1/* SPDX-License-Identifier: GPL-2.0 */
  2#ifndef _LINUX_NET_QUEUES_H
  3#define _LINUX_NET_QUEUES_H
  4
  5#include <linux/netdevice.h>
  6
  7/* See the netdev.yaml spec for definition of each statistic */
  8struct netdev_queue_stats_rx {
  9	u64 bytes;
 10	u64 packets;
 11	u64 alloc_fail;
 12
 13	u64 hw_drops;
 14	u64 hw_drop_overruns;
 15
 16	u64 csum_unnecessary;
 17	u64 csum_none;
 18	u64 csum_bad;
 19
 20	u64 hw_gro_packets;
 21	u64 hw_gro_bytes;
 22	u64 hw_gro_wire_packets;
 23	u64 hw_gro_wire_bytes;
 24
 25	u64 hw_drop_ratelimits;
 26};
 27
 28struct netdev_queue_stats_tx {
 29	u64 bytes;
 30	u64 packets;
 31
 32	u64 hw_drops;
 33	u64 hw_drop_errors;
 34
 35	u64 csum_none;
 36	u64 needs_csum;
 37
 38	u64 hw_gso_packets;
 39	u64 hw_gso_bytes;
 40	u64 hw_gso_wire_packets;
 41	u64 hw_gso_wire_bytes;
 42
 43	u64 hw_drop_ratelimits;
 44
 45	u64 stop;
 46	u64 wake;
 47};
 48
 49/**
 50 * struct netdev_stat_ops - netdev ops for fine grained stats
 51 * @get_queue_stats_rx:	get stats for a given Rx queue
 52 * @get_queue_stats_tx:	get stats for a given Tx queue
 53 * @get_base_stats:	get base stats (not belonging to any live instance)
 54 *
 55 * Query stats for a given object. The values of the statistics are undefined
 56 * on entry (specifically they are *not* zero-initialized). Drivers should
 57 * assign values only to the statistics they collect. Statistics which are not
 58 * collected must be left undefined.
 59 *
 60 * Queue objects are not necessarily persistent, and only currently active
 61 * queues are queried by the per-queue callbacks. This means that per-queue
 62 * statistics will not generally add up to the total number of events for
 63 * the device. The @get_base_stats callback allows filling in the delta
 64 * between events for currently live queues and overall device history.
 65 * @get_base_stats can also be used to report any miscellaneous packets
 66 * transferred outside of the main set of queues used by the networking stack.
 67 * When the statistics for the entire device are queried, first @get_base_stats
 68 * is issued to collect the delta, and then a series of per-queue callbacks.
 69 * Only statistics which are set in @get_base_stats will be reported
 70 * at the device level, meaning that unlike in queue callbacks, setting
 71 * a statistic to zero in @get_base_stats is a legitimate thing to do.
 72 * This is because @get_base_stats has a second function of designating which
 73 * statistics are in fact correct for the entire device (e.g. when history
 74 * for some of the events is not maintained, and reliable "total" cannot
 75 * be provided).
 76 *
 77 * Device drivers can assume that when collecting total device stats,
 78 * the @get_base_stats and subsequent per-queue calls are performed
 79 * "atomically" (without releasing the rtnl_lock).
 80 *
 81 * Device drivers are encouraged to reset the per-queue statistics when
 82 * number of queues change. This is because the primary use case for
 83 * per-queue statistics is currently to detect traffic imbalance.
 84 */
 85struct netdev_stat_ops {
 86	void (*get_queue_stats_rx)(struct net_device *dev, int idx,
 87				   struct netdev_queue_stats_rx *stats);
 88	void (*get_queue_stats_tx)(struct net_device *dev, int idx,
 89				   struct netdev_queue_stats_tx *stats);
 90	void (*get_base_stats)(struct net_device *dev,
 91			       struct netdev_queue_stats_rx *rx,
 92			       struct netdev_queue_stats_tx *tx);
 93};
 94
 95/**
 96 * struct netdev_queue_mgmt_ops - netdev ops for queue management
 97 *
 98 * @ndo_queue_mem_size: Size of the struct that describes a queue's memory.
