xref: /linux/drivers/net/ethernet/mellanox/mlx5/core/en/params.c (revision a4a35f6cbebbf9466b6c412506ab89299d567f51)
1 // SPDX-License-Identifier: GPL-2.0 OR Linux-OpenIB
2 /* Copyright (c) 2019 Mellanox Technologies. */
3 
4 #include "en/params.h"
5 #include "en/txrx.h"
6 #include "en/port.h"
7 #include "en_accel/en_accel.h"
8 #include "en_accel/ipsec.h"
9 #include <linux/dim.h>
10 #include <net/page_pool/types.h>
11 #include <net/xdp_sock_drv.h>
12 
mlx5e_mpwrq_min_page_shift(struct mlx5_core_dev * mdev)13 static u8 mlx5e_mpwrq_min_page_shift(struct mlx5_core_dev *mdev)
14 {
15 	u8 min_page_shift = MLX5_CAP_GEN_2(mdev, log_min_mkey_entity_size);
16 
17 	return min_page_shift ? : 12;
18 }
19 
mlx5e_mpwrq_page_shift(struct mlx5_core_dev * mdev,struct mlx5e_xsk_param * xsk)20 u8 mlx5e_mpwrq_page_shift(struct mlx5_core_dev *mdev, struct mlx5e_xsk_param *xsk)
21 {
22 	u8 req_page_shift = xsk ? order_base_2(xsk->chunk_size) : PAGE_SHIFT;
23 	u8 min_page_shift = mlx5e_mpwrq_min_page_shift(mdev);
24 
25 	/* Regular RQ uses order-0 pages, the NIC must be able to map them. */
26 	if (WARN_ON_ONCE(!xsk && req_page_shift < min_page_shift))
27 		min_page_shift = req_page_shift;
28 
29 	return max(req_page_shift, min_page_shift);
30 }
31 
32 enum mlx5e_mpwrq_umr_mode
mlx5e_mpwrq_umr_mode(struct mlx5_core_dev * mdev,struct mlx5e_xsk_param * xsk)33 mlx5e_mpwrq_umr_mode(struct mlx5_core_dev *mdev, struct mlx5e_xsk_param *xsk)
34 {
35 	/* Different memory management schemes use different mechanisms to map
36 	 * user-mode memory. The stricter guarantees we have, the faster
37 	 * mechanisms we use:
38 	 * 1. MTT - direct mapping in page granularity.
39 	 * 2. KSM - indirect mapping to another MKey to arbitrary addresses, but
40 	 *    all mappings have the same size.
41 	 * 3. KLM - indirect mapping to another MKey to arbitrary addresses, and
42 	 *    mappings can have different sizes.
43 	 */
44 	u8 page_shift = mlx5e_mpwrq_page_shift(mdev, xsk);
45 	bool unaligned = xsk ? xsk->unaligned : false;
46 	bool oversized = false;
47 
48 	if (xsk) {
49 		oversized = xsk->chunk_size < (1 << page_shift);
50 		WARN_ON_ONCE(xsk->chunk_size > (1 << page_shift));
51 	}
52 
53 	/* XSK frame size doesn't match the UMR page size, either because the
54 	 * frame size is not a power of two, or it's smaller than the minimal
55 	 * page size supported by the firmware.
56 	 * It's possible to receive packets bigger than MTU in certain setups.
57 	 * To avoid writing over the XSK frame boundary, the top region of each
58 	 * stride is mapped to a garbage page, resulting in two mappings of
59 	 * different sizes per frame.
60 	 */
61 	if (oversized) {
62 		/* An optimization for frame sizes equal to 3 * power_of_two.
63 		 * 3 KSMs point to the frame, and one KSM points to the garbage
64 		 * page, which works faster than KLM.
65 		 */
66 		if (xsk->chunk_size % 3 == 0 && is_power_of_2(xsk->chunk_size / 3))
67 			return MLX5E_MPWRQ_UMR_MODE_TRIPLE;
68 
69 		return MLX5E_MPWRQ_UMR_MODE_OVERSIZED;
70 	}
71 
72 	/* XSK frames can start at arbitrary unaligned locations, but they all
73 	 * have the same size which is a power of two. It allows to optimize to
74 	 * one KSM per frame.
75 	 */
76 	if (unaligned)
77 		return MLX5E_MPWRQ_UMR_MODE_UNALIGNED;
78 
79 	/* XSK: frames are naturally aligned, MTT can be used.
80 	 * Non-XSK: Allocations happen in units of CPU pages, therefore, the
81 	 * mappings are naturally aligned.
82 	 */
83 	return MLX5E_MPWRQ_UMR_MODE_ALIGNED;
84 }
85 
mlx5e_mpwrq_umr_entry_size(enum mlx5e_mpwrq_umr_mode mode)86 u8 mlx5e_mpwrq_umr_entry_size(enum mlx5e_mpwrq_umr_mode mode)
87 {
88 	switch (mode) {
89 	case MLX5E_MPWRQ_UMR_MODE_ALIGNED:
90 		return sizeof(struct mlx5_mtt);
91 	case MLX5E_MPWRQ_UMR_MODE_UNALIGNED:
92 		return sizeof(struct mlx5_ksm);
93 	case MLX5E_MPWRQ_UMR_MODE_OVERSIZED:
94 		return sizeof(struct mlx5_klm) * 2;
95 	case MLX5E_MPWRQ_UMR_MODE_TRIPLE:
96 		return sizeof(struct mlx5_ksm) * 4;
97 	}
98 	WARN_ONCE(1, "MPWRQ UMR mode %d is not known\n", mode);
99 	return 0;
100 }
101 
mlx5e_mpwrq_log_wqe_sz(struct mlx5_core_dev * mdev,u8 page_shift,enum mlx5e_mpwrq_umr_mode umr_mode)102 u8 mlx5e_mpwrq_log_wqe_sz(struct mlx5_core_dev *mdev, u8 page_shift,
103 			  enum mlx5e_mpwrq_umr_mode umr_mode)
104 {
105 	u8 umr_entry_size = mlx5e_mpwrq_umr_entry_size(umr_mode);
106 	u8 max_pages_per_wqe, max_log_mpwqe_size;
107 	u16 max_wqe_size;
108 
109 	/* Keep in sync with MLX5_MPWRQ_MAX_PAGES_PER_WQE. */
110 	max_wqe_size = mlx5e_get_max_sq_aligned_wqebbs(mdev) * MLX5_SEND_WQE_BB;
111 	max_pages_per_wqe = ALIGN_DOWN(max_wqe_size - sizeof(struct mlx5e_umr_wqe),
112 				       MLX5_UMR_FLEX_ALIGNMENT) / umr_entry_size;
113 	max_log_mpwqe_size = ilog2(max_pages_per_wqe) + page_shift;
114 
115 	WARN_ON_ONCE(max_log_mpwqe_size < MLX5E_ORDER2_MAX_PACKET_MTU);
116 
117 	return min_t(u8, max_log_mpwqe_size, MLX5_MPWRQ_MAX_LOG_WQE_SZ);
118 }
119 
mlx5e_mpwrq_pages_per_wqe(struct mlx5_core_dev * mdev,u8 page_shift,enum mlx5e_mpwrq_umr_mode umr_mode)120 u8 mlx5e_mpwrq_pages_per_wqe(struct mlx5_core_dev *mdev, u8 page_shift,
121 			     enum mlx5e_mpwrq_umr_mode umr_mode)
122 {
123 	u8 log_wqe_sz = mlx5e_mpwrq_log_wqe_sz(mdev, page_shift, umr_mode);
124 	u8 pages_per_wqe;
125 
126 	pages_per_wqe = log_wqe_sz > page_shift ? (1 << (log_wqe_sz - page_shift)) : 1;
127 
128 	/* Two MTTs are needed to form an octword. The number of MTTs is encoded
129 	 * in octwords in a UMR WQE, so we need at least two to avoid mapping
130 	 * garbage addresses.
