xref: /rk3399_rockchip-uboot/arch/arm/mach-tegra/ivc.c (revision 90aa625c9a9e1fb7a2f001fd8e50099bacaf92b8) 
149626ea8SStephen Warren /*
249626ea8SStephen Warren  * Copyright (c) 2016, NVIDIA CORPORATION.
349626ea8SStephen Warren  *
449626ea8SStephen Warren  * SPDX-License-Identifier: GPL-2.0
549626ea8SStephen Warren  */
649626ea8SStephen Warren 
749626ea8SStephen Warren #include <common.h>
849626ea8SStephen Warren #include <asm/io.h>
949626ea8SStephen Warren #include <asm/arch-tegra/ivc.h>
1049626ea8SStephen Warren 
1149626ea8SStephen Warren #define TEGRA_IVC_ALIGN 64
1249626ea8SStephen Warren 
1349626ea8SStephen Warren /*
1449626ea8SStephen Warren  * IVC channel reset protocol.
1549626ea8SStephen Warren  *
1649626ea8SStephen Warren  * Each end uses its tx_channel.state to indicate its synchronization state.
1749626ea8SStephen Warren  */
1849626ea8SStephen Warren enum ivc_state {
1949626ea8SStephen Warren 	/*
2049626ea8SStephen Warren 	 * This value is zero for backwards compatibility with services that
2149626ea8SStephen Warren 	 * assume channels to be initially zeroed. Such channels are in an
2249626ea8SStephen Warren 	 * initially valid state, but cannot be asynchronously reset, and must
2349626ea8SStephen Warren 	 * maintain a valid state at all times.
2449626ea8SStephen Warren 	 *
2549626ea8SStephen Warren 	 * The transmitting end can enter the established state from the sync or
2649626ea8SStephen Warren 	 * ack state when it observes the receiving endpoint in the ack or
2749626ea8SStephen Warren 	 * established state, indicating that has cleared the counters in our
2849626ea8SStephen Warren 	 * rx_channel.
2949626ea8SStephen Warren 	 */
3049626ea8SStephen Warren 	ivc_state_established = 0,
3149626ea8SStephen Warren 
3249626ea8SStephen Warren 	/*
3349626ea8SStephen Warren 	 * If an endpoint is observed in the sync state, the remote endpoint is
3449626ea8SStephen Warren 	 * allowed to clear the counters it owns asynchronously with respect to
3549626ea8SStephen Warren 	 * the current endpoint. Therefore, the current endpoint is no longer
3649626ea8SStephen Warren 	 * allowed to communicate.
3749626ea8SStephen Warren 	 */
3849626ea8SStephen Warren 	ivc_state_sync,
3949626ea8SStephen Warren 
4049626ea8SStephen Warren 	/*
4149626ea8SStephen Warren 	 * When the transmitting end observes the receiving end in the sync
4249626ea8SStephen Warren 	 * state, it can clear the w_count and r_count and transition to the ack
4349626ea8SStephen Warren 	 * state. If the remote endpoint observes us in the ack state, it can
4449626ea8SStephen Warren 	 * return to the established state once it has cleared its counters.
4549626ea8SStephen Warren 	 */
4649626ea8SStephen Warren 	ivc_state_ack
4749626ea8SStephen Warren };
4849626ea8SStephen Warren 
4949626ea8SStephen Warren /*
5049626ea8SStephen Warren  * This structure is divided into two-cache aligned parts, the first is only
5149626ea8SStephen Warren  * written through the tx_channel pointer, while the second is only written
5249626ea8SStephen Warren  * through the rx_channel pointer. This delineates ownership of the cache lines,
5349626ea8SStephen Warren  * which is critical to performance and necessary in non-cache coherent
5449626ea8SStephen Warren  * implementations.
