dp/wifi3.0/dp_rx.h

*5113495bSYour Name/*
*5113495bSYour Name * Copyright (c) 2016-2021 The Linux Foundation. All rights reserved.
*5113495bSYour Name * Copyright (c) 2021-2024 Qualcomm Innovation Center, Inc. All rights reserved.
*5113495bSYour Name *
*5113495bSYour Name * Permission to use, copy, modify, and/or distribute this software for
*5113495bSYour Name * any purpose with or without fee is hereby granted, provided that the
*5113495bSYour Name * above copyright notice and this permission notice appear in all
*5113495bSYour Name * copies.
*5113495bSYour Name *
*5113495bSYour Name * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
*5113495bSYour Name * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
*5113495bSYour Name * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
*5113495bSYour Name * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
*5113495bSYour Name * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
*5113495bSYour Name * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
*5113495bSYour Name * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
*5113495bSYour Name * PERFORMANCE OF THIS SOFTWARE.
*5113495bSYour Name */
*5113495bSYour Name
*5113495bSYour Name#ifndef _DP_RX_H
*5113495bSYour Name#define _DP_RX_H
*5113495bSYour Name
*5113495bSYour Name#include "hal_rx.h"
*5113495bSYour Name#include "dp_peer.h"
*5113495bSYour Name#include "dp_internal.h"
*5113495bSYour Name#include <qdf_tracepoint.h>
*5113495bSYour Name#include "dp_ipa.h"
*5113495bSYour Name
*5113495bSYour Name#ifdef RXDMA_OPTIMIZATION
*5113495bSYour Name#ifndef RX_DATA_BUFFER_ALIGNMENT
*5113495bSYour Name#define RX_DATA_BUFFER_ALIGNMENT        128
*5113495bSYour Name#endif
*5113495bSYour Name#ifndef RX_MONITOR_BUFFER_ALIGNMENT
*5113495bSYour Name#define RX_MONITOR_BUFFER_ALIGNMENT     128
*5113495bSYour Name#endif
*5113495bSYour Name#else /* RXDMA_OPTIMIZATION */
*5113495bSYour Name#define RX_DATA_BUFFER_ALIGNMENT        4
*5113495bSYour Name#define RX_MONITOR_BUFFER_ALIGNMENT     4
*5113495bSYour Name#endif /* RXDMA_OPTIMIZATION */
*5113495bSYour Name
*5113495bSYour Name#if defined(WLAN_MAX_PDEVS) && (WLAN_MAX_PDEVS == 1)
*5113495bSYour Name#define DP_WBM2SW_RBM(sw0_bm_id)	HAL_RX_BUF_RBM_SW1_BM(sw0_bm_id)
*5113495bSYour Name/* RBM value used for re-injecting defragmented packets into REO */
*5113495bSYour Name#define DP_DEFRAG_RBM(sw0_bm_id)	HAL_RX_BUF_RBM_SW3_BM(sw0_bm_id)
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name/* Max buffer in invalid peer SG list*/
*5113495bSYour Name#define DP_MAX_INVALID_BUFFERS 10
*5113495bSYour Name#ifdef DP_INVALID_PEER_ASSERT
*5113495bSYour Name#define DP_PDEV_INVALID_PEER_MSDU_CHECK(head, tail) \
*5113495bSYour Name		do {                                \
*5113495bSYour Name			qdf_assert_always(!(head)); \
*5113495bSYour Name			qdf_assert_always(!(tail)); \
*5113495bSYour Name		} while (0)
*5113495bSYour Name#else
*5113495bSYour Name#define DP_PDEV_INVALID_PEER_MSDU_CHECK(head, tail) /* no op */
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#define RX_BUFFER_RESERVATION   0
*5113495bSYour Name
*5113495bSYour Name#define DP_DEFAULT_NOISEFLOOR	(-96)
*5113495bSYour Name
*5113495bSYour Name#define DP_RX_DESC_MAGIC 0xdec0de
*5113495bSYour Name
*5113495bSYour Name#define dp_rx_alert(params...) QDF_TRACE_FATAL(QDF_MODULE_ID_DP_RX, params)
*5113495bSYour Name#define dp_rx_err(params...) QDF_TRACE_ERROR(QDF_MODULE_ID_DP_RX, params)
*5113495bSYour Name#define dp_rx_warn(params...) QDF_TRACE_WARN(QDF_MODULE_ID_DP_RX, params)
*5113495bSYour Name#define dp_rx_info(params...) \
*5113495bSYour Name	__QDF_TRACE_FL(QDF_TRACE_LEVEL_INFO_HIGH, QDF_MODULE_ID_DP_RX, ## params)
*5113495bSYour Name#define dp_rx_info_rl(params...) \
*5113495bSYour Name	__QDF_TRACE_RL(QDF_TRACE_LEVEL_INFO_HIGH, QDF_MODULE_ID_DP_RX, ## params)
*5113495bSYour Name#define dp_rx_debug(params...) QDF_TRACE_DEBUG(QDF_MODULE_ID_DP_RX, params)
*5113495bSYour Name#define dp_rx_err_err(params...) \
*5113495bSYour Name	QDF_TRACE_ERROR(QDF_MODULE_ID_DP_RX_ERROR, params)
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * enum dp_rx_desc_state
*5113495bSYour Name *
*5113495bSYour Name * @RX_DESC_REPLENISHED: rx desc replenished
*5113495bSYour Name * @RX_DESC_IN_FREELIST: rx desc in freelist
*5113495bSYour Name */
*5113495bSYour Nameenum dp_rx_desc_state {
*5113495bSYour Name	RX_DESC_REPLENISHED,
*5113495bSYour Name	RX_DESC_IN_FREELIST,
*5113495bSYour Name};
*5113495bSYour Name
*5113495bSYour Name#ifndef QCA_HOST_MODE_WIFI_DISABLED
*5113495bSYour Name/**
*5113495bSYour Name * struct dp_rx_desc_dbg_info
*5113495bSYour Name *
*5113495bSYour Name * @freelist_caller: name of the function that put the
*5113495bSYour Name *  the rx desc in freelist
*5113495bSYour Name * @freelist_ts: timestamp when the rx desc is put in
*5113495bSYour Name *  a freelist
*5113495bSYour Name * @replenish_caller: name of the function that last
*5113495bSYour Name *  replenished the rx desc
*5113495bSYour Name * @replenish_ts: last replenish timestamp
*5113495bSYour Name * @prev_nbuf: previous nbuf info
*5113495bSYour Name * @prev_nbuf_data_addr: previous nbuf data address
*5113495bSYour Name */
*5113495bSYour Namestruct dp_rx_desc_dbg_info {
*5113495bSYour Name	char freelist_caller[QDF_MEM_FUNC_NAME_SIZE];
*5113495bSYour Name	uint64_t freelist_ts;
*5113495bSYour Name	char replenish_caller[QDF_MEM_FUNC_NAME_SIZE];
*5113495bSYour Name	uint64_t replenish_ts;
*5113495bSYour Name	qdf_nbuf_t prev_nbuf;
*5113495bSYour Name	uint8_t *prev_nbuf_data_addr;
*5113495bSYour Name};
*5113495bSYour Name
*5113495bSYour Name#endif /* QCA_HOST_MODE_WIFI_DISABLED */
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * struct dp_rx_desc
*5113495bSYour Name *
*5113495bSYour Name * @nbuf:		VA of the "skb" posted
*5113495bSYour Name * @rx_buf_start:	VA of the original Rx buffer, before
*5113495bSYour Name *			movement of any skb->data pointer
*5113495bSYour Name * @paddr_buf_start:	PA of the original Rx buffer, before
*5113495bSYour Name *                      movement of any frag pointer
*5113495bSYour Name * @cookie:		index into the sw array which holds
*5113495bSYour Name *			the sw Rx descriptors
*5113495bSYour Name *			Cookie space is 21 bits:
*5113495bSYour Name *			lower 18 bits -- index
*5113495bSYour Name *			upper  3 bits -- pool_id
*5113495bSYour Name * @pool_id:		pool Id for which this allocated.
*5113495bSYour Name *			Can only be used if there is no flow
*5113495bSYour Name *			steering
*5113495bSYour Name * @chip_id:		chip_id indicating MLO chip_id
*5113495bSYour Name *			valid or used only in case of multi-chip MLO
*5113495bSYour Name * @reuse_nbuf:		VA of the "skb" which is being reused
*5113495bSYour Name * @magic:
*5113495bSYour Name * @nbuf_data_addr:	VA of nbuf data posted
*5113495bSYour Name * @dbg_info:
*5113495bSYour Name * @prev_paddr_buf_start: paddr of the prev nbuf attach to rx_desc
*5113495bSYour Name * @in_use:		rx_desc is in use
*5113495bSYour Name * @unmapped:		used to mark rx_desc an unmapped if the corresponding
*5113495bSYour Name *			nbuf is already unmapped
*5113495bSYour Name * @in_err_state:	Nbuf sanity failed for this descriptor.
*5113495bSYour Name * @has_reuse_nbuf:	the nbuf associated with this desc is also saved in
*5113495bSYour Name *			reuse_nbuf field
*5113495bSYour Name * @msdu_done_fail:	this particular rx_desc was dequeued from REO with
*5113495bSYour Name *			msdu_done bit not set in data buffer.
*5113495bSYour Name */
*5113495bSYour Namestruct dp_rx_desc {
*5113495bSYour Name	qdf_nbuf_t nbuf;
*5113495bSYour Name#ifdef WLAN_SUPPORT_PPEDS
*5113495bSYour Name	qdf_nbuf_t reuse_nbuf;
*5113495bSYour Name#endif
*5113495bSYour Name	uint8_t *rx_buf_start;
*5113495bSYour Name	qdf_dma_addr_t paddr_buf_start;
*5113495bSYour Name	uint32_t cookie;
*5113495bSYour Name	uint8_t	 pool_id;
*5113495bSYour Name	uint8_t chip_id;
*5113495bSYour Name#ifdef RX_DESC_DEBUG_CHECK
*5113495bSYour Name	uint32_t magic;
*5113495bSYour Name	uint8_t *nbuf_data_addr;
*5113495bSYour Name	struct dp_rx_desc_dbg_info *dbg_info;
*5113495bSYour Name	qdf_dma_addr_t prev_paddr_buf_start;
*5113495bSYour Name#endif
*5113495bSYour Name	uint8_t	in_use:1,
*5113495bSYour Name		unmapped:1,
*5113495bSYour Name		in_err_state:1,
*5113495bSYour Name		has_reuse_nbuf:1,
*5113495bSYour Name		msdu_done_fail:1;
*5113495bSYour Name};
*5113495bSYour Name
*5113495bSYour Name#ifndef QCA_HOST_MODE_WIFI_DISABLED
*5113495bSYour Name#ifdef ATH_RX_PRI_SAVE
*5113495bSYour Name#define DP_RX_TID_SAVE(_nbuf, _tid) \
*5113495bSYour Name	(qdf_nbuf_set_priority(_nbuf, _tid))
*5113495bSYour Name#else
*5113495bSYour Name#define DP_RX_TID_SAVE(_nbuf, _tid)
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name/* RX Descriptor Multi Page memory alloc related */
*5113495bSYour Name#define DP_RX_DESC_OFFSET_NUM_BITS 8
*5113495bSYour Name#define DP_RX_DESC_PAGE_ID_NUM_BITS 8
*5113495bSYour Name#define DP_RX_DESC_POOL_ID_NUM_BITS 4
*5113495bSYour Name
*5113495bSYour Name#define DP_RX_DESC_PAGE_ID_SHIFT DP_RX_DESC_OFFSET_NUM_BITS
*5113495bSYour Name#define DP_RX_DESC_POOL_ID_SHIFT \
*5113495bSYour Name		(DP_RX_DESC_OFFSET_NUM_BITS + DP_RX_DESC_PAGE_ID_NUM_BITS)
*5113495bSYour Name#define RX_DESC_MULTI_PAGE_COOKIE_POOL_ID_MASK \
*5113495bSYour Name	(((1 << DP_RX_DESC_POOL_ID_NUM_BITS) - 1) << DP_RX_DESC_POOL_ID_SHIFT)
*5113495bSYour Name#define RX_DESC_MULTI_PAGE_COOKIE_PAGE_ID_MASK	\
*5113495bSYour Name			(((1 << DP_RX_DESC_PAGE_ID_NUM_BITS) - 1) << \
*5113495bSYour Name			 DP_RX_DESC_PAGE_ID_SHIFT)
*5113495bSYour Name#define RX_DESC_MULTI_PAGE_COOKIE_OFFSET_MASK \
*5113495bSYour Name			((1 << DP_RX_DESC_OFFSET_NUM_BITS) - 1)
*5113495bSYour Name#define DP_RX_DESC_MULTI_PAGE_COOKIE_GET_POOL_ID(_cookie)		\
*5113495bSYour Name	(((_cookie) & RX_DESC_MULTI_PAGE_COOKIE_POOL_ID_MASK) >>	\
*5113495bSYour Name			DP_RX_DESC_POOL_ID_SHIFT)
*5113495bSYour Name#define DP_RX_DESC_MULTI_PAGE_COOKIE_GET_PAGE_ID(_cookie)		\
*5113495bSYour Name	(((_cookie) & RX_DESC_MULTI_PAGE_COOKIE_PAGE_ID_MASK) >>	\
*5113495bSYour Name			DP_RX_DESC_PAGE_ID_SHIFT)
*5113495bSYour Name#define DP_RX_DESC_MULTI_PAGE_COOKIE_GET_OFFSET(_cookie)		\
*5113495bSYour Name	((_cookie) & RX_DESC_MULTI_PAGE_COOKIE_OFFSET_MASK)
*5113495bSYour Name
*5113495bSYour Name#endif /* QCA_HOST_MODE_WIFI_DISABLED */
*5113495bSYour Name
*5113495bSYour Name#define RX_DESC_COOKIE_INDEX_SHIFT		0
*5113495bSYour Name#define RX_DESC_COOKIE_INDEX_MASK		0x3ffff /* 18 bits */
*5113495bSYour Name#define RX_DESC_COOKIE_POOL_ID_SHIFT		18
*5113495bSYour Name#define RX_DESC_COOKIE_POOL_ID_MASK		0x1c0000
*5113495bSYour Name
*5113495bSYour Name#define DP_RX_DESC_COOKIE_MAX	\
*5113495bSYour Name	(RX_DESC_COOKIE_INDEX_MASK | RX_DESC_COOKIE_POOL_ID_MASK)
*5113495bSYour Name
*5113495bSYour Name#define DP_RX_DESC_COOKIE_POOL_ID_GET(_cookie)		\
*5113495bSYour Name	(((_cookie) & RX_DESC_COOKIE_POOL_ID_MASK) >>	\
*5113495bSYour Name			RX_DESC_COOKIE_POOL_ID_SHIFT)
*5113495bSYour Name
*5113495bSYour Name#define DP_RX_DESC_COOKIE_INDEX_GET(_cookie)		\
*5113495bSYour Name	(((_cookie) & RX_DESC_COOKIE_INDEX_MASK) >>	\
*5113495bSYour Name			RX_DESC_COOKIE_INDEX_SHIFT)
*5113495bSYour Name
*5113495bSYour Name#define dp_rx_add_to_free_desc_list(head, tail, new) \
*5113495bSYour Name	__dp_rx_add_to_free_desc_list(head, tail, new, __func__)
*5113495bSYour Name
*5113495bSYour Name#define dp_rx_add_to_free_desc_list_reuse(head, tail, new) \
*5113495bSYour Name	__dp_rx_add_to_free_desc_list_reuse(head, tail, new, __func__)
*5113495bSYour Name
*5113495bSYour Name#define dp_rx_buffers_replenish(soc, mac_id, rxdma_srng, rx_desc_pool, \
*5113495bSYour Name				num_buffers, desc_list, tail, req_only) \
*5113495bSYour Name	__dp_rx_buffers_replenish(soc, mac_id, rxdma_srng, rx_desc_pool, \
*5113495bSYour Name				  num_buffers, desc_list, tail, req_only, \
*5113495bSYour Name				  false, __func__)
*5113495bSYour Name
*5113495bSYour Name#ifdef WLAN_SUPPORT_RX_FISA
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_set_hdr_pad() - set l3 padding in nbuf cb
*5113495bSYour Name * @nbuf: pkt skb pointer
*5113495bSYour Name * @l3_padding: l3 padding
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_set_hdr_pad(qdf_nbuf_t nbuf, uint32_t l3_padding)
*5113495bSYour Name{
*5113495bSYour Name	QDF_NBUF_CB_RX_PACKET_L3_HDR_PAD(nbuf) = l3_padding;
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_set_hdr_pad(qdf_nbuf_t nbuf, uint32_t l3_padding)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#ifdef DP_RX_SPECIAL_FRAME_NEED
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_is_special_frame() - check is RX frame special needed
*5113495bSYour Name *
*5113495bSYour Name * @nbuf: RX skb pointer
*5113495bSYour Name * @frame_mask: the mask for special frame needed
*5113495bSYour Name *
*5113495bSYour Name * Check is RX frame wanted matched with mask
*5113495bSYour Name *
*5113495bSYour Name * Return: true - special frame needed, false - no
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_is_special_frame(qdf_nbuf_t nbuf, uint32_t frame_mask)
*5113495bSYour Name{
*5113495bSYour Name	if (((frame_mask & FRAME_MASK_IPV4_ARP) &&
*5113495bSYour Name	     qdf_nbuf_is_ipv4_arp_pkt(nbuf)) ||
*5113495bSYour Name	    ((frame_mask & FRAME_MASK_IPV4_DHCP) &&
*5113495bSYour Name	     qdf_nbuf_is_ipv4_dhcp_pkt(nbuf)) ||
*5113495bSYour Name	    ((frame_mask & FRAME_MASK_IPV4_EAPOL) &&
*5113495bSYour Name	     qdf_nbuf_is_ipv4_eapol_pkt(nbuf)) ||
*5113495bSYour Name	    ((frame_mask & FRAME_MASK_IPV6_DHCP) &&
*5113495bSYour Name	     qdf_nbuf_is_ipv6_dhcp_pkt(nbuf)) ||
*5113495bSYour Name	    ((frame_mask & FRAME_MASK_DNS_QUERY) &&
*5113495bSYour Name	     qdf_nbuf_data_is_dns_query(nbuf)) ||
*5113495bSYour Name	    ((frame_mask & FRAME_MASK_DNS_RESP) &&
*5113495bSYour Name	     qdf_nbuf_data_is_dns_response(nbuf)))
*5113495bSYour Name		return true;
*5113495bSYour Name
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_deliver_special_frame() - Deliver the RX special frame to stack
*5113495bSYour Name *				   if matches mask
*5113495bSYour Name *
*5113495bSYour Name * @soc: Datapath soc handler
*5113495bSYour Name * @peer: pointer to DP peer
*5113495bSYour Name * @nbuf: pointer to the skb of RX frame
*5113495bSYour Name * @frame_mask: the mask for special frame needed
*5113495bSYour Name * @rx_tlv_hdr: start of rx tlv header
*5113495bSYour Name *
*5113495bSYour Name * note: Msdu_len must have been stored in QDF_NBUF_CB_RX_PKT_LEN(nbuf) and
*5113495bSYour Name * single nbuf is expected.
*5113495bSYour Name *
*5113495bSYour Name * Return: true - nbuf has been delivered to stack, false - not.
*5113495bSYour Name */
*5113495bSYour Namebool dp_rx_deliver_special_frame(struct dp_soc *soc, struct dp_txrx_peer *peer,
*5113495bSYour Name				 qdf_nbuf_t nbuf, uint32_t frame_mask,
*5113495bSYour Name				 uint8_t *rx_tlv_hdr);
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_is_special_frame(qdf_nbuf_t nbuf, uint32_t frame_mask)
*5113495bSYour Name{
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_deliver_special_frame(struct dp_soc *soc, struct dp_txrx_peer *peer,
*5113495bSYour Name				 qdf_nbuf_t nbuf, uint32_t frame_mask,
*5113495bSYour Name				 uint8_t *rx_tlv_hdr)
*5113495bSYour Name{
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#ifdef FEATURE_RX_LINKSPEED_ROAM_TRIGGER
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_data_is_specific() - Used to exclude specific frames
*5113495bSYour Name *                            not practical for getting rx
*5113495bSYour Name *                            stats like rate, mcs, nss, etc.
*5113495bSYour Name *
*5113495bSYour Name * @hal_soc_hdl: soc handler
*5113495bSYour Name * @rx_tlv_hdr: rx tlv header
*5113495bSYour Name * @nbuf: RX skb pointer
*5113495bSYour Name *
*5113495bSYour Name * Return: true - a specific frame  not suitable
*5113495bSYour Name *                for getting rx stats from it.
*5113495bSYour Name *         false - a common frame suitable for
*5113495bSYour Name *                 getting rx stats from it.
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_data_is_specific(hal_soc_handle_t hal_soc_hdl,
*5113495bSYour Name			    uint8_t *rx_tlv_hdr,
*5113495bSYour Name			    qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name	if (qdf_unlikely(qdf_nbuf_is_da_mcbc(nbuf)))
*5113495bSYour Name		return true;
*5113495bSYour Name
*5113495bSYour Name	if (!hal_rx_tlv_first_mpdu_get(hal_soc_hdl, rx_tlv_hdr))
*5113495bSYour Name		return true;
*5113495bSYour Name
*5113495bSYour Name	if (!hal_rx_msdu_end_first_msdu_get(hal_soc_hdl, rx_tlv_hdr))
*5113495bSYour Name		return true;
*5113495bSYour Name
*5113495bSYour Name	/* ARP, EAPOL is neither IPV6 ETH nor IPV4 ETH from L3 level */
*5113495bSYour Name	if (qdf_likely(hal_rx_tlv_l3_type_get(hal_soc_hdl, rx_tlv_hdr) ==
*5113495bSYour Name	    QDF_NBUF_TRAC_IPV4_ETH_TYPE)) {
*5113495bSYour Name		if (qdf_nbuf_is_ipv4_dhcp_pkt(nbuf))
*5113495bSYour Name			return true;
*5113495bSYour Name	} else if (qdf_likely(hal_rx_tlv_l3_type_get(hal_soc_hdl, rx_tlv_hdr) ==
*5113495bSYour Name		   QDF_NBUF_TRAC_IPV6_ETH_TYPE)) {
*5113495bSYour Name		if (qdf_nbuf_is_ipv6_dhcp_pkt(nbuf))
*5113495bSYour Name			return true;
*5113495bSYour Name	} else {
*5113495bSYour Name		return true;
*5113495bSYour Name	}
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_data_is_specific(hal_soc_handle_t hal_soc_hdl,
*5113495bSYour Name			    uint8_t *rx_tlv_hdr,
*5113495bSYour Name			    qdf_nbuf_t nbuf)
*5113495bSYour Name
*5113495bSYour Name{
*5113495bSYour Name	/*
*5113495bSYour Name	 * default return is true to make sure that rx stats
*5113495bSYour Name	 * will not be handled when this feature is disabled
*5113495bSYour Name	 */
*5113495bSYour Name	return true;
*5113495bSYour Name}
*5113495bSYour Name#endif /* FEATURE_RX_LINKSPEED_ROAM_TRIGGER */
*5113495bSYour Name
*5113495bSYour Name#ifndef QCA_HOST_MODE_WIFI_DISABLED
*5113495bSYour Name#ifdef DP_RX_DISABLE_NDI_MDNS_FORWARDING
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_check_ndi_mdns_fwding(struct dp_txrx_peer *ta_txrx_peer,
*5113495bSYour Name				 qdf_nbuf_t nbuf, uint8_t link_id)
*5113495bSYour Name{
*5113495bSYour Name	if (ta_txrx_peer->vdev->opmode == wlan_op_mode_ndi &&
*5113495bSYour Name	    qdf_nbuf_is_ipv6_mdns_pkt(nbuf)) {
*5113495bSYour Name		DP_PEER_PER_PKT_STATS_INC(ta_txrx_peer,
*5113495bSYour Name					  rx.intra_bss.mdns_no_fwd,
*5113495bSYour Name					  1, link_id);
*5113495bSYour Name		return false;
*5113495bSYour Name	}
*5113495bSYour Name	return true;
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_check_ndi_mdns_fwding(struct dp_txrx_peer *ta_txrx_peer,
*5113495bSYour Name				 qdf_nbuf_t nbuf, uint8_t link_id)
*5113495bSYour Name{
*5113495bSYour Name	return true;
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name#endif /* QCA_HOST_MODE_WIFI_DISABLED */
*5113495bSYour Name
*5113495bSYour Name/* DOC: Offset to obtain LLC hdr
*5113495bSYour Name *
*5113495bSYour Name * In the case of Wifi parse error
*5113495bSYour Name * to reach LLC header from beginning
*5113495bSYour Name * of VLAN tag we need to skip 8 bytes.