131 	 */
132 	if (WARN_ON_ONCE(pages_per_wqe < 2 && umr_mode == MLX5E_MPWRQ_UMR_MODE_ALIGNED))
133 		pages_per_wqe = 2;
134 
135 	/* Sanity check for further calculations to succeed. */
136 	BUILD_BUG_ON(MLX5_MPWRQ_MAX_PAGES_PER_WQE > 64);
137 	if (WARN_ON_ONCE(pages_per_wqe > MLX5_MPWRQ_MAX_PAGES_PER_WQE))
138 		return MLX5_MPWRQ_MAX_PAGES_PER_WQE;
139 
140 	return pages_per_wqe;
141 }
142 
mlx5e_mpwrq_umr_wqe_sz(struct mlx5_core_dev * mdev,u8 page_shift,enum mlx5e_mpwrq_umr_mode umr_mode)143 u16 mlx5e_mpwrq_umr_wqe_sz(struct mlx5_core_dev *mdev, u8 page_shift,
144 			   enum mlx5e_mpwrq_umr_mode umr_mode)
145 {
146 	u8 pages_per_wqe = mlx5e_mpwrq_pages_per_wqe(mdev, page_shift, umr_mode);
147 	u8 umr_entry_size = mlx5e_mpwrq_umr_entry_size(umr_mode);
148 	u16 umr_wqe_sz;
149 
150 	umr_wqe_sz = sizeof(struct mlx5e_umr_wqe) +
151 		ALIGN(pages_per_wqe * umr_entry_size, MLX5_UMR_FLEX_ALIGNMENT);
152 
153 	WARN_ON_ONCE(DIV_ROUND_UP(umr_wqe_sz, MLX5_SEND_WQE_DS) > MLX5_WQE_CTRL_DS_MASK);
154 
155 	return umr_wqe_sz;
156 }
157 
mlx5e_mpwrq_umr_wqebbs(struct mlx5_core_dev * mdev,u8 page_shift,enum mlx5e_mpwrq_umr_mode umr_mode)158 u8 mlx5e_mpwrq_umr_wqebbs(struct mlx5_core_dev *mdev, u8 page_shift,
159 			  enum mlx5e_mpwrq_umr_mode umr_mode)
160 {
161 	return DIV_ROUND_UP(mlx5e_mpwrq_umr_wqe_sz(mdev, page_shift, umr_mode),
162 			    MLX5_SEND_WQE_BB);
163 }
164 
mlx5e_mpwrq_mtts_per_wqe(struct mlx5_core_dev * mdev,u8 page_shift,enum mlx5e_mpwrq_umr_mode umr_mode)165 u8 mlx5e_mpwrq_mtts_per_wqe(struct mlx5_core_dev *mdev, u8 page_shift,
166 			    enum mlx5e_mpwrq_umr_mode umr_mode)
167 {
168 	u8 pages_per_wqe = mlx5e_mpwrq_pages_per_wqe(mdev, page_shift, umr_mode);
169 
170 	/* Add another page as a buffer between WQEs. This page will absorb
171 	 * write overflow by the hardware, when receiving packets larger than
172 	 * MTU. These oversize packets are dropped by the driver at a later
173 	 * stage.
174 	 */
175 	return ALIGN(pages_per_wqe + 1,
176 		     MLX5_SEND_WQE_BB / mlx5e_mpwrq_umr_entry_size(umr_mode));
177 }
178 
mlx5e_mpwrq_max_num_entries(struct mlx5_core_dev * mdev,enum mlx5e_mpwrq_umr_mode umr_mode)179 u32 mlx5e_mpwrq_max_num_entries(struct mlx5_core_dev *mdev,
180 				enum mlx5e_mpwrq_umr_mode umr_mode)
181 {
182 	/* Same limits apply to KSMs and KLMs. */
183 	u32 klm_limit = min(MLX5E_MAX_RQ_NUM_KSMS,
184 			    1 << MLX5_CAP_GEN(mdev, log_max_klm_list_size));
185 
186 	switch (umr_mode) {
187 	case MLX5E_MPWRQ_UMR_MODE_ALIGNED:
188 		return MLX5E_MAX_RQ_NUM_MTTS;
189 	case MLX5E_MPWRQ_UMR_MODE_UNALIGNED:
190 		return klm_limit;
191 	case MLX5E_MPWRQ_UMR_MODE_OVERSIZED:
192 		/* Each entry is two KLMs. */
193 		return klm_limit / 2;
194 	case MLX5E_MPWRQ_UMR_MODE_TRIPLE:
195 		/* Each entry is four KSMs. */
196 		return klm_limit / 4;
197 	}
198 	WARN_ONCE(1, "MPWRQ UMR mode %d is not known\n", umr_mode);
199 	return 0;
200 }
201 
mlx5e_mpwrq_max_log_rq_size(struct mlx5_core_dev * mdev,u8 page_shift,enum mlx5e_mpwrq_umr_mode umr_mode)202 static u8 mlx5e_mpwrq_max_log_rq_size(struct mlx5_core_dev *mdev, u8 page_shift,
203 				      enum mlx5e_mpwrq_umr_mode umr_mode)
204 {
205 	u8 mtts_per_wqe = mlx5e_mpwrq_mtts_per_wqe(mdev, page_shift, umr_mode);
206 	u32 max_entries = mlx5e_mpwrq_max_num_entries(mdev, umr_mode);
207 
208 	return ilog2(max_entries / mtts_per_wqe);
209 }
210 
mlx5e_mpwrq_max_log_rq_pkts(struct mlx5_core_dev * mdev,u8 page_shift,enum mlx5e_mpwrq_umr_mode umr_mode)211 u8 mlx5e_mpwrq_max_log_rq_pkts(struct mlx5_core_dev *mdev, u8 page_shift,
212 			       enum mlx5e_mpwrq_umr_mode umr_mode)
213 {
214 	return mlx5e_mpwrq_max_log_rq_size(mdev, page_shift, umr_mode) +
215 		mlx5e_mpwrq_log_wqe_sz(mdev, page_shift, umr_mode) -
216 		MLX5E_ORDER2_MAX_PACKET_MTU;
217 }
218 
mlx5e_get_linear_rq_headroom(struct mlx5e_params * params,struct mlx5e_xsk_param * xsk)219 u16 mlx5e_get_linear_rq_headroom(struct mlx5e_params *params,
220 				 struct mlx5e_xsk_param *xsk)
221 {
222 	u16 headroom;
223 
224 	if (xsk)
225 		return xsk->headroom;
226 
227 	headroom = NET_IP_ALIGN;
228 	if (params->xdp_prog)
229 		headroom += XDP_PACKET_HEADROOM;
230 	else
231 		headroom += MLX5_RX_HEADROOM;
232 
233 	return headroom;
234 }
235 
mlx5e_rx_get_linear_sz_xsk(struct mlx5e_params * params,struct mlx5e_xsk_param * xsk)236 static u32 mlx5e_rx_get_linear_sz_xsk(struct mlx5e_params *params,
237 				      struct mlx5e_xsk_param *xsk)
238 {
239 	u32 hw_mtu = MLX5E_SW2HW_MTU(params, params->sw_mtu);
240 
241 	return xsk->headroom + hw_mtu;
242 }
243 
mlx5e_rx_get_linear_sz_skb(struct mlx5e_params * params,bool no_head_tail_room)244 static u32 mlx5e_rx_get_linear_sz_skb(struct mlx5e_params *params, bool no_head_tail_room)
245 {
246 	u32 hw_mtu = MLX5E_SW2HW_MTU(params, params->sw_mtu);
247 	u16 headroom;
248 
249 	if (no_head_tail_room)
250 		return SKB_DATA_ALIGN(hw_mtu);
251 	headroom = mlx5e_get_linear_rq_headroom(params, NULL);
252 
253 	return MLX5_SKB_FRAG_SZ(headroom + hw_mtu);
254 }
255 
mlx5e_rx_get_linear_stride_sz(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_xsk_param * xsk,bool mpwqe)256 static u32 mlx5e_rx_get_linear_stride_sz(struct mlx5_core_dev *mdev,
257 					 struct mlx5e_params *params,
258 					 struct mlx5e_xsk_param *xsk,
259 					 bool mpwqe)
260 {
261 	bool no_head_tail_room;
262 	u32 sz;
263 
264 	/* XSK frames are mapped as individual pages, because frames may come in
265 	 * an arbitrary order from random locations in the UMEM.
266 	 */
267 	if (xsk)
268 		return mpwqe ? 1 << mlx5e_mpwrq_page_shift(mdev, xsk) : PAGE_SIZE;
269 
270 	no_head_tail_room = params->xdp_prog && mpwqe && !mlx5e_rx_is_linear_skb(mdev, params, xsk);
271 
272 	/* When no_head_tail_room is set, headroom and tailroom are excluded from skb calculations.
273 	 * no_head_tail_room should be set in the case of XDP with Striding RQ
274 	 * when SKB is not linear. This is because another page is allocated for the linear part.
275 	 */
276 	sz = roundup_pow_of_two(mlx5e_rx_get_linear_sz_skb(params, no_head_tail_room));
277 
278 	/* XDP in mlx5e doesn't support multiple packets per page.
279 	 * Do not assume sz <= PAGE_SIZE if params->xdp_prog is set.
280 	 */
281 	return params->xdp_prog && sz < PAGE_SIZE ? PAGE_SIZE : sz;
282 }
283 
mlx5e_mpwqe_log_pkts_per_wqe(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_xsk_param * xsk)284 static u8 mlx5e_mpwqe_log_pkts_per_wqe(struct mlx5_core_dev *mdev,
285 				       struct mlx5e_params *params,
286 				       struct mlx5e_xsk_param *xsk)
287 {
288 	u32 linear_stride_sz = mlx5e_rx_get_linear_stride_sz(mdev, params, xsk, true);
289 	enum mlx5e_mpwrq_umr_mode umr_mode = mlx5e_mpwrq_umr_mode(mdev, xsk);
290 	u8 page_shift = mlx5e_mpwrq_page_shift(mdev, xsk);
291 
292 	return mlx5e_mpwrq_log_wqe_sz(mdev, page_shift, umr_mode) -
293 		order_base_2(linear_stride_sz);
294 }
295 
mlx5e_rx_is_linear_skb(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_xsk_param * xsk)296 bool mlx5e_rx_is_linear_skb(struct mlx5_core_dev *mdev,
297 			    struct mlx5e_params *params,
298 			    struct mlx5e_xsk_param *xsk)
299 {
300 	if (params->packet_merge.type != MLX5E_PACKET_MERGE_NONE)
301 		return false;
302 
303 	/* Call mlx5e_rx_get_linear_sz_skb with the no_head_tail_room parameter set
304 	 * to exclude headroom and tailroom from calculations.
305 	 * no_head_tail_room is true when SKB is built on XDP_PASS on XSK RQs
306 	 * since packet data buffers don't have headroom and tailroom resreved for the SKB.