 99 *
100 * @ndo_queue_mem_alloc: Allocate memory for an RX queue at the specified index.
101 *			 The new memory is written at the specified address.
102 *
103 * @ndo_queue_mem_free:	Free memory from an RX queue.
104 *
105 * @ndo_queue_start:	Start an RX queue with the specified memory and at the
106 *			specified index.
107 *
108 * @ndo_queue_stop:	Stop the RX queue at the specified index. The stopped
109 *			queue's memory is written at the specified address.
110 */
111struct netdev_queue_mgmt_ops {
112	size_t			ndo_queue_mem_size;
113	int			(*ndo_queue_mem_alloc)(struct net_device *dev,
114						       void *per_queue_mem,
115						       int idx);
116	void			(*ndo_queue_mem_free)(struct net_device *dev,
117						      void *per_queue_mem);
118	int			(*ndo_queue_start)(struct net_device *dev,
119						   void *per_queue_mem,
120						   int idx);
121	int			(*ndo_queue_stop)(struct net_device *dev,
122						  void *per_queue_mem,
123						  int idx);
124};
125
126/**
127 * DOC: Lockless queue stopping / waking helpers.
128 *
129 * The netif_txq_maybe_stop() and __netif_txq_completed_wake()
130 * macros are designed to safely implement stopping
131 * and waking netdev queues without full lock protection.
132 *
133 * We assume that there can be no concurrent stop attempts and no concurrent
134 * wake attempts. The try-stop should happen from the xmit handler,
135 * while wake up should be triggered from NAPI poll context.
136 * The two may run concurrently (single producer, single consumer).
137 *
138 * The try-stop side is expected to run from the xmit handler and therefore
139 * it does not reschedule Tx (netif_tx_start_queue() instead of
140 * netif_tx_wake_queue()). Uses of the ``stop`` macros outside of the xmit
141 * handler may lead to xmit queue being enabled but not run.
142 * The waking side does not have similar context restrictions.
143 *
144 * The macros guarantee that rings will not remain stopped if there's
145 * space available, but they do *not* prevent false wake ups when
146 * the ring is full! Drivers should check for ring full at the start
147 * for the xmit handler.
148 *
149 * All descriptor ring indexes (and other relevant shared state) must
150 * be updated before invoking the macros.
151 */
152
153#define netif_txq_try_stop(txq, get_desc, start_thrs)			\
154	({								\
155		int _res;						\
156									\
157		netif_tx_stop_queue(txq);				\
158		/* Producer index and stop bit must be visible		\
159		 * to consumer before we recheck.			\
160		 * Pairs with a barrier in __netif_txq_completed_wake(). \
161		 */							\
162		smp_mb__after_atomic();					\
163									\
164		/* We need to check again in a case another		\
165		 * CPU has just made room available.			\
166		 */							\
167		_res = 0;						\
168		if (unlikely(get_desc >= start_thrs)) {			\
169			netif_tx_start_queue(txq);			\
170			_res = -1;					\
171		}							\
172		_res;							\
173	})								\
174
175/**
176 * netif_txq_maybe_stop() - locklessly stop a Tx queue, if needed
177 * @txq:	struct netdev_queue to stop/start
178 * @get_desc:	get current number of free descriptors (see requirements below!)
179 * @stop_thrs:	minimal number of available descriptors for queue to be left
180 *		enabled
181 * @start_thrs:	minimal number of descriptors to re-enable the queue, can be
182 *		equal to @stop_thrs or higher to avoid frequent waking
183 *
184 * All arguments may be evaluated multiple times, beware of side effects.
185 * @get_desc must be a formula or a function call, it must always
186 * return up-to-date information when evaluated!
187 * Expected to be used from ndo_start_xmit, see the comment on top of the file.