*5113495bSYour Name * Vlan_tag(4)+length(2)+length added
*5113495bSYour Name * by HW(2) = 8 bytes.
*5113495bSYour Name */
*5113495bSYour Name#define DP_SKIP_VLAN		8
*5113495bSYour Name
*5113495bSYour Name#ifndef QCA_HOST_MODE_WIFI_DISABLED
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * struct dp_rx_cached_buf - rx cached buffer
*5113495bSYour Name * @node: linked list node
*5113495bSYour Name * @buf: skb buffer
*5113495bSYour Name */
*5113495bSYour Namestruct dp_rx_cached_buf {
*5113495bSYour Name	qdf_list_node_t node;
*5113495bSYour Name	qdf_nbuf_t buf;
*5113495bSYour Name};
*5113495bSYour Name
*5113495bSYour Name#endif /* QCA_HOST_MODE_WIFI_DISABLED */
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_xor_block() - xor block of data
*5113495bSYour Name * @b: destination data block
*5113495bSYour Name * @a: source data block
*5113495bSYour Name * @len: length of the data to process
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namestatic inline void dp_rx_xor_block(uint8_t *b, const uint8_t *a, qdf_size_t len)
*5113495bSYour Name{
*5113495bSYour Name	qdf_size_t i;
*5113495bSYour Name
*5113495bSYour Name	for (i = 0; i < len; i++)
*5113495bSYour Name		b[i] ^= a[i];
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_rotl() - rotate the bits left
*5113495bSYour Name * @val: unsigned integer input value
*5113495bSYour Name * @bits: number of bits
*5113495bSYour Name *
*5113495bSYour Name * Return: Integer with left rotated by number of 'bits'
*5113495bSYour Name */
*5113495bSYour Namestatic inline uint32_t dp_rx_rotl(uint32_t val, int bits)
*5113495bSYour Name{
*5113495bSYour Name	return (val << bits) | (val >> (32 - bits));
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_rotr() - rotate the bits right
*5113495bSYour Name * @val: unsigned integer input value
*5113495bSYour Name * @bits: number of bits
*5113495bSYour Name *
*5113495bSYour Name * Return: Integer with right rotated by number of 'bits'
*5113495bSYour Name */
*5113495bSYour Namestatic inline uint32_t dp_rx_rotr(uint32_t val, int bits)
*5113495bSYour Name{
*5113495bSYour Name	return (val >> bits) | (val << (32 - bits));
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_set_rx_queue() - set queue_mapping in skb
*5113495bSYour Name * @nbuf: skb
*5113495bSYour Name * @queue_id: rx queue_id
*5113495bSYour Name *
*5113495bSYour Name * Return: void
*5113495bSYour Name */
*5113495bSYour Name#ifdef QCA_OL_RX_MULTIQ_SUPPORT
*5113495bSYour Namestatic inline void dp_set_rx_queue(qdf_nbuf_t nbuf, uint8_t queue_id)
*5113495bSYour Name{
*5113495bSYour Name	qdf_nbuf_record_rx_queue(nbuf, queue_id);
*5113495bSYour Name	return;
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline void dp_set_rx_queue(qdf_nbuf_t nbuf, uint8_t queue_id)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_xswap() - swap the bits left
*5113495bSYour Name * @val: unsigned integer input value
*5113495bSYour Name *
*5113495bSYour Name * Return: Integer with bits swapped
*5113495bSYour Name */
*5113495bSYour Namestatic inline uint32_t dp_rx_xswap(uint32_t val)
*5113495bSYour Name{
*5113495bSYour Name	return ((val & 0x00ff00ff) << 8) | ((val & 0xff00ff00) >> 8);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_get_le32_split() - get little endian 32 bits split
*5113495bSYour Name * @b0: byte 0
*5113495bSYour Name * @b1: byte 1
*5113495bSYour Name * @b2: byte 2
*5113495bSYour Name * @b3: byte 3
*5113495bSYour Name *
*5113495bSYour Name * Return: Integer with split little endian 32 bits
*5113495bSYour Name */
*5113495bSYour Namestatic inline uint32_t dp_rx_get_le32_split(uint8_t b0, uint8_t b1, uint8_t b2,
*5113495bSYour Name					uint8_t b3)
*5113495bSYour Name{
*5113495bSYour Name	return b0 | (b1 << 8) | (b2 << 16) | (b3 << 24);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_get_le32() - get little endian 32 bits
*5113495bSYour Name * @p: source 32-bit value
*5113495bSYour Name *
*5113495bSYour Name * Return: Integer with little endian 32 bits
*5113495bSYour Name */
*5113495bSYour Namestatic inline uint32_t dp_rx_get_le32(const uint8_t *p)
*5113495bSYour Name{
*5113495bSYour Name	return dp_rx_get_le32_split(p[0], p[1], p[2], p[3]);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_put_le32() - put little endian 32 bits
*5113495bSYour Name * @p: destination char array
*5113495bSYour Name * @v: source 32-bit integer
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namestatic inline void dp_rx_put_le32(uint8_t *p, uint32_t v)
*5113495bSYour Name{
*5113495bSYour Name	p[0] = (v) & 0xff;
*5113495bSYour Name	p[1] = (v >> 8) & 0xff;
*5113495bSYour Name	p[2] = (v >> 16) & 0xff;
*5113495bSYour Name	p[3] = (v >> 24) & 0xff;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/* Extract michal mic block of data */
*5113495bSYour Name#define dp_rx_michael_block(l, r)	\
*5113495bSYour Name	do {					\
*5113495bSYour Name		r ^= dp_rx_rotl(l, 17);	\
*5113495bSYour Name		l += r;				\
*5113495bSYour Name		r ^= dp_rx_xswap(l);		\
*5113495bSYour Name		l += r;				\
*5113495bSYour Name		r ^= dp_rx_rotl(l, 3);	\
*5113495bSYour Name		l += r;				\
*5113495bSYour Name		r ^= dp_rx_rotr(l, 2);	\
*5113495bSYour Name		l += r;				\
*5113495bSYour Name	} while (0)
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * struct dp_rx_desc_list_elem_t
*5113495bSYour Name *
*5113495bSYour Name * @next: Next pointer to form free list
*5113495bSYour Name * @rx_desc: DP Rx descriptor
*5113495bSYour Name */
*5113495bSYour Nameunion dp_rx_desc_list_elem_t {
*5113495bSYour Name	union dp_rx_desc_list_elem_t *next;
*5113495bSYour Name	struct dp_rx_desc rx_desc;
*5113495bSYour Name};
*5113495bSYour Name
*5113495bSYour Name#ifdef RX_DESC_MULTI_PAGE_ALLOC
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_find() - find dp rx descriptor from page ID and offset
*5113495bSYour Name * @page_id: Page ID
*5113495bSYour Name * @offset: Offset of the descriptor element
*5113495bSYour Name * @rx_pool: RX pool
*5113495bSYour Name *
*5113495bSYour Name * Return: RX descriptor element
*5113495bSYour Name */
*5113495bSYour Nameunion dp_rx_desc_list_elem_t *dp_rx_desc_find(uint16_t page_id, uint16_t offset,
*5113495bSYour Name					      struct rx_desc_pool *rx_pool);
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namestruct dp_rx_desc *dp_get_rx_desc_from_cookie(struct dp_soc *soc,
*5113495bSYour Name					      struct rx_desc_pool *pool,
*5113495bSYour Name					      uint32_t cookie)
*5113495bSYour Name{
*5113495bSYour Name	uint8_t pool_id = DP_RX_DESC_MULTI_PAGE_COOKIE_GET_POOL_ID(cookie);
*5113495bSYour Name	uint16_t page_id = DP_RX_DESC_MULTI_PAGE_COOKIE_GET_PAGE_ID(cookie);
*5113495bSYour Name	uint8_t offset = DP_RX_DESC_MULTI_PAGE_COOKIE_GET_OFFSET(cookie);
*5113495bSYour Name	struct rx_desc_pool *rx_desc_pool;
*5113495bSYour Name	union dp_rx_desc_list_elem_t *rx_desc_elem;
*5113495bSYour Name
*5113495bSYour Name	if (qdf_unlikely(pool_id >= MAX_PDEV_CNT))
*5113495bSYour Name		return NULL;
*5113495bSYour Name
*5113495bSYour Name	rx_desc_pool = &pool[pool_id];
*5113495bSYour Name	rx_desc_elem = (union dp_rx_desc_list_elem_t *)
*5113495bSYour Name		(rx_desc_pool->desc_pages.cacheable_pages[page_id] +
*5113495bSYour Name		rx_desc_pool->elem_size * offset);
*5113495bSYour Name
*5113495bSYour Name	return &rx_desc_elem->rx_desc;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namestruct dp_rx_desc *dp_get_rx_mon_status_desc_from_cookie(struct dp_soc *soc,
*5113495bSYour Name							 struct rx_desc_pool *pool,
*5113495bSYour Name							 uint32_t cookie)
*5113495bSYour Name{
*5113495bSYour Name	uint8_t pool_id = DP_RX_DESC_MULTI_PAGE_COOKIE_GET_POOL_ID(cookie);
*5113495bSYour Name	uint16_t page_id = DP_RX_DESC_MULTI_PAGE_COOKIE_GET_PAGE_ID(cookie);
*5113495bSYour Name	uint8_t offset = DP_RX_DESC_MULTI_PAGE_COOKIE_GET_OFFSET(cookie);
*5113495bSYour Name	struct rx_desc_pool *rx_desc_pool;
*5113495bSYour Name	union dp_rx_desc_list_elem_t *rx_desc_elem;
*5113495bSYour Name
*5113495bSYour Name	if (qdf_unlikely(pool_id >= NUM_RXDMA_STATUS_RINGS_PER_PDEV))
*5113495bSYour Name		return NULL;
*5113495bSYour Name
*5113495bSYour Name	rx_desc_pool = &pool[pool_id];
*5113495bSYour Name	rx_desc_elem = (union dp_rx_desc_list_elem_t *)
*5113495bSYour Name		(rx_desc_pool->desc_pages.cacheable_pages[page_id] +
*5113495bSYour Name		rx_desc_pool->elem_size * offset);
*5113495bSYour Name
*5113495bSYour Name	return &rx_desc_elem->rx_desc;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_cookie_2_va_rxdma_buf() - Converts cookie to a virtual address of
*5113495bSYour Name *			 the Rx descriptor on Rx DMA source ring buffer
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @cookie: cookie used to lookup virtual address
*5113495bSYour Name *
*5113495bSYour Name * Return: Pointer to the Rx descriptor
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namestruct dp_rx_desc *dp_rx_cookie_2_va_rxdma_buf(struct dp_soc *soc,
*5113495bSYour Name					       uint32_t cookie)
*5113495bSYour Name{
*5113495bSYour Name	return dp_get_rx_desc_from_cookie(soc, &soc->rx_desc_buf[0], cookie);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_cookie_2_va_mon_buf() - Converts cookie to a virtual address of
*5113495bSYour Name *			 the Rx descriptor on monitor ring buffer
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @cookie: cookie used to lookup virtual address
*5113495bSYour Name *
*5113495bSYour Name * Return: Pointer to the Rx descriptor
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namestruct dp_rx_desc *dp_rx_cookie_2_va_mon_buf(struct dp_soc *soc,
*5113495bSYour Name					     uint32_t cookie)
*5113495bSYour Name{
*5113495bSYour Name	return dp_get_rx_desc_from_cookie(soc, &soc->rx_desc_mon[0], cookie);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_cookie_2_va_mon_status() - Converts cookie to a virtual address of
*5113495bSYour Name *			 the Rx descriptor on monitor status ring buffer
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @cookie: cookie used to lookup virtual address
*5113495bSYour Name *
*5113495bSYour Name * Return: Pointer to the Rx descriptor
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namestruct dp_rx_desc *dp_rx_cookie_2_va_mon_status(struct dp_soc *soc,
*5113495bSYour Name						uint32_t cookie)
*5113495bSYour Name{
*5113495bSYour Name	return dp_get_rx_mon_status_desc_from_cookie(soc,
*5113495bSYour Name						     &soc->rx_desc_status[0],
*5113495bSYour Name						     cookie);
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Name
*5113495bSYour Namevoid dp_rx_desc_pool_init(struct dp_soc *soc, uint32_t pool_id,
*5113495bSYour Name			  uint32_t pool_size,
*5113495bSYour Name			  struct rx_desc_pool *rx_desc_pool);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_cookie_2_va_rxdma_buf() - Converts cookie to a virtual address of
*5113495bSYour Name *			 the Rx descriptor on Rx DMA source ring buffer
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @cookie: cookie used to lookup virtual address
*5113495bSYour Name *
*5113495bSYour Name * Return: void *: Virtual Address of the Rx descriptor
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid *dp_rx_cookie_2_va_rxdma_buf(struct dp_soc *soc, uint32_t cookie)
*5113495bSYour Name{
*5113495bSYour Name	uint8_t pool_id = DP_RX_DESC_COOKIE_POOL_ID_GET(cookie);
*5113495bSYour Name	uint16_t index = DP_RX_DESC_COOKIE_INDEX_GET(cookie);
*5113495bSYour Name	struct rx_desc_pool *rx_desc_pool;
*5113495bSYour Name
*5113495bSYour Name	if (qdf_unlikely(pool_id >= MAX_RXDESC_POOLS))
*5113495bSYour Name		return NULL;
*5113495bSYour Name
*5113495bSYour Name	rx_desc_pool = &soc->rx_desc_buf[pool_id];
*5113495bSYour Name
*5113495bSYour Name	if (qdf_unlikely(index >= rx_desc_pool->pool_size))
*5113495bSYour Name		return NULL;
*5113495bSYour Name
*5113495bSYour Name	return &rx_desc_pool->array[index].rx_desc;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_cookie_2_va_mon_buf() - Converts cookie to a virtual address of
*5113495bSYour Name *			 the Rx descriptor on monitor ring buffer
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @cookie: cookie used to lookup virtual address
*5113495bSYour Name *
*5113495bSYour Name * Return: void *: Virtual Address of the Rx descriptor
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid *dp_rx_cookie_2_va_mon_buf(struct dp_soc *soc, uint32_t cookie)
*5113495bSYour Name{
*5113495bSYour Name	uint8_t pool_id = DP_RX_DESC_COOKIE_POOL_ID_GET(cookie);
*5113495bSYour Name	uint16_t index = DP_RX_DESC_COOKIE_INDEX_GET(cookie);
*5113495bSYour Name	/* TODO */
*5113495bSYour Name	/* Add sanity for pool_id & index */
*5113495bSYour Name	return &(soc->rx_desc_mon[pool_id].array[index].rx_desc);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_cookie_2_va_mon_status() - Converts cookie to a virtual address of
*5113495bSYour Name *			 the Rx descriptor on monitor status ring buffer
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @cookie: cookie used to lookup virtual address
*5113495bSYour Name *
*5113495bSYour Name * Return: void *: Virtual Address of the Rx descriptor
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid *dp_rx_cookie_2_va_mon_status(struct dp_soc *soc, uint32_t cookie)
*5113495bSYour Name{
*5113495bSYour Name	uint8_t pool_id = DP_RX_DESC_COOKIE_POOL_ID_GET(cookie);
*5113495bSYour Name	uint16_t index = DP_RX_DESC_COOKIE_INDEX_GET(cookie);
*5113495bSYour Name	/* TODO */
*5113495bSYour Name	/* Add sanity for pool_id & index */
*5113495bSYour Name	return &(soc->rx_desc_status[pool_id].array[index].rx_desc);
*5113495bSYour Name}
*5113495bSYour Name#endif /* RX_DESC_MULTI_PAGE_ALLOC */
*5113495bSYour Name
*5113495bSYour Name#ifndef QCA_HOST_MODE_WIFI_DISABLED
*5113495bSYour Name
*5113495bSYour Namestatic inline bool dp_rx_check_ap_bridge(struct dp_vdev *vdev)
*5113495bSYour Name{
*5113495bSYour Name	return vdev->ap_bridge_enabled;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name#ifdef DP_RX_DESC_COOKIE_INVALIDATE
*5113495bSYour Namestatic inline QDF_STATUS
*5113495bSYour Namedp_rx_cookie_check_and_invalidate(hal_ring_desc_t ring_desc)
*5113495bSYour Name{
*5113495bSYour Name	if (qdf_unlikely(HAL_RX_REO_BUF_COOKIE_INVALID_GET(ring_desc)))
*5113495bSYour Name		return QDF_STATUS_E_FAILURE;
*5113495bSYour Name
*5113495bSYour Name	HAL_RX_REO_BUF_COOKIE_INVALID_SET(ring_desc);
*5113495bSYour Name	return QDF_STATUS_SUCCESS;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_cookie_reset_invalid_bit() - Reset the invalid bit of the cookie
*5113495bSYour Name *  field in ring descriptor
*5113495bSYour Name * @ring_desc: ring descriptor
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namestatic inline void
*5113495bSYour Namedp_rx_cookie_reset_invalid_bit(hal_ring_desc_t ring_desc)
*5113495bSYour Name{
*5113495bSYour Name	HAL_RX_REO_BUF_COOKIE_INVALID_RESET(ring_desc);
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline QDF_STATUS
*5113495bSYour Namedp_rx_cookie_check_and_invalidate(hal_ring_desc_t ring_desc)
*5113495bSYour Name{
*5113495bSYour Name	return QDF_STATUS_SUCCESS;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline void
*5113495bSYour Namedp_rx_cookie_reset_invalid_bit(hal_ring_desc_t ring_desc)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#endif /* QCA_HOST_MODE_WIFI_DISABLED */
*5113495bSYour Name
*5113495bSYour Name#if defined(RX_DESC_MULTI_PAGE_ALLOC) && \
*5113495bSYour Name	defined(DP_WAR_VALIDATE_RX_ERR_MSDU_COOKIE)
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_is_sw_cookie_valid() - check whether SW cookie valid
*5113495bSYour Name * @soc: dp soc ref
*5113495bSYour Name * @cookie: Rx buf SW cookie value
*5113495bSYour Name *
*5113495bSYour Name * Return: true if cookie is valid else false
*5113495bSYour Name */
*5113495bSYour Namestatic inline bool dp_rx_is_sw_cookie_valid(struct dp_soc *soc,
*5113495bSYour Name					    uint32_t cookie)
*5113495bSYour Name{
*5113495bSYour Name	uint8_t pool_id = DP_RX_DESC_MULTI_PAGE_COOKIE_GET_POOL_ID(cookie);
*5113495bSYour Name	uint16_t page_id = DP_RX_DESC_MULTI_PAGE_COOKIE_GET_PAGE_ID(cookie);
*5113495bSYour Name	uint8_t offset = DP_RX_DESC_MULTI_PAGE_COOKIE_GET_OFFSET(cookie);
*5113495bSYour Name	struct rx_desc_pool *rx_desc_pool;
*5113495bSYour Name
*5113495bSYour Name	if (qdf_unlikely(pool_id >= MAX_PDEV_CNT))
*5113495bSYour Name		goto fail;
*5113495bSYour Name
*5113495bSYour Name	rx_desc_pool = &soc->rx_desc_buf[pool_id];
*5113495bSYour Name
*5113495bSYour Name	if (page_id >= rx_desc_pool->desc_pages.num_pages ||
*5113495bSYour Name	    offset >= rx_desc_pool->desc_pages.num_element_per_page)
*5113495bSYour Name		goto fail;
*5113495bSYour Name
*5113495bSYour Name	return true;
*5113495bSYour Name
*5113495bSYour Namefail:
*5113495bSYour Name	DP_STATS_INC(soc, rx.err.invalid_cookie, 1);
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_is_sw_cookie_valid() - check whether SW cookie valid
*5113495bSYour Name * @soc: dp soc ref
*5113495bSYour Name * @cookie: Rx buf SW cookie value
*5113495bSYour Name *
*5113495bSYour Name * When multi page alloc is disabled SW cookie validness is
*5113495bSYour Name * checked while fetching Rx descriptor, so no need to check here
*5113495bSYour Name *
*5113495bSYour Name * Return: true if cookie is valid else false
*5113495bSYour Name */
*5113495bSYour Namestatic inline bool dp_rx_is_sw_cookie_valid(struct dp_soc *soc,
*5113495bSYour Name					    uint32_t cookie)
*5113495bSYour Name{
*5113495bSYour Name	return true;
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_pool_is_allocated() - check if memory is allocated for the
*5113495bSYour Name *					rx descriptor pool
*5113495bSYour Name * @rx_desc_pool: rx descriptor pool pointer
*5113495bSYour Name *
*5113495bSYour Name * Return: QDF_STATUS  QDF_STATUS_SUCCESS
*5113495bSYour Name *		       QDF_STATUS_E_NOMEM
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS dp_rx_desc_pool_is_allocated(struct rx_desc_pool *rx_desc_pool);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_pool_alloc() - Allocate a memory pool for software rx
*5113495bSYour Name *			     descriptors
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @pool_size: number of rx descriptors (size of the pool)
*5113495bSYour Name * @rx_desc_pool: rx descriptor pool pointer
*5113495bSYour Name *
*5113495bSYour Name * Return: QDF_STATUS  QDF_STATUS_SUCCESS
*5113495bSYour Name *		       QDF_STATUS_E_NOMEM
*5113495bSYour Name *		       QDF_STATUS_E_FAULT
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS dp_rx_desc_pool_alloc(struct dp_soc *soc,
*5113495bSYour Name				 uint32_t pool_size,
*5113495bSYour Name				 struct rx_desc_pool *rx_desc_pool);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_pool_init() - Initialize the software RX descriptor pool
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @pool_id: pool_id which is one of 3 mac_ids
*5113495bSYour Name * @pool_size: size of the rx descriptor pool
*5113495bSYour Name * @rx_desc_pool: rx descriptor pool pointer
*5113495bSYour Name *
*5113495bSYour Name * Convert the pool of memory into a list of rx descriptors and create
*5113495bSYour Name * locks to access this list of rx descriptors.