307 	 * Both XSK and non-XSK cases allocate an SKB on XDP_PASS. Packet data
308 	 * must fit into a CPU page.
309 	 */
310 	if (mlx5e_rx_get_linear_sz_skb(params, xsk) > PAGE_SIZE)
311 		return false;
312 
313 	/* XSK frames must be big enough to hold the packet data. */
314 	if (xsk && mlx5e_rx_get_linear_sz_xsk(params, xsk) > xsk->chunk_size)
315 		return false;
316 
317 	return true;
318 }
319 
mlx5e_verify_rx_mpwqe_strides(struct mlx5_core_dev * mdev,u8 log_stride_sz,u8 log_num_strides,u8 page_shift,enum mlx5e_mpwrq_umr_mode umr_mode)320 static bool mlx5e_verify_rx_mpwqe_strides(struct mlx5_core_dev *mdev,
321 					  u8 log_stride_sz, u8 log_num_strides,
322 					  u8 page_shift,
323 					  enum mlx5e_mpwrq_umr_mode umr_mode)
324 {
325 	if (log_stride_sz + log_num_strides !=
326 	    mlx5e_mpwrq_log_wqe_sz(mdev, page_shift, umr_mode))
327 		return false;
328 
329 	if (log_stride_sz < MLX5_MPWQE_LOG_STRIDE_SZ_BASE ||
330 	    log_stride_sz > MLX5_MPWQE_LOG_STRIDE_SZ_MAX)
331 		return false;
332 
333 	if (log_num_strides > MLX5_MPWQE_LOG_NUM_STRIDES_MAX)
334 		return false;
335 
336 	if (MLX5_CAP_GEN(mdev, ext_stride_num_range))
337 		return log_num_strides >= MLX5_MPWQE_LOG_NUM_STRIDES_EXT_BASE;
338 
339 	return log_num_strides >= MLX5_MPWQE_LOG_NUM_STRIDES_BASE;
340 }
341 
mlx5e_verify_params_rx_mpwqe_strides(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_xsk_param * xsk)342 bool mlx5e_verify_params_rx_mpwqe_strides(struct mlx5_core_dev *mdev,
343 					  struct mlx5e_params *params,
344 					  struct mlx5e_xsk_param *xsk)
345 {
346 	u8 log_wqe_num_of_strides = mlx5e_mpwqe_get_log_num_strides(mdev, params, xsk);
347 	u8 log_wqe_stride_size = mlx5e_mpwqe_get_log_stride_size(mdev, params, xsk);
348 	enum mlx5e_mpwrq_umr_mode umr_mode = mlx5e_mpwrq_umr_mode(mdev, xsk);
349 	u8 page_shift = mlx5e_mpwrq_page_shift(mdev, xsk);
350 
351 	return mlx5e_verify_rx_mpwqe_strides(mdev, log_wqe_stride_size,
352 					     log_wqe_num_of_strides,
353 					     page_shift, umr_mode);
354 }
355 
mlx5e_rx_mpwqe_is_linear_skb(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_xsk_param * xsk)356 bool mlx5e_rx_mpwqe_is_linear_skb(struct mlx5_core_dev *mdev,
357 				  struct mlx5e_params *params,
358 				  struct mlx5e_xsk_param *xsk)
359 {
360 	enum mlx5e_mpwrq_umr_mode umr_mode = mlx5e_mpwrq_umr_mode(mdev, xsk);
361 	u8 page_shift = mlx5e_mpwrq_page_shift(mdev, xsk);
362 	u8 log_num_strides;
363 	u8 log_stride_sz;
364 	u8 log_wqe_sz;
365 
366 	if (!mlx5e_rx_is_linear_skb(mdev, params, xsk))
367 		return false;
368 
369 	log_stride_sz = order_base_2(mlx5e_rx_get_linear_stride_sz(mdev, params, xsk, true));
370 	log_wqe_sz = mlx5e_mpwrq_log_wqe_sz(mdev, page_shift, umr_mode);
371 
372 	if (log_wqe_sz < log_stride_sz)
373 		return false;
374 
375 	log_num_strides = log_wqe_sz - log_stride_sz;
376 
377 	return mlx5e_verify_rx_mpwqe_strides(mdev, log_stride_sz,
378 					     log_num_strides, page_shift,
379 					     umr_mode);
380 }
381 
mlx5e_mpwqe_get_log_rq_size(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_xsk_param * xsk)382 u8 mlx5e_mpwqe_get_log_rq_size(struct mlx5_core_dev *mdev,
383 			       struct mlx5e_params *params,
384 			       struct mlx5e_xsk_param *xsk)
385 {
386 	enum mlx5e_mpwrq_umr_mode umr_mode = mlx5e_mpwrq_umr_mode(mdev, xsk);
387 	u8 log_pkts_per_wqe, page_shift, max_log_rq_size;
388 
389 	log_pkts_per_wqe = mlx5e_mpwqe_log_pkts_per_wqe(mdev, params, xsk);
390 	page_shift = mlx5e_mpwrq_page_shift(mdev, xsk);
391 	max_log_rq_size = mlx5e_mpwrq_max_log_rq_size(mdev, page_shift, umr_mode);
392 
393 	/* Numbers are unsigned, don't subtract to avoid underflow. */
394 	if (params->log_rq_mtu_frames <
395 	    log_pkts_per_wqe + MLX5E_PARAMS_MINIMUM_LOG_RQ_SIZE_MPW)
396 		return MLX5E_PARAMS_MINIMUM_LOG_RQ_SIZE_MPW;
397 
398 	/* Ethtool's rx_max_pending is calculated for regular RQ, that uses
399 	 * pages of PAGE_SIZE. Max length of an XSK RQ might differ if it uses a
400 	 * frame size not equal to PAGE_SIZE.
401 	 * A stricter condition is checked in mlx5e_mpwrq_validate_xsk, WARN on
402 	 * unexpected failure.
403 	 */
404 	if (WARN_ON_ONCE(params->log_rq_mtu_frames > log_pkts_per_wqe + max_log_rq_size))
405 		return max_log_rq_size;
406 
407 	return params->log_rq_mtu_frames - log_pkts_per_wqe;
408 }
409 
mlx5e_shampo_get_log_hd_entry_size(struct mlx5_core_dev * mdev,struct mlx5e_params * params)410 u8 mlx5e_shampo_get_log_hd_entry_size(struct mlx5_core_dev *mdev,
411 				      struct mlx5e_params *params)
412 {
413 	return order_base_2(DIV_ROUND_UP(MLX5E_RX_MAX_HEAD, MLX5E_SHAMPO_WQ_BASE_HEAD_ENTRY_SIZE));
414 }
415 
mlx5e_shampo_get_log_rsrv_size(struct mlx5_core_dev * mdev,struct mlx5e_params * params)416 u8 mlx5e_shampo_get_log_rsrv_size(struct mlx5_core_dev *mdev,
417 				  struct mlx5e_params *params)
418 {
419 	return order_base_2(MLX5E_SHAMPO_WQ_RESRV_SIZE / MLX5E_SHAMPO_WQ_BASE_RESRV_SIZE);
420 }
421 
mlx5e_shampo_get_log_pkt_per_rsrv(struct mlx5_core_dev * mdev,struct mlx5e_params * params)422 u8 mlx5e_shampo_get_log_pkt_per_rsrv(struct mlx5_core_dev *mdev,
423 				     struct mlx5e_params *params)
424 {
425 	u32 resrv_size = BIT(mlx5e_shampo_get_log_rsrv_size(mdev, params)) *
426 			 PAGE_SIZE;
427 
428 	return order_base_2(DIV_ROUND_UP(resrv_size, params->sw_mtu));
429 }
430 
mlx5e_mpwqe_get_log_stride_size(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_xsk_param * xsk)431 u8 mlx5e_mpwqe_get_log_stride_size(struct mlx5_core_dev *mdev,
432 				   struct mlx5e_params *params,
433 				   struct mlx5e_xsk_param *xsk)
434 {
435 	if (mlx5e_rx_mpwqe_is_linear_skb(mdev, params, xsk))
436 		return order_base_2(mlx5e_rx_get_linear_stride_sz(mdev, params, xsk, true));
437 
438 	/* XDP in mlx5e doesn't support multiple packets per page. */
439 	if (params->xdp_prog)
440 		return PAGE_SHIFT;
441 
442 	return MLX5_MPWRQ_DEF_LOG_STRIDE_SZ(mdev);
443 }
444 
mlx5e_mpwqe_get_log_num_strides(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_xsk_param * xsk)445 u8 mlx5e_mpwqe_get_log_num_strides(struct mlx5_core_dev *mdev,
446 				   struct mlx5e_params *params,
447 				   struct mlx5e_xsk_param *xsk)
448 {
449 	enum mlx5e_mpwrq_umr_mode umr_mode = mlx5e_mpwrq_umr_mode(mdev, xsk);
450 	u8 page_shift = mlx5e_mpwrq_page_shift(mdev, xsk);
451 	u8 log_wqe_size, log_stride_size;
452 
453 	log_wqe_size = mlx5e_mpwrq_log_wqe_sz(mdev, page_shift, umr_mode);
454 	log_stride_size = mlx5e_mpwqe_get_log_stride_size(mdev, params, xsk);
455 	WARN(log_wqe_size < log_stride_size,
456 	     "Log WQE size %u < log stride size %u (page shift %u, umr mode %d, xsk on? %d)\n",
457 	     log_wqe_size, log_stride_size, page_shift, umr_mode, !!xsk);
458 	return log_wqe_size - log_stride_size;
459 }
460 
mlx5e_mpwqe_get_min_wqe_bulk(unsigned int wq_sz)461 u8 mlx5e_mpwqe_get_min_wqe_bulk(unsigned int wq_sz)
462 {
463 #define UMR_WQE_BULK (2)
464 	return min_t(unsigned int, UMR_WQE_BULK, wq_sz / 2 - 1);
465 }
466 
mlx5e_get_rq_headroom(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_xsk_param * xsk)467 u16 mlx5e_get_rq_headroom(struct mlx5_core_dev *mdev,
468 			  struct mlx5e_params *params,
469 			  struct mlx5e_xsk_param *xsk)
470 {
471 	u16 linear_headroom = mlx5e_get_linear_rq_headroom(params, xsk);
472 
473 	if (params->rq_wq_type == MLX5_WQ_TYPE_CYCLIC)
474 		return linear_headroom;
475 
476 	if (mlx5e_rx_mpwqe_is_linear_skb(mdev, params, xsk))
477 		return linear_headroom;
478 
479 	if (params->packet_merge.type == MLX5E_PACKET_MERGE_SHAMPO)
480 		return linear_headroom;
481 
482 	return 0;
483 }
484 
mlx5e_calc_sq_stop_room(struct mlx5_core_dev * mdev,struct mlx5e_params * params)485 u16 mlx5e_calc_sq_stop_room(struct mlx5_core_dev *mdev, struct mlx5e_params *params)
486 {
487 	bool is_mpwqe = MLX5E_GET_PFLAG(params, MLX5E_PFLAG_SKB_TX_MPWQE);
488 	u16 stop_room;
489 
490 	stop_room  = mlx5e_ktls_get_stop_room(mdev, params);
491 	stop_room += mlx5e_stop_room_for_max_wqe(mdev);
492 	if (is_mpwqe)
493 		/* A MPWQE can take up to the maximum cacheline-aligned WQE +
494 		 * all the normal stop room can be taken if a new packet breaks
495 		 * the active MPWQE session and allocates its WQEs right away.
