_OFFSET_VALID

			da_offset field is valid. This will be set to 0 in case
			of a dynamic A-MSDU when DA is compressed
*/
#define RX_MSDU_END_10_DA_OFFSET_VALID_OFFSET                        0x00000028
#define RX_MSDU_END_10_DA_OFFSET_VALID_LSB                           12
#define RX_MSDU_END_10_DA_OFFSET_VALID_MASK                          0x00001000

/* Description		RX_MSDU_END_10_SA_OFFSET_VALID

			sa_offset field is valid. This will be set to 0 in case
			of a dynamic A-MSDU when SA is compressed
*/
#define RX_MSDU_END_10_SA_OFFSET_VALID_OFFSET                        0x00000028
#define RX_MSDU_END_10_SA_OFFSET_VALID_LSB                           13
#define RX_MSDU_END_10_SA_OFFSET_VALID_MASK                          0x00002000

/* Description		RX_MSDU_END_10_RESERVED_10A

			<legal 0>
*/
#define RX_MSDU_END_10_RESERVED_10A_OFFSET                           0x00000028
#define RX_MSDU_END_10_RESERVED_10A_LSB                              14
#define RX_MSDU_END_10_RESERVED_10A_MASK                             0x0000c000

/* Description		RX_MSDU_END_10_L3_TYPE

			The 16-bit type value indicating the type of L3 later
			extracted from LLC/SNAP, set to zero if SNAP is not
			available
*/
#define RX_MSDU_END_10_L3_TYPE_OFFSET                                0x00000028
#define RX_MSDU_END_10_L3_TYPE_LSB                                   16
#define RX_MSDU_END_10_L3_TYPE_MASK                                  0xffff0000

/* Description		RX_MSDU_END_11_RULE_INDICATION_31_0

			Bitmap indicating which of rules 31-0 have matched
*/
#define RX_MSDU_END_11_RULE_INDICATION_31_0_OFFSET                   0x0000002c
#define RX_MSDU_END_11_RULE_INDICATION_31_0_LSB                      0
#define RX_MSDU_END_11_RULE_INDICATION_31_0_MASK                     0xffffffff

/* Description		RX_MSDU_END_12_RULE_INDICATION_63_32

			Bitmap indicating which of rules 63-32 have matched
*/
#define RX_MSDU_END_12_RULE_INDICATION_63_32_OFFSET                  0x00000030
#define RX_MSDU_END_12_RULE_INDICATION_63_32_LSB                     0
#define RX_MSDU_END_12_RULE_INDICATION_63_32_MASK                    0xffffffff

/* Description		RX_MSDU_END_13_SA_IDX

			The offset in the address table which matches the MAC
			source address.
*/
#define RX_MSDU_END_13_SA_IDX_OFFSET                                 0x00000034
#define RX_MSDU_END_13_SA_IDX_LSB                                    0
#define RX_MSDU_END_13_SA_IDX_MASK                                   0x0000ffff

/* Description		RX_MSDU_END_13_DA_IDX

			The offset in the address table which matches the MAC
			source address
*/
#define RX_MSDU_END_13_DA_IDX_OFFSET                                 0x00000034
#define RX_MSDU_END_13_DA_IDX_LSB                                    16
#define RX_MSDU_END_13_DA_IDX_MASK                                   0xffff0000

/* Description		RX_MSDU_END_14_MSDU_DROP

			When set, REO shall drop this MSDU and not forward it to
			any other ring...

			<legal all>
*/
#define RX_MSDU_END_14_MSDU_DROP_OFFSET                              0x00000038
#define RX_MSDU_END_14_MSDU_DROP_LSB                                 0
#define RX_MSDU_END_14_MSDU_DROP_MASK                                0x00000001

/* Description		RX_MSDU_END_14_REO_DESTINATION_INDICATION

			The ID of the REO exit ring where the MSDU frame shall
			push after (MPDU level) reordering has finished.