5549626ea8SStephen Warren  */
5649626ea8SStephen Warren struct tegra_ivc_channel_header {
5749626ea8SStephen Warren 	union {
5849626ea8SStephen Warren 		/* fields owned by the transmitting end */
5949626ea8SStephen Warren 		struct {
6049626ea8SStephen Warren 			uint32_t w_count;
6149626ea8SStephen Warren 			uint32_t state;
6249626ea8SStephen Warren 		};
6349626ea8SStephen Warren 		uint8_t w_align[TEGRA_IVC_ALIGN];
6449626ea8SStephen Warren 	};
6549626ea8SStephen Warren 	union {
6649626ea8SStephen Warren 		/* fields owned by the receiving end */
6749626ea8SStephen Warren 		uint32_t r_count;
6849626ea8SStephen Warren 		uint8_t r_align[TEGRA_IVC_ALIGN];
6949626ea8SStephen Warren 	};
7049626ea8SStephen Warren };
7149626ea8SStephen Warren 
tegra_ivc_invalidate_counter(struct tegra_ivc * ivc,struct tegra_ivc_channel_header * h,ulong offset)7249626ea8SStephen Warren static inline void tegra_ivc_invalidate_counter(struct tegra_ivc *ivc,
7349626ea8SStephen Warren 					struct tegra_ivc_channel_header *h,
7449626ea8SStephen Warren 					ulong offset)
7549626ea8SStephen Warren {
7649626ea8SStephen Warren 	ulong base = ((ulong)h) + offset;
7749626ea8SStephen Warren 	invalidate_dcache_range(base, base + TEGRA_IVC_ALIGN);
7849626ea8SStephen Warren }
7949626ea8SStephen Warren 
tegra_ivc_flush_counter(struct tegra_ivc * ivc,struct tegra_ivc_channel_header * h,ulong offset)8049626ea8SStephen Warren static inline void tegra_ivc_flush_counter(struct tegra_ivc *ivc,
8149626ea8SStephen Warren 					   struct tegra_ivc_channel_header *h,
8249626ea8SStephen Warren 					   ulong offset)
8349626ea8SStephen Warren {
8449626ea8SStephen Warren 	ulong base = ((ulong)h) + offset;
8549626ea8SStephen Warren 	flush_dcache_range(base, base + TEGRA_IVC_ALIGN);
8649626ea8SStephen Warren }
8749626ea8SStephen Warren 
tegra_ivc_frame_addr(struct tegra_ivc * ivc,struct tegra_ivc_channel_header * h,uint32_t frame)8849626ea8SStephen Warren static inline ulong tegra_ivc_frame_addr(struct tegra_ivc *ivc,
8949626ea8SStephen Warren 					 struct tegra_ivc_channel_header *h,
9049626ea8SStephen Warren 					 uint32_t frame)
9149626ea8SStephen Warren {
9249626ea8SStephen Warren 	BUG_ON(frame >= ivc->nframes);
9349626ea8SStephen Warren 
9449626ea8SStephen Warren 	return ((ulong)h) + sizeof(struct tegra_ivc_channel_header) +
9549626ea8SStephen Warren 	       (ivc->frame_size * frame);
9649626ea8SStephen Warren }
9749626ea8SStephen Warren 
tegra_ivc_frame_pointer(struct tegra_ivc * ivc,struct tegra_ivc_channel_header * ch,uint32_t frame)9849626ea8SStephen Warren static inline void *tegra_ivc_frame_pointer(struct tegra_ivc *ivc,
9949626ea8SStephen Warren 					    struct tegra_ivc_channel_header *ch,
10049626ea8SStephen Warren 					    uint32_t frame)
10149626ea8SStephen Warren {
10249626ea8SStephen Warren 	return (void *)tegra_ivc_frame_addr(ivc, ch, frame);
10349626ea8SStephen Warren }
10449626ea8SStephen Warren 
tegra_ivc_invalidate_frame(struct tegra_ivc * ivc,struct tegra_ivc_channel_header * h,unsigned frame)10549626ea8SStephen Warren static inline void tegra_ivc_invalidate_frame(struct tegra_ivc *ivc,
10649626ea8SStephen Warren 					struct tegra_ivc_channel_header *h,
10749626ea8SStephen Warren 					unsigned frame)
10849626ea8SStephen Warren {
10949626ea8SStephen Warren 	ulong base = tegra_ivc_frame_addr(ivc, h, frame);
11049626ea8SStephen Warren 	invalidate_dcache_range(base, base + ivc->frame_size);
11149626ea8SStephen Warren }
11249626ea8SStephen Warren 
tegra_ivc_flush_frame(struct tegra_ivc * ivc,struct tegra_ivc_channel_header * h,unsigned frame)11349626ea8SStephen Warren static inline void tegra_ivc_flush_frame(struct tegra_ivc *ivc,
11449626ea8SStephen Warren 					 struct tegra_ivc_channel_header *h,
11549626ea8SStephen Warren 					 unsigned frame)
11649626ea8SStephen Warren {
11749626ea8SStephen Warren 	ulong base = tegra_ivc_frame_addr(ivc, h, frame);
11849626ea8SStephen Warren 	flush_dcache_range(base, base + ivc->frame_size);
11949626ea8SStephen Warren }
12049626ea8SStephen Warren 
tegra_ivc_channel_empty(struct tegra_ivc * ivc,struct tegra_ivc_channel_header * ch)12149626ea8SStephen Warren static inline int tegra_ivc_channel_empty(struct tegra_ivc *ivc,
12249626ea8SStephen Warren 					  struct tegra_ivc_channel_header *ch)
12349626ea8SStephen Warren {
12449626ea8SStephen Warren 	/*
12549626ea8SStephen Warren 	 * This function performs multiple checks on the same values with
12649626ea8SStephen Warren 	 * security implications, so create snapshots with ACCESS_ONCE() to
12749626ea8SStephen Warren 	 * ensure that these checks use the same values.