*5113495bSYour Name *
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_desc_pool_init(struct dp_soc *soc, uint32_t pool_id,
*5113495bSYour Name			  uint32_t pool_size,
*5113495bSYour Name			  struct rx_desc_pool *rx_desc_pool);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_add_desc_list_to_free_list() - append unused desc_list back to
*5113495bSYour Name *					freelist.
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @local_desc_list: local desc list provided by the caller
*5113495bSYour Name * @tail: attach the point to last desc of local desc list
*5113495bSYour Name * @pool_id: pool_id which is one of 3 mac_ids
*5113495bSYour Name * @rx_desc_pool: rx descriptor pool pointer
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_add_desc_list_to_free_list(struct dp_soc *soc,
*5113495bSYour Name				union dp_rx_desc_list_elem_t **local_desc_list,
*5113495bSYour Name				union dp_rx_desc_list_elem_t **tail,
*5113495bSYour Name				uint16_t pool_id,
*5113495bSYour Name				struct rx_desc_pool *rx_desc_pool);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_get_free_desc_list() - provide a list of descriptors from
*5113495bSYour Name *				the free rx desc pool.
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @pool_id: pool_id which is one of 3 mac_ids
*5113495bSYour Name * @rx_desc_pool: rx descriptor pool pointer
*5113495bSYour Name * @num_descs: number of descs requested from freelist
*5113495bSYour Name * @desc_list: attach the descs to this list (output parameter)
*5113495bSYour Name * @tail: attach the point to last desc of free list (output parameter)
*5113495bSYour Name *
*5113495bSYour Name * Return: number of descs allocated from free list.
*5113495bSYour Name */
*5113495bSYour Nameuint16_t dp_rx_get_free_desc_list(struct dp_soc *soc, uint32_t pool_id,
*5113495bSYour Name				struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name				uint16_t num_descs,
*5113495bSYour Name				union dp_rx_desc_list_elem_t **desc_list,
*5113495bSYour Name				union dp_rx_desc_list_elem_t **tail);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_pdev_desc_pool_alloc() -  allocate memory for software rx descriptor
*5113495bSYour Name *				   pool
*5113495bSYour Name * @pdev: core txrx pdev context
*5113495bSYour Name *
*5113495bSYour Name * Return: QDF_STATUS - QDF_STATUS_SUCCESS
*5113495bSYour Name *			QDF_STATUS_E_NOMEM
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS dp_rx_pdev_desc_pool_alloc(struct dp_pdev *pdev);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_pdev_desc_pool_free() - free software rx descriptor pool
*5113495bSYour Name * @pdev: core txrx pdev context
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_pdev_desc_pool_free(struct dp_pdev *pdev);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_pdev_desc_pool_init() - initialize software rx descriptors
*5113495bSYour Name * @pdev: core txrx pdev context
*5113495bSYour Name *
*5113495bSYour Name * Return: QDF_STATUS - QDF_STATUS_SUCCESS
*5113495bSYour Name *			QDF_STATUS_E_NOMEM
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS dp_rx_pdev_desc_pool_init(struct dp_pdev *pdev);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_pdev_desc_pool_deinit() - de-initialize software rx descriptor pools
*5113495bSYour Name * @pdev: core txrx pdev context
*5113495bSYour Name *
*5113495bSYour Name * This function resets the freelist of rx descriptors and destroys locks
*5113495bSYour Name * associated with this list of descriptors.
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_pdev_desc_pool_deinit(struct dp_pdev *pdev);
*5113495bSYour Name
*5113495bSYour Namevoid dp_rx_desc_pool_deinit(struct dp_soc *soc,
*5113495bSYour Name			    struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name			    uint32_t pool_id);
*5113495bSYour Name
*5113495bSYour NameQDF_STATUS dp_rx_pdev_attach(struct dp_pdev *pdev);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_pdev_buffers_alloc() - Allocate nbufs (skbs) and replenish RxDMA ring
*5113495bSYour Name * @pdev: core txrx pdev context
*5113495bSYour Name *
*5113495bSYour Name * Return: QDF_STATUS - QDF_STATUS_SUCCESS
*5113495bSYour Name *			QDF_STATUS_E_NOMEM
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS dp_rx_pdev_buffers_alloc(struct dp_pdev *pdev);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_pdev_buffers_free() - Free nbufs (skbs)
*5113495bSYour Name * @pdev: core txrx pdev context
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_pdev_buffers_free(struct dp_pdev *pdev);
*5113495bSYour Name
*5113495bSYour Namevoid dp_rx_pdev_detach(struct dp_pdev *pdev);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_print_napi_stats() - NAPI stats
*5113495bSYour Name * @soc: soc handle
*5113495bSYour Name */
*5113495bSYour Namevoid dp_print_napi_stats(struct dp_soc *soc);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_vdev_detach() - detach vdev from dp rx
*5113495bSYour Name * @vdev: virtual device instance
*5113495bSYour Name *
*5113495bSYour Name * Return: QDF_STATUS_SUCCESS: success
*5113495bSYour Name *         QDF_STATUS_E_RESOURCES: Error return
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS dp_rx_vdev_detach(struct dp_vdev *vdev);
*5113495bSYour Name
*5113495bSYour Name#ifndef QCA_HOST_MODE_WIFI_DISABLED
*5113495bSYour Name
*5113495bSYour Nameuint32_t
*5113495bSYour Namedp_rx_process(struct dp_intr *int_ctx, hal_ring_handle_t hal_ring_hdl,
*5113495bSYour Name	      uint8_t reo_ring_num,
*5113495bSYour Name	      uint32_t quota);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_sg_create() - create a frag_list for MSDUs which are spread across
*5113495bSYour Name *		     multiple nbufs.
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @nbuf: pointer to the first msdu of an amsdu.
*5113495bSYour Name *
*5113495bSYour Name * This function implements the creation of RX frag_list for cases
*5113495bSYour Name * where an MSDU is spread across multiple nbufs.
*5113495bSYour Name *
*5113495bSYour Name * Return: returns the head nbuf which contains complete frag_list.
*5113495bSYour Name */
*5113495bSYour Nameqdf_nbuf_t dp_rx_sg_create(struct dp_soc *soc, qdf_nbuf_t nbuf);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_is_sg_supported() - SG packets processing supported or not.
*5113495bSYour Name *
*5113495bSYour Name * Return: returns true when processing is supported else false.
*5113495bSYour Name */
*5113495bSYour Namebool dp_rx_is_sg_supported(void);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_nbuf_and_pool_free() - free the sw rx desc pool called during
*5113495bSYour Name *				     de-initialization of wifi module.
*5113495bSYour Name *
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @pool_id: pool_id which is one of 3 mac_ids
*5113495bSYour Name * @rx_desc_pool: rx descriptor pool pointer
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_desc_nbuf_and_pool_free(struct dp_soc *soc, uint32_t pool_id,
*5113495bSYour Name				   struct rx_desc_pool *rx_desc_pool);
*5113495bSYour Name
*5113495bSYour Name#endif /* QCA_HOST_MODE_WIFI_DISABLED */
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_nbuf_free() - free the sw rx desc nbufs called during
*5113495bSYour Name *			    de-initialization of wifi module.
*5113495bSYour Name *
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @rx_desc_pool: rx descriptor pool pointer
*5113495bSYour Name * @is_mon_pool: true if this is a monitor pool
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_desc_nbuf_free(struct dp_soc *soc,
*5113495bSYour Name			  struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name			  bool is_mon_pool);
*5113495bSYour Name
*5113495bSYour Name#ifdef DP_RX_MON_MEM_FRAG
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_frag_free() - free the sw rx desc frag called during
*5113495bSYour Name *			    de-initialization of wifi module.
*5113495bSYour Name *
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @rx_desc_pool: rx descriptor pool pointer
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_desc_frag_free(struct dp_soc *soc,
*5113495bSYour Name			  struct rx_desc_pool *rx_desc_pool);
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_desc_frag_free(struct dp_soc *soc,
*5113495bSYour Name			  struct rx_desc_pool *rx_desc_pool)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_pool_free() - free the sw rx desc array called during
*5113495bSYour Name *			    de-initialization of wifi module.
*5113495bSYour Name *
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @rx_desc_pool: rx descriptor pool pointer
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_desc_pool_free(struct dp_soc *soc,
*5113495bSYour Name			  struct rx_desc_pool *rx_desc_pool);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_deliver_raw() - process RAW mode pkts and hand over the
*5113495bSYour Name *				pkts to RAW mode simulation to
*5113495bSYour Name *				decapsulate the pkt.
*5113495bSYour Name * @vdev: vdev on which RAW mode is enabled
*5113495bSYour Name * @nbuf_list: list of RAW pkts to process
*5113495bSYour Name * @peer: peer object from which the pkt is rx
*5113495bSYour Name * @link_id: link Id on which the packet is received
*5113495bSYour Name *
*5113495bSYour Name * Return: void
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_deliver_raw(struct dp_vdev *vdev, qdf_nbuf_t nbuf_list,
*5113495bSYour Name		       struct dp_txrx_peer *peer, uint8_t link_id);
*5113495bSYour Name
*5113495bSYour Name#ifdef RX_DESC_LOGGING
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_alloc_dbg_info() - Alloc memory for rx descriptor debug
*5113495bSYour Name *  structure
*5113495bSYour Name * @rx_desc: rx descriptor pointer
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_desc_alloc_dbg_info(struct dp_rx_desc *rx_desc)
*5113495bSYour Name{
*5113495bSYour Name	rx_desc->dbg_info = qdf_mem_malloc(sizeof(struct dp_rx_desc_dbg_info));
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_free_dbg_info() - Free rx descriptor debug
*5113495bSYour Name *  structure memory
*5113495bSYour Name * @rx_desc: rx descriptor pointer
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_desc_free_dbg_info(struct dp_rx_desc *rx_desc)
*5113495bSYour Name{
*5113495bSYour Name	qdf_mem_free(rx_desc->dbg_info);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_update_dbg_info() - Update rx descriptor debug info
*5113495bSYour Name *  structure memory
*5113495bSYour Name * @rx_desc: rx descriptor pointer
*5113495bSYour Name * @func_name: name of calling function
*5113495bSYour Name * @flag:
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namestatic
*5113495bSYour Namevoid dp_rx_desc_update_dbg_info(struct dp_rx_desc *rx_desc,
*5113495bSYour Name				const char *func_name, uint8_t flag)
*5113495bSYour Name{
*5113495bSYour Name	struct dp_rx_desc_dbg_info *info = rx_desc->dbg_info;
*5113495bSYour Name
*5113495bSYour Name	if (!info)
*5113495bSYour Name		return;
*5113495bSYour Name
*5113495bSYour Name	if (flag == RX_DESC_REPLENISHED) {
*5113495bSYour Name		qdf_str_lcopy(info->replenish_caller, func_name,
*5113495bSYour Name			      QDF_MEM_FUNC_NAME_SIZE);
*5113495bSYour Name		info->replenish_ts = qdf_get_log_timestamp();
*5113495bSYour Name	} else {
*5113495bSYour Name		qdf_str_lcopy(info->freelist_caller, func_name,
*5113495bSYour Name			      QDF_MEM_FUNC_NAME_SIZE);
*5113495bSYour Name		info->freelist_ts = qdf_get_log_timestamp();
*5113495bSYour Name		info->prev_nbuf = rx_desc->nbuf;
*5113495bSYour Name		info->prev_nbuf_data_addr = rx_desc->nbuf_data_addr;
*5113495bSYour Name		rx_desc->nbuf_data_addr = NULL;
*5113495bSYour Name	}
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_desc_alloc_dbg_info(struct dp_rx_desc *rx_desc)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_desc_free_dbg_info(struct dp_rx_desc *rx_desc)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_desc_update_dbg_info(struct dp_rx_desc *rx_desc,
*5113495bSYour Name				const char *func_name, uint8_t flag)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif /* RX_DESC_LOGGING */
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * __dp_rx_add_to_free_desc_list() - Adds to a local free descriptor list
*5113495bSYour Name *
*5113495bSYour Name * @head: pointer to the head of local free list
*5113495bSYour Name * @tail: pointer to the tail of local free list
*5113495bSYour Name * @new: new descriptor that is added to the free list
*5113495bSYour Name * @func_name: caller func name
*5113495bSYour Name *
*5113495bSYour Name * Return: void:
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid __dp_rx_add_to_free_desc_list(union dp_rx_desc_list_elem_t **head,
*5113495bSYour Name				 union dp_rx_desc_list_elem_t **tail,
*5113495bSYour Name				 struct dp_rx_desc *new, const char *func_name)
*5113495bSYour Name{
*5113495bSYour Name	qdf_assert(head && new);
*5113495bSYour Name
*5113495bSYour Name	dp_rx_desc_update_dbg_info(new, func_name, RX_DESC_IN_FREELIST);
*5113495bSYour Name
*5113495bSYour Name	new->nbuf = NULL;
*5113495bSYour Name	new->in_use = 0;
*5113495bSYour Name
*5113495bSYour Name	((union dp_rx_desc_list_elem_t *)new)->next = *head;
*5113495bSYour Name	*head = (union dp_rx_desc_list_elem_t *)new;
*5113495bSYour Name	/* reset tail if head->next is NULL */
*5113495bSYour Name	if (!*tail || !(*head)->next)
*5113495bSYour Name		*tail = *head;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_process_invalid_peer(): Function to pass invalid peer list to umac
*5113495bSYour Name * @soc: DP SOC handle
*5113495bSYour Name * @nbuf: network buffer
*5113495bSYour Name * @mac_id: mac_id which is one of 3 mac_ids(Assuming mac_id and
*5113495bSYour Name * pool_id has same mapping)
*5113495bSYour Name *
*5113495bSYour Name * Return: integer type
*5113495bSYour Name */
*5113495bSYour Nameuint8_t dp_rx_process_invalid_peer(struct dp_soc *soc, qdf_nbuf_t nbuf,
*5113495bSYour Name				   uint8_t mac_id);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_process_invalid_peer_wrapper(): Function to wrap invalid peer handler
*5113495bSYour Name * @soc: DP SOC handle
*5113495bSYour Name * @mpdu: mpdu for which peer is invalid
*5113495bSYour Name * @mpdu_done: if an mpdu is completed
*5113495bSYour Name * @mac_id: mac_id which is one of 3 mac_ids(Assuming mac_id and
*5113495bSYour Name * pool_id has same mapping)
*5113495bSYour Name *
*5113495bSYour Name * Return: integer type
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_process_invalid_peer_wrapper(struct dp_soc *soc,
*5113495bSYour Name		qdf_nbuf_t mpdu, bool mpdu_done, uint8_t mac_id);
*5113495bSYour Name
*5113495bSYour Name#define DP_RX_HEAD_APPEND(head, elem) \
*5113495bSYour Name	do {                                                            \
*5113495bSYour Name		qdf_nbuf_set_next((elem), (head));			\
*5113495bSYour Name		(head) = (elem);                                        \
*5113495bSYour Name	} while (0)
*5113495bSYour Name
*5113495bSYour Name
*5113495bSYour Name#define DP_RX_LIST_APPEND(head, tail, elem) \
*5113495bSYour Name	do {                                                          \
*5113495bSYour Name		if (!(head)) {                                        \
*5113495bSYour Name			(head) = (elem);                              \
*5113495bSYour Name			QDF_NBUF_CB_RX_NUM_ELEMENTS_IN_LIST(head) = 1;\
*5113495bSYour Name		} else {                                              \
*5113495bSYour Name			qdf_nbuf_set_next((tail), (elem));            \
*5113495bSYour Name			QDF_NBUF_CB_RX_NUM_ELEMENTS_IN_LIST(head)++;  \
*5113495bSYour Name		}                                                     \
*5113495bSYour Name		(tail) = (elem);                                      \
*5113495bSYour Name		qdf_nbuf_set_next((tail), NULL);                      \
*5113495bSYour Name	} while (0)
*5113495bSYour Name
*5113495bSYour Name#define DP_RX_MERGE_TWO_LIST(phead, ptail, chead, ctail) \
*5113495bSYour Name	do {                                                          \
*5113495bSYour Name		if (!(phead)) {                                       \
*5113495bSYour Name			(phead) = (chead);                            \
*5113495bSYour Name		} else {                                              \
*5113495bSYour Name			qdf_nbuf_set_next((ptail), (chead));          \
*5113495bSYour Name			QDF_NBUF_CB_RX_NUM_ELEMENTS_IN_LIST(phead) += \
*5113495bSYour Name			QDF_NBUF_CB_RX_NUM_ELEMENTS_IN_LIST(chead);   \
*5113495bSYour Name		}                                                     \
*5113495bSYour Name		(ptail) = (ctail);                                    \
*5113495bSYour Name		qdf_nbuf_set_next((ptail), NULL);                     \
*5113495bSYour Name	} while (0)
*5113495bSYour Name
*5113495bSYour Name#if defined(QCA_PADDR_CHECK_ON_3RD_PARTY_PLATFORM)
*5113495bSYour Name/*
*5113495bSYour Name * on some third-party platform, the memory below 0x2000
*5113495bSYour Name * is reserved for target use, so any memory allocated in this
*5113495bSYour Name * region should not be used by host
*5113495bSYour Name */
*5113495bSYour Name#define MAX_RETRY 50
*5113495bSYour Name#define DP_PHY_ADDR_RESERVED	0x2000
*5113495bSYour Name#elif defined(BUILD_X86)
*5113495bSYour Name/*
*5113495bSYour Name * in M2M emulation platforms (x86) the memory below 0x50000000
*5113495bSYour Name * is reserved for target use, so any memory allocated in this
*5113495bSYour Name * region should not be used by host
*5113495bSYour Name */
*5113495bSYour Name#define MAX_RETRY 100
*5113495bSYour Name#define DP_PHY_ADDR_RESERVED	0x50000000
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#if defined(QCA_PADDR_CHECK_ON_3RD_PARTY_PLATFORM) || defined(BUILD_X86)
*5113495bSYour Name/**
*5113495bSYour Name * dp_check_paddr() - check if current phy address is valid or not
*5113495bSYour Name * @dp_soc: core txrx main context
*5113495bSYour Name * @rx_netbuf: skb buffer
*5113495bSYour Name * @paddr: physical address
*5113495bSYour Name * @rx_desc_pool: struct of rx descriptor pool
*5113495bSYour Name * check if the physical address of the nbuf->data is less
*5113495bSYour Name * than DP_PHY_ADDR_RESERVED then free the nbuf and try
*5113495bSYour Name * allocating new nbuf. We can try for 100 times.
*5113495bSYour Name *
*5113495bSYour Name * This is a temp WAR till we fix it properly.
*5113495bSYour Name *
*5113495bSYour Name * Return: success or failure.
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Nameint dp_check_paddr(struct dp_soc *dp_soc,
*5113495bSYour Name		   qdf_nbuf_t *rx_netbuf,
*5113495bSYour Name		   qdf_dma_addr_t *paddr,
*5113495bSYour Name		   struct rx_desc_pool *rx_desc_pool)
*5113495bSYour Name{
*5113495bSYour Name	uint32_t nbuf_retry = 0;
*5113495bSYour Name	int32_t ret;
*5113495bSYour Name
*5113495bSYour Name	if (qdf_likely(*paddr > DP_PHY_ADDR_RESERVED))
*5113495bSYour Name		return QDF_STATUS_SUCCESS;
*5113495bSYour Name
*5113495bSYour Name	do {
*5113495bSYour Name		dp_debug("invalid phy addr 0x%llx, trying again",
*5113495bSYour Name			 (uint64_t)(*paddr));
*5113495bSYour Name		nbuf_retry++;
*5113495bSYour Name		if ((*rx_netbuf)) {
*5113495bSYour Name			/* Not freeing buffer intentionally.
*5113495bSYour Name			 * Observed that same buffer is getting
*5113495bSYour Name			 * re-allocated resulting in longer load time
*5113495bSYour Name			 * WMI init timeout.
*5113495bSYour Name			 * This buffer is anyway not useful so skip it.
*5113495bSYour Name			 *.Add such buffer to invalid list and free
*5113495bSYour Name			 *.them when driver unload.
*5113495bSYour Name			 **/
*5113495bSYour Name			qdf_nbuf_unmap_nbytes_single(dp_soc->osdev,
*5113495bSYour Name						     *rx_netbuf,
*5113495bSYour Name						     QDF_DMA_FROM_DEVICE,
*5113495bSYour Name						     rx_desc_pool->buf_size);
*5113495bSYour Name			qdf_nbuf_queue_add(&dp_soc->invalid_buf_queue,
*5113495bSYour Name					   *rx_netbuf);
*5113495bSYour Name		}
*5113495bSYour Name
*5113495bSYour Name		*rx_netbuf = qdf_nbuf_alloc(dp_soc->osdev,
*5113495bSYour Name					    rx_desc_pool->buf_size,
*5113495bSYour Name					    RX_BUFFER_RESERVATION,
*5113495bSYour Name					    rx_desc_pool->buf_alignment,
*5113495bSYour Name					    FALSE);
*5113495bSYour Name
*5113495bSYour Name		if (qdf_unlikely(!(*rx_netbuf)))
*5113495bSYour Name			return QDF_STATUS_E_FAILURE;
*5113495bSYour Name
*5113495bSYour Name		ret = qdf_nbuf_map_nbytes_single(dp_soc->osdev,
*5113495bSYour Name						 *rx_netbuf,
*5113495bSYour Name						 QDF_DMA_FROM_DEVICE,
*5113495bSYour Name						 rx_desc_pool->buf_size);
*5113495bSYour Name
*5113495bSYour Name		if (qdf_unlikely(ret == QDF_STATUS_E_FAILURE)) {
*5113495bSYour Name			qdf_nbuf_free(*rx_netbuf);
*5113495bSYour Name			*rx_netbuf = NULL;
*5113495bSYour Name			continue;
*5113495bSYour Name		}
*5113495bSYour Name
*5113495bSYour Name		*paddr = qdf_nbuf_get_frag_paddr(*rx_netbuf, 0);
*5113495bSYour Name
*5113495bSYour Name		if (qdf_likely(*paddr > DP_PHY_ADDR_RESERVED))
*5113495bSYour Name			return QDF_STATUS_SUCCESS;
*5113495bSYour Name
*5113495bSYour Name	} while (nbuf_retry < MAX_RETRY);
*5113495bSYour Name
*5113495bSYour Name	if ((*rx_netbuf)) {
*5113495bSYour Name		qdf_nbuf_unmap_nbytes_single(dp_soc->osdev,
*5113495bSYour Name					     *rx_netbuf,
*5113495bSYour Name					     QDF_DMA_FROM_DEVICE,
*5113495bSYour Name					     rx_desc_pool->buf_size);
*5113495bSYour Name		qdf_nbuf_queue_add(&dp_soc->invalid_buf_queue,
*5113495bSYour Name				   *rx_netbuf);
*5113495bSYour Name	}
*5113495bSYour Name
*5113495bSYour Name	return QDF_STATUS_E_FAILURE;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour Nameint dp_check_paddr(struct dp_soc *dp_soc,
*5113495bSYour Name		   qdf_nbuf_t *rx_netbuf,
*5113495bSYour Name		   qdf_dma_addr_t *paddr,
*5113495bSYour Name		   struct rx_desc_pool *rx_desc_pool)
*5113495bSYour Name{
*5113495bSYour Name	return QDF_STATUS_SUCCESS;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_cookie_2_link_desc_va() - Converts cookie to a virtual address of
*5113495bSYour Name *				   the MSDU Link Descriptor
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @buf_info: buf_info includes cookie that is used to lookup
*5113495bSYour Name * virtual address of link descriptor after deriving the page id
*5113495bSYour Name * and the offset or index of the desc on the associatde page.