496 		 */
497 		stop_room += mlx5e_stop_room_for_mpwqe(mdev);
498 
499 	return stop_room;
500 }
501 
mlx5e_validate_params(struct mlx5_core_dev * mdev,struct mlx5e_params * params)502 int mlx5e_validate_params(struct mlx5_core_dev *mdev, struct mlx5e_params *params)
503 {
504 	size_t sq_size = 1 << params->log_sq_size;
505 	u16 stop_room;
506 
507 	stop_room = mlx5e_calc_sq_stop_room(mdev, params);
508 	if (stop_room >= sq_size) {
509 		mlx5_core_err(mdev, "Stop room %u is bigger than the SQ size %zu\n",
510 			      stop_room, sq_size);
511 		return -EINVAL;
512 	}
513 
514 	return 0;
515 }
516 
slow_pci_heuristic(struct mlx5_core_dev * mdev)517 bool slow_pci_heuristic(struct mlx5_core_dev *mdev)
518 {
519 	u32 link_speed = 0;
520 	u32 pci_bw = 0;
521 
522 	mlx5_port_max_linkspeed(mdev, &link_speed);
523 	pci_bw = pcie_bandwidth_available(mdev->pdev, NULL, NULL, NULL);
524 	mlx5_core_dbg_once(mdev, "Max link speed = %d, PCI BW = %d\n",
525 			   link_speed, pci_bw);
526 
527 #define MLX5E_SLOW_PCI_RATIO (2)
528 
529 	return link_speed && pci_bw &&
530 		link_speed > MLX5E_SLOW_PCI_RATIO * pci_bw;
531 }
532 
mlx5e_mpwrq_validate_regular(struct mlx5_core_dev * mdev,struct mlx5e_params * params)533 int mlx5e_mpwrq_validate_regular(struct mlx5_core_dev *mdev, struct mlx5e_params *params)
534 {
535 	enum mlx5e_mpwrq_umr_mode umr_mode = mlx5e_mpwrq_umr_mode(mdev, NULL);
536 	u8 page_shift = mlx5e_mpwrq_page_shift(mdev, NULL);
537 
538 	if (!mlx5e_check_fragmented_striding_rq_cap(mdev, page_shift, umr_mode))
539 		return -EOPNOTSUPP;
540 
541 	return 0;
542 }
543 
mlx5e_mpwrq_validate_xsk(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_xsk_param * xsk)544 int mlx5e_mpwrq_validate_xsk(struct mlx5_core_dev *mdev, struct mlx5e_params *params,
545 			     struct mlx5e_xsk_param *xsk)
546 {
547 	enum mlx5e_mpwrq_umr_mode umr_mode = mlx5e_mpwrq_umr_mode(mdev, xsk);
548 	u8 page_shift = mlx5e_mpwrq_page_shift(mdev, xsk);
549 	u16 max_mtu_pkts;
550 
551 	if (!mlx5e_check_fragmented_striding_rq_cap(mdev, page_shift, umr_mode)) {
552 		mlx5_core_err(mdev, "Striding RQ for XSK can't be activated with page_shift %u and umr_mode %d\n",
553 			      page_shift, umr_mode);
554 		return -EOPNOTSUPP;
555 	}
556 
557 	if (!mlx5e_rx_mpwqe_is_linear_skb(mdev, params, xsk)) {
558 		mlx5_core_err(mdev, "Striding RQ linear mode for XSK can't be activated with current params\n");
559 		return -EINVAL;
560 	}
561 
562 	/* Current RQ length is too big for the given frame size, the
563 	 * needed number of WQEs exceeds the maximum.
564 	 */
565 	max_mtu_pkts = min_t(u8, MLX5E_PARAMS_MAXIMUM_LOG_RQ_SIZE,
566 			     mlx5e_mpwrq_max_log_rq_pkts(mdev, page_shift, xsk->unaligned));
567 	if (params->log_rq_mtu_frames > max_mtu_pkts) {
568 		mlx5_core_err(mdev, "Current RQ length %d is too big for XSK with given frame size %u\n",
569 			      1 << params->log_rq_mtu_frames, xsk->chunk_size);
570 		return -EINVAL;
571 	}
572 
573 	return 0;
574 }
575 
mlx5e_init_rq_type_params(struct mlx5_core_dev * mdev,struct mlx5e_params * params)576 void mlx5e_init_rq_type_params(struct mlx5_core_dev *mdev,
577 			       struct mlx5e_params *params)
578 {
579 	params->log_rq_mtu_frames = is_kdump_kernel() ?
580 		MLX5E_PARAMS_MINIMUM_LOG_RQ_SIZE :
581 		MLX5E_PARAMS_DEFAULT_LOG_RQ_SIZE;
582 }
583 
mlx5e_set_rq_type(struct mlx5_core_dev * mdev,struct mlx5e_params * params)584 void mlx5e_set_rq_type(struct mlx5_core_dev *mdev, struct mlx5e_params *params)
585 {
586 	params->rq_wq_type = MLX5E_GET_PFLAG(params, MLX5E_PFLAG_RX_STRIDING_RQ) ?
587 		MLX5_WQ_TYPE_LINKED_LIST_STRIDING_RQ :
588 		MLX5_WQ_TYPE_CYCLIC;
589 }
590 
mlx5e_build_rq_params(struct mlx5_core_dev * mdev,struct mlx5e_params * params)591 void mlx5e_build_rq_params(struct mlx5_core_dev *mdev,
592 			   struct mlx5e_params *params)
593 {
594 	/* Prefer Striding RQ, unless any of the following holds:
595 	 * - Striding RQ configuration is not possible/supported.
596 	 * - CQE compression is ON, and stride_index mini_cqe layout is not supported.
597 	 * - Legacy RQ would use linear SKB while Striding RQ would use non-linear.
598 	 *
599 	 * No XSK params: checking the availability of striding RQ in general.
600 	 */
601 	if ((!MLX5E_GET_PFLAG(params, MLX5E_PFLAG_RX_CQE_COMPRESS) ||
602 	     MLX5_CAP_GEN(mdev, mini_cqe_resp_stride_index)) &&
603 	    !mlx5e_mpwrq_validate_regular(mdev, params) &&
604 	    (mlx5e_rx_mpwqe_is_linear_skb(mdev, params, NULL) ||
605 	     !mlx5e_rx_is_linear_skb(mdev, params, NULL)))
606 		MLX5E_SET_PFLAG(params, MLX5E_PFLAG_RX_STRIDING_RQ, true);
607 	mlx5e_set_rq_type(mdev, params);
608 	mlx5e_init_rq_type_params(mdev, params);
609 }
610 
611 /* Build queue parameters */
612 
mlx5e_build_create_cq_param(struct mlx5e_create_cq_param * ccp,struct mlx5e_channel * c)613 void mlx5e_build_create_cq_param(struct mlx5e_create_cq_param *ccp, struct mlx5e_channel *c)
614 {
615 	*ccp = (struct mlx5e_create_cq_param) {
616 		.netdev = c->netdev,
617 		.wq = c->priv->wq,
618 		.napi = &c->napi,
619 		.ch_stats = c->stats,
620 		.node = cpu_to_node(c->cpu),
621 		.ix = c->vec_ix,
622 	};
623 }
624 
mlx5e_max_nonlinear_mtu(int first_frag_size,int frag_size,bool xdp)625 static int mlx5e_max_nonlinear_mtu(int first_frag_size, int frag_size, bool xdp)
626 {
627 	if (xdp)
628 		/* XDP requires all fragments to be of the same size. */
629 		return first_frag_size + (MLX5E_MAX_RX_FRAGS - 1) * frag_size;
630 
631 	/* Optimization for small packets: the last fragment is bigger than the others. */
632 	return first_frag_size + (MLX5E_MAX_RX_FRAGS - 2) * frag_size + PAGE_SIZE;
633 }
634 
mlx5e_rx_compute_wqe_bulk_params(struct mlx5e_params * params,struct mlx5e_rq_frags_info * info)635 static void mlx5e_rx_compute_wqe_bulk_params(struct mlx5e_params *params,
636 					     struct mlx5e_rq_frags_info *info)
637 {
638 	u16 bulk_bound_rq_size = (1 << params->log_rq_mtu_frames) / 4;
639 	u32 bulk_bound_rq_size_in_bytes;
640 	u32 sum_frag_strides = 0;
641 	u32 wqe_bulk_in_bytes;
642 	u16 split_factor;
643 	u32 wqe_bulk;
644 	int i;
645 
646 	for (i = 0; i < info->num_frags; i++)
647 		sum_frag_strides += info->arr[i].frag_stride;
648 
649 	/* For MTUs larger than PAGE_SIZE, align to PAGE_SIZE to reflect
650 	 * amount of consumed pages per wqe in bytes.