12849626ea8SStephen Warren 	 */
12949626ea8SStephen Warren 	uint32_t w_count = ACCESS_ONCE(ch->w_count);
13049626ea8SStephen Warren 	uint32_t r_count = ACCESS_ONCE(ch->r_count);
13149626ea8SStephen Warren 
13249626ea8SStephen Warren 	/*
13349626ea8SStephen Warren 	 * Perform an over-full check to prevent denial of service attacks where
13449626ea8SStephen Warren 	 * a server could be easily fooled into believing that there's an
13549626ea8SStephen Warren 	 * extremely large number of frames ready, since receivers are not
13649626ea8SStephen Warren 	 * expected to check for full or over-full conditions.
13749626ea8SStephen Warren 	 *
13849626ea8SStephen Warren 	 * Although the channel isn't empty, this is an invalid case caused by
13949626ea8SStephen Warren 	 * a potentially malicious peer, so returning empty is safer, because it
14049626ea8SStephen Warren 	 * gives the impression that the channel has gone silent.
14149626ea8SStephen Warren 	 */
14249626ea8SStephen Warren 	if (w_count - r_count > ivc->nframes)
14349626ea8SStephen Warren 		return 1;
14449626ea8SStephen Warren 
14549626ea8SStephen Warren 	return w_count == r_count;
14649626ea8SStephen Warren }
14749626ea8SStephen Warren 
tegra_ivc_channel_full(struct tegra_ivc * ivc,struct tegra_ivc_channel_header * ch)14849626ea8SStephen Warren static inline int tegra_ivc_channel_full(struct tegra_ivc *ivc,
14949626ea8SStephen Warren 					 struct tegra_ivc_channel_header *ch)
15049626ea8SStephen Warren {
15149626ea8SStephen Warren 	/*
15249626ea8SStephen Warren 	 * Invalid cases where the counters indicate that the queue is over
15349626ea8SStephen Warren 	 * capacity also appear full.