*5113495bSYour Name *
*5113495bSYour Name * This is the VA of the link descriptor, that HAL layer later uses to
*5113495bSYour Name * retrieve the list of MSDU's for a given MPDU.
*5113495bSYour Name *
*5113495bSYour Name * Return: void *: Virtual Address of the Rx descriptor
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid *dp_rx_cookie_2_link_desc_va(struct dp_soc *soc,
*5113495bSYour Name				  struct hal_buf_info *buf_info)
*5113495bSYour Name{
*5113495bSYour Name	void *link_desc_va;
*5113495bSYour Name	struct qdf_mem_multi_page_t *pages;
*5113495bSYour Name	uint16_t page_id = LINK_DESC_COOKIE_PAGE_ID(buf_info->sw_cookie);
*5113495bSYour Name
*5113495bSYour Name	pages = &soc->link_desc_pages;
*5113495bSYour Name	if (!pages)
*5113495bSYour Name		return NULL;
*5113495bSYour Name	if (qdf_unlikely(page_id >= pages->num_pages))
*5113495bSYour Name		return NULL;
*5113495bSYour Name	link_desc_va = pages->dma_pages[page_id].page_v_addr_start +
*5113495bSYour Name		(buf_info->paddr - pages->dma_pages[page_id].page_p_addr);
*5113495bSYour Name	return link_desc_va;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name#ifndef QCA_HOST_MODE_WIFI_DISABLED
*5113495bSYour Name#ifdef DISABLE_EAPOL_INTRABSS_FWD
*5113495bSYour Name#ifdef WLAN_FEATURE_11BE_MLO
*5113495bSYour Namestatic inline bool dp_nbuf_dst_addr_is_mld_addr(struct dp_vdev *vdev,
*5113495bSYour Name						qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name	struct qdf_mac_addr *self_mld_mac_addr =
*5113495bSYour Name				(struct qdf_mac_addr *)vdev->mld_mac_addr.raw;
*5113495bSYour Name	return qdf_is_macaddr_equal(self_mld_mac_addr,
*5113495bSYour Name				    (struct qdf_mac_addr *)qdf_nbuf_data(nbuf) +
*5113495bSYour Name				    QDF_NBUF_DEST_MAC_OFFSET);
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline bool dp_nbuf_dst_addr_is_mld_addr(struct dp_vdev *vdev,
*5113495bSYour Name						qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Namestatic inline bool dp_nbuf_dst_addr_is_self_addr(struct dp_vdev *vdev,
*5113495bSYour Name						 qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name	return qdf_is_macaddr_equal((struct qdf_mac_addr *)vdev->mac_addr.raw,
*5113495bSYour Name				    (struct qdf_mac_addr *)qdf_nbuf_data(nbuf) +
*5113495bSYour Name				    QDF_NBUF_DEST_MAC_OFFSET);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_intrabss_eapol_drop_check() - API For EAPOL
*5113495bSYour Name *  pkt with DA not equal to vdev mac addr, fwd is not allowed.
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @ta_txrx_peer: source peer entry
*5113495bSYour Name * @rx_tlv_hdr: start address of rx tlvs
*5113495bSYour Name * @nbuf: nbuf that has to be intrabss forwarded
*5113495bSYour Name *
*5113495bSYour Name * Return: true if it is forwarded else false
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_intrabss_eapol_drop_check(struct dp_soc *soc,
*5113495bSYour Name				     struct dp_txrx_peer *ta_txrx_peer,
*5113495bSYour Name				     uint8_t *rx_tlv_hdr, qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name	if (qdf_unlikely(qdf_nbuf_is_ipv4_eapol_pkt(nbuf) &&
*5113495bSYour Name			 !(dp_nbuf_dst_addr_is_self_addr(ta_txrx_peer->vdev,
*5113495bSYour Name							 nbuf) ||
*5113495bSYour Name			   dp_nbuf_dst_addr_is_mld_addr(ta_txrx_peer->vdev,
*5113495bSYour Name							nbuf)))) {
*5113495bSYour Name		qdf_nbuf_free(nbuf);
*5113495bSYour Name		DP_STATS_INC(soc, rx.err.intrabss_eapol_drop, 1);
*5113495bSYour Name		return true;
*5113495bSYour Name	}
*5113495bSYour Name
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name#else /* DISABLE_EAPOL_INTRABSS_FWD */
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_intrabss_eapol_drop_check(struct dp_soc *soc,
*5113495bSYour Name				     struct dp_txrx_peer *ta_txrx_peer,
*5113495bSYour Name				     uint8_t *rx_tlv_hdr, qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name#endif /* DISABLE_EAPOL_INTRABSS_FWD */
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_intrabss_mcbc_fwd() - Does intrabss forward for mcast packets
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @ta_peer: source peer entry
*5113495bSYour Name * @rx_tlv_hdr: start address of rx tlvs
*5113495bSYour Name * @nbuf: nbuf that has to be intrabss forwarded
*5113495bSYour Name * @tid_stats: tid stats pointer
*5113495bSYour Name * @link_id: link Id on which packet is received
*5113495bSYour Name *
*5113495bSYour Name * Return: bool: true if it is forwarded else false
*5113495bSYour Name */
*5113495bSYour Namebool dp_rx_intrabss_mcbc_fwd(struct dp_soc *soc,
*5113495bSYour Name			     struct dp_txrx_peer *ta_peer,
*5113495bSYour Name			     uint8_t *rx_tlv_hdr, qdf_nbuf_t nbuf,
*5113495bSYour Name			     struct cdp_tid_rx_stats *tid_stats,
*5113495bSYour Name			     uint8_t link_id);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_intrabss_ucast_fwd() - Does intrabss forward for unicast packets
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @ta_peer: source peer entry
*5113495bSYour Name * @tx_vdev_id: VDEV ID for Intra-BSS TX
*5113495bSYour Name * @rx_tlv_hdr: start address of rx tlvs
*5113495bSYour Name * @nbuf: nbuf that has to be intrabss forwarded
*5113495bSYour Name * @tid_stats: tid stats pointer
*5113495bSYour Name * @link_id: link Id on which packet is received
*5113495bSYour Name *
*5113495bSYour Name * Return: bool: true if it is forwarded else false
*5113495bSYour Name */
*5113495bSYour Namebool dp_rx_intrabss_ucast_fwd(struct dp_soc *soc,
*5113495bSYour Name			      struct dp_txrx_peer *ta_peer,
*5113495bSYour Name			      uint8_t tx_vdev_id,
*5113495bSYour Name			      uint8_t *rx_tlv_hdr, qdf_nbuf_t nbuf,
*5113495bSYour Name			      struct cdp_tid_rx_stats *tid_stats,
*5113495bSYour Name			      uint8_t link_id);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_defrag_concat() - Concatenate the fragments
*5113495bSYour Name *
*5113495bSYour Name * @dst: destination pointer to the buffer
*5113495bSYour Name * @src: source pointer from where the fragment payload is to be copied
*5113495bSYour Name *
*5113495bSYour Name * Return: QDF_STATUS
*5113495bSYour Name */
*5113495bSYour Namestatic inline QDF_STATUS dp_rx_defrag_concat(qdf_nbuf_t dst, qdf_nbuf_t src)
*5113495bSYour Name{
*5113495bSYour Name	/*
*5113495bSYour Name	 * Inside qdf_nbuf_cat, if it is necessary to reallocate dst
*5113495bSYour Name	 * to provide space for src, the headroom portion is copied from
*5113495bSYour Name	 * the original dst buffer to the larger new dst buffer.
*5113495bSYour Name	 * (This is needed, because the headroom of the dst buffer
*5113495bSYour Name	 * contains the rx desc.)
*5113495bSYour Name	 */
*5113495bSYour Name	if (!qdf_nbuf_cat(dst, src)) {
*5113495bSYour Name		/*
*5113495bSYour Name		 * qdf_nbuf_cat does not free the src memory.
*5113495bSYour Name		 * Free src nbuf before returning
*5113495bSYour Name		 * For failure case the caller takes of freeing the nbuf
*5113495bSYour Name		 */
*5113495bSYour Name		qdf_nbuf_free(src);
*5113495bSYour Name		return QDF_STATUS_SUCCESS;
*5113495bSYour Name	}
*5113495bSYour Name
*5113495bSYour Name	return QDF_STATUS_E_DEFRAG_ERROR;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name#endif /* QCA_HOST_MODE_WIFI_DISABLED */
*5113495bSYour Name
*5113495bSYour Name#ifndef FEATURE_WDS
*5113495bSYour Namevoid dp_rx_da_learn(struct dp_soc *soc, uint8_t *rx_tlv_hdr,
*5113495bSYour Name		    struct dp_txrx_peer *ta_txrx_peer, qdf_nbuf_t nbuf);
*5113495bSYour Name
*5113495bSYour Namestatic inline QDF_STATUS dp_rx_ast_set_active(struct dp_soc *soc, uint16_t sa_idx, bool is_active)
*5113495bSYour Name{
*5113495bSYour Name	return QDF_STATUS_SUCCESS;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline void
*5113495bSYour Namedp_rx_wds_srcport_learn(struct dp_soc *soc,
*5113495bSYour Name			uint8_t *rx_tlv_hdr,
*5113495bSYour Name			struct dp_txrx_peer *txrx_peer,
*5113495bSYour Name			qdf_nbuf_t nbuf,
*5113495bSYour Name			struct hal_rx_msdu_metadata msdu_metadata)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline void
*5113495bSYour Namedp_rx_ipa_wds_srcport_learn(struct dp_soc *soc,
*5113495bSYour Name			    struct dp_peer *ta_peer, qdf_nbuf_t nbuf,
*5113495bSYour Name			    struct hal_rx_msdu_metadata msdu_end_info,
*5113495bSYour Name			    bool ad4_valid, bool chfrag_start)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_dump() - dump the sw rx descriptor
*5113495bSYour Name *
*5113495bSYour Name * @rx_desc: sw rx descriptor
*5113495bSYour Name */
*5113495bSYour Namestatic inline void dp_rx_desc_dump(struct dp_rx_desc *rx_desc)
*5113495bSYour Name{
*5113495bSYour Name	dp_info("rx_desc->nbuf: %pK, rx_desc->cookie: %d, rx_desc->pool_id: %d, rx_desc->in_use: %d, rx_desc->unmapped: %d",
*5113495bSYour Name		rx_desc->nbuf, rx_desc->cookie, rx_desc->pool_id,
*5113495bSYour Name		rx_desc->in_use, rx_desc->unmapped);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name#ifndef QCA_HOST_MODE_WIFI_DISABLED
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * check_qwrap_multicast_loopback() - Check if rx packet is a loopback packet.
*5113495bSYour Name *					In qwrap mode, packets originated from
*5113495bSYour Name *					any vdev should not loopback and
*5113495bSYour Name *					should be dropped.
*5113495bSYour Name * @vdev: vdev on which rx packet is received
*5113495bSYour Name * @nbuf: rx pkt
*5113495bSYour Name *
*5113495bSYour Name */
*5113495bSYour Name#if ATH_SUPPORT_WRAP
*5113495bSYour Namestatic inline bool check_qwrap_multicast_loopback(struct dp_vdev *vdev,
*5113495bSYour Name						qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name	struct dp_vdev *psta_vdev;
*5113495bSYour Name	struct dp_pdev *pdev = vdev->pdev;
*5113495bSYour Name	uint8_t *data = qdf_nbuf_data(nbuf);
*5113495bSYour Name
*5113495bSYour Name	if (qdf_unlikely(vdev->proxysta_vdev)) {
*5113495bSYour Name		/* In qwrap isolation mode, allow loopback packets as all
*5113495bSYour Name		 * packets go to RootAP and Loopback on the mpsta.
*5113495bSYour Name		 */
*5113495bSYour Name		if (vdev->isolation_vdev)
*5113495bSYour Name			return false;
*5113495bSYour Name		TAILQ_FOREACH(psta_vdev, &pdev->vdev_list, vdev_list_elem) {
*5113495bSYour Name			if (qdf_unlikely(psta_vdev->proxysta_vdev &&
*5113495bSYour Name					 !qdf_mem_cmp(psta_vdev->mac_addr.raw,
*5113495bSYour Name						      &data[QDF_MAC_ADDR_SIZE],
*5113495bSYour Name						      QDF_MAC_ADDR_SIZE))) {
*5113495bSYour Name				/* Drop packet if source address is equal to
*5113495bSYour Name				 * any of the vdev addresses.
*5113495bSYour Name				 */
*5113495bSYour Name				return true;
*5113495bSYour Name			}
*5113495bSYour Name		}
*5113495bSYour Name	}
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline bool check_qwrap_multicast_loopback(struct dp_vdev *vdev,
*5113495bSYour Name						qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#endif /* QCA_HOST_MODE_WIFI_DISABLED */
*5113495bSYour Name
*5113495bSYour Name#if defined(WLAN_SUPPORT_RX_PROTOCOL_TYPE_TAG) ||\
*5113495bSYour Name	defined(WLAN_SUPPORT_RX_TAG_STATISTICS) ||\
*5113495bSYour Name	defined(WLAN_SUPPORT_RX_FLOW_TAG)
*5113495bSYour Name#include "dp_rx_tag.h"
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#if !defined(WLAN_SUPPORT_RX_PROTOCOL_TYPE_TAG) &&\
*5113495bSYour Name	!defined(WLAN_SUPPORT_RX_FLOW_TAG)
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_update_protocol_tag() - Reads CCE metadata from the RX MSDU end TLV
*5113495bSYour Name *                              and set the corresponding tag in QDF packet
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @vdev: vdev on which the packet is received
*5113495bSYour Name * @nbuf: QDF pkt buffer on which the protocol tag should be set
*5113495bSYour Name * @rx_tlv_hdr: rBbase address where the RX TLVs starts
*5113495bSYour Name * @ring_index: REO ring number, not used for error & monitor ring
*5113495bSYour Name * @is_reo_exception: flag to indicate if rx from REO ring or exception ring
*5113495bSYour Name * @is_update_stats: flag to indicate whether to update stats or not
*5113495bSYour Name *
*5113495bSYour Name * Return: void
*5113495bSYour Name */
*5113495bSYour Namestatic inline void
*5113495bSYour Namedp_rx_update_protocol_tag(struct dp_soc *soc, struct dp_vdev *vdev,
*5113495bSYour Name			  qdf_nbuf_t nbuf, uint8_t *rx_tlv_hdr,
*5113495bSYour Name			  uint16_t ring_index,
*5113495bSYour Name			  bool is_reo_exception, bool is_update_stats)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#ifndef WLAN_SUPPORT_RX_PROTOCOL_TYPE_TAG
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_err_cce_drop() - Reads CCE metadata from the RX MSDU end TLV
*5113495bSYour Name *                        and returns whether cce metadata matches
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @vdev: vdev on which the packet is received
*5113495bSYour Name * @nbuf: QDF pkt buffer on which the protocol tag should be set
*5113495bSYour Name * @rx_tlv_hdr: rBbase address where the RX TLVs starts
*5113495bSYour Name *
*5113495bSYour Name * Return: bool
*5113495bSYour Name */
*5113495bSYour Namestatic inline bool
*5113495bSYour Namedp_rx_err_cce_drop(struct dp_soc *soc, struct dp_vdev *vdev,
*5113495bSYour Name		   qdf_nbuf_t nbuf, uint8_t *rx_tlv_hdr)
*5113495bSYour Name{
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name#endif /* WLAN_SUPPORT_RX_PROTOCOL_TYPE_TAG */
*5113495bSYour Name
*5113495bSYour Name#ifndef WLAN_SUPPORT_RX_FLOW_TAG
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_update_flow_tag() - Reads FSE metadata from the RX MSDU end TLV
*5113495bSYour Name *                           and set the corresponding tag in QDF packet
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @vdev: vdev on which the packet is received
*5113495bSYour Name * @nbuf: QDF pkt buffer on which the protocol tag should be set
*5113495bSYour Name * @rx_tlv_hdr: base address where the RX TLVs starts
*5113495bSYour Name * @update_stats: flag to indicate whether to update stats or not
*5113495bSYour Name *
*5113495bSYour Name * Return: void
*5113495bSYour Name */
*5113495bSYour Namestatic inline void
*5113495bSYour Namedp_rx_update_flow_tag(struct dp_soc *soc, struct dp_vdev *vdev,
*5113495bSYour Name		      qdf_nbuf_t nbuf, uint8_t *rx_tlv_hdr, bool update_stats)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif /* WLAN_SUPPORT_RX_FLOW_TAG */
*5113495bSYour Name
*5113495bSYour Name#define CRITICAL_BUFFER_THRESHOLD	64
*5113495bSYour Name/**
*5113495bSYour Name * __dp_rx_buffers_replenish() - replenish rxdma ring with rx nbufs
*5113495bSYour Name *			       called during dp rx initialization
*5113495bSYour Name *			       and at the end of dp_rx_process.
*5113495bSYour Name *
*5113495bSYour Name * @dp_soc: core txrx main context
*5113495bSYour Name * @mac_id: mac_id which is one of 3 mac_ids
*5113495bSYour Name * @dp_rxdma_srng: dp rxdma circular ring
*5113495bSYour Name * @rx_desc_pool: Pointer to free Rx descriptor pool
*5113495bSYour Name * @num_req_buffers: number of buffer to be replenished
*5113495bSYour Name * @desc_list: list of descs if called from dp_rx_process
*5113495bSYour Name *	       or NULL during dp rx initialization or out of buffer
*5113495bSYour Name *	       interrupt.
*5113495bSYour Name * @tail: tail of descs list
*5113495bSYour Name * @req_only: If true don't replenish more than req buffers
*5113495bSYour Name * @force_replenish: replenish full ring without limit check this
*5113495bSYour Name *                   this field will be considered only when desc_list
*5113495bSYour Name *                   is NULL and req_only is false
*5113495bSYour Name * @func_name: name of the caller function
*5113495bSYour Name *
*5113495bSYour Name * Return: return success or failure
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS __dp_rx_buffers_replenish(struct dp_soc *dp_soc, uint32_t mac_id,
*5113495bSYour Name				 struct dp_srng *dp_rxdma_srng,
*5113495bSYour Name				 struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name				 uint32_t num_req_buffers,
*5113495bSYour Name				 union dp_rx_desc_list_elem_t **desc_list,
*5113495bSYour Name				 union dp_rx_desc_list_elem_t **tail,
*5113495bSYour Name				 bool req_only,
*5113495bSYour Name				 bool force_replenish,
*5113495bSYour Name				 const char *func_name);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * __dp_rx_buffers_no_map_replenish() - replenish rxdma ring with rx nbufs
*5113495bSYour Name *					use direct APIs to get invalidate
*5113495bSYour Name *					and get the physical address of the
*5113495bSYour Name *					nbuf instead of map api,called during
*5113495bSYour Name *					dp rx initialization and at the end
*5113495bSYour Name *					of dp_rx_process.
*5113495bSYour Name *
*5113495bSYour Name * @dp_soc: core txrx main context
*5113495bSYour Name * @mac_id: mac_id which is one of 3 mac_ids
*5113495bSYour Name * @dp_rxdma_srng: dp rxdma circular ring
*5113495bSYour Name * @rx_desc_pool: Pointer to free Rx descriptor pool
*5113495bSYour Name * @num_req_buffers: number of buffer to be replenished
*5113495bSYour Name * @desc_list: list of descs if called from dp_rx_process
*5113495bSYour Name *	       or NULL during dp rx initialization or out of buffer
*5113495bSYour Name *	       interrupt.
*5113495bSYour Name * @tail: tail of descs list
*5113495bSYour Name *
*5113495bSYour Name * Return: return success or failure
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS
*5113495bSYour Name__dp_rx_buffers_no_map_replenish(struct dp_soc *dp_soc, uint32_t mac_id,
*5113495bSYour Name				 struct dp_srng *dp_rxdma_srng,
*5113495bSYour Name				 struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name				 uint32_t num_req_buffers,
*5113495bSYour Name				 union dp_rx_desc_list_elem_t **desc_list,
*5113495bSYour Name				 union dp_rx_desc_list_elem_t **tail);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * __dp_rx_comp2refill_replenish() - replenish rxdma ring with rx nbufs
*5113495bSYour Name *					use direct APIs to get invalidate
*5113495bSYour Name *					and get the physical address of the
*5113495bSYour Name *					nbuf instead of map api,called during
*5113495bSYour Name *					dp rx initialization and at the end
*5113495bSYour Name *					of dp_rx_process.
*5113495bSYour Name *
*5113495bSYour Name * @dp_soc: core txrx main context
*5113495bSYour Name * @mac_id: mac_id which is one of 3 mac_ids
*5113495bSYour Name * @dp_rxdma_srng: dp rxdma circular ring
*5113495bSYour Name * @rx_desc_pool: Pointer to free Rx descriptor pool
*5113495bSYour Name * @num_req_buffers: number of buffer to be replenished
*5113495bSYour Name * @desc_list: list of descs if called from dp_rx_process
*5113495bSYour Name *	       or NULL during dp rx initialization or out of buffer
*5113495bSYour Name *	       interrupt.