			<enum 0 reo_destination_tcl> Reo will push the frame
			into the REO2TCL ring

			<enum 1 reo_destination_sw1> Reo will push the frame
			into the REO2SW1 ring

			<enum 2 reo_destination_sw2> Reo will push the frame
			into the REO2SW1 ring

			<enum 3 reo_destination_sw3> Reo will push the frame
			into the REO2SW1 ring

			<enum 4 reo_destination_sw4> Reo will push the frame
			into the REO2SW1 ring

			<enum 5 reo_destination_release> Reo will push the frame
			into the REO_release ring

			<enum 6 reo_destination_fw> Reo will push the frame into
			the REO2FW ring

			<enum 7 reo_destination_7> REO remaps this

			<enum 8 reo_destination_8> REO remaps this <enum 9
			reo_destination_9> REO remaps this <enum 10
			reo_destination_10> REO remaps this

			<enum 11 reo_destination_11> REO remaps this

			<enum 12 reo_destination_12> REO remaps this <enum 13
			reo_destination_13> REO remaps this

			<enum 14 reo_destination_14> REO remaps this

			<enum 15 reo_destination_15> REO remaps this

			<enum 16 reo_destination_16> REO remaps this

			<enum 17 reo_destination_17> REO remaps this

			<enum 18 reo_destination_18> REO remaps this

			<enum 19 reo_destination_19> REO remaps this

			<enum 20 reo_destination_20> REO remaps this

			<enum 21 reo_destination_21> REO remaps this

			<enum 22 reo_destination_22> REO remaps this

			<enum 23 reo_destination_23> REO remaps this

			<enum 24 reo_destination_24> REO remaps this

			<enum 25 reo_destination_25> REO remaps this

			<enum 26 reo_destination_26> REO remaps this

			<enum 27 reo_destination_27> REO remaps this

			<enum 28 reo_destination_28> REO remaps this

			<enum 29 reo_destination_29> REO remaps this

			<enum 30 reo_destination_30> REO remaps this

			<enum 31 reo_destination_31> REO remaps this



			<legal all>
*/
#define RX_MSDU_END_14_REO_DESTINATION_INDICATION_OFFSET             0x00000038
#define RX_MSDU_END_14_REO_DESTINATION_INDICATION_LSB                1
#define RX_MSDU_END_14_REO_DESTINATION_INDICATION_MASK               0x0000003e

/* Description		RX_MSDU_END_14_FLOW_IDX

			Flow table index

			<legal all>
*/
#define RX_MSDU_END_14_FLOW_IDX_OFFSET                               0x00000038
#define RX_MSDU_END_14_FLOW_IDX_LSB                                  6
#define RX_MSDU_END_14_FLOW_IDX_MASK                                 0x03ffffc0

/* Description		RX_MSDU_END_14_RESERVED_14

			<legal 0>
*/
#define RX_MSDU_END_14_RESERVED_14_OFFSET                            0x00000038
#define RX_MSDU_END_14_RESERVED_14_LSB                               26
#define RX_MSDU_END_14_RESERVED_14_MASK                              0xfc000000

/* Description		RX_MSDU_END_15_FSE_METADATA

			FSE related meta data:

			<legal all>
*/
#define RX_MSDU_END_15_FSE_METADATA_OFFSET                           0x0000003c
#define RX_MSDU_END_15_FSE_METADATA_LSB                              0
#define RX_MSDU_END_15_FSE_METADATA_MASK                             0xffffffff

/* Description		RX_MSDU_END_16_CCE_METADATA

			CCE related meta data:

			<legal all>
*/
#define RX_MSDU_END_16_CCE_METADATA_OFFSET                           0x00000040
#define RX_MSDU_END_16_CCE_METADATA_LSB                              0
#define RX_MSDU_END_16_CCE_METADATA_MASK                             0x0000ffff

/* Description		RX_MSDU_END_16_SA_SW_PEER_ID

			sw_peer_id from the address search entry corresponding
			to the source address of the MSDU

			<legal 0>
*/
#define RX_MSDU_END_16_SA_SW_PEER_ID_OFFSET                          0x00000040
#define RX_MSDU_END_16_SA_SW_PEER_ID_LSB                             16
#define RX_MSDU_END_16_SA_SW_PEER_ID_MASK                            0xffff0000


#endif // _RX_MSDU_END_H_