651 	 */
652 	if (sum_frag_strides > PAGE_SIZE)
653 		sum_frag_strides = ALIGN(sum_frag_strides, PAGE_SIZE);
654 
655 	bulk_bound_rq_size_in_bytes = bulk_bound_rq_size * sum_frag_strides;
656 
657 #define MAX_WQE_BULK_BYTES(xdp) ((xdp ? 256 : 512) * 1024)
658 
659 	/* A WQE bulk should not exceed min(512KB, 1/4 of rq size). For XDP
660 	 * keep bulk size smaller to avoid filling the page_pool cache on
661 	 * every bulk refill.
662 	 */
663 	wqe_bulk_in_bytes = min_t(u32, MAX_WQE_BULK_BYTES(params->xdp_prog),
664 				  bulk_bound_rq_size_in_bytes);
665 	wqe_bulk = DIV_ROUND_UP(wqe_bulk_in_bytes, sum_frag_strides);
666 
667 	/* Make sure that allocations don't start when the page is still used
668 	 * by older WQEs.
669 	 */
670 	info->wqe_bulk = max_t(u16, info->wqe_index_mask + 1, wqe_bulk);
671 
672 	split_factor = DIV_ROUND_UP(MAX_WQE_BULK_BYTES(params->xdp_prog),
673 				    PP_ALLOC_CACHE_REFILL * PAGE_SIZE);
674 	info->refill_unit = DIV_ROUND_UP(info->wqe_bulk, split_factor);
675 }
676 
677 #define DEFAULT_FRAG_SIZE (2048)
678 
mlx5e_build_rq_frags_info(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_xsk_param * xsk,struct mlx5e_rq_frags_info * info,u32 * xdp_frag_size)679 static int mlx5e_build_rq_frags_info(struct mlx5_core_dev *mdev,
680 				     struct mlx5e_params *params,
681 				     struct mlx5e_xsk_param *xsk,
682 				     struct mlx5e_rq_frags_info *info,
683 				     u32 *xdp_frag_size)
684 {
685 	u32 byte_count = MLX5E_SW2HW_MTU(params, params->sw_mtu);
686 	int frag_size_max = DEFAULT_FRAG_SIZE;
687 	int first_frag_size_max;
688 	u32 buf_size = 0;
689 	u16 headroom;
690 	int max_mtu;
691 	int i;
692 
693 	if (mlx5e_rx_is_linear_skb(mdev, params, xsk)) {
694 		int frag_stride;
695 
696 		frag_stride = mlx5e_rx_get_linear_stride_sz(mdev, params, xsk, false);
697 
698 		info->arr[0].frag_size = byte_count;
699 		info->arr[0].frag_stride = frag_stride;
700 		info->num_frags = 1;
701 
702 		/* N WQEs share the same page, N = PAGE_SIZE / frag_stride. The
703 		 * first WQE in the page is responsible for allocation of this
704 		 * page, this WQE's index is k*N. If WQEs [k*N+1; k*N+N-1] are
705 		 * still not completed, the allocation must stop before k*N.
706 		 */
707 		info->wqe_index_mask = (PAGE_SIZE / frag_stride) - 1;
708 
709 		goto out;
710 	}
711 
712 	headroom = mlx5e_get_linear_rq_headroom(params, xsk);
713 	first_frag_size_max = SKB_WITH_OVERHEAD(frag_size_max - headroom);
714 
715 	max_mtu = mlx5e_max_nonlinear_mtu(first_frag_size_max, frag_size_max,
716 					  params->xdp_prog);
717 	if (byte_count > max_mtu || params->xdp_prog) {
718 		frag_size_max = PAGE_SIZE;
719 		first_frag_size_max = SKB_WITH_OVERHEAD(frag_size_max - headroom);
720 
721 		max_mtu = mlx5e_max_nonlinear_mtu(first_frag_size_max, frag_size_max,
722 						  params->xdp_prog);
723 		if (byte_count > max_mtu) {
724 			mlx5_core_err(mdev, "MTU %u is too big for non-linear legacy RQ (max %d)\n",
725 				      params->sw_mtu, max_mtu);
726 			return -EINVAL;
727 		}
728 	}
729 
730 	i = 0;
731 	while (buf_size < byte_count) {
732 		int frag_size = byte_count - buf_size;
733 
734 		if (i == 0)
735 			frag_size = min(frag_size, first_frag_size_max);
736 		else if (i < MLX5E_MAX_RX_FRAGS - 1)
737 			frag_size = min(frag_size, frag_size_max);
738 
739 		info->arr[i].frag_size = frag_size;
740 		buf_size += frag_size;
741 
742 		if (params->xdp_prog) {
743 			/* XDP multi buffer expects fragments of the same size. */
744 			info->arr[i].frag_stride = frag_size_max;
745 		} else {
746 			if (i == 0) {
747 				/* Ensure that headroom and tailroom are included. */
748 				frag_size += headroom;
749 				frag_size += SKB_DATA_ALIGN(sizeof(struct skb_shared_info));
750 			}
751 			info->arr[i].frag_stride = roundup_pow_of_two(frag_size);
752 		}
753 
754 		i++;
755 	}
756 	info->num_frags = i;
757 
758 	/* The last fragment of WQE with index 2*N may share the page with the
759 	 * first fragment of WQE with index 2*N+1 in certain cases. If WQE 2*N+1
760 	 * is not completed yet, WQE 2*N must not be allocated, as it's
761 	 * responsible for allocating a new page.
762 	 */
763 	if (frag_size_max == PAGE_SIZE) {
764 		/* No WQE can start in the middle of a page. */
765 		info->wqe_index_mask = 0;
766 	} else {
767 		/* PAGE_SIZEs starting from 8192 don't use 2K-sized fragments,
768 		 * because there would be more than MLX5E_MAX_RX_FRAGS of them.
769 		 */
770 		WARN_ON(PAGE_SIZE != 2 * DEFAULT_FRAG_SIZE);
771 
772 		/* Odd number of fragments allows to pack the last fragment of
773 		 * the previous WQE and the first fragment of the next WQE into
774 		 * the same page.
775 		 * As long as DEFAULT_FRAG_SIZE is 2048, and MLX5E_MAX_RX_FRAGS
776 		 * is 4, the last fragment can be bigger than the rest only if
777 		 * it's the fourth one, so WQEs consisting of 3 fragments will
778 		 * always share a page.
779 		 * When a page is shared, WQE bulk size is 2, otherwise just 1.
780 		 */
781 		info->wqe_index_mask = info->num_frags % 2;
782 	}
783 
784 out:
785 	/* Bulking optimization to skip allocation until a large enough number
786 	 * of WQEs can be allocated in a row. Bulking also influences how well
787 	 * deferred page release works.