*5113495bSYour Name * @tail: tail of descs list
*5113495bSYour Name * Return: return success or failure
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS
*5113495bSYour Name__dp_rx_comp2refill_replenish(struct dp_soc *dp_soc, uint32_t mac_id,
*5113495bSYour Name			      struct dp_srng *dp_rxdma_srng,
*5113495bSYour Name			      struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name			      uint32_t num_req_buffers,
*5113495bSYour Name			      union dp_rx_desc_list_elem_t **desc_list,
*5113495bSYour Name			      union dp_rx_desc_list_elem_t **tail);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * __dp_rx_buffers_no_map_lt_replenish() - replenish rxdma ring with rx nbufs
*5113495bSYour Name *					use direct APIs to get invalidate
*5113495bSYour Name *					and get the physical address of the
*5113495bSYour Name *					nbuf instead of map api,called when
*5113495bSYour Name *					low threshold interrupt is triggered
*5113495bSYour Name *
*5113495bSYour Name * @dp_soc: core txrx main context
*5113495bSYour Name * @mac_id: mac_id which is one of 3 mac_ids
*5113495bSYour Name * @dp_rxdma_srng: dp rxdma circular ring
*5113495bSYour Name * @rx_desc_pool: Pointer to free Rx descriptor pool
*5113495bSYour Name * @force_replenish: Force replenish the ring fully
*5113495bSYour Name *
*5113495bSYour Name * Return: return success or failure
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS
*5113495bSYour Name__dp_rx_buffers_no_map_lt_replenish(struct dp_soc *dp_soc, uint32_t mac_id,
*5113495bSYour Name				    struct dp_srng *dp_rxdma_srng,
*5113495bSYour Name				    struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name				    bool force_replenish);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * __dp_pdev_rx_buffers_no_map_attach() - replenish rxdma ring with rx nbufs
*5113495bSYour Name *					use direct APIs to get invalidate
*5113495bSYour Name *					and get the physical address of the
*5113495bSYour Name *					nbuf instead of map api,called during
*5113495bSYour Name *					dp rx initialization.
*5113495bSYour Name *
*5113495bSYour Name * @dp_soc: core txrx main context
*5113495bSYour Name * @mac_id: mac_id which is one of 3 mac_ids
*5113495bSYour Name * @dp_rxdma_srng: dp rxdma circular ring
*5113495bSYour Name * @rx_desc_pool: Pointer to free Rx descriptor pool
*5113495bSYour Name * @num_req_buffers: number of buffer to be replenished
*5113495bSYour Name *
*5113495bSYour Name * Return: return success or failure
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS __dp_pdev_rx_buffers_no_map_attach(struct dp_soc *dp_soc,
*5113495bSYour Name					      uint32_t mac_id,
*5113495bSYour Name					      struct dp_srng *dp_rxdma_srng,
*5113495bSYour Name					      struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name					      uint32_t num_req_buffers);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_pdev_rx_buffers_attach() - replenish rxdma ring with rx nbufs
*5113495bSYour Name *                               called during dp rx initialization
*5113495bSYour Name *
*5113495bSYour Name * @dp_soc: core txrx main context
*5113495bSYour Name * @mac_id: mac_id which is one of 3 mac_ids
*5113495bSYour Name * @dp_rxdma_srng: dp rxdma circular ring
*5113495bSYour Name * @rx_desc_pool: Pointer to free Rx descriptor pool
*5113495bSYour Name * @num_req_buffers: number of buffer to be replenished
*5113495bSYour Name *
*5113495bSYour Name * Return: return success or failure
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS
*5113495bSYour Namedp_pdev_rx_buffers_attach(struct dp_soc *dp_soc, uint32_t mac_id,
*5113495bSYour Name			  struct dp_srng *dp_rxdma_srng,
*5113495bSYour Name			  struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name			  uint32_t num_req_buffers);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_fill_mesh_stats() - Fills the mesh per packet receive stats
*5113495bSYour Name * @vdev: DP Virtual device handle
*5113495bSYour Name * @nbuf: Buffer pointer
*5113495bSYour Name * @rx_tlv_hdr: start of rx tlv header
*5113495bSYour Name * @txrx_peer: pointer to peer
*5113495bSYour Name *
*5113495bSYour Name * This function allocated memory for mesh receive stats and fill the
*5113495bSYour Name * required stats. Stores the memory address in skb cb.
*5113495bSYour Name *
*5113495bSYour Name * Return: void
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_fill_mesh_stats(struct dp_vdev *vdev, qdf_nbuf_t nbuf,
*5113495bSYour Name			   uint8_t *rx_tlv_hdr,
*5113495bSYour Name			   struct dp_txrx_peer *txrx_peer);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_filter_mesh_packets() - Filters mesh unwanted packets
*5113495bSYour Name * @vdev: DP Virtual device handle
*5113495bSYour Name * @nbuf: Buffer pointer
*5113495bSYour Name * @rx_tlv_hdr: start of rx tlv header
*5113495bSYour Name *
*5113495bSYour Name * This checks if the received packet is matching any filter out
*5113495bSYour Name * catogery and and drop the packet if it matches.
*5113495bSYour Name *
*5113495bSYour Name * Return: QDF_STATUS_SUCCESS indicates drop,
*5113495bSYour Name *         QDF_STATUS_E_FAILURE indicate to not drop
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS dp_rx_filter_mesh_packets(struct dp_vdev *vdev, qdf_nbuf_t nbuf,
*5113495bSYour Name					uint8_t *rx_tlv_hdr);
*5113495bSYour Name
*5113495bSYour Nameint dp_wds_rx_policy_check(uint8_t *rx_tlv_hdr, struct dp_vdev *vdev,
*5113495bSYour Name			   struct dp_txrx_peer *peer);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_compute_delay() - Compute and fill in all timestamps
*5113495bSYour Name *				to pass in correct fields
*5113495bSYour Name * @vdev: pdev handle
*5113495bSYour Name * @nbuf: network buffer
*5113495bSYour Name *
*5113495bSYour Name * Return: none
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_compute_delay(struct dp_vdev *vdev, qdf_nbuf_t nbuf);
*5113495bSYour Name
*5113495bSYour Name#ifdef QCA_PEER_EXT_STATS
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_compute_tid_delay - Compute per TID delay stats
*5113495bSYour Name * @stats: TID delay stats to update
*5113495bSYour Name * @nbuf: NBuffer
*5113495bSYour Name *
*5113495bSYour Name * Return: Void
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_compute_tid_delay(struct cdp_delay_tid_stats *stats,
*5113495bSYour Name			     qdf_nbuf_t nbuf);
*5113495bSYour Name#endif /* QCA_PEER_EXT_STATS */
*5113495bSYour Name
*5113495bSYour Name#ifdef WLAN_SUPPORT_PPEDS
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_set_reuse_nbuf(struct dp_rx_desc *rx_desc, qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name	rx_desc->reuse_nbuf = nbuf;
*5113495bSYour Name	rx_desc->has_reuse_nbuf = true;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * __dp_rx_add_to_free_desc_list_reuse() - Adds to a local free descriptor list
*5113495bSYour Name *					   this list will reused
*5113495bSYour Name *
*5113495bSYour Name * @head: pointer to the head of local free list
*5113495bSYour Name * @tail: pointer to the tail of local free list
*5113495bSYour Name * @new: new descriptor that is added to the free list
*5113495bSYour Name * @func_name: caller func name
*5113495bSYour Name *
*5113495bSYour Name * Return: void:
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid __dp_rx_add_to_free_desc_list_reuse(union dp_rx_desc_list_elem_t **head,
*5113495bSYour Name					 union dp_rx_desc_list_elem_t **tail,
*5113495bSYour Name					 struct dp_rx_desc *new,
*5113495bSYour Name					 const char *func_name)
*5113495bSYour Name{
*5113495bSYour Name	qdf_assert(head && new);
*5113495bSYour Name
*5113495bSYour Name	dp_rx_desc_update_dbg_info(new, func_name, RX_DESC_IN_FREELIST);
*5113495bSYour Name
*5113495bSYour Name	new->nbuf = NULL;
*5113495bSYour Name
*5113495bSYour Name	((union dp_rx_desc_list_elem_t *)new)->next = *head;
*5113495bSYour Name	*head = (union dp_rx_desc_list_elem_t *)new;
*5113495bSYour Name	/* reset tail if head->next is NULL */
*5113495bSYour Name	if (!*tail || !(*head)->next)
*5113495bSYour Name		*tail = *head;
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_set_reuse_nbuf(struct dp_rx_desc *rx_desc, qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid __dp_rx_add_to_free_desc_list_reuse(union dp_rx_desc_list_elem_t **head,
*5113495bSYour Name					 union dp_rx_desc_list_elem_t **tail,
*5113495bSYour Name					 struct dp_rx_desc *new,
*5113495bSYour Name					 const char *func_name)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#ifdef RX_DESC_DEBUG_CHECK
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_check_magic() - check the magic value in dp_rx_desc
*5113495bSYour Name * @rx_desc: rx descriptor pointer
*5113495bSYour Name *
*5113495bSYour Name * Return: true, if magic is correct, else false.
*5113495bSYour Name */
*5113495bSYour Namestatic inline bool dp_rx_desc_check_magic(struct dp_rx_desc *rx_desc)
*5113495bSYour Name{
*5113495bSYour Name	if (qdf_unlikely(rx_desc->magic != DP_RX_DESC_MAGIC))
*5113495bSYour Name		return false;
*5113495bSYour Name
*5113495bSYour Name	rx_desc->magic = 0;
*5113495bSYour Name	return true;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_prep() - prepare rx desc
*5113495bSYour Name * @rx_desc: rx descriptor pointer to be prepared
*5113495bSYour Name * @nbuf_frag_info_t: struct dp_rx_nbuf_frag_info *
*5113495bSYour Name *
*5113495bSYour Name * Note: assumption is that we are associating a nbuf which is mapped
*5113495bSYour Name *
*5113495bSYour Name * Return: none
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_desc_prep(struct dp_rx_desc *rx_desc,
*5113495bSYour Name		     struct dp_rx_nbuf_frag_info *nbuf_frag_info_t)
*5113495bSYour Name{
*5113495bSYour Name	rx_desc->magic = DP_RX_DESC_MAGIC;
*5113495bSYour Name	rx_desc->nbuf = (nbuf_frag_info_t->virt_addr).nbuf;
*5113495bSYour Name	rx_desc->unmapped = 0;
*5113495bSYour Name	rx_desc->nbuf_data_addr = (uint8_t *)qdf_nbuf_data(rx_desc->nbuf);
*5113495bSYour Name	dp_rx_set_reuse_nbuf(rx_desc, rx_desc->nbuf);
*5113495bSYour Name	rx_desc->prev_paddr_buf_start = rx_desc->paddr_buf_start;
*5113495bSYour Name	rx_desc->paddr_buf_start = nbuf_frag_info_t->paddr;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_frag_prep() - prepare rx desc
*5113495bSYour Name * @rx_desc: rx descriptor pointer to be prepared
*5113495bSYour Name * @nbuf_frag_info_t: struct dp_rx_nbuf_frag_info *
*5113495bSYour Name *
*5113495bSYour Name * Note: assumption is that we frag address is mapped
*5113495bSYour Name *
*5113495bSYour Name * Return: none
*5113495bSYour Name */
*5113495bSYour Name#ifdef DP_RX_MON_MEM_FRAG
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_desc_frag_prep(struct dp_rx_desc *rx_desc,
*5113495bSYour Name			  struct dp_rx_nbuf_frag_info *nbuf_frag_info_t)
*5113495bSYour Name{
*5113495bSYour Name	rx_desc->magic = DP_RX_DESC_MAGIC;
*5113495bSYour Name	rx_desc->rx_buf_start =
*5113495bSYour Name		(uint8_t *)((nbuf_frag_info_t->virt_addr).vaddr);
*5113495bSYour Name	rx_desc->paddr_buf_start = nbuf_frag_info_t->paddr;
*5113495bSYour Name	rx_desc->unmapped = 0;
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_desc_frag_prep(struct dp_rx_desc *rx_desc,
*5113495bSYour Name			  struct dp_rx_nbuf_frag_info *nbuf_frag_info_t)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif /* DP_RX_MON_MEM_FRAG */
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_paddr_sanity_check() - paddr sanity for ring desc vs rx_desc
*5113495bSYour Name * @rx_desc: rx descriptor
*5113495bSYour Name * @ring_paddr: paddr obatined from the ring
*5113495bSYour Name *
*5113495bSYour Name * Return: QDF_STATUS
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_desc_paddr_sanity_check(struct dp_rx_desc *rx_desc,
*5113495bSYour Name				   uint64_t ring_paddr)
*5113495bSYour Name{
*5113495bSYour Name	return (ring_paddr == qdf_nbuf_get_frag_paddr(rx_desc->nbuf, 0));
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Name
*5113495bSYour Namestatic inline bool dp_rx_desc_check_magic(struct dp_rx_desc *rx_desc)
*5113495bSYour Name{
*5113495bSYour Name	return true;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_desc_prep(struct dp_rx_desc *rx_desc,
*5113495bSYour Name		     struct dp_rx_nbuf_frag_info *nbuf_frag_info_t)
*5113495bSYour Name{
*5113495bSYour Name	rx_desc->nbuf = (nbuf_frag_info_t->virt_addr).nbuf;
*5113495bSYour Name	dp_rx_set_reuse_nbuf(rx_desc, rx_desc->nbuf);
*5113495bSYour Name	rx_desc->paddr_buf_start = nbuf_frag_info_t->paddr;
*5113495bSYour Name	rx_desc->unmapped = 0;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name#ifdef DP_RX_MON_MEM_FRAG
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_desc_frag_prep(struct dp_rx_desc *rx_desc,
*5113495bSYour Name			  struct dp_rx_nbuf_frag_info *nbuf_frag_info_t)
*5113495bSYour Name{
*5113495bSYour Name	rx_desc->rx_buf_start =
*5113495bSYour Name		(uint8_t *)((nbuf_frag_info_t->virt_addr).vaddr);
*5113495bSYour Name	rx_desc->paddr_buf_start = nbuf_frag_info_t->paddr;
*5113495bSYour Name	rx_desc->unmapped = 0;
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_desc_frag_prep(struct dp_rx_desc *rx_desc,
*5113495bSYour Name			  struct dp_rx_nbuf_frag_info *nbuf_frag_info_t)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif /* DP_RX_MON_MEM_FRAG */
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_desc_paddr_sanity_check(struct dp_rx_desc *rx_desc,
*5113495bSYour Name				   uint64_t ring_paddr)
*5113495bSYour Name{
*5113495bSYour Name	return true;
*5113495bSYour Name}
*5113495bSYour Name#endif /* RX_DESC_DEBUG_CHECK */
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_enable_mon_dest_frag() - Enable frag processing for
*5113495bSYour Name *              monitor destination ring via frag.
*5113495bSYour Name * @rx_desc_pool: Rx desc pool
*5113495bSYour Name * @is_mon_dest_desc: Is it for monitor dest buffer
*5113495bSYour Name *
*5113495bSYour Name * Enable this flag only for monitor destination buffer processing
*5113495bSYour Name * if DP_RX_MON_MEM_FRAG feature is enabled.
*5113495bSYour Name * If flag is set then frag based function will be called for alloc,
*5113495bSYour Name * map, prep desc and free ops for desc buffer else normal nbuf based
*5113495bSYour Name * function will be called.
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_enable_mon_dest_frag(struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name				bool is_mon_dest_desc);
*5113495bSYour Name
*5113495bSYour Name#ifndef QCA_MULTIPASS_SUPPORT
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_multipass_process(struct dp_txrx_peer *peer, qdf_nbuf_t nbuf,
*5113495bSYour Name			     uint8_t tid)
*5113495bSYour Name{
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_multipass_process - insert vlan tag on frames for traffic separation
*5113495bSYour Name * @txrx_peer: DP txrx peer handle
*5113495bSYour Name * @nbuf: skb
*5113495bSYour Name * @tid: traffic priority
*5113495bSYour Name *
*5113495bSYour Name * Return: bool: true in case of success else false
*5113495bSYour Name * Success is considered if:
*5113495bSYour Name *  i. If frame has vlan header
*5113495bSYour Name *  ii. If the frame comes from different peer and dont need multipass processing
*5113495bSYour Name * Failure is considered if:
*5113495bSYour Name *  i. Frame comes from multipass peer but doesn't contain vlan header.
*5113495bSYour Name *  In failure case, drop such frames.
*5113495bSYour Name */
*5113495bSYour Namebool dp_rx_multipass_process(struct dp_txrx_peer *txrx_peer, qdf_nbuf_t nbuf,
*5113495bSYour Name			     uint8_t tid);
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#ifndef QCA_HOST_MODE_WIFI_DISABLED
*5113495bSYour Name
*5113495bSYour Name#ifndef WLAN_RX_PKT_CAPTURE_ENH
*5113495bSYour Namestatic inline
*5113495bSYour NameQDF_STATUS dp_peer_set_rx_capture_enabled(struct dp_pdev *pdev,
*5113495bSYour Name					  struct dp_peer *peer_handle,
*5113495bSYour Name					  bool value, uint8_t *mac_addr)
*5113495bSYour Name{
*5113495bSYour Name	return QDF_STATUS_SUCCESS;
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#endif /* QCA_HOST_MODE_WIFI_DISABLED */
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_deliver_to_stack() - deliver pkts to network stack
*5113495bSYour Name * Caller to hold peer refcount and check for valid peer
*5113495bSYour Name * @soc: soc
*5113495bSYour Name * @vdev: vdev
*5113495bSYour Name * @peer: txrx peer
*5113495bSYour Name * @nbuf_head: skb list head
*5113495bSYour Name * @nbuf_tail: skb list tail
*5113495bSYour Name *
*5113495bSYour Name * Return: QDF_STATUS
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS dp_rx_deliver_to_stack(struct dp_soc *soc,
*5113495bSYour Name				  struct dp_vdev *vdev,
*5113495bSYour Name				  struct dp_txrx_peer *peer,
*5113495bSYour Name				  qdf_nbuf_t nbuf_head,
*5113495bSYour Name				  qdf_nbuf_t nbuf_tail);
*5113495bSYour Name
*5113495bSYour Name#ifdef QCA_SUPPORT_EAPOL_OVER_CONTROL_PORT
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_eapol_deliver_to_stack() - deliver pkts to network stack
*5113495bSYour Name * caller to hold peer refcount and check for valid peer
*5113495bSYour Name * @soc: soc
*5113495bSYour Name * @vdev: vdev
*5113495bSYour Name * @peer: peer
*5113495bSYour Name * @nbuf_head: skb list head
*5113495bSYour Name * @nbuf_tail: skb list tail
*5113495bSYour Name *
*5113495bSYour Name * Return: QDF_STATUS
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS dp_rx_eapol_deliver_to_stack(struct dp_soc *soc,
*5113495bSYour Name					struct dp_vdev *vdev,
*5113495bSYour Name					struct dp_txrx_peer *peer,
*5113495bSYour Name					qdf_nbuf_t nbuf_head,
*5113495bSYour Name					qdf_nbuf_t nbuf_tail);
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#ifndef QCA_HOST_MODE_WIFI_DISABLED
*5113495bSYour Name
*5113495bSYour Name#ifdef WLAN_FEATURE_RX_PREALLOC_BUFFER_POOL
*5113495bSYour Name#define DP_RX_PROCESS_NBUF(soc, head, tail, ebuf_head, ebuf_tail, rx_desc) \
*5113495bSYour Name	do {								   \
*5113495bSYour Name		if (!soc->rx_buff_pool[rx_desc->pool_id].is_initialized) { \
*5113495bSYour Name			DP_RX_LIST_APPEND(head, tail, rx_desc->nbuf);	   \
*5113495bSYour Name			break;						   \
*5113495bSYour Name		}							   \
*5113495bSYour Name		DP_RX_LIST_APPEND(ebuf_head, ebuf_tail, rx_desc->nbuf);	   \
*5113495bSYour Name		if (!qdf_nbuf_is_rx_chfrag_cont(rx_desc->nbuf)) {	   \
*5113495bSYour Name			if (!dp_rx_buffer_pool_refill(soc, ebuf_head,	   \
*5113495bSYour Name						      rx_desc->pool_id))   \
*5113495bSYour Name				DP_RX_MERGE_TWO_LIST(head, tail,	   \
*5113495bSYour Name						     ebuf_head, ebuf_tail);\
*5113495bSYour Name			ebuf_head = NULL;				   \
*5113495bSYour Name			ebuf_tail = NULL;				   \
*5113495bSYour Name		}							   \
*5113495bSYour Name	} while (0)
*5113495bSYour Name#else
*5113495bSYour Name#define DP_RX_PROCESS_NBUF(soc, head, tail, ebuf_head, ebuf_tail, rx_desc) \
*5113495bSYour Name	DP_RX_LIST_APPEND(head, tail, rx_desc->nbuf)
*5113495bSYour Name#endif /* WLAN_FEATURE_RX_PREALLOC_BUFFER_POOL */
*5113495bSYour Name
*5113495bSYour Name#endif /* QCA_HOST_MODE_WIFI_DISABLED */
*5113495bSYour Name
*5113495bSYour Name#ifdef WLAN_FEATURE_PKT_CAPTURE_V2
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_deliver_to_pkt_capture() - deliver rx packet to packet capture
*5113495bSYour Name * @soc : dp_soc handle
*5113495bSYour Name * @pdev: dp_pdev handle
*5113495bSYour Name * @peer_id: peer_id of the peer for which completion came
*5113495bSYour Name * @is_offload:
*5113495bSYour Name * @netbuf: Buffer pointer
*5113495bSYour Name *
*5113495bSYour Name * This function is used to deliver rx packet to packet capture
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_deliver_to_pkt_capture(struct dp_soc *soc,  struct dp_pdev *pdev,
*5113495bSYour Name				  uint16_t peer_id, uint32_t is_offload,
*5113495bSYour Name				  qdf_nbuf_t netbuf);
*5113495bSYour Namevoid dp_rx_deliver_to_pkt_capture_no_peer(struct dp_soc *soc, qdf_nbuf_t nbuf,
*5113495bSYour Name					  uint32_t is_offload);
*5113495bSYour Name#else
*5113495bSYour Namestatic inline void
*5113495bSYour Namedp_rx_deliver_to_pkt_capture(struct dp_soc *soc,  struct dp_pdev *pdev,
*5113495bSYour Name			     uint16_t peer_id, uint32_t is_offload,
*5113495bSYour Name			     qdf_nbuf_t netbuf)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline void
*5113495bSYour Namedp_rx_deliver_to_pkt_capture_no_peer(struct dp_soc *soc, qdf_nbuf_t nbuf,
*5113495bSYour Name				     uint32_t is_offload)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#ifndef QCA_HOST_MODE_WIFI_DISABLED
*5113495bSYour Name#ifdef FEATURE_MEC
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_mcast_echo_check() - check if the mcast pkt is a loop
*5113495bSYour Name *			      back on same vap or a different vap.