188 *
189 * Returns:
190 *	 0 if the queue was stopped
191 *	 1 if the queue was left enabled
192 *	-1 if the queue was re-enabled (raced with waking)
193 */
194#define netif_txq_maybe_stop(txq, get_desc, stop_thrs, start_thrs)	\
195	({								\
196		int _res;						\
197									\
198		_res = 1;						\
199		if (unlikely(get_desc < stop_thrs))			\
200			_res = netif_txq_try_stop(txq, get_desc, start_thrs); \
201		_res;							\
202	})								\
203
204/* Variant of netdev_tx_completed_queue() which guarantees smp_mb() if
205 * @bytes != 0, regardless of kernel config.
206 */
207static inline void
208netdev_txq_completed_mb(struct netdev_queue *dev_queue,
209			unsigned int pkts, unsigned int bytes)
210{
211	if (IS_ENABLED(CONFIG_BQL))
212		netdev_tx_completed_queue(dev_queue, pkts, bytes);
213	else if (bytes)
214		smp_mb();
215}
216
217/**
218 * __netif_txq_completed_wake() - locklessly wake a Tx queue, if needed
219 * @txq:	struct netdev_queue to stop/start
220 * @pkts:	number of packets completed
221 * @bytes:	number of bytes completed
222 * @get_desc:	get current number of free descriptors (see requirements below!)
223 * @start_thrs:	minimal number of descriptors to re-enable the queue
224 * @down_cond:	down condition, predicate indicating that the queue should
225 *		not be woken up even if descriptors are available
226 *
227 * All arguments may be evaluated multiple times.
228 * @get_desc must be a formula or a function call, it must always
229 * return up-to-date information when evaluated!
230 * Reports completed pkts/bytes to BQL.
231 *
232 * Returns:
233 *	 0 if the queue was woken up
234 *	 1 if the queue was already enabled (or disabled but @down_cond is true)
235 *	-1 if the queue was left unchanged (@start_thrs not reached)
236 */
237#define __netif_txq_completed_wake(txq, pkts, bytes,			\
238				   get_desc, start_thrs, down_cond)	\
239	({								\
240		int _res;						\
241									\
242		/* Report to BQL and piggy back on its barrier.		\
243		 * Barrier makes sure that anybody stopping the queue	\
244		 * after this point sees the new consumer index.	\
245		 * Pairs with barrier in netif_txq_try_stop().		\
246		 */							\
247		netdev_txq_completed_mb(txq, pkts, bytes);		\
248									\
249		_res = -1;						\
250		if (pkts && likely(get_desc >= start_thrs)) {		\
251			_res = 1;					\
252			if (unlikely(netif_tx_queue_stopped(txq)) &&	\
253			    !(down_cond)) {				\
254				netif_tx_wake_queue(txq);		\
255				_res = 0;				\
256			}						\
257		}							\
258		_res;							\
259	})
260
261#define netif_txq_completed_wake(txq, pkts, bytes, get_desc, start_thrs) \
262	__netif_txq_completed_wake(txq, pkts, bytes, get_desc, start_thrs, false)
263
264/* subqueue variants follow */
265
266#define netif_subqueue_try_stop(dev, idx, get_desc, start_thrs)		\
267	({								\
268		struct netdev_queue *txq;				\
269									\
270		txq = netdev_get_tx_queue(dev, idx);			\
271		netif_txq_try_stop(txq, get_desc, start_thrs);		\
272	})
273
274#define netif_subqueue_maybe_stop(dev, idx, get_desc, stop_thrs, start_thrs) \
275	({								\
276		struct netdev_queue *txq;				\
277									\
278		txq = netdev_get_tx_queue(dev, idx);			\
279		netif_txq_maybe_stop(txq, get_desc, stop_thrs, start_thrs); \
280	})
281
282#define netif_subqueue_completed_wake(dev, idx, pkts, bytes,		\
283				      get_desc, start_thrs)		\
284	({								\
285		struct netdev_queue *txq;				\
286									\
287		txq = netdev_get_tx_queue(dev, idx);			\
288		netif_txq_completed_wake(txq, pkts, bytes,		\
289					 get_desc, start_thrs);		\
290	})
291
292#endif