788 	 */
789 	mlx5e_rx_compute_wqe_bulk_params(params, info);
790 
791 	mlx5_core_dbg(mdev, "%s: wqe_bulk = %u, wqe_bulk_refill_unit = %u\n",
792 		      __func__, info->wqe_bulk, info->refill_unit);
793 
794 	info->log_num_frags = order_base_2(info->num_frags);
795 
796 	*xdp_frag_size = info->num_frags > 1 && params->xdp_prog ? PAGE_SIZE : 0;
797 
798 	return 0;
799 }
800 
mlx5e_get_rqwq_log_stride(u8 wq_type,int ndsegs)801 static u8 mlx5e_get_rqwq_log_stride(u8 wq_type, int ndsegs)
802 {
803 	int sz = sizeof(struct mlx5_wqe_data_seg) * ndsegs;
804 
805 	switch (wq_type) {
806 	case MLX5_WQ_TYPE_LINKED_LIST_STRIDING_RQ:
807 		sz += sizeof(struct mlx5e_rx_wqe_ll);
808 		break;
809 	default: /* MLX5_WQ_TYPE_CYCLIC */
810 		sz += sizeof(struct mlx5e_rx_wqe_cyc);
811 	}
812 
813 	return order_base_2(sz);
814 }
815 
mlx5e_build_common_cq_param(struct mlx5_core_dev * mdev,struct mlx5e_cq_param * param)816 static void mlx5e_build_common_cq_param(struct mlx5_core_dev *mdev,
817 					struct mlx5e_cq_param *param)
818 {
819 	void *cqc = param->cqc;
820 
821 	MLX5_SET(cqc, cqc, uar_page, mdev->priv.uar->index);
822 	if (MLX5_CAP_GEN(mdev, cqe_128_always) && cache_line_size() >= 128)
823 		MLX5_SET(cqc, cqc, cqe_sz, CQE_STRIDE_128_PAD);
824 }
825 
mlx5e_shampo_get_log_cq_size(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_xsk_param * xsk)826 static u32 mlx5e_shampo_get_log_cq_size(struct mlx5_core_dev *mdev,
827 					struct mlx5e_params *params,
828 					struct mlx5e_xsk_param *xsk)
829 {
830 	int rsrv_size = BIT(mlx5e_shampo_get_log_rsrv_size(mdev, params)) * PAGE_SIZE;
831 	u16 num_strides = BIT(mlx5e_mpwqe_get_log_num_strides(mdev, params, xsk));
832 	int pkt_per_rsrv = BIT(mlx5e_shampo_get_log_pkt_per_rsrv(mdev, params));
833 	u8 log_stride_sz = mlx5e_mpwqe_get_log_stride_size(mdev, params, xsk);
834 	int wq_size = BIT(mlx5e_mpwqe_get_log_rq_size(mdev, params, xsk));
835 	int wqe_size = BIT(log_stride_sz) * num_strides;
836 
837 	/* +1 is for the case that the pkt_per_rsrv dont consume the reservation
838 	 * so we get a filler cqe for the rest of the reservation.
839 	 */
840 	return order_base_2((wqe_size / rsrv_size) * wq_size * (pkt_per_rsrv + 1));
841 }
842 
mlx5e_build_rx_cq_param(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_xsk_param * xsk,struct mlx5e_cq_param * param)843 static void mlx5e_build_rx_cq_param(struct mlx5_core_dev *mdev,
844 				    struct mlx5e_params *params,
845 				    struct mlx5e_xsk_param *xsk,
846 				    struct mlx5e_cq_param *param)
847 {
848 	bool hw_stridx = false;
849 	void *cqc = param->cqc;
850 	u8 log_cq_size;
851 
852 	switch (params->rq_wq_type) {
853 	case MLX5_WQ_TYPE_LINKED_LIST_STRIDING_RQ:
854 		hw_stridx = MLX5_CAP_GEN(mdev, mini_cqe_resp_stride_index);
855 		if (params->packet_merge.type == MLX5E_PACKET_MERGE_SHAMPO)
856 			log_cq_size = mlx5e_shampo_get_log_cq_size(mdev, params, xsk);
857 		else
858 			log_cq_size = mlx5e_mpwqe_get_log_rq_size(mdev, params, xsk) +
859 				mlx5e_mpwqe_get_log_num_strides(mdev, params, xsk);
860 		break;
861 	default: /* MLX5_WQ_TYPE_CYCLIC */
862 		log_cq_size = params->log_rq_mtu_frames;
863 	}
864 
865 	MLX5_SET(cqc, cqc, log_cq_size, log_cq_size);
866 	if (MLX5E_GET_PFLAG(params, MLX5E_PFLAG_RX_CQE_COMPRESS)) {
867 		MLX5_SET(cqc, cqc, mini_cqe_res_format, hw_stridx ?
868 			 MLX5_CQE_FORMAT_CSUM_STRIDX : MLX5_CQE_FORMAT_CSUM);
869 		MLX5_SET(cqc, cqc, cqe_compression_layout,
870 			 MLX5_CAP_GEN(mdev, enhanced_cqe_compression) ?
871 			 MLX5_CQE_COMPRESS_LAYOUT_ENHANCED :
872 			 MLX5_CQE_COMPRESS_LAYOUT_BASIC);
873 		MLX5_SET(cqc, cqc, cqe_comp_en, 1);
874 	}
875 
876 	mlx5e_build_common_cq_param(mdev, param);
877 	param->cq_period_mode = params->rx_cq_moderation.cq_period_mode;
878 }
879 
rq_end_pad_mode(struct mlx5_core_dev * mdev,struct mlx5e_params * params)880 static u8 rq_end_pad_mode(struct mlx5_core_dev *mdev, struct mlx5e_params *params)
881 {
882 	bool lro_en = params->packet_merge.type == MLX5E_PACKET_MERGE_LRO;
883 	bool ro = MLX5_CAP_GEN(mdev, relaxed_ordering_write);
884 
885 	return ro && lro_en ?
886 		MLX5_WQ_END_PAD_MODE_NONE : MLX5_WQ_END_PAD_MODE_ALIGN;
887 }
888 
mlx5e_build_rq_param(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_xsk_param * xsk,struct mlx5e_rq_param * param)889 int mlx5e_build_rq_param(struct mlx5_core_dev *mdev,
890 			 struct mlx5e_params *params,
891 			 struct mlx5e_xsk_param *xsk,
892 			 struct mlx5e_rq_param *param)
893 {
894 	void *rqc = param->rqc;
895 	void *wq = MLX5_ADDR_OF(rqc, rqc, wq);
896 	int ndsegs = 1;
897 	int err;
898 
899 	switch (params->rq_wq_type) {
900 	case MLX5_WQ_TYPE_LINKED_LIST_STRIDING_RQ: {
901 		u8 log_wqe_num_of_strides = mlx5e_mpwqe_get_log_num_strides(mdev, params, xsk);
902 		u8 log_wqe_stride_size = mlx5e_mpwqe_get_log_stride_size(mdev, params, xsk);
903 		enum mlx5e_mpwrq_umr_mode umr_mode = mlx5e_mpwrq_umr_mode(mdev, xsk);
904 		u8 page_shift = mlx5e_mpwrq_page_shift(mdev, xsk);
905 
906 		if (!mlx5e_verify_rx_mpwqe_strides(mdev, log_wqe_stride_size,
907 						   log_wqe_num_of_strides,
908 						   page_shift, umr_mode)) {
909 			mlx5_core_err(mdev,
910 				      "Bad RX MPWQE params: log_stride_size %u, log_num_strides %u, umr_mode %d\n",
911 				      log_wqe_stride_size, log_wqe_num_of_strides,
912 				      umr_mode);
913 			return -EINVAL;
914 		}
915 
916 		MLX5_SET(wq, wq, log_wqe_num_of_strides,
917 			 log_wqe_num_of_strides - MLX5_MPWQE_LOG_NUM_STRIDES_BASE);
918 		MLX5_SET(wq, wq, log_wqe_stride_size,
919 			 log_wqe_stride_size - MLX5_MPWQE_LOG_STRIDE_SZ_BASE);
920 		MLX5_SET(wq, wq, log_wq_sz, mlx5e_mpwqe_get_log_rq_size(mdev, params, xsk));
921 		if (params->packet_merge.type == MLX5E_PACKET_MERGE_SHAMPO) {
922 			MLX5_SET(wq, wq, shampo_enable, true);
923 			MLX5_SET(wq, wq, log_reservation_size,
924 				 mlx5e_shampo_get_log_rsrv_size(mdev, params));
925 			MLX5_SET(wq, wq,
926 				 log_max_num_of_packets_per_reservation,
927 				 mlx5e_shampo_get_log_pkt_per_rsrv(mdev, params));
928 			MLX5_SET(wq, wq, log_headers_entry_size,
929 				 mlx5e_shampo_get_log_hd_entry_size(mdev, params));
930 			MLX5_SET(rqc, rqc, reservation_timeout,
931 				 mlx5e_choose_lro_timeout(mdev, MLX5E_DEFAULT_SHAMPO_TIMEOUT));
932 			MLX5_SET(rqc, rqc, shampo_match_criteria_type,
933 				 params->packet_merge.shampo.match_criteria_type);
934 			MLX5_SET(rqc, rqc, shampo_no_match_alignment_granularity,
935 				 params->packet_merge.shampo.alignment_granularity);
936 		}
937 		break;
938 	}
939 	default: /* MLX5_WQ_TYPE_CYCLIC */
940 		MLX5_SET(wq, wq, log_wq_sz, params->log_rq_mtu_frames);
941 		err = mlx5e_build_rq_frags_info(mdev, params, xsk, &param->frags_info,
942 						&param->xdp_frag_size);
943 		if (err)
944 			return err;
945 		ndsegs = param->frags_info.num_frags;
946 	}
947 
948 	MLX5_SET(wq, wq, wq_type,          params->rq_wq_type);
949 	MLX5_SET(wq, wq, end_padding_mode, rq_end_pad_mode(mdev, params));
950 	MLX5_SET(wq, wq, log_wq_stride,
951 		 mlx5e_get_rqwq_log_stride(params->rq_wq_type, ndsegs));
952 	MLX5_SET(wq, wq, pd,               mdev->mlx5e_res.hw_objs.pdn);
953 	MLX5_SET(rqc, rqc, vsd,            params->vlan_strip_disable);
954 	MLX5_SET(rqc, rqc, scatter_fcs,    params->scatter_fcs_en);
955 
956 	param->wq.buf_numa_node = dev_to_node(mlx5_core_dma_dev(mdev));
957 	mlx5e_build_rx_cq_param(mdev, params, xsk, &param->cqp);
958 
959 	return 0;
960 }
961 
mlx5e_build_drop_rq_param(struct mlx5_core_dev * mdev,struct mlx5e_rq_param * param)962 void mlx5e_build_drop_rq_param(struct mlx5_core_dev *mdev,