*5113495bSYour Name * @soc: core DP main context
*5113495bSYour Name * @peer: dp peer handler
*5113495bSYour Name * @rx_tlv_hdr: start of the rx TLV header
*5113495bSYour Name * @nbuf: pkt buffer
*5113495bSYour Name *
*5113495bSYour Name * Return: bool (true if it is a looped back pkt else false)
*5113495bSYour Name *
*5113495bSYour Name */
*5113495bSYour Namebool dp_rx_mcast_echo_check(struct dp_soc *soc,
*5113495bSYour Name			    struct dp_txrx_peer *peer,
*5113495bSYour Name			    uint8_t *rx_tlv_hdr,
*5113495bSYour Name			    qdf_nbuf_t nbuf);
*5113495bSYour Name#else
*5113495bSYour Namestatic inline bool dp_rx_mcast_echo_check(struct dp_soc *soc,
*5113495bSYour Name					  struct dp_txrx_peer *peer,
*5113495bSYour Name					  uint8_t *rx_tlv_hdr,
*5113495bSYour Name					  qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name#endif /* FEATURE_MEC */
*5113495bSYour Name#endif /* QCA_HOST_MODE_WIFI_DISABLED */
*5113495bSYour Name
*5113495bSYour Name#ifdef RECEIVE_OFFLOAD
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_fill_gro_info() - Fill GRO info from RX TLV into skb->cb
*5113495bSYour Name * @soc: DP SOC handle
*5113495bSYour Name * @rx_tlv: RX TLV received for the msdu
*5113495bSYour Name * @msdu: msdu for which GRO info needs to be filled
*5113495bSYour Name * @rx_ol_pkt_cnt: counter to be incremented for GRO eligible packets
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_fill_gro_info(struct dp_soc *soc, uint8_t *rx_tlv,
*5113495bSYour Name			 qdf_nbuf_t msdu, uint32_t *rx_ol_pkt_cnt);
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_fill_gro_info(struct dp_soc *soc, uint8_t *rx_tlv,
*5113495bSYour Name			 qdf_nbuf_t msdu, uint32_t *rx_ol_pkt_cnt)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_msdu_stats_update() - update per msdu stats.
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @nbuf: pointer to the first msdu of an amsdu.
*5113495bSYour Name * @rx_tlv_hdr: pointer to the start of RX TLV headers.
*5113495bSYour Name * @txrx_peer: pointer to the txrx peer object.
*5113495bSYour Name * @ring_id: reo dest ring number on which pkt is reaped.
*5113495bSYour Name * @tid_stats: per tid rx stats.
*5113495bSYour Name * @link_id: link Id on which packet is received
*5113495bSYour Name *
*5113495bSYour Name * update all the per msdu stats for that nbuf.
*5113495bSYour Name *
*5113495bSYour Name * Return: void
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_msdu_stats_update(struct dp_soc *soc, qdf_nbuf_t nbuf,
*5113495bSYour Name			     uint8_t *rx_tlv_hdr,
*5113495bSYour Name			     struct dp_txrx_peer *txrx_peer,
*5113495bSYour Name			     uint8_t ring_id,
*5113495bSYour Name			     struct cdp_tid_rx_stats *tid_stats,
*5113495bSYour Name			     uint8_t link_id);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_deliver_to_stack_no_peer() - try deliver rx data even if
*5113495bSYour Name *				      no corresbonding peer found
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @nbuf: pkt skb pointer
*5113495bSYour Name *
*5113495bSYour Name * This function will try to deliver some RX special frames to stack
*5113495bSYour Name * even there is no peer matched found. for instance, LFR case, some
*5113495bSYour Name * eapol data will be sent to host before peer_map done.
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_deliver_to_stack_no_peer(struct dp_soc *soc, qdf_nbuf_t nbuf);
*5113495bSYour Name
*5113495bSYour Name#ifndef QCA_HOST_MODE_WIFI_DISABLED
*5113495bSYour Name#ifdef DP_RX_DROP_RAW_FRM
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_is_raw_frame_dropped() - if raw frame nbuf, free and drop
*5113495bSYour Name * @nbuf: pkt skb pointer
*5113495bSYour Name *
*5113495bSYour Name * Return: true - raw frame, dropped
*5113495bSYour Name *	   false - not raw frame, do nothing
*5113495bSYour Name */
*5113495bSYour Namebool dp_rx_is_raw_frame_dropped(qdf_nbuf_t nbuf);
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_is_raw_frame_dropped(qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#ifdef WLAN_DP_FEATURE_SW_LATENCY_MGR
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_update_stats() - Update soc level rx packet count
*5113495bSYour Name * @soc: DP soc handle
*5113495bSYour Name * @nbuf: nbuf received
*5113495bSYour Name *
*5113495bSYour Name * Return: none
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_update_stats(struct dp_soc *soc, qdf_nbuf_t nbuf);
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_update_stats(struct dp_soc *soc, qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_cksum_offload() - set the nbuf checksum as defined by hardware.
*5113495bSYour Name * @pdev: dp_pdev handle
*5113495bSYour Name * @nbuf: pointer to the first msdu of an amsdu.
*5113495bSYour Name * @rx_tlv_hdr: pointer to the start of RX TLV headers.
*5113495bSYour Name *
*5113495bSYour Name * The ipsumed field of the skb is set based on whether HW validated the
*5113495bSYour Name * IP/TCP/UDP checksum.
*5113495bSYour Name *
*5113495bSYour Name * Return: void
*5113495bSYour Name */
*5113495bSYour Name#if defined(MAX_PDEV_CNT) && (MAX_PDEV_CNT == 1)
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_cksum_offload(struct dp_pdev *pdev,
*5113495bSYour Name			 qdf_nbuf_t nbuf,
*5113495bSYour Name			 uint8_t *rx_tlv_hdr)
*5113495bSYour Name{
*5113495bSYour Name	qdf_nbuf_rx_cksum_t cksum = {0};
*5113495bSYour Name	//TODO - Move this to ring desc api
*5113495bSYour Name	//HAL_RX_MSDU_DESC_IP_CHKSUM_FAIL_GET
*5113495bSYour Name	//HAL_RX_MSDU_DESC_TCP_UDP_CHKSUM_FAIL_GET
*5113495bSYour Name	uint32_t ip_csum_err, tcp_udp_csum_er;
*5113495bSYour Name
*5113495bSYour Name	hal_rx_tlv_csum_err_get(pdev->soc->hal_soc, rx_tlv_hdr, &ip_csum_err,
*5113495bSYour Name				&tcp_udp_csum_er);
*5113495bSYour Name
*5113495bSYour Name	if (qdf_nbuf_is_ipv4_pkt(nbuf)) {
*5113495bSYour Name		if (qdf_likely(!ip_csum_err)) {
*5113495bSYour Name			cksum.l4_result = QDF_NBUF_RX_CKSUM_TCP_UDP_UNNECESSARY;
*5113495bSYour Name			if (qdf_nbuf_is_ipv4_udp_pkt(nbuf) ||
*5113495bSYour Name			    qdf_nbuf_is_ipv4_tcp_pkt(nbuf)) {
*5113495bSYour Name				if (qdf_likely(!tcp_udp_csum_er)) {
*5113495bSYour Name					cksum.csum_level = 1;
*5113495bSYour Name				} else {
*5113495bSYour Name					cksum.l4_result =
*5113495bSYour Name						QDF_NBUF_RX_CKSUM_NONE;
*5113495bSYour Name					DP_STATS_INC(pdev,
*5113495bSYour Name						     err.tcp_udp_csum_err, 1);
*5113495bSYour Name				}
*5113495bSYour Name			}
*5113495bSYour Name		} else {
*5113495bSYour Name			DP_STATS_INC(pdev, err.ip_csum_err, 1);
*5113495bSYour Name		}
*5113495bSYour Name	} else if (qdf_nbuf_is_ipv6_udp_pkt(nbuf) ||
*5113495bSYour Name		   qdf_nbuf_is_ipv6_tcp_pkt(nbuf)) {
*5113495bSYour Name		if (qdf_likely(!ip_csum_err && !tcp_udp_csum_er))
*5113495bSYour Name			cksum.l4_result = QDF_NBUF_RX_CKSUM_TCP_UDP_UNNECESSARY;
*5113495bSYour Name		else if (ip_csum_err) {
*5113495bSYour Name			DP_STATS_INC(pdev, err.ip_csum_err, 1);
*5113495bSYour Name		} else {
*5113495bSYour Name			DP_STATS_INC(pdev, err.tcp_udp_csum_err, 1);
*5113495bSYour Name		}
*5113495bSYour Name	}
*5113495bSYour Name
*5113495bSYour Name	qdf_nbuf_set_rx_cksum(nbuf, &cksum);
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_cksum_offload(struct dp_pdev *pdev,
*5113495bSYour Name			 qdf_nbuf_t nbuf,
*5113495bSYour Name			 uint8_t *rx_tlv_hdr)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name#endif /* QCA_HOST_MODE_WIFI_DISABLED */
*5113495bSYour Name
*5113495bSYour Name#ifdef WLAN_FEATURE_RX_SOFTIRQ_TIME_LIMIT
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_reap_loop_pkt_limit_hit(struct dp_soc *soc, int num_reaped,
*5113495bSYour Name				   int max_reap_limit)
*5113495bSYour Name{
*5113495bSYour Name	bool limit_hit = false;
*5113495bSYour Name
*5113495bSYour Name	limit_hit =
*5113495bSYour Name		(num_reaped >= max_reap_limit) ? true : false;
*5113495bSYour Name
*5113495bSYour Name	if (limit_hit)
*5113495bSYour Name		DP_STATS_INC(soc, rx.reap_loop_pkt_limit_hit, 1)
*5113495bSYour Name
*5113495bSYour Name	return limit_hit;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_enable_eol_data_check(struct dp_soc *soc)
*5113495bSYour Name{
*5113495bSYour Name	return soc->wlan_cfg_ctx->rx_enable_eol_data_check;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline int dp_rx_get_loop_pkt_limit(struct dp_soc *soc)
*5113495bSYour Name{
*5113495bSYour Name	struct wlan_cfg_dp_soc_ctxt *cfg = soc->wlan_cfg_ctx;
*5113495bSYour Name
*5113495bSYour Name	return cfg->rx_reap_loop_pkt_limit;
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_reap_loop_pkt_limit_hit(struct dp_soc *soc, int num_reaped,
*5113495bSYour Name				   int max_reap_limit)
*5113495bSYour Name{
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_enable_eol_data_check(struct dp_soc *soc)
*5113495bSYour Name{
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline int dp_rx_get_loop_pkt_limit(struct dp_soc *soc)
*5113495bSYour Name{
*5113495bSYour Name	return 0;
*5113495bSYour Name}
*5113495bSYour Name#endif /* WLAN_FEATURE_RX_SOFTIRQ_TIME_LIMIT */
*5113495bSYour Name
*5113495bSYour Namevoid dp_rx_update_stats(struct dp_soc *soc, qdf_nbuf_t nbuf);
*5113495bSYour Name
*5113495bSYour Namestatic inline uint16_t
*5113495bSYour Namedp_rx_peer_metadata_peer_id_get(struct dp_soc *soc, uint32_t peer_metadata)
*5113495bSYour Name{
*5113495bSYour Name	return soc->arch_ops.dp_rx_peer_metadata_peer_id_get(soc,
*5113495bSYour Name							     peer_metadata);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name#if defined(WLAN_FEATURE_11BE_MLO) && defined(DP_MLO_LINK_STATS_SUPPORT)
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_nbuf_set_link_id_from_tlv() - Set link id in nbuf cb
*5113495bSYour Name * @soc: SOC handle
*5113495bSYour Name * @tlv_hdr: rx tlv header
*5113495bSYour Name * @nbuf: nbuf pointer
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namestatic inline void
*5113495bSYour Namedp_rx_nbuf_set_link_id_from_tlv(struct dp_soc *soc, uint8_t *tlv_hdr,
*5113495bSYour Name				qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name	uint32_t peer_metadata = hal_rx_tlv_peer_meta_data_get(soc->hal_soc,
*5113495bSYour Name								tlv_hdr);
*5113495bSYour Name
*5113495bSYour Name	if (soc->arch_ops.dp_rx_peer_set_link_id)
*5113495bSYour Name		soc->arch_ops.dp_rx_peer_set_link_id(nbuf, peer_metadata);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_set_nbuf_band() - Set band info in nbuf cb
*5113495bSYour Name * @nbuf: nbuf pointer
*5113495bSYour Name * @txrx_peer: txrx_peer pointer
*5113495bSYour Name * @link_id: Peer Link ID
*5113495bSYour Name *
*5113495bSYour Name * Returen: None
*5113495bSYour Name */
*5113495bSYour Namestatic inline void
*5113495bSYour Namedp_rx_set_nbuf_band(qdf_nbuf_t nbuf, struct dp_txrx_peer *txrx_peer,
*5113495bSYour Name		    uint8_t link_id)
*5113495bSYour Name{
*5113495bSYour Name	qdf_nbuf_rx_set_band(nbuf, txrx_peer->band[link_id]);
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline void
*5113495bSYour Namedp_rx_nbuf_set_link_id_from_tlv(struct dp_soc *soc, uint8_t *tlv_hdr,
*5113495bSYour Name				qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline void
*5113495bSYour Namedp_rx_set_nbuf_band(qdf_nbuf_t nbuf, struct dp_txrx_peer *txrx_peer,
*5113495bSYour Name		    uint8_t link_id)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_pool_init_generic() - Generic Rx descriptors initialization
*5113495bSYour Name * @soc: SOC handle
*5113495bSYour Name * @rx_desc_pool: pointer to RX descriptor pool
*5113495bSYour Name * @pool_id: pool ID
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS dp_rx_desc_pool_init_generic(struct dp_soc *soc,
*5113495bSYour Name				  struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name				  uint32_t pool_id);
*5113495bSYour Name
*5113495bSYour Namevoid dp_rx_desc_pool_deinit_generic(struct dp_soc *soc,
*5113495bSYour Name				  struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name				  uint32_t pool_id);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_pkt_tracepoints_enabled() - Get the state of rx pkt tracepoint
*5113495bSYour Name *
*5113495bSYour Name * Return: True if any rx pkt tracepoint is enabled else false
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namebool dp_rx_pkt_tracepoints_enabled(void)
*5113495bSYour Name{
*5113495bSYour Name	return (qdf_trace_dp_rx_tcp_pkt_enabled() ||
*5113495bSYour Name		qdf_trace_dp_rx_udp_pkt_enabled() ||
*5113495bSYour Name		qdf_trace_dp_rx_pkt_enabled());
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name#ifdef FEATURE_DIRECT_LINK
*5113495bSYour Name/**
*5113495bSYour Name * dp_audio_smmu_map()- Map memory region into Audio SMMU CB
*5113495bSYour Name * @qdf_dev: pointer to QDF device structure
*5113495bSYour Name * @paddr: physical address
*5113495bSYour Name * @iova: DMA address
*5113495bSYour Name * @size: memory region size
*5113495bSYour Name *
*5113495bSYour Name * Return: 0 on success else failure code
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Nameint dp_audio_smmu_map(qdf_device_t qdf_dev, qdf_dma_addr_t paddr,
*5113495bSYour Name		      qdf_dma_addr_t iova, qdf_size_t size)
*5113495bSYour Name{
*5113495bSYour Name	return pld_audio_smmu_map(qdf_dev->dev, paddr, iova, size);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_audio_smmu_unmap()- Remove memory region mapping from Audio SMMU CB
*5113495bSYour Name * @qdf_dev: pointer to QDF device structure
*5113495bSYour Name * @iova: DMA address
*5113495bSYour Name * @size: memory region size
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_audio_smmu_unmap(qdf_device_t qdf_dev, qdf_dma_addr_t iova,
*5113495bSYour Name			 qdf_size_t size)
*5113495bSYour Name{
*5113495bSYour Name	pld_audio_smmu_unmap(qdf_dev->dev, iova, size);
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour Nameint dp_audio_smmu_map(qdf_device_t qdf_dev, qdf_dma_addr_t paddr,
*5113495bSYour Name		      qdf_dma_addr_t iova, qdf_size_t size)
*5113495bSYour Name{
*5113495bSYour Name	return 0;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_audio_smmu_unmap(qdf_device_t qdf_dev, qdf_dma_addr_t iova,
*5113495bSYour Name			 qdf_size_t size)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#if defined(QCA_DP_RX_NBUF_NO_MAP_UNMAP) && !defined(BUILD_X86)
*5113495bSYour Namestatic inline
*5113495bSYour NameQDF_STATUS dp_pdev_rx_buffers_attach_simple(struct dp_soc *soc, uint32_t mac_id,
*5113495bSYour Name					    struct dp_srng *rxdma_srng,
*5113495bSYour Name					    struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name					    uint32_t num_req_buffers)
*5113495bSYour Name{
*5113495bSYour Name	return __dp_pdev_rx_buffers_no_map_attach(soc, mac_id,
*5113495bSYour Name						  rxdma_srng,
*5113495bSYour Name						  rx_desc_pool,
*5113495bSYour Name						  num_req_buffers);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_buffers_replenish_simple(struct dp_soc *soc, uint32_t mac_id,
*5113495bSYour Name				    struct dp_srng *rxdma_srng,
*5113495bSYour Name				    struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name				    uint32_t num_req_buffers,
*5113495bSYour Name				    union dp_rx_desc_list_elem_t **desc_list,
*5113495bSYour Name				    union dp_rx_desc_list_elem_t **tail)
*5113495bSYour Name{
*5113495bSYour Name	__dp_rx_buffers_no_map_replenish(soc, mac_id, rxdma_srng, rx_desc_pool,
*5113495bSYour Name					 num_req_buffers, desc_list, tail);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_comp2refill_replenish(struct dp_soc *soc, uint32_t mac_id,
*5113495bSYour Name				 struct dp_srng *rxdma_srng,
*5113495bSYour Name				 struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name				 uint32_t num_req_buffers,
*5113495bSYour Name				 union dp_rx_desc_list_elem_t **desc_list,
*5113495bSYour Name				 union dp_rx_desc_list_elem_t **tail)
*5113495bSYour Name{
*5113495bSYour Name	__dp_rx_comp2refill_replenish(soc, mac_id, rxdma_srng, rx_desc_pool,
*5113495bSYour Name				      num_req_buffers, desc_list, tail);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_buffers_lt_replenish_simple(struct dp_soc *soc, uint32_t mac_id,
*5113495bSYour Name				       struct dp_srng *rxdma_srng,
*5113495bSYour Name				       struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name				       bool force_replenish)
*5113495bSYour Name{
*5113495bSYour Name	__dp_rx_buffers_no_map_lt_replenish(soc, mac_id, rxdma_srng,
*5113495bSYour Name					    rx_desc_pool,
*5113495bSYour Name					    force_replenish);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name#ifndef QCA_DP_NBUF_FAST_RECYCLE_CHECK
*5113495bSYour Namestatic inline
*5113495bSYour Nameqdf_dma_addr_t dp_rx_nbuf_sync_no_dsb(struct dp_soc *dp_soc,
*5113495bSYour Name				      qdf_nbuf_t nbuf,
*5113495bSYour Name				      uint32_t buf_size)
*5113495bSYour Name{
*5113495bSYour Name	qdf_nbuf_dma_inv_range_no_dsb((void *)nbuf->data,
*5113495bSYour Name				      (void *)(nbuf->data + buf_size));
*5113495bSYour Name
*5113495bSYour Name	return (qdf_dma_addr_t)qdf_mem_virt_to_phys(nbuf->data);
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Name#define L3_HEADER_PAD 2
*5113495bSYour Namestatic inline
*5113495bSYour Nameqdf_dma_addr_t dp_rx_nbuf_sync_no_dsb(struct dp_soc *dp_soc,
*5113495bSYour Name				      qdf_nbuf_t nbuf,
*5113495bSYour Name				      uint32_t buf_size)
*5113495bSYour Name{
*5113495bSYour Name	if (nbuf->recycled_for_ds)
*5113495bSYour Name		return (qdf_dma_addr_t)qdf_mem_virt_to_phys(nbuf->data);
*5113495bSYour Name
*5113495bSYour Name	if (unlikely(!nbuf->fast_recycled)) {
*5113495bSYour Name		qdf_nbuf_dma_inv_range_no_dsb((void *)nbuf->data,
*5113495bSYour Name					      (void *)(nbuf->data + buf_size));
*5113495bSYour Name	}
*5113495bSYour Name
*5113495bSYour Name	DP_STATS_INC(dp_soc, rx.fast_recycled, 1);
*5113495bSYour Name	nbuf->fast_recycled = 0;
*5113495bSYour Name
*5113495bSYour Name	return (qdf_dma_addr_t)qdf_mem_virt_to_phys(nbuf->data);
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Nameqdf_dma_addr_t dp_rx_nbuf_sync(struct dp_soc *dp_soc,
*5113495bSYour Name			       qdf_nbuf_t nbuf,
*5113495bSYour Name			       uint32_t buf_size)
*5113495bSYour Name{
*5113495bSYour Name	qdf_nbuf_dma_inv_range((void *)nbuf->data,
*5113495bSYour Name			       (void *)(nbuf->data + buf_size));
*5113495bSYour Name
*5113495bSYour Name	return (qdf_dma_addr_t)qdf_mem_virt_to_phys(nbuf->data);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name#if !defined(SPECULATIVE_READ_DISABLED)
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_nbuf_unmap(struct dp_soc *soc,
*5113495bSYour Name		      struct dp_rx_desc *rx_desc,
*5113495bSYour Name		      uint8_t reo_ring_num)
*5113495bSYour Name{
*5113495bSYour Name	struct rx_desc_pool *rx_desc_pool;
*5113495bSYour Name	qdf_nbuf_t nbuf;
*5113495bSYour Name
*5113495bSYour Name	rx_desc_pool = &soc->rx_desc_buf[rx_desc->pool_id];
*5113495bSYour Name	nbuf = rx_desc->nbuf;
*5113495bSYour Name
*5113495bSYour Name	qdf_nbuf_dma_inv_range_no_dsb((void *)nbuf->data,
*5113495bSYour Name			       (void *)(nbuf->data + rx_desc_pool->buf_size));
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_nbuf_unmap_pool(struct dp_soc *soc,
*5113495bSYour Name			   struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name			   qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name	qdf_nbuf_dma_inv_range((void *)nbuf->data,
*5113495bSYour Name			       (void *)(nbuf->data + rx_desc_pool->buf_size));
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_nbuf_unmap(struct dp_soc *soc,
*5113495bSYour Name		      struct dp_rx_desc *rx_desc,
*5113495bSYour Name		      uint8_t reo_ring_num)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_nbuf_unmap_pool(struct dp_soc *soc,
*5113495bSYour Name			   struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name			   qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_per_core_stats_update(struct dp_soc *soc, uint8_t ring_id,
*5113495bSYour Name				 uint32_t bufs_reaped)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Nameqdf_nbuf_t dp_rx_nbuf_alloc(struct dp_soc *soc,
*5113495bSYour Name			    struct rx_desc_pool *rx_desc_pool)
*5113495bSYour Name{
*5113495bSYour Name	return qdf_nbuf_alloc_simple(soc->osdev, rx_desc_pool->buf_size,
*5113495bSYour Name				     RX_BUFFER_RESERVATION,
*5113495bSYour Name				     rx_desc_pool->buf_alignment, FALSE);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid  dp_rx_nbuf_free(qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name	qdf_nbuf_free_simple(nbuf);
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour NameQDF_STATUS dp_pdev_rx_buffers_attach_simple(struct dp_soc *soc, uint32_t mac_id,
*5113495bSYour Name					    struct dp_srng *rxdma_srng,
*5113495bSYour Name					    struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name					    uint32_t num_req_buffers)
*5113495bSYour Name{
*5113495bSYour Name	return dp_pdev_rx_buffers_attach(soc, mac_id,
*5113495bSYour Name					 rxdma_srng,
*5113495bSYour Name					 rx_desc_pool,
*5113495bSYour Name					 num_req_buffers);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_buffers_replenish_simple(struct dp_soc *soc, uint32_t mac_id,
