From patchwork Tue May 28 13:48:39 2024 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Alexander Lobakin X-Patchwork-Id: 13676769 X-Patchwork-Delegate: kuba@kernel.org Received: from mgamail.intel.com (mgamail.intel.com [192.198.163.15]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by smtp.subspace.kernel.org (Postfix) with ESMTPS id 51A6516F29C; Tue, 28 May 2024 13:49:35 +0000 (UTC) Authentication-Results: smtp.subspace.kernel.org; arc=none smtp.client-ip=192.198.163.15 ARC-Seal: i=1; a=rsa-sha256; d=subspace.kernel.org; s=arc-20240116; t=1716904177; cv=none; b=g6AevCbHOgnXkw8CVnA7eMi7WbmH1s///ZON+8fcCh98IDZ3m69PwEK9I+u8Bkr1sYz6htesN6HmZOZ3LhjRsz67QsBkbbIr24QK7OIypyn25KjIZZrnRm3OS/a9bpwraRLbpZ63bEDb+zH+OOWuOT3YYXg7tXIxMvmylVU+jAA= ARC-Message-Signature: i=1; a=rsa-sha256; d=subspace.kernel.org; s=arc-20240116; t=1716904177; c=relaxed/simple; bh=Gwn9DRaLVr3DjUwx2XcyIso8ZY8dlTvLvkRtPJ/U2bQ=; h=From:To:Cc:Subject:Date:Message-ID:In-Reply-To:References: MIME-Version; b=a694LbEDsMxzlLYWWIquP2VUNlwHDngRfsB9iiAUkLASe0L2tvL+fSfLEL0JuK325FkqksNMnwOelHUCANnugrmpVFe+8k3Hn+KOgKCeqXy1rsXXhgse5oM/EeplfNMc520ClJrI5DpvZiE1J4kKuvBrJtngn0a8WlMBAEtt1/U= ARC-Authentication-Results: i=1; smtp.subspace.kernel.org; dmarc=pass (p=none dis=none) header.from=intel.com; spf=pass smtp.mailfrom=intel.com; dkim=pass (2048-bit key) header.d=intel.com header.i=@intel.com header.b=DpZO8F/m; arc=none smtp.client-ip=192.198.163.15 Authentication-Results: smtp.subspace.kernel.org; dmarc=pass (p=none dis=none) header.from=intel.com Authentication-Results: smtp.subspace.kernel.org; spf=pass smtp.mailfrom=intel.com Authentication-Results: smtp.subspace.kernel.org; dkim=pass (2048-bit key) header.d=intel.com header.i=@intel.com header.b="DpZO8F/m" DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/simple; d=intel.com; i=@intel.com; q=dns/txt; s=Intel; t=1716904176; x=1748440176; h=from:to:cc:subject:date:message-id:in-reply-to: references:mime-version:content-transfer-encoding; bh=Gwn9DRaLVr3DjUwx2XcyIso8ZY8dlTvLvkRtPJ/U2bQ=; b=DpZO8F/mRzZ3uBTd50ovChvgQS1hdlb2tAxrZJsUNrT6CbSJaP78zVKf YfWPHHHe26WAJJlBGcQwFsaqZcg7UrJIaHXKBSnnN6CIpPgUCY8+iOO55 si8m57Q37pypdpuje3DJ5ILFqQ+FYTI8SrnjvFBiTOPVqfcWsXsV7k8l7 8C7vrTy6ZoocSPnsTklVSxenzw++pfKJfVeMNVP0ZsKD0zA8VjwtAoQUt pZxy9Itr+VbyEMI/k+lPS9OdS/bvWgWNm/o7omHVsZCJSYM7bkK4Sz0n4 yRV8BkWIv/8N/HyjJ11vfJRMubLcvxHeo9RvWGDvh3Noa9vfUGybmodQu A==; X-CSE-ConnectionGUID: /jYrewWsSdaiUeSOitS2Dw== X-CSE-MsgGUID: WHXAfEqmQx+56zJEdNLeiQ== X-IronPort-AV: E=McAfee;i="6600,9927,11085"; a="13437020" X-IronPort-AV: E=Sophos;i="6.08,195,1712646000"; d="scan'208";a="13437020" Received: from orviesa008.jf.intel.com ([10.64.159.148]) by fmvoesa109.fm.intel.com with ESMTP/TLS/ECDHE-RSA-AES256-GCM-SHA384; 28 May 2024 06:49:35 -0700 X-CSE-ConnectionGUID: cUcvibo6TQqvkHDtS5jRhg== X-CSE-MsgGUID: LDxLa49uQXyMdb5IdsZMAA== X-ExtLoop1: 1 X-IronPort-AV: E=Sophos;i="6.08,195,1712646000"; d="scan'208";a="35577431" Received: from newjersey.igk.intel.com ([10.102.20.203]) by orviesa008.jf.intel.com with ESMTP; 28 May 2024 06:49:32 -0700 From: Alexander Lobakin To: intel-wired-lan@lists.osuosl.org Cc: Alexander Lobakin , Tony Nguyen , "David S. Miller" , Eric Dumazet , Jakub Kicinski , Paolo Abeni , Mina Almasry , nex.sw.ncis.osdt.itp.upstreaming@intel.com, netdev@vger.kernel.org, linux-kernel@vger.kernel.org, Przemek Kitszel Subject: [PATCH iwl-next 05/12] idpf: strictly assert cachelines of queue and queue vector structures Date: Tue, 