963 			       struct mlx5e_rq_param *param)
964 {
965 	void *rqc = param->rqc;
966 	void *wq = MLX5_ADDR_OF(rqc, rqc, wq);
967 
968 	MLX5_SET(wq, wq, wq_type, MLX5_WQ_TYPE_CYCLIC);
969 	MLX5_SET(wq, wq, log_wq_stride,
970 		 mlx5e_get_rqwq_log_stride(MLX5_WQ_TYPE_CYCLIC, 1));
971 
972 	param->wq.buf_numa_node = dev_to_node(mlx5_core_dma_dev(mdev));
973 }
974 
mlx5e_build_tx_cq_param(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_cq_param * param)975 void mlx5e_build_tx_cq_param(struct mlx5_core_dev *mdev,
976 			     struct mlx5e_params *params,
977 			     struct mlx5e_cq_param *param)
978 {
979 	void *cqc = param->cqc;
980 
981 	MLX5_SET(cqc, cqc, log_cq_size, params->log_sq_size);
982 
983 	mlx5e_build_common_cq_param(mdev, param);
984 	param->cq_period_mode = params->tx_cq_moderation.cq_period_mode;
985 }
986 
mlx5e_build_sq_param_common(struct mlx5_core_dev * mdev,struct mlx5e_sq_param * param)987 void mlx5e_build_sq_param_common(struct mlx5_core_dev *mdev,
988 				 struct mlx5e_sq_param *param)
989 {
990 	void *sqc = param->sqc;
991 	void *wq = MLX5_ADDR_OF(sqc, sqc, wq);
992 
993 	MLX5_SET(wq, wq, log_wq_stride, ilog2(MLX5_SEND_WQE_BB));
994 	MLX5_SET(wq, wq, pd,            mdev->mlx5e_res.hw_objs.pdn);
995 
996 	param->wq.buf_numa_node = dev_to_node(mlx5_core_dma_dev(mdev));
997 }
998 
mlx5e_build_sq_param(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_sq_param * param)999 void mlx5e_build_sq_param(struct mlx5_core_dev *mdev,
1000 			  struct mlx5e_params *params,
1001 			  struct mlx5e_sq_param *param)
1002 {
1003 	void *sqc = param->sqc;
1004 	void *wq = MLX5_ADDR_OF(sqc, sqc, wq);
1005 	bool allow_swp;
1006 
1007 	allow_swp = mlx5_geneve_tx_allowed(mdev) ||
1008 		    (mlx5_ipsec_device_caps(mdev) & MLX5_IPSEC_CAP_CRYPTO);
1009 	mlx5e_build_sq_param_common(mdev, param);
1010 	MLX5_SET(wq, wq, log_wq_sz, params->log_sq_size);
1011 	MLX5_SET(sqc, sqc, allow_swp, allow_swp);
1012 	param->is_mpw = MLX5E_GET_PFLAG(params, MLX5E_PFLAG_SKB_TX_MPWQE);
1013 	param->stop_room = mlx5e_calc_sq_stop_room(mdev, params);
1014 	mlx5e_build_tx_cq_param(mdev, params, &param->cqp);
1015 }
1016 
mlx5e_build_ico_cq_param(struct mlx5_core_dev * mdev,u8 log_wq_size,struct mlx5e_cq_param * param)1017 static void mlx5e_build_ico_cq_param(struct mlx5_core_dev *mdev,
1018 				     u8 log_wq_size,
1019 				     struct mlx5e_cq_param *param)
1020 {
1021 	void *cqc = param->cqc;
1022 
1023 	MLX5_SET(cqc, cqc, log_cq_size, log_wq_size);
1024 
1025 	mlx5e_build_common_cq_param(mdev, param);
1026 
1027 	param->cq_period_mode = DIM_CQ_PERIOD_MODE_START_FROM_EQE;
1028 }
1029 
1030 /* This function calculates the maximum number of headers entries that are needed
1031  * per WQE, the formula is based on the size of the reservations and the
1032  * restriction we have about max packets for reservation that is equal to max
1033  * headers per reservation.
1034  */
mlx5e_shampo_hd_per_wqe(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_rq_param * rq_param)1035 u32 mlx5e_shampo_hd_per_wqe(struct mlx5_core_dev *mdev,
1036 			    struct mlx5e_params *params,
1037 			    struct mlx5e_rq_param *rq_param)
1038 {
1039 	int resv_size = BIT(mlx5e_shampo_get_log_rsrv_size(mdev, params)) * PAGE_SIZE;
1040 	u16 num_strides = BIT(mlx5e_mpwqe_get_log_num_strides(mdev, params, NULL));
1041 	int pkt_per_resv = BIT(mlx5e_shampo_get_log_pkt_per_rsrv(mdev, params));
1042 	u8 log_stride_sz = mlx5e_mpwqe_get_log_stride_size(mdev, params, NULL);
1043 	int wqe_size = BIT(log_stride_sz) * num_strides;
1044 	u32 hd_per_wqe;
1045 
1046 	/* Assumption: hd_per_wqe % 8 == 0. */
1047 	hd_per_wqe = (wqe_size / resv_size) * pkt_per_resv;
1048 	mlx5_core_dbg(mdev, "%s hd_per_wqe = %d rsrv_size = %d wqe_size = %d pkt_per_resv = %d\n",
1049 		      __func__, hd_per_wqe, resv_size, wqe_size, pkt_per_resv);
1050 	return hd_per_wqe;
1051 }
1052 
1053 /* This function calculates the maximum number of headers entries that are needed
1054  * for the WQ, this value is uesed to allocate the header buffer in HW, thus
1055  * must be a pow of 2.
1056  */
mlx5e_shampo_hd_per_wq(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_rq_param * rq_param)1057 u32 mlx5e_shampo_hd_per_wq(struct mlx5_core_dev *mdev,
1058 			   struct mlx5e_params *params,
1059 			   struct mlx5e_rq_param *rq_param)
1060 {
1061 	void *wqc = MLX5_ADDR_OF(rqc, rq_param->rqc, wq);
1062 	int wq_size = BIT(MLX5_GET(wq, wqc, log_wq_sz));
1063 	u32 hd_per_wqe, hd_per_wq;
1064 
1065 	hd_per_wqe = mlx5e_shampo_hd_per_wqe(mdev, params, rq_param);
1066 	hd_per_wq = roundup_pow_of_two(hd_per_wqe * wq_size);
1067 	return hd_per_wq;
1068 }
1069 
mlx5e_shampo_icosq_sz(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_rq_param * rq_param)1070 static u32 mlx5e_shampo_icosq_sz(struct mlx5_core_dev *mdev,
1071 				 struct mlx5e_params *params,
1072 				 struct mlx5e_rq_param *rq_param)
1073 {
1074 	int max_num_of_umr_per_wqe, max_hd_per_wqe, max_ksm_per_umr, rest;
1075 	void *wqc = MLX5_ADDR_OF(rqc, rq_param->rqc, wq);
1076 	int wq_size = BIT(MLX5_GET(wq, wqc, log_wq_sz));
1077 	u32 wqebbs;
1078 
1079 	max_ksm_per_umr = MLX5E_MAX_KSM_PER_WQE(mdev);
1080 	max_hd_per_wqe = mlx5e_shampo_hd_per_wqe(mdev, params, rq_param);
1081 	max_num_of_umr_per_wqe = max_hd_per_wqe / max_ksm_per_umr;
1082 	rest = max_hd_per_wqe % max_ksm_per_umr;
1083 	wqebbs = MLX5E_KSM_UMR_WQEBBS(max_ksm_per_umr) * max_num_of_umr_per_wqe;
1084 	if (rest)
1085 		wqebbs += MLX5E_KSM_UMR_WQEBBS(rest);
1086 	wqebbs *= wq_size;
1087 	return wqebbs;
1088 }
1089 
1090 #define MLX5E_LRO_TIMEOUT_ARR_SIZE                      4
1091 
mlx5e_choose_lro_timeout(struct mlx5_core_dev * mdev,u32 wanted_timeout)1092 u32 mlx5e_choose_lro_timeout(struct mlx5_core_dev *mdev, u32 wanted_timeout)
1093 {
1094 	int i;
1095 
1096 	/* The supported periods are organized in ascending order */
1097 	for (i = 0; i < MLX5E_LRO_TIMEOUT_ARR_SIZE - 1; i++)
1098 		if (MLX5_CAP_ETH(mdev, lro_timer_supported_periods[i]) >= wanted_timeout)
1099 			break;
1100 
1101 	return MLX5_CAP_ETH(mdev, lro_timer_supported_periods[i]);
1102 }
1103 
mlx5e_mpwrq_total_umr_wqebbs(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_xsk_param * xsk)1104 static u32 mlx5e_mpwrq_total_umr_wqebbs(struct mlx5_core_dev *mdev,
1105 					struct mlx5e_params *params,
1106 					struct mlx5e_xsk_param *xsk)
1107 {
1108 	enum mlx5e_mpwrq_umr_mode umr_mode = mlx5e_mpwrq_umr_mode(mdev, xsk);
1109 	u8 page_shift = mlx5e_mpwrq_page_shift(mdev, xsk);
1110 	u8 umr_wqebbs;
1111 
1112 	umr_wqebbs = mlx5e_mpwrq_umr_wqebbs(mdev, page_shift, umr_mode);
1113 
1114 	return umr_wqebbs * (1 << mlx5e_mpwqe_get_log_rq_size(mdev, params, xsk));
1115 }
1116 
mlx5e_build_icosq_log_wq_sz(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_rq_param * rqp)1117 static u8 mlx5e_build_icosq_log_wq_sz(struct mlx5_core_dev *mdev,
1118 				      struct mlx5e_params *params,
1119 				      struct mlx5e_rq_param *rqp)
1120 {
1121 	u32 wqebbs, total_pages, useful_space;
1122 
1123 	/* MLX5_WQ_TYPE_CYCLIC */
1124 	if (params->rq_wq_type != MLX5_WQ_TYPE_LINKED_LIST_STRIDING_RQ)
1125 		return MLX5E_PARAMS_MINIMUM_LOG_SQ_SIZE;
1126 
1127 	/* UMR WQEs for the regular RQ. */
1128 	wqebbs = mlx5e_mpwrq_total_umr_wqebbs(mdev, params, NULL);
1129 
1130 	/* If XDP program is attached, XSK may be turned on at any time without
1131 	 * restarting the channel. ICOSQ must be big enough to fit UMR WQEs of
1132 	 * both regular RQ and XSK RQ.