*5113495bSYour Name				    struct dp_srng *rxdma_srng,
*5113495bSYour Name				    struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name				    uint32_t num_req_buffers,
*5113495bSYour Name				    union dp_rx_desc_list_elem_t **desc_list,
*5113495bSYour Name				    union dp_rx_desc_list_elem_t **tail)
*5113495bSYour Name{
*5113495bSYour Name	dp_rx_buffers_replenish(soc, mac_id, rxdma_srng, rx_desc_pool,
*5113495bSYour Name				num_req_buffers, desc_list, tail, false);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_buffers_lt_replenish_simple(struct dp_soc *soc, uint32_t mac_id,
*5113495bSYour Name				       struct dp_srng *rxdma_srng,
*5113495bSYour Name				       struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name				       bool force_replenish)
*5113495bSYour Name{
*5113495bSYour Name	union dp_rx_desc_list_elem_t *desc_list = NULL;
*5113495bSYour Name	union dp_rx_desc_list_elem_t *tail = NULL;
*5113495bSYour Name
*5113495bSYour Name	__dp_rx_buffers_replenish(soc, mac_id, rxdma_srng, rx_desc_pool,
*5113495bSYour Name				  0, &desc_list, &tail, false, force_replenish,
*5113495bSYour Name				  __func__);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Nameqdf_dma_addr_t dp_rx_nbuf_sync_no_dsb(struct dp_soc *dp_soc,
*5113495bSYour Name				      qdf_nbuf_t nbuf,
*5113495bSYour Name				      uint32_t buf_size)
*5113495bSYour Name{
*5113495bSYour Name	return (qdf_dma_addr_t)NULL;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Nameqdf_dma_addr_t dp_rx_nbuf_sync(struct dp_soc *dp_soc,
*5113495bSYour Name			       qdf_nbuf_t nbuf,
*5113495bSYour Name			       uint32_t buf_size)
*5113495bSYour Name{
*5113495bSYour Name	return (qdf_dma_addr_t)NULL;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_nbuf_unmap(struct dp_soc *soc,
*5113495bSYour Name		      struct dp_rx_desc *rx_desc,
*5113495bSYour Name		      uint8_t reo_ring_num)
*5113495bSYour Name{
*5113495bSYour Name	struct rx_desc_pool *rx_desc_pool;
*5113495bSYour Name
*5113495bSYour Name	rx_desc_pool = &soc->rx_desc_buf[rx_desc->pool_id];
*5113495bSYour Name	dp_ipa_reo_ctx_buf_mapping_lock(soc, reo_ring_num);
*5113495bSYour Name
*5113495bSYour Name	dp_audio_smmu_unmap(soc->osdev,
*5113495bSYour Name			    QDF_NBUF_CB_PADDR(rx_desc->nbuf),
*5113495bSYour Name			    rx_desc_pool->buf_size);
*5113495bSYour Name
*5113495bSYour Name	dp_ipa_handle_rx_buf_smmu_mapping(soc, rx_desc->nbuf,
*5113495bSYour Name					  rx_desc_pool->buf_size,
*5113495bSYour Name					  false, __func__, __LINE__);
*5113495bSYour Name	qdf_nbuf_unmap_nbytes_single(soc->osdev, rx_desc->nbuf,
*5113495bSYour Name				     QDF_DMA_FROM_DEVICE,
*5113495bSYour Name				     rx_desc_pool->buf_size);
*5113495bSYour Name	rx_desc->unmapped = 1;
*5113495bSYour Name
*5113495bSYour Name	dp_ipa_reo_ctx_buf_mapping_unlock(soc, reo_ring_num);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_nbuf_unmap_pool(struct dp_soc *soc,
*5113495bSYour Name			   struct rx_desc_pool *rx_desc_pool,
*5113495bSYour Name			   qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name	dp_audio_smmu_unmap(soc->osdev, QDF_NBUF_CB_PADDR(nbuf),
*5113495bSYour Name			    rx_desc_pool->buf_size);
*5113495bSYour Name	dp_ipa_handle_rx_buf_smmu_mapping(soc, nbuf,
*5113495bSYour Name					  rx_desc_pool->buf_size,
*5113495bSYour Name					  false, __func__, __LINE__);
*5113495bSYour Name	qdf_nbuf_unmap_nbytes_single(soc->osdev, nbuf, QDF_DMA_FROM_DEVICE,
*5113495bSYour Name				     rx_desc_pool->buf_size);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_per_core_stats_update(struct dp_soc *soc, uint8_t ring_id,
*5113495bSYour Name				 uint32_t bufs_reaped)
*5113495bSYour Name{
*5113495bSYour Name	int cpu_id = qdf_get_cpu();
*5113495bSYour Name
*5113495bSYour Name	DP_STATS_INC(soc, rx.ring_packets[cpu_id][ring_id], bufs_reaped);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Nameqdf_nbuf_t dp_rx_nbuf_alloc(struct dp_soc *soc,
*5113495bSYour Name			    struct rx_desc_pool *rx_desc_pool)
*5113495bSYour Name{
*5113495bSYour Name	return qdf_nbuf_alloc(soc->osdev, rx_desc_pool->buf_size,
*5113495bSYour Name			      RX_BUFFER_RESERVATION,
*5113495bSYour Name			      rx_desc_pool->buf_alignment, FALSE);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_nbuf_free(qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name	qdf_nbuf_free(nbuf);
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#ifdef DP_UMAC_HW_RESET_SUPPORT
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_reuse() - Reuse the rx descriptors to fill the rx buf ring
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @nbuf_list: nbuf list for delayed free
*5113495bSYour Name *
*5113495bSYour Name * Return: void
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_desc_reuse(struct dp_soc *soc, qdf_nbuf_t *nbuf_list);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_delayed_free() - Delayed free of the rx descs
*5113495bSYour Name *
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name *
*5113495bSYour Name * Return: void
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_desc_delayed_free(struct dp_soc *soc);
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_get_txrx_peer_and_vdev() - Get txrx peer and vdev from peer id
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @nbuf : pointer to the first msdu of an amsdu.
*5113495bSYour Name * @peer_id : Peer id of the peer
*5113495bSYour Name * @txrx_ref_handle : Buffer to save the handle for txrx peer's reference
*5113495bSYour Name * @pkt_capture_offload : Flag indicating if pkt capture offload is needed
*5113495bSYour Name * @vdev : Buffer to hold pointer to vdev
*5113495bSYour Name * @rx_pdev : Buffer to hold pointer to rx pdev
*5113495bSYour Name * @dsf : delay stats flag
*5113495bSYour Name * @old_tid : Old tid
*5113495bSYour Name *
*5113495bSYour Name * Get txrx peer and vdev from peer id
*5113495bSYour Name *
*5113495bSYour Name * Return: Pointer to txrx peer
*5113495bSYour Name */
*5113495bSYour Namestatic inline struct dp_txrx_peer *
*5113495bSYour Namedp_rx_get_txrx_peer_and_vdev(struct dp_soc *soc,
*5113495bSYour Name			     qdf_nbuf_t nbuf,
*5113495bSYour Name			     uint16_t peer_id,
*5113495bSYour Name			     dp_txrx_ref_handle *txrx_ref_handle,
*5113495bSYour Name			     bool pkt_capture_offload,
*5113495bSYour Name			     struct dp_vdev **vdev,
*5113495bSYour Name			     struct dp_pdev **rx_pdev,
*5113495bSYour Name			     uint32_t *dsf,
*5113495bSYour Name			     uint32_t *old_tid)
*5113495bSYour Name{
*5113495bSYour Name	struct dp_txrx_peer *txrx_peer = NULL;
*5113495bSYour Name
*5113495bSYour Name	txrx_peer = dp_txrx_peer_get_ref_by_id(soc, peer_id, txrx_ref_handle,
*5113495bSYour Name					       DP_MOD_ID_RX);
*5113495bSYour Name
*5113495bSYour Name	if (qdf_likely(txrx_peer)) {
*5113495bSYour Name		*vdev = txrx_peer->vdev;
*5113495bSYour Name	} else {
*5113495bSYour Name		nbuf->next = NULL;
*5113495bSYour Name		dp_rx_deliver_to_pkt_capture_no_peer(soc, nbuf,
*5113495bSYour Name						     pkt_capture_offload);
*5113495bSYour Name		if (!pkt_capture_offload)
*5113495bSYour Name			dp_rx_deliver_to_stack_no_peer(soc, nbuf);
*5113495bSYour Name
*5113495bSYour Name		goto end;
*5113495bSYour Name	}
*5113495bSYour Name
*5113495bSYour Name	if (qdf_unlikely(!(*vdev))) {
*5113495bSYour Name		qdf_nbuf_free(nbuf);
*5113495bSYour Name		DP_STATS_INC(soc, rx.err.invalid_vdev, 1);
*5113495bSYour Name		goto end;
*5113495bSYour Name	}
*5113495bSYour Name
*5113495bSYour Name	*rx_pdev = (*vdev)->pdev;
*5113495bSYour Name	*dsf = (*rx_pdev)->delay_stats_flag;
*5113495bSYour Name	*old_tid = 0xff;
*5113495bSYour Name
*5113495bSYour Nameend:
*5113495bSYour Name	return txrx_peer;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline QDF_STATUS
*5113495bSYour Namedp_peer_rx_reorder_queue_setup(struct dp_soc *soc, struct dp_peer *peer,
*5113495bSYour Name			       uint32_t tid_bitmap, uint32_t ba_window_size)
*5113495bSYour Name{
*5113495bSYour Name	return soc->arch_ops.dp_peer_rx_reorder_queue_setup(soc,
*5113495bSYour Name							    peer, tid_bitmap,
*5113495bSYour Name							    ba_window_size);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_nbuf_list_deliver(struct dp_soc *soc,
*5113495bSYour Name			     struct dp_vdev *vdev,
*5113495bSYour Name			     struct dp_txrx_peer *txrx_peer,
*5113495bSYour Name			     uint16_t peer_id,
*5113495bSYour Name			     uint8_t pkt_capture_offload,
*5113495bSYour Name			     qdf_nbuf_t deliver_list_head,
*5113495bSYour Name			     qdf_nbuf_t deliver_list_tail)
*5113495bSYour Name{
*5113495bSYour Name	qdf_nbuf_t nbuf, next;
*5113495bSYour Name
*5113495bSYour Name	if (qdf_likely(deliver_list_head)) {
*5113495bSYour Name		if (qdf_likely(txrx_peer)) {
*5113495bSYour Name			dp_rx_deliver_to_pkt_capture(soc, vdev->pdev, peer_id,
*5113495bSYour Name						     pkt_capture_offload,
*5113495bSYour Name						     deliver_list_head);
*5113495bSYour Name			if (!pkt_capture_offload)
*5113495bSYour Name				dp_rx_deliver_to_stack(soc, vdev, txrx_peer,
*5113495bSYour Name						       deliver_list_head,
*5113495bSYour Name						       deliver_list_tail);
*5113495bSYour Name		} else {
*5113495bSYour Name			nbuf = deliver_list_head;
*5113495bSYour Name			while (nbuf) {
*5113495bSYour Name				next = nbuf->next;
*5113495bSYour Name				nbuf->next = NULL;
*5113495bSYour Name				dp_rx_deliver_to_stack_no_peer(soc, nbuf);
*5113495bSYour Name				nbuf = next;
*5113495bSYour Name			}
*5113495bSYour Name		}
*5113495bSYour Name	}
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name#ifdef DP_TX_RX_TPUT_SIMULATE
*5113495bSYour Name/*
*5113495bSYour Name * Change this macro value to simulate different RX T-put,
*5113495bSYour Name * if OTA is 100 Mbps, to simulate 200 Mbps, then multiplication factor
*5113495bSYour Name * is 2, set macro value as 1 (multiplication factor - 1).
*5113495bSYour Name */
*5113495bSYour Name#define DP_RX_PKTS_DUPLICATE_CNT 0
*5113495bSYour Namestatic inline
*5113495bSYour Namevoid dp_rx_nbuf_list_dup_deliver(struct dp_soc *soc,
*5113495bSYour Name				 struct dp_vdev *vdev,
*5113495bSYour Name				 struct dp_txrx_peer *txrx_peer,
*5113495bSYour Name				 uint16_t peer_id,
*5113495bSYour Name				 uint8_t pkt_capture_offload,
*5113495bSYour Name				 qdf_nbuf_t ori_list_head,
*5113495bSYour Name				 qdf_nbuf_t ori_list_tail)
*5113495bSYour Name{
*5113495bSYour Name	qdf_nbuf_t new_skb = NULL;
*5113495bSYour Name	qdf_nbuf_t new_list_head = NULL;
*5113495bSYour Name	qdf_nbuf_t new_list_tail = NULL;
*5113495bSYour Name	qdf_nbuf_t nbuf = NULL;
*5113495bSYour Name	int i;
*5113495bSYour Name
*5113495bSYour Name	for (i = 0; i < DP_RX_PKTS_DUPLICATE_CNT; i++) {
*5113495bSYour Name		nbuf = ori_list_head;
*5113495bSYour Name		new_list_head = NULL;
*5113495bSYour Name		new_list_tail = NULL;
*5113495bSYour Name
*5113495bSYour Name		while (nbuf) {
*5113495bSYour Name			new_skb = qdf_nbuf_copy(nbuf);
*5113495bSYour Name			if (qdf_likely(new_skb))
*5113495bSYour Name				DP_RX_LIST_APPEND(new_list_head,
*5113495bSYour Name						  new_list_tail,
*5113495bSYour Name						  new_skb);
*5113495bSYour Name			else
*5113495bSYour Name				dp_err("copy skb failed");
*5113495bSYour Name
*5113495bSYour Name			nbuf = qdf_nbuf_next(nbuf);
*5113495bSYour Name		}
*5113495bSYour Name
*5113495bSYour Name		/* deliver the copied nbuf list */
*5113495bSYour Name		dp_rx_nbuf_list_deliver(soc, vdev, txrx_peer, peer_id,
*5113495bSYour Name					pkt_capture_offload,
*5113495bSYour Name					new_list_head,
*5113495bSYour Name					new_list_tail);
*5113495bSYour Name	}
*5113495bSYour Name
*5113495bSYour Name	/* deliver the original skb_list */
*5113495bSYour Name	dp_rx_nbuf_list_deliver(soc, vdev, txrx_peer, peer_id,
*5113495bSYour Name				pkt_capture_offload,
*5113495bSYour Name				ori_list_head,
*5113495bSYour Name				ori_list_tail);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name#define DP_RX_DELIVER_TO_STACK dp_rx_nbuf_list_dup_deliver
*5113495bSYour Name
*5113495bSYour Name#else /* !DP_TX_RX_TPUT_SIMULATE */
*5113495bSYour Name
*5113495bSYour Name#define DP_RX_DELIVER_TO_STACK dp_rx_nbuf_list_deliver
*5113495bSYour Name
*5113495bSYour Name#endif /* DP_TX_RX_TPUT_SIMULATE */
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_wbm_desc_nbuf_sanity_check() - Add sanity check to for WBM rx_desc
*5113495bSYour Name *                                      paddr corruption
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @hal_ring_hdl: opaque pointer to the HAL Rx Error Ring
*5113495bSYour Name * @ring_desc: REO ring descriptor
*5113495bSYour Name * @rx_desc: Rx descriptor
*5113495bSYour Name *
*5113495bSYour Name * Return: NONE
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS dp_rx_wbm_desc_nbuf_sanity_check(struct dp_soc *soc,
*5113495bSYour Name					    hal_ring_handle_t hal_ring_hdl,
*5113495bSYour Name					    hal_ring_desc_t ring_desc,
*5113495bSYour Name					    struct dp_rx_desc *rx_desc);
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_is_sg_formation_required() - Check if sg formation is required
*5113495bSYour Name * @info: WBM desc info
*5113495bSYour Name *
*5113495bSYour Name * Return: True if sg is required else false
*5113495bSYour Name */
*5113495bSYour Namebool dp_rx_is_sg_formation_required(struct hal_wbm_err_desc_info *info);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_err_tlv_invalidate() - Invalidate network buffer
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @nbuf: Network buffer to invalidate
*5113495bSYour Name *
*5113495bSYour Name * Return: NONE
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_err_tlv_invalidate(struct dp_soc *soc,
*5113495bSYour Name			      qdf_nbuf_t nbuf);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_wbm_sg_list_last_msdu_war() - war for HW issue
*5113495bSYour Name * @soc: DP SOC handle
*5113495bSYour Name *
*5113495bSYour Name * This is a war for HW issue where length is only valid in last msdu
*5113495bSYour Name *
*5113495bSYour Name * Return: NONE
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_wbm_sg_list_last_msdu_war(struct dp_soc *soc);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_check_pkt_len() - Check for pktlen validity
*5113495bSYour Name * @soc: DP SOC context
*5113495bSYour Name * @pkt_len: computed length of the pkt from caller in bytes
*5113495bSYour Name *
*5113495bSYour Name * Return: true if pktlen > RX_BUFFER_SIZE, else return false
*5113495bSYour Name *
*5113495bSYour Name */
*5113495bSYour Namebool dp_rx_check_pkt_len(struct dp_soc *soc, uint32_t pkt_len);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_null_q_handle_invalid_peer_id_exception() - to find exception
*5113495bSYour Name * @soc: pointer to dp_soc struct
*5113495bSYour Name * @pool_id: Pool id to find dp_pdev
*5113495bSYour Name * @rx_tlv_hdr: TLV header of received packet
*5113495bSYour Name * @nbuf: SKB
*5113495bSYour Name *
*5113495bSYour Name * In certain types of packets if peer_id is not correct then
*5113495bSYour Name * driver may not be able find. Try finding peer by addr_2 of
*5113495bSYour Name * received MPDU. If you find the peer then most likely sw_peer_id &
*5113495bSYour Name * ast_idx is corrupted.
*5113495bSYour Name *
*5113495bSYour Name * Return: True if you find the peer by addr_2 of received MPDU else false
*5113495bSYour Name */
*5113495bSYour Namebool dp_rx_null_q_handle_invalid_peer_id_exception(struct dp_soc *soc,
*5113495bSYour Name						   uint8_t pool_id,
*5113495bSYour Name						   uint8_t *rx_tlv_hdr,
*5113495bSYour Name						   qdf_nbuf_t nbuf);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_err_drop_3addr_mcast() - Check if feature drop_3ddr_mcast is enabled
*5113495bSYour Name *                                If so, drop the multicast frame.
*5113495bSYour Name * @vdev: datapath vdev
*5113495bSYour Name * @rx_tlv_hdr: TLV header
*5113495bSYour Name *
*5113495bSYour Name * Return: true if packet is to be dropped,
*5113495bSYour Name *         false, if packet is not dropped.
*5113495bSYour Name */
*5113495bSYour Namebool dp_rx_err_drop_3addr_mcast(struct dp_vdev *vdev, uint8_t *rx_tlv_hdr);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_deliver_to_osif_stack() - function to deliver rx pkts to stack
*5113495bSYour Name * @soc: DP soc
*5113495bSYour Name * @vdev: DP vdev handle
*5113495bSYour Name * @txrx_peer: pointer to the txrx_peer object
*5113495bSYour Name * @nbuf: skb list head
*5113495bSYour Name * @tail: skb list tail
*5113495bSYour Name * @is_eapol: eapol pkt check
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namevoid
*5113495bSYour Namedp_rx_deliver_to_osif_stack(struct dp_soc *soc,
*5113495bSYour Name			    struct dp_vdev *vdev,
*5113495bSYour Name			    struct dp_txrx_peer *txrx_peer,
*5113495bSYour Name			    qdf_nbuf_t nbuf,
*5113495bSYour Name			    qdf_nbuf_t tail,
*5113495bSYour Name			    bool is_eapol);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_set_wbm_err_info_in_nbuf() - function to set wbm err info in nbuf
*5113495bSYour Name * @soc: DP soc
*5113495bSYour Name * @nbuf: skb list head
*5113495bSYour Name * @wbm_err: wbm error info details
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namevoid
*5113495bSYour Namedp_rx_set_wbm_err_info_in_nbuf(struct dp_soc *soc,
*5113495bSYour Name			       qdf_nbuf_t nbuf,
*5113495bSYour Name			       union hal_wbm_err_info_u wbm_err);
*5113495bSYour Name
*5113495bSYour Name#if defined(WLAN_MAX_PDEVS) && (WLAN_MAX_PDEVS == 1)
*5113495bSYour Namestatic inline uint8_t
*5113495bSYour Namedp_rx_get_defrag_bm_id(struct dp_soc *soc)
*5113495bSYour Name{
*5113495bSYour Name	return DP_DEFRAG_RBM(soc->wbm_sw0_bm_id);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline uint8_t
*5113495bSYour Namedp_rx_get_rx_bm_id(struct dp_soc *soc)
*5113495bSYour Name{
*5113495bSYour Name	return DP_WBM2SW_RBM(soc->wbm_sw0_bm_id);
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline uint8_t
*5113495bSYour Namedp_rx_get_rx_bm_id(struct dp_soc *soc)
*5113495bSYour Name{
*5113495bSYour Name	struct wlan_cfg_dp_soc_ctxt *cfg_ctx = soc->wlan_cfg_ctx;
*5113495bSYour Name	uint8_t wbm2_sw_rx_rel_ring_id;
*5113495bSYour Name
*5113495bSYour Name	wbm2_sw_rx_rel_ring_id = wlan_cfg_get_rx_rel_ring_id(cfg_ctx);
*5113495bSYour Name
*5113495bSYour Name	return HAL_RX_BUF_RBM_SW_BM(soc->wbm_sw0_bm_id,
*5113495bSYour Name				    wbm2_sw_rx_rel_ring_id);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline uint8_t
*5113495bSYour Namedp_rx_get_defrag_bm_id(struct dp_soc *soc)
*5113495bSYour Name{
*5113495bSYour Name	return dp_rx_get_rx_bm_id(soc);
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#ifndef WLAN_SOFTUMAC_SUPPORT /* WLAN_SOFTUMAC_SUPPORT */
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_dump_info_and_assert() - dump RX Ring info and Rx Desc info
*5113495bSYour Name *
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @hal_ring_hdl: opaque pointer to the HAL Rx Ring, which will be serviced
*5113495bSYour Name * @ring_desc: opaque pointer to the RX ring descriptor
*5113495bSYour Name * @rx_desc: host rx descriptor
*5113495bSYour Name *
*5113495bSYour Name * Return: void
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_dump_info_and_assert(struct dp_soc *soc,
*5113495bSYour Name				hal_ring_handle_t hal_ring_hdl,
*5113495bSYour Name				hal_ring_desc_t ring_desc,
*5113495bSYour Name				struct dp_rx_desc *rx_desc);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_link_desc_return() - Return a MPDU link descriptor to HW
*5113495bSYour Name *			      (WBM), following error handling
*5113495bSYour Name *
*5113495bSYour Name * @soc: core DP main context
*5113495bSYour Name * @ring_desc: opaque pointer to the REO error ring descriptor
*5113495bSYour Name * @bm_action: put to idle_list or release to msdu_list
*5113495bSYour Name *
*5113495bSYour Name * Return: QDF_STATUS_E_FAILURE for failure else QDF_STATUS_SUCCESS
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS
*5113495bSYour Namedp_rx_link_desc_return(struct dp_soc *soc, hal_ring_desc_t ring_desc,
*5113495bSYour Name		       uint8_t bm_action);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_link_desc_return_by_addr - Return a MPDU link descriptor to
*5113495bSYour Name *					(WBM) by address
*5113495bSYour Name *
*5113495bSYour Name * @soc: core DP main context
*5113495bSYour Name * @link_desc_addr: link descriptor addr
*5113495bSYour Name * @bm_action: put to idle_list or release to msdu_list
*5113495bSYour Name *
*5113495bSYour Name * Return: QDF_STATUS_E_FAILURE for failure else QDF_STATUS_SUCCESS
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS
*5113495bSYour Namedp_rx_link_desc_return_by_addr(struct dp_soc *soc,
*5113495bSYour Name			       hal_buff_addrinfo_t link_desc_addr,
*5113495bSYour Name			       uint8_t bm_action);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rxdma_err_process() - RxDMA error processing functionality
*5113495bSYour Name * @int_ctx: pointer to DP interrupt context
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @mac_id: mac id which is one of 3 mac_ids
*5113495bSYour Name * @quota: No. of units (packets) that can be serviced in one shot.