28 May 2024 15:48:39 +0200 Message-ID: <20240528134846.148890-6-aleksander.lobakin@intel.com> X-Mailer: git-send-email 2.45.1 In-Reply-To: <20240528134846.148890-1-aleksander.lobakin@intel.com> References: <20240528134846.148890-1-aleksander.lobakin@intel.com> Precedence: bulk X-Mailing-List: netdev@vger.kernel.org List-Id: List-Subscribe: List-Unsubscribe: MIME-Version: 1.0 X-Patchwork-Delegate: kuba@kernel.org Now that the queue and queue vector structures are separated and laid out optimally, group the fields as read-mostly, read-write, and cold cachelines and add size assertions to make sure new features won't push something out of its place and provoke perf regression. Despite looking innocent, this gives up to 2% of perf bump on Rx. Reviewed-by: Przemek Kitszel Signed-off-by: Alexander Lobakin Reviewed-by: Jacob Keller --- drivers/net/ethernet/intel/idpf/idpf_txrx.h | 443 +++++++++++--------- 1 file changed, 250 insertions(+), 193 deletions(-) diff --git a/drivers/net/ethernet/intel/idpf/idpf_txrx.h b/drivers/net/ethernet/intel/idpf/idpf_txrx.h index 9e4ba0aaf3ab..731e2a73def5 100644 --- a/drivers/net/ethernet/intel/idpf/idpf_txrx.h +++ b/drivers/net/ethernet/intel/idpf/idpf_txrx.h @@ -6,6 +6,7 @@ #include +#include #include #include #include @@ -504,59 +505,70 @@ struct idpf_intr_reg { /** * struct idpf_q_vector + * @read_mostly: CL group with rarely written hot fields * @vport: Vport back pointer - * @napi: napi handler - * @v_idx: Vector index - * @intr_reg: See struct idpf_intr_reg + * @num_rxq: Number of RX queues * @num_txq: Number of TX queues + * @num_bufq: Number of buffer queues * @num_complq: number of completion queues + * @rx: Array of RX queues to service * @tx: Array of TX queues to service + * @bufq: Array of buffer queues to service * @complq: array of completion queues + * @intr_reg: See struct idpf_intr_reg + * @read_write: CL group with both read/write hot fields + * @napi: napi handler + * @total_events: Number of interrupts processed * @tx_dim: Data for TX net_dim algorithm * @tx_itr_value: TX interrupt throttling rate * @tx_intr_mode: Dynamic ITR or not * @tx_itr_idx: TX ITR index - * @num_rxq: Number of RX queues - * @rx: Array of RX queues to service * @rx_dim: Data for RX net_dim algorithm * @rx_itr_value: RX interrupt throttling rate * @rx_intr_mode: Dynamic ITR or not * @rx_itr_idx: RX ITR index - * @num_bufq: Number of buffer queues - * @bufq: Array of buffer queues to service - * @total_events: Number of interrupts processed + * @cold: CL group with fields no touched on hotpath + * @v_idx: Vector index * @affinity_mask: CPU affinity mask */ struct idpf_q_vector { - struct idpf_vport *vport; - struct napi_struct napi; - u16 v_idx; - struct idpf_intr_reg intr_reg; - - u16 num_txq; - u16 num_complq; - struct idpf_tx_queue **tx; - struct idpf_compl_queue **complq; - - struct dim tx_dim; - u16 tx_itr_value; - bool tx_intr_mode; - u32 tx_itr_idx; - - u16 num_rxq; - struct idpf_rx_queue **rx; - struct dim rx_dim; - u16 rx_itr_value; - bool rx_intr_mode; - u32 rx_itr_idx; - - u16 num_bufq; - struct idpf_buf_queue **bufq; - - u16 total_events; - - cpumask_var_t affinity_mask; + libeth_cacheline_group(read_mostly, + struct idpf_vport *vport; + + u16 num_rxq; + u16 num_txq; + u16 num_bufq; + u16 num_complq; + struct idpf_rx_queue **rx; + struct idpf_tx_queue **tx; + struct idpf_buf_queue **bufq; + struct idpf_compl_queue **complq; + + struct idpf_intr_reg intr_reg; + ); + libeth_cacheline_group(read_write, + struct