1133 	 *
1134 	 * XSK uses different values of page_shift, and the total number of UMR
1135 	 * WQEBBs depends on it. This dependency is complex and not monotonic,
1136 	 * especially taking into consideration that some of the parameters come
1137 	 * from capabilities. Hence, we have to try all valid values of XSK
1138 	 * frame size (and page_shift) to find the maximum.
1139 	 */
1140 	if (params->xdp_prog) {
1141 		u32 max_xsk_wqebbs = 0;
1142 		u8 frame_shift;
1143 
1144 		for (frame_shift = XDP_UMEM_MIN_CHUNK_SHIFT;
1145 		     frame_shift <= PAGE_SHIFT; frame_shift++) {
1146 			/* The headroom doesn't affect the calculation. */
1147 			struct mlx5e_xsk_param xsk = {
1148 				.chunk_size = 1 << frame_shift,
1149 				.unaligned = false,
1150 			};
1151 
1152 			/* XSK aligned mode. */
1153 			max_xsk_wqebbs = max(max_xsk_wqebbs,
1154 				mlx5e_mpwrq_total_umr_wqebbs(mdev, params, &xsk));
1155 
1156 			/* XSK unaligned mode, frame size is a power of two. */
1157 			xsk.unaligned = true;
1158 			max_xsk_wqebbs = max(max_xsk_wqebbs,
1159 				mlx5e_mpwrq_total_umr_wqebbs(mdev, params, &xsk));
1160 
1161 			/* XSK unaligned mode, frame size is not equal to stride size. */
1162 			xsk.chunk_size -= 1;
1163 			max_xsk_wqebbs = max(max_xsk_wqebbs,
1164 				mlx5e_mpwrq_total_umr_wqebbs(mdev, params, &xsk));
1165 
1166 			/* XSK unaligned mode, frame size is a triple power of two. */
1167 			xsk.chunk_size = (1 << frame_shift) / 4 * 3;
1168 			max_xsk_wqebbs = max(max_xsk_wqebbs,
1169 				mlx5e_mpwrq_total_umr_wqebbs(mdev, params, &xsk));
1170 		}
1171 
1172 		wqebbs += max_xsk_wqebbs;
1173 	}
1174 
1175 	if (params->packet_merge.type == MLX5E_PACKET_MERGE_SHAMPO)
1176 		wqebbs += mlx5e_shampo_icosq_sz(mdev, params, rqp);
1177 
1178 	/* UMR WQEs don't cross the page boundary, they are padded with NOPs.
1179 	 * This padding is always smaller than the max WQE size. That gives us
1180 	 * at least (PAGE_SIZE - (max WQE size - MLX5_SEND_WQE_BB)) useful bytes
1181 	 * per page. The number of pages is estimated as the total size of WQEs
1182 	 * divided by the useful space in page, rounding up. If some WQEs don't
1183 	 * fully fit into the useful space, they can occupy part of the padding,
1184 	 * which proves this estimation to be correct (reserve enough space).
1185 	 */
1186 	useful_space = PAGE_SIZE - mlx5e_get_max_sq_wqebbs(mdev) + MLX5_SEND_WQE_BB;
1187 	total_pages = DIV_ROUND_UP(wqebbs * MLX5_SEND_WQE_BB, useful_space);
1188 	wqebbs = total_pages * (PAGE_SIZE / MLX5_SEND_WQE_BB);
1189 
1190 	return max_t(u8, MLX5E_PARAMS_MINIMUM_LOG_SQ_SIZE, order_base_2(wqebbs));
1191 }
1192 
mlx5e_build_async_icosq_log_wq_sz(struct mlx5_core_dev * mdev)1193 static u8 mlx5e_build_async_icosq_log_wq_sz(struct mlx5_core_dev *mdev)
1194 {
1195 	if (mlx5e_is_ktls_rx(mdev))
1196 		return MLX5E_PARAMS_DEFAULT_LOG_SQ_SIZE;
1197 
1198 	return MLX5E_PARAMS_MINIMUM_LOG_SQ_SIZE;
1199 }
1200 
mlx5e_build_icosq_param(struct mlx5_core_dev * mdev,u8 log_wq_size,struct mlx5e_sq_param * param)1201 static void mlx5e_build_icosq_param(struct mlx5_core_dev *mdev,
1202 				    u8 log_wq_size,
1203 				    struct mlx5e_sq_param *param)
1204 {
1205 	void *sqc = param->sqc;
1206 	void *wq = MLX5_ADDR_OF(sqc, sqc, wq);
1207 
1208 	mlx5e_build_sq_param_common(mdev, param);
1209 
1210 	MLX5_SET(wq, wq, log_wq_sz, log_wq_size);
1211 	MLX5_SET(sqc, sqc, reg_umr, MLX5_CAP_ETH(mdev, reg_umr_sq));
1212 	mlx5e_build_ico_cq_param(mdev, log_wq_size, &param->cqp);
1213 }
1214 
mlx5e_build_async_icosq_param(struct mlx5_core_dev * mdev,u8 log_wq_size,struct mlx5e_sq_param * param)1215 static void mlx5e_build_async_icosq_param(struct mlx5_core_dev *mdev,
1216 					  u8 log_wq_size,
1217 					  struct mlx5e_sq_param *param)
1218 {
1219 	void *sqc = param->sqc;
1220 	void *wq = MLX5_ADDR_OF(sqc, sqc, wq);
1221 
1222 	mlx5e_build_sq_param_common(mdev, param);
1223 	param->stop_room = mlx5e_stop_room_for_wqe(mdev, 1); /* for XSK NOP */
1224 	param->is_tls = mlx5e_is_ktls_rx(mdev);
1225 	if (param->is_tls)
1226 		param->stop_room += mlx5e_stop_room_for_wqe(mdev, 1); /* for TLS RX resync NOP */
1227 	MLX5_SET(sqc, sqc, reg_umr, MLX5_CAP_ETH(mdev, reg_umr_sq));
1228 	MLX5_SET(wq, wq, log_wq_sz, log_wq_size);
1229 	mlx5e_build_ico_cq_param(mdev, log_wq_size, &param->cqp);
1230 }
1231 
mlx5e_build_xdpsq_param(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_xsk_param * xsk,struct mlx5e_sq_param * param)1232 void mlx5e_build_xdpsq_param(struct mlx5_core_dev *mdev,
1233 			     struct mlx5e_params *params,
1234 			     struct mlx5e_xsk_param *xsk,
1235 			     struct mlx5e_sq_param *param)
1236 {
1237 	void *sqc = param->sqc;
1238 	void *wq = MLX5_ADDR_OF(sqc, sqc, wq);
1239 
1240 	mlx5e_build_sq_param_common(mdev, param);
1241 	MLX5_SET(wq, wq, log_wq_sz, params->log_sq_size);
1242 	param->is_mpw = MLX5E_GET_PFLAG(params, MLX5E_PFLAG_XDP_TX_MPWQE);
1243 	param->is_xdp_mb = !mlx5e_rx_is_linear_skb(mdev, params, xsk);
1244 	mlx5e_build_tx_cq_param(mdev, params, &param->cqp);
1245 }
1246 
mlx5e_build_channel_param(struct mlx5_core_dev * mdev,struct mlx5e_params * params,struct mlx5e_channel_param * cparam)1247 int mlx5e_build_channel_param(struct mlx5_core_dev *mdev,
1248 			      struct mlx5e_params *params,
1249 			      struct mlx5e_channel_param *cparam)
1250 {
1251 	u8 icosq_log_wq_sz, async_icosq_log_wq_sz;
1252 	int err;
1253 
1254 	err = mlx5e_build_rq_param(mdev, params, NULL, &cparam->rq);
1255 	if (err)
1256 		return err;
1257 
1258 	icosq_log_wq_sz = mlx5e_build_icosq_log_wq_sz(mdev, params, &cparam->rq);
1259 	async_icosq_log_wq_sz = mlx5e_build_async_icosq_log_wq_sz(mdev);
1260 
1261 	mlx5e_build_sq_param(mdev, params, &cparam->txq_sq);
1262 	mlx5e_build_xdpsq_param(mdev, params, NULL, &cparam->xdp_sq);
1263 	mlx5e_build_icosq_param(mdev, icosq_log_wq_sz, &cparam->icosq);
1264 	mlx5e_build_async_icosq_param(mdev, async_icosq_log_wq_sz, &cparam->async_icosq);
1265 
1266 	return 0;
1267 }
1268