*5113495bSYour Name *
*5113495bSYour Name * Return: num of buffers processed
*5113495bSYour Name */
*5113495bSYour Nameuint32_t
*5113495bSYour Namedp_rxdma_err_process(struct dp_intr *int_ctx, struct dp_soc *soc,
*5113495bSYour Name		     uint32_t mac_id, uint32_t quota);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_process_rxdma_err() - Function to deliver rxdma unencrypted_err
*5113495bSYour Name *			       frames to OS or wifi parse errors.
*5113495bSYour Name * @soc: core DP main context
*5113495bSYour Name * @nbuf: buffer pointer
*5113495bSYour Name * @rx_tlv_hdr: start of rx tlv header
*5113495bSYour Name * @txrx_peer: peer reference
*5113495bSYour Name * @err_code: rxdma err code
*5113495bSYour Name * @mac_id: mac_id which is one of 3 mac_ids(Assuming mac_id and
*5113495bSYour Name * pool_id has same mapping)
*5113495bSYour Name * @link_id: link Id on which the packet is received
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namevoid
*5113495bSYour Namedp_rx_process_rxdma_err(struct dp_soc *soc, qdf_nbuf_t nbuf,
*5113495bSYour Name			uint8_t *rx_tlv_hdr, struct dp_txrx_peer *txrx_peer,
*5113495bSYour Name			uint8_t err_code, uint8_t mac_id, uint8_t link_id);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_process_mic_error(): Function to pass mic error indication to umac
*5113495bSYour Name * @soc: core DP main context
*5113495bSYour Name * @nbuf: buffer pointer
*5113495bSYour Name * @rx_tlv_hdr: start of rx tlv header
*5113495bSYour Name * @txrx_peer: txrx peer handle
*5113495bSYour Name *
*5113495bSYour Name * Return: void
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_process_mic_error(struct dp_soc *soc, qdf_nbuf_t nbuf,
*5113495bSYour Name			     uint8_t *rx_tlv_hdr,
*5113495bSYour Name			     struct dp_txrx_peer *txrx_peer);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_2k_jump_handle() - Function to handle 2k jump exception
*5113495bSYour Name *                        on WBM ring
*5113495bSYour Name * @soc: core DP main context
*5113495bSYour Name * @nbuf: buffer pointer
*5113495bSYour Name * @rx_tlv_hdr: start of rx tlv header
*5113495bSYour Name * @peer_id: peer id of first msdu
*5113495bSYour Name * @tid: Tid for which exception occurred
*5113495bSYour Name *
*5113495bSYour Name * This function handles 2k jump violations arising out
*5113495bSYour Name * of receiving aggregates in non BA case. This typically
*5113495bSYour Name * may happen if aggregates are received on a QOS enabled TID
*5113495bSYour Name * while Rx window size is still initialized to value of 2. Or
*5113495bSYour Name * it may also happen if negotiated window size is 1 but peer
*5113495bSYour Name * sends aggregates.
*5113495bSYour Name */
*5113495bSYour Namevoid dp_2k_jump_handle(struct dp_soc *soc, qdf_nbuf_t nbuf, uint8_t *rx_tlv_hdr,
*5113495bSYour Name		       uint16_t peer_id, uint8_t tid);
*5113495bSYour Name
*5113495bSYour Name#ifndef QCA_HOST_MODE_WIFI_DISABLED
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_err_process() - Processes error frames routed to REO error ring
*5113495bSYour Name * @int_ctx: pointer to DP interrupt context
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @hal_ring_hdl: opaque pointer to the HAL Rx Error Ring, which will be serviced
*5113495bSYour Name * @quota: No. of units (packets) that can be serviced in one shot.
*5113495bSYour Name *
*5113495bSYour Name * This function implements error processing and top level demultiplexer
*5113495bSYour Name * for all the frames routed to REO error ring.
*5113495bSYour Name *
*5113495bSYour Name * Return: uint32_t: No. of elements processed
*5113495bSYour Name */
*5113495bSYour Nameuint32_t dp_rx_err_process(struct dp_intr *int_ctx, struct dp_soc *soc,
*5113495bSYour Name			   hal_ring_handle_t hal_ring_hdl, uint32_t quota);
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_wbm_err_process() - Processes error frames routed to WBM release ring
*5113495bSYour Name * @int_ctx: pointer to DP interrupt context
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @hal_ring_hdl: opaque pointer to the HAL Rx Error Ring, which will be
*5113495bSYour Name *                serviced
*5113495bSYour Name * @quota: No. of units (packets) that can be serviced in one shot.
*5113495bSYour Name *
*5113495bSYour Name * This function implements error processing and top level demultiplexer
*5113495bSYour Name * for all the frames routed to WBM2HOST sw release ring.
*5113495bSYour Name *
*5113495bSYour Name * Return: uint32_t: No. of elements processed
*5113495bSYour Name */
*5113495bSYour Nameuint32_t
*5113495bSYour Namedp_rx_wbm_err_process(struct dp_intr *int_ctx, struct dp_soc *soc,
*5113495bSYour Name		      hal_ring_handle_t hal_ring_hdl, uint32_t quota);
*5113495bSYour Name
*5113495bSYour Name#ifdef QCA_OL_RX_LOCK_LESS_ACCESS
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_srng_access_start()- Wrapper function to log access start of a hal ring
*5113495bSYour Name * @int_ctx: pointer to DP interrupt context
*5113495bSYour Name * @soc: DP soc structure pointer
*5113495bSYour Name * @hal_ring_hdl: HAL ring handle
*5113495bSYour Name *
*5113495bSYour Name * Return: 0 on success; error on failure
*5113495bSYour Name */
*5113495bSYour Namestatic inline int
*5113495bSYour Namedp_rx_srng_access_start(struct dp_intr *int_ctx, struct dp_soc *soc,
*5113495bSYour Name			hal_ring_handle_t hal_ring_hdl)
*5113495bSYour Name{
*5113495bSYour Name	return hal_srng_access_start_unlocked(soc->hal_soc, hal_ring_hdl);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_srng_access_end()- Wrapper function to log access end of a hal ring
*5113495bSYour Name * @int_ctx: pointer to DP interrupt context
*5113495bSYour Name * @soc: DP soc structure pointer
*5113495bSYour Name * @hal_ring_hdl: HAL ring handle
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namestatic inline void
*5113495bSYour Namedp_rx_srng_access_end(struct dp_intr *int_ctx, struct dp_soc *soc,
*5113495bSYour Name		      hal_ring_handle_t hal_ring_hdl)
*5113495bSYour Name{
*5113495bSYour Name	hal_srng_access_end_unlocked(soc->hal_soc, hal_ring_hdl);
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline int
*5113495bSYour Namedp_rx_srng_access_start(struct dp_intr *int_ctx, struct dp_soc *soc,
*5113495bSYour Name			hal_ring_handle_t hal_ring_hdl)
*5113495bSYour Name{
*5113495bSYour Name	return dp_srng_access_start(int_ctx, soc, hal_ring_hdl);
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline void
*5113495bSYour Namedp_rx_srng_access_end(struct dp_intr *int_ctx, struct dp_soc *soc,
*5113495bSYour Name		      hal_ring_handle_t hal_ring_hdl)
*5113495bSYour Name{
*5113495bSYour Name	dp_srng_access_end(int_ctx, soc, hal_ring_hdl);
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#ifdef RX_DESC_SANITY_WAR
*5113495bSYour NameQDF_STATUS dp_rx_desc_sanity(struct dp_soc *soc, hal_soc_handle_t hal_soc,
*5113495bSYour Name			     hal_ring_handle_t hal_ring_hdl,
*5113495bSYour Name			     hal_ring_desc_t ring_desc,
*5113495bSYour Name			     struct dp_rx_desc *rx_desc);
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour NameQDF_STATUS dp_rx_desc_sanity(struct dp_soc *soc, hal_soc_handle_t hal_soc,
*5113495bSYour Name			     hal_ring_handle_t hal_ring_hdl,
*5113495bSYour Name			     hal_ring_desc_t ring_desc,
*5113495bSYour Name			     struct dp_rx_desc *rx_desc)
*5113495bSYour Name{
*5113495bSYour Name	return QDF_STATUS_SUCCESS;
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#ifdef RX_DESC_DEBUG_CHECK
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_desc_nbuf_sanity_check - Add sanity check to catch REO rx_desc paddr
*5113495bSYour Name *				  corruption
*5113495bSYour Name * @soc: DP SoC context
*5113495bSYour Name * @ring_desc: REO ring descriptor
*5113495bSYour Name * @rx_desc: Rx descriptor
*5113495bSYour Name *
*5113495bSYour Name * Return: NONE
*5113495bSYour Name */
*5113495bSYour NameQDF_STATUS dp_rx_desc_nbuf_sanity_check(struct dp_soc *soc,
*5113495bSYour Name					hal_ring_desc_t ring_desc,
*5113495bSYour Name					struct dp_rx_desc *rx_desc);
*5113495bSYour Name#else
*5113495bSYour Namestatic inline
*5113495bSYour NameQDF_STATUS dp_rx_desc_nbuf_sanity_check(struct dp_soc *soc,
*5113495bSYour Name					hal_ring_desc_t ring_desc,
*5113495bSYour Name					struct dp_rx_desc *rx_desc)
*5113495bSYour Name{
*5113495bSYour Name	return QDF_STATUS_SUCCESS;
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name#endif /* QCA_HOST_MODE_WIFI_DISABLED */
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_wbm_sg_list_reset() - Initialize sg list
*5113495bSYour Name *
*5113495bSYour Name * This api should be called at soc init and afterevery sg processing.
*5113495bSYour Name *@soc: DP SOC handle
*5113495bSYour Name */
*5113495bSYour Namestatic inline void dp_rx_wbm_sg_list_reset(struct dp_soc *soc)
*5113495bSYour Name{
*5113495bSYour Name	if (soc) {
*5113495bSYour Name		soc->wbm_sg_param.wbm_is_first_msdu_in_sg = false;
*5113495bSYour Name		soc->wbm_sg_param.wbm_sg_nbuf_head = NULL;
*5113495bSYour Name		soc->wbm_sg_param.wbm_sg_nbuf_tail = NULL;
*5113495bSYour Name		soc->wbm_sg_param.wbm_sg_desc_msdu_len = 0;
*5113495bSYour Name	}
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_wbm_sg_list_deinit() - De-initialize sg list
*5113495bSYour Name *
*5113495bSYour Name * This api should be called in down path, to avoid any leak.
*5113495bSYour Name *@soc: DP SOC handle
*5113495bSYour Name */
*5113495bSYour Namestatic inline void dp_rx_wbm_sg_list_deinit(struct dp_soc *soc)
*5113495bSYour Name{
*5113495bSYour Name	if (soc) {
*5113495bSYour Name		if (soc->wbm_sg_param.wbm_sg_nbuf_head)
*5113495bSYour Name			qdf_nbuf_list_free(soc->wbm_sg_param.wbm_sg_nbuf_head);
*5113495bSYour Name
*5113495bSYour Name		dp_rx_wbm_sg_list_reset(soc);
*5113495bSYour Name	}
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_link_desc_refill_duplicate_check() - check if link desc duplicate
*5113495bSYour Name *					      to refill
*5113495bSYour Name * @soc: DP SOC handle
*5113495bSYour Name * @buf_info: the last link desc buf info
*5113495bSYour Name * @ring_buf_info: current buf address pointor including link desc
*5113495bSYour Name *
*5113495bSYour Name * Return: none.
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_link_desc_refill_duplicate_check(
*5113495bSYour Name				struct dp_soc *soc,
*5113495bSYour Name				struct hal_buf_info *buf_info,
*5113495bSYour Name				hal_buff_addrinfo_t ring_buf_info);
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_srng_get_num_pending() - get number of pending entries
*5113495bSYour Name * @hal_soc: hal soc opaque pointer
*5113495bSYour Name * @hal_ring_hdl: opaque pointer to the HAL Rx Ring
*5113495bSYour Name * @num_entries: number of entries in the hal_ring.
*5113495bSYour Name * @near_full: pointer to a boolean. This is set if ring is near full.
*5113495bSYour Name *
*5113495bSYour Name * The function returns the number of entries in a destination ring which are
*5113495bSYour Name * yet to be reaped. The function also checks if the ring is near full.
*5113495bSYour Name * If more than half of the ring needs to be reaped, the ring is considered
*5113495bSYour Name * approaching full.
*5113495bSYour Name * The function uses hal_srng_dst_num_valid_locked to get the number of valid
*5113495bSYour Name * entries. It should not be called within a SRNG lock. HW pointer value is
*5113495bSYour Name * synced into cached_hp.
*5113495bSYour Name *
*5113495bSYour Name * Return: Number of pending entries if any
*5113495bSYour Name */
*5113495bSYour Nameuint32_t dp_rx_srng_get_num_pending(hal_soc_handle_t hal_soc,
*5113495bSYour Name				    hal_ring_handle_t hal_ring_hdl,
*5113495bSYour Name				    uint32_t num_entries,
*5113495bSYour Name				    bool *near_full);
*5113495bSYour Name
*5113495bSYour Name#ifdef WLAN_FEATURE_DP_RX_RING_HISTORY
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_ring_record_entry() - Record an entry into the rx ring history.
*5113495bSYour Name * @soc: Datapath soc structure
*5113495bSYour Name * @ring_num: REO ring number
*5113495bSYour Name * @ring_desc: REO ring descriptor
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_ring_record_entry(struct dp_soc *soc, uint8_t ring_num,
*5113495bSYour Name			     hal_ring_desc_t ring_desc);
*5113495bSYour Name#else
*5113495bSYour Namestatic inline void
*5113495bSYour Namedp_rx_ring_record_entry(struct dp_soc *soc, uint8_t ring_num,
*5113495bSYour Name			hal_ring_desc_t ring_desc)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#ifdef QCA_SUPPORT_WDS_EXTENDED
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_is_list_ready() - Make different lists for 4-address
*5113495bSYour Name *			   and 3-address frames
*5113495bSYour Name * @nbuf_head: skb list head
*5113495bSYour Name * @vdev: vdev
*5113495bSYour Name * @txrx_peer : txrx_peer
*5113495bSYour Name * @peer_id: peer id of new received frame
*5113495bSYour Name * @vdev_id: vdev_id of new received frame
*5113495bSYour Name *
*5113495bSYour Name * Return: true if peer_ids are different.
*5113495bSYour Name */
*5113495bSYour Namestatic inline bool
*5113495bSYour Namedp_rx_is_list_ready(qdf_nbuf_t nbuf_head,
*5113495bSYour Name		    struct dp_vdev *vdev,
*5113495bSYour Name		    struct dp_txrx_peer *txrx_peer,
*5113495bSYour Name		    uint16_t peer_id,
*5113495bSYour Name		    uint8_t vdev_id)
*5113495bSYour Name{
*5113495bSYour Name	if (nbuf_head && txrx_peer && txrx_peer->peer_id != peer_id)
*5113495bSYour Name		return true;
*5113495bSYour Name
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_deliver_to_stack_ext() - Deliver to netdev per sta
*5113495bSYour Name * @soc: core txrx main context
*5113495bSYour Name * @vdev: vdev
*5113495bSYour Name * @txrx_peer: txrx peer
*5113495bSYour Name * @nbuf_head: skb list head
*5113495bSYour Name *
*5113495bSYour Name * Return: true if packet is delivered to netdev per STA.
*5113495bSYour Name */
*5113495bSYour Namebool
*5113495bSYour Namedp_rx_deliver_to_stack_ext(struct dp_soc *soc, struct dp_vdev *vdev,
*5113495bSYour Name			   struct dp_txrx_peer *txrx_peer,
*5113495bSYour Name			   qdf_nbuf_t nbuf_head);
*5113495bSYour Name#else
*5113495bSYour Namestatic inline bool
*5113495bSYour Namedp_rx_is_list_ready(qdf_nbuf_t nbuf_head,
*5113495bSYour Name		    struct dp_vdev *vdev,
*5113495bSYour Name		    struct dp_txrx_peer *txrx_peer,
*5113495bSYour Name		    uint16_t peer_id,
*5113495bSYour Name		    uint8_t vdev_id)
*5113495bSYour Name{
*5113495bSYour Name	if (nbuf_head && vdev && (vdev->vdev_id != vdev_id))
*5113495bSYour Name		return true;
*5113495bSYour Name
*5113495bSYour Name	return false;
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#ifdef WLAN_FEATURE_MARK_FIRST_WAKEUP_PACKET
*5113495bSYour Name/**
*5113495bSYour Name * dp_rx_mark_first_packet_after_wow_wakeup - get first packet after wow wakeup
*5113495bSYour Name * @pdev: pointer to dp_pdev structure
*5113495bSYour Name * @rx_tlv: pointer to rx_pkt_tlvs structure
*5113495bSYour Name * @nbuf: pointer to skb buffer
*5113495bSYour Name *
*5113495bSYour Name * Return: None
*5113495bSYour Name */
*5113495bSYour Namevoid dp_rx_mark_first_packet_after_wow_wakeup(struct dp_pdev *pdev,
*5113495bSYour Name					      uint8_t *rx_tlv,
*5113495bSYour Name					      qdf_nbuf_t nbuf);
*5113495bSYour Name#else
*5113495bSYour Namestatic inline void
*5113495bSYour Namedp_rx_mark_first_packet_after_wow_wakeup(struct dp_pdev *pdev,
*5113495bSYour Name					 uint8_t *rx_tlv,
*5113495bSYour Name					 qdf_nbuf_t nbuf)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name#endif
*5113495bSYour Name
*5113495bSYour Name#else
*5113495bSYour Namestatic inline QDF_STATUS
*5113495bSYour Namedp_rx_link_desc_return_by_addr(struct dp_soc *soc,
*5113495bSYour Name			       hal_buff_addrinfo_t link_desc_addr,
*5113495bSYour Name			       uint8_t bm_action)
*5113495bSYour Name{
*5113495bSYour Name	return QDF_STATUS_SUCCESS;
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline void dp_rx_wbm_sg_list_reset(struct dp_soc *soc)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline void dp_rx_wbm_sg_list_deinit(struct dp_soc *soc)
*5113495bSYour Name{
*5113495bSYour Name}
*5113495bSYour Name
*5113495bSYour Namestatic inline uint32_t
*5113495bSYour Namedp_rxdma_err_process(struct dp_intr *int_ctx, struct dp_soc *soc,
*5113495bSYour Name		     uint32_t mac_id, uint32_t quota)
*5113495bSYour Name{
*5113495bSYour Name	return 0;
*5113495bSYour Name}
*5113495bSYour Name#endif /* WLAN_SOFTUMAC_SUPPORT */
*5113495bSYour Name
*5113495bSYour Name#ifndef CONFIG_NBUF_AP_PLATFORM
*5113495bSYour Namestatic inline uint8_t
*5113495bSYour Namedp_rx_get_stats_arr_idx_from_link_id(qdf_nbuf_t nbuf,
*5113495bSYour Name				     struct dp_txrx_peer *txrx_peer)
*5113495bSYour Name{
*5113495bSYour Name	return QDF_NBUF_CB_RX_LOGICAL_LINK_ID(nbuf);
*5113495bSYour Name}
*5113495bSYour Name#else
*5113495bSYour Namestatic inline uint8_t
*5113495bSYour Namedp_rx_get_stats_arr_idx_from_link_id(qdf_nbuf_t nbuf,
*5113495bSYour Name				     struct dp_txrx_peer *txrx_peer)
*5113495bSYour Name{
*5113495bSYour Name	uint8_t link_id = 0;
*5113495bSYour Name
*5113495bSYour Name	link_id = (QDF_NBUF_CB_RX_HW_LINK_ID(nbuf) + 1);
*5113495bSYour Name	if (link_id > DP_MAX_MLO_LINKS) {
*5113495bSYour Name		link_id = 0;
*5113495bSYour Name		DP_PEER_PER_PKT_STATS_INC(txrx_peer,
*5113495bSYour Name					  rx.inval_link_id_pkt_cnt,
*5113495bSYour Name					  1, link_id);
*5113495bSYour Name	}
*5113495bSYour Name
*5113495bSYour Name	return link_id;
*5113495bSYour Name}
*5113495bSYour Name#endif /* CONFIG_NBUF_AP_PLATFORM */
*5113495bSYour Name
*5113495bSYour Name#endif /* _DP_RX_H */