napi_struct napi; + u16 total_events; + + struct dim tx_dim; + u16 tx_itr_value; + bool tx_intr_mode; + u32 tx_itr_idx; + + struct dim rx_dim; + u16 rx_itr_value; + bool rx_intr_mode; + u32 rx_itr_idx; + ); + libeth_cacheline_group(cold, + u16 v_idx; + + cpumask_var_t affinity_mask; + ); }; +libeth_cacheline_set_assert(struct idpf_q_vector, 104, + 424 + 2 * sizeof(struct dim), + 8 + sizeof(cpumask_var_t)); struct idpf_rx_queue_stats { u64_stats_t packets; @@ -610,6 +622,7 @@ struct idpf_txq_stash { /** * struct idpf_rx_queue - software structure representing a receive queue + * @read_mostly: CL group with rarely written hot fields * @rx: universal receive descriptor array * @single_buf: buffer descriptor array in singleq * @desc_ring: virtual descriptor ring address @@ -623,14 +636,16 @@ struct idpf_txq_stash { * @idx: For RX queue, it is used to index to total RX queue across groups and * used for skb reporting. * @desc_count: Number of descriptors + * @rxdids: Supported RX descriptor ids + * @rx_ptype_lkup: LUT of Rx ptypes + * @read_write: CL group with both read/write hot fields * @next_to_use: Next descriptor to use * @next_to_clean: Next descriptor to clean * @next_to_alloc: RX buffer to allocate at - * @rxdids: Supported RX descriptor ids - * @rx_ptype_lkup: LUT of Rx ptypes * @skb: Pointer to the skb * @stats_sync: See struct u64_stats_sync * @q_stats: See union idpf_rx_queue_stats + * @cold: CL group with fields no touched on hotpath * @q_id: Queue id * @size: Length of descriptor ring in bytes * @dma: Physical address of ring @@ -641,55 +656,63 @@ struct idpf_txq_stash { * @rx_max_pkt_size: RX max packet size */ struct idpf_rx_queue { - union { - union virtchnl2_rx_desc *rx; - struct virtchnl2_singleq_rx_buf_desc *single_buf; + libeth_cacheline_group(read_mostly, + union { + union virtchnl2_rx_desc *rx; + struct virtchnl2_singleq_rx_buf_desc *single_buf; - void *desc_ring; - }; - union { - struct { - struct idpf_bufq_set *bufq_sets; - struct napi_struct *napi; + void *desc_ring; }; - struct { - struct idpf_rx_buf *rx_buf; - struct page_pool *pp; + union { + struct { + struct idpf_bufq_set *bufq_sets; + struct napi_struct *napi; + }; + struct { + struct idpf_rx_buf *rx_buf; + struct page_pool *pp; + }; }; - }; - struct net_device *netdev; - void __iomem *tail; - - DECLARE_BITMAP(flags, __IDPF_Q_FLAGS_NBITS); - u16 idx; - u16 desc_count; - u16 next_to_use; - u16 next_to_clean; - u16 next_to_alloc; - - u32 rxdids; - - const struct idpf_rx_ptype_decoded *rx_ptype_lkup; - struct sk_buff *skb; - - struct u64_stats_sync stats_sync; - struct idpf_rx_queue_stats q_stats; - - /* Slowpath */ - u32 q_id; - u32 size; - dma_addr_t dma; - - struct idpf_q_vector *q_vector; - - u16 rx_buffer_low_watermark; - u16 rx_hbuf_size; - u16 rx_buf_size; - u16 rx_max_pkt_size; -} ____cacheline_aligned; + struct net_device *netdev; + void __iomem *tail; + + DECLARE_BITMAP(flags, __IDPF_Q_FLAGS_NBITS); + u16 idx; + u16 desc_count; + + u32 rxdids; + const struct idpf_rx_ptype_decoded *rx_ptype_lkup; + ); + libeth_cacheline_group(read_write, + u16 next_to_use; + u16 next_to_clean; + u16 next_to_alloc; + + struct sk_buff *skb; + + struct u64_stats_sync stats_sync; + struct idpf_rx_queue_stats q_stats; + ); + libeth_cacheline_group(cold, + u32 q_id; + u32 size; + dma_addr_t dma; + + struct idpf_q_vector *q_vector; + + u16 rx_buffer_low_watermark; + u16 rx_hbuf_size; + u16 rx_buf_size; + u16 rx_max_pkt_size; + ); +}; +libeth_cacheline_set_assert(struct idpf_rx_queue, 64, + 72 + sizeof(struct u64_stats_sync), + 32); /** * struct idpf_tx_queue - software structure representing a transmit queue + * @read_mostly: CL group with rarely written hot fields * @base_tx: base Tx descriptor array * @base_ctx: base Tx context descriptor array * @flex_tx: flex Tx descriptor array @@ -703,22 +726,7 @@ struct idpf_rx_queue { * @idx: For TX queue, it is used as index to map between TX queue group and * hot path TX pointers stored in vport. Used in both singleq/splitq. * @desc_count: Number of descriptors - * @next_to_use: Next descriptor to use - * @next_to_clean: Next descriptor to clean - * @netdev: &net_device corresponding to this queue - * @cleaned_bytes: Splitq only, TXQ only: When a TX completion is received on - * the TX completion queue, it can be for any TXQ associated - * with that completion queue. This means we can clean up to - * N TXQs during a single call to clean the completion queue. - * cleaned_bytes|pkts tracks the clean stats per TXQ during - * that single call to clean the completion queue. By doing so, - * we can update BQL with aggregate cleaned stats for each TXQ - * only once at the end of the cleaning routine. - * @clean_budget: singleq only, queue cleaning budget - * @cleaned_pkts: Number of packets cleaned for the above said case - * @tx_max_bufs: Max buffers that can be transmitted with scatter-gather * @tx_min_pkt_len: Min supported packet length - * @compl_tag_bufid_m: Completion tag buffer id mask * @compl_tag_gen_s: Completion tag generation bit * The format of the completion tag will change based on the TXQ * descriptor ring size so that we can maintain roughly the same level @@ -739,68 +747,92 @@ struct idpf_rx_queue { * -------------------------------- * * This gives us 8*8160 = 65280 possible unique values. + * @netdev: &net_device corresponding to this queue + * @read_write: CL group with both read/write hot fields + * @next_to_use: Next descriptor to use + * @next_to_clean: Next descriptor to clean + * @cleaned_bytes: Splitq only, TXQ only: When a TX completion is received on + * the TX completion queue, it can be for any TXQ associated + * with that completion queue. This means we can clean up to + * N TXQs during a single call to clean the completion queue. + * cleaned_bytes|pkts tracks the clean stats per TXQ during + * that single call to clean the completion queue. By doing so, + * we can update BQL with aggregate cleaned stats for each TXQ + * only once at the end of the cleaning routine. + * @clean_budget: singleq only, queue cleaning budget + * @cleaned_pkts: Number of packets cleaned for the above said case + * @tx_max_bufs: Max buffers that can be transmitted with scatter-gather + * @stash: Tx buffer stash for Flow-based scheduling mode + * @compl_tag_bufid_m: Completion tag buffer id mask * @compl_tag_cur_gen: Used to keep track of current completion tag generation * @compl_tag_gen_max: To determine when compl_tag_cur_gen should be reset - * @stash: Tx buffer stash for Flow-based scheduling mode * @stats_sync: See struct u64_stats_sync * @q_stats: See union idpf_tx_queue_stats + * @cold: CL group with fields no touched on hotpath * @q_id: Queue id * @size: Length of descriptor ring in bytes * @dma: Physical address of ring * @q_vector: Backreference to associated vector */ struct idpf_tx_queue { - union { - struct idpf_base_tx_desc *base_tx; - struct idpf_base_tx_ctx_desc *base_ctx; - union idpf_tx_flex_desc *flex_tx; - struct idpf_flex_tx_ctx_desc *flex_ctx; - - void *desc_ring; - }; - struct idpf_tx_buf *tx_buf; - struct idpf_txq_group *txq_grp; - struct device *dev; - void __iomem *tail; - - DECLARE_BITMAP(flags, __IDPF_Q_FLAGS_NBITS); - u16 idx; - u16 desc_count; - u16 next_to_use; - u16 next_to_clean; - - struct net_device *netdev; - - union { - u32 cleaned_bytes; - u32 clean_budget; - }; - u16 cleaned_pkts; - - u16 tx_max_bufs; - u16 tx_min_pkt_len; - - u16 compl_tag_bufid_m; - u16 compl_tag_gen_s; - - u16 compl_tag_cur_gen; - u16 compl_tag_gen_max; + libeth_cacheline_group(read_mostly, + union { + struct idpf_base_tx_desc *base_tx; + struct idpf_base_tx_ctx_desc *base_ctx; + union idpf_tx_flex_desc *flex_tx; + struct idpf_flex_tx_ctx_desc *flex_ctx; + + void *desc_ring; + }; + struct idpf_tx_buf *tx_buf; + struct idpf_txq_group *txq_grp; + struct device *dev; + void __iomem *tail; + + DECLARE_BITMAP(flags, __IDPF_Q_FLAGS_NBITS); + u16 idx; + u16 desc_count; + + u16 tx_min_pkt_len; + u16 compl_tag_gen_s; + + struct net_device *netdev; + ); + libeth_cacheline_group(read_write, + u16 next_to_use; + u16 next_to_clean; + + union { + u32 cleaned_bytes; + u32 clean_budget; + }; + u16 cleaned_pkts; - struct idpf_txq_stash *stash; + u16 tx_max_bufs; + struct idpf_txq_stash *stash; - struct u64_stats_sync stats_sync; - struct idpf_tx_queue_stats q_stats; + u16 compl_tag_bufid_m; + u16 compl_tag_cur_gen; + u16 compl_tag_gen_max; - /* Slowpath */ - u32 q_id; - u32 size; - dma_addr_t dma; + struct u64_stats_sync stats_sync; + struct idpf_tx_queue_stats q_stats; + ); + libeth_cacheline_group(cold, + u32 q_id; + u32 size; + dma_addr_t dma; - struct idpf_q_vector *q_vector; -} ____cacheline_aligned; + struct idpf_q_vector *q_vector; + ); +}; +libeth_cacheline_set_assert(struct idpf_tx_queue, 64, + 88 + sizeof(struct u64_stats_sync), + 24); /** * struct idpf_buf_queue - software structure representing a buffer queue + * @read_mostly: CL group with rarely written hot fields * @split_buf: buffer descriptor array * @rx_buf: Struct with RX buffer related members * @rx_buf.buf: See struct idpf_rx_buf @@ -810,9 +842,11 @@ struct idpf_tx_queue { * @tail: Tail offset * @flags: See enum idpf_queue_flags_t * @desc_count: Number of descriptors + * @read_write: CL group with both read/write hot fields * @next_to_use: Next descriptor to use * @next_to_clean: Next descriptor to clean * @next_to_alloc: RX buffer to allocate at + * @cold: CL group with fields no touched on hotpath * @q_id: Queue id * @size: Length of descriptor ring in bytes * @dma: Physical address of ring @@ -822,79 +856,95 @@ struct idpf_tx_queue { * @rx_buf_size: Buffer size */ struct idpf_buf_queue { - struct virtchnl2_splitq_rx_buf_desc *split_buf; - struct { - struct idpf_rx_buf *buf; - dma_addr_t hdr_buf_pa; - void *hdr_buf_va; - } rx_buf; - struct page_pool *pp; - void __iomem *tail; - - DECLARE_BITMAP(flags, __IDPF_Q_FLAGS_NBITS); - u16 desc_count; - u16 next_to_use; - u16 next_to_clean; - u16 next_to_alloc; - - /* Slowpath */ - u32 q_id; - u32 size; - dma_addr_t dma; - - struct idpf_q_vector *q_vector; - - u16 rx_buffer_low_watermark; - u16 rx_hbuf_size; - u16 rx_buf_size; -} ____cacheline_aligned; + libeth_cacheline_group(read_mostly, + struct virtchnl2_splitq_rx_buf_desc *split_buf; + struct { + struct idpf_rx_buf *buf; + dma_addr_t hdr_buf_pa; + void *hdr_buf_va; + } rx_buf; + struct page_pool *pp; + void __iomem *tail; + + DECLARE_BITMAP(flags, __IDPF_Q_FLAGS_NBITS); + u32 desc_count; + ); + libeth_cacheline_group(read_write, + u32 next_to_use; + u32 next_to_clean; + u32 next_to_alloc; + ); + libeth_cacheline_group(cold, + u32 q_id; + u32 size; + dma_addr_t dma; + + struct idpf_q_vector *q_vector; + + u16 rx_buffer_low_watermark; + u16 rx_hbuf_size; + u16 rx_buf_size; + ); +}; +libeth_cacheline_set_assert(struct idpf_buf_queue, 64, 16, 32); /** * struct idpf_compl_queue - software structure representing a completion queue + * @read_mostly: CL group with rarely written hot fields * @comp: completion descriptor array * @txq_grp: See struct idpf_txq_group * @flags: See enum idpf_queue_flags_t * @desc_count: Number of descriptors + * @clean_budget: queue cleaning budget + * @netdev: &net_device corresponding to this queue + * @read_write: CL group with both read/write hot fields * @next_to_use: Next descriptor to use. Relevant in both split & single txq * and bufq. * @next_to_clean: Next descriptor to clean - * @netdev: &net_device corresponding to this queue - * @clean_budget: queue cleaning budget * @num_completions: Only relevant for TX completion queue. It tracks the * number of completions received to compare against the * number of completions pending, as accumulated by the * TX queues. + * @cold: CL group with fields no touched on hotpath * @q_id: Queue id * @size: Length of descriptor ring in bytes * @dma: Physical address of ring * @q_vector: Backreference to associated vector */ struct idpf_compl_queue { - struct idpf_splitq_tx_compl_desc *comp; - struct idpf_txq_group *txq_grp; - - DECLARE_BITMAP(flags, __IDPF_Q_FLAGS_NBITS); - u16 desc_count; - u16 next_to_use; - u16 next_to_clean; - - struct net_device *netdev; - u32 clean_budget; - u32 num_completions; + libeth_cacheline_group(read_mostly, + struct idpf_splitq_tx_compl_desc *comp; + struct idpf_txq_group *txq_grp; - /* Slowpath */ - u32 q_id; - u32 size; - dma_addr_t dma; + DECLARE_BITMAP(flags, __IDPF_Q_FLAGS_NBITS); + u32 desc_count; - struct idpf_q_vector *q_vector; -} ____cacheline_aligned; + u32 clean_budget; + struct net_device *netdev; + ); + libeth_cacheline_group(read_write, + u32 next_to_use; + u32 next_to_clean; + + u32 num_completions; + ); + libeth_cacheline_group(cold, + u32 q_id; + u32 size; + dma_addr_t dma; + + struct idpf_q_vector *q_vector; + ); +}; +libeth_cacheline_set_assert(struct idpf_compl_queue, 40, 16, 24); /** * struct idpf_sw_queue + * @read_mostly: CL group with rarely written hot fields * @ring: Pointer to the ring * @flags: See enum idpf_queue_flags_t * @desc_count: Descriptor count + * @read_write: CL group with both read/write hot fields * @next_to_use: Buffer to allocate at * @next_to_clean: Next descriptor to clean * @@ -903,13 +953,20 @@ struct idpf_compl_queue { * lockless buffer management system and are strictly software only constructs. */ struct idpf_sw_queue { - u32 *ring; - - DECLARE_BITMAP(flags, __IDPF_Q_FLAGS_NBITS); - u16 desc_count; - u16 next_to_use; - u16 next_to_clean; -} ____cacheline_aligned; + libeth_cacheline_group(read_mostly, + u32 *ring; + + DECLARE_BITMAP(flags, __IDPF_Q_FLAGS_NBITS); + u32 desc_count; + ); + libeth_cacheline_group(read_write, + u32 next_to_use; + u32 next_to_clean; + ); +}; +libeth_cacheline_group_assert(struct idpf_sw_queue, read_mostly, 24); +libeth_cacheline_group_assert(struct idpf_sw_queue, read_write, 8); +libeth_cacheline_struct_assert(struct idpf_sw_queue, 24, 8); /** * struct idpf_rxq_set