15449626ea8SStephen Warren 	 */
15549626ea8SStephen Warren 	return (ACCESS_ONCE(ch->w_count) - ACCESS_ONCE(ch->r_count)) >=
15649626ea8SStephen Warren 	       ivc->nframes;
15749626ea8SStephen Warren }
15849626ea8SStephen Warren 
tegra_ivc_advance_rx(struct tegra_ivc * ivc)15949626ea8SStephen Warren static inline void tegra_ivc_advance_rx(struct tegra_ivc *ivc)
16049626ea8SStephen Warren {
16149626ea8SStephen Warren 	ACCESS_ONCE(ivc->rx_channel->r_count) =
16249626ea8SStephen Warren 			ACCESS_ONCE(ivc->rx_channel->r_count) + 1;
16349626ea8SStephen Warren 
16449626ea8SStephen Warren 	if (ivc->r_pos == ivc->nframes - 1)
16549626ea8SStephen Warren 		ivc->r_pos = 0;
16649626ea8SStephen Warren 	else
16749626ea8SStephen Warren 		ivc->r_pos++;
16849626ea8SStephen Warren }
16949626ea8SStephen Warren 
tegra_ivc_advance_tx(struct tegra_ivc * ivc)17049626ea8SStephen Warren static inline void tegra_ivc_advance_tx(struct tegra_ivc *ivc)
17149626ea8SStephen Warren {
17249626ea8SStephen Warren 	ACCESS_ONCE(ivc->tx_channel->w_count) =
17349626ea8SStephen Warren 			ACCESS_ONCE(ivc->tx_channel->w_count) + 1;
17449626ea8SStephen Warren 
17549626ea8SStephen Warren 	if (ivc->w_pos == ivc->nframes - 1)
17649626ea8SStephen Warren 		ivc->w_pos = 0;
17749626ea8SStephen Warren 	else
17849626ea8SStephen Warren 		ivc->w_pos++;
17949626ea8SStephen Warren }
18049626ea8SStephen Warren 
tegra_ivc_check_read(struct tegra_ivc * ivc)18149626ea8SStephen Warren static inline int tegra_ivc_check_read(struct tegra_ivc *ivc)
18249626ea8SStephen Warren {
18349626ea8SStephen Warren 	ulong offset;
18449626ea8SStephen Warren 
18549626ea8SStephen Warren 	/*
18649626ea8SStephen Warren 	 * tx_channel->state is set locally, so it is not synchronized with
18749626ea8SStephen Warren 	 * state from the remote peer. The remote peer cannot reset its
18849626ea8SStephen Warren 	 * transmit counters until we've acknowledged its synchronization
18949626ea8SStephen Warren 	 * request, so no additional synchronization is required because an
19049626ea8SStephen Warren 	 * asynchronous transition of rx_channel->state to ivc_state_ack is not
19149626ea8SStephen Warren 	 * allowed.
19249626ea8SStephen Warren 	 */
19349626ea8SStephen Warren 	if (ivc->tx_channel->state != ivc_state_established)
19449626ea8SStephen Warren 		return -ECONNRESET;
19549626ea8SStephen Warren 
19649626ea8SStephen Warren 	/*
19749626ea8SStephen Warren 	 * Avoid unnecessary invalidations when performing repeated accesses to
19849626ea8SStephen Warren 	 * an IVC channel by checking the old queue pointers first.
19949626ea8SStephen Warren 	 * Synchronization is only necessary when these pointers indicate empty
20049626ea8SStephen Warren 	 * or full.
20149626ea8SStephen Warren 	 */
20249626ea8SStephen Warren 	if (!tegra_ivc_channel_empty(ivc, ivc->rx_channel))
20349626ea8SStephen Warren 		return 0;
20449626ea8SStephen Warren 
20549626ea8SStephen Warren 	offset = offsetof(struct tegra_ivc_channel_header, w_count);
20649626ea8SStephen Warren 	tegra_ivc_invalidate_counter(ivc, ivc->rx_channel, offset);
20749626ea8SStephen Warren 	return tegra_ivc_channel_empty(ivc, ivc->rx_channel) ? -ENOMEM : 0;
20849626ea8SStephen Warren }
20949626ea8SStephen Warren 
tegra_ivc_check_write(struct tegra_ivc * ivc)21049626ea8SStephen Warren static inline int tegra_ivc_check_write(struct tegra_ivc *ivc)
21149626ea8SStephen Warren {
21249626ea8SStephen Warren 	ulong offset;
21349626ea8SStephen Warren 
21449626ea8SStephen Warren 	if (ivc->tx_channel->state != ivc_state_established)
21549626ea8SStephen Warren 		return -ECONNRESET;
21649626ea8SStephen Warren 
21749626ea8SStephen Warren 	if (!tegra_ivc_channel_full(ivc, ivc->tx_channel))
21849626ea8SStephen Warren 		return 0;
21949626ea8SStephen Warren 
22049626ea8SStephen Warren 	offset = offsetof(struct tegra_ivc_channel_header, r_count);
22149626ea8SStephen Warren 	tegra_ivc_invalidate_counter(ivc, ivc->tx_channel, offset);
22249626ea8SStephen Warren 	return tegra_ivc_channel_full(ivc, ivc->tx_channel) ? -ENOMEM : 0;
22349626ea8SStephen Warren }
22449626ea8SStephen Warren 
tegra_ivc_channel_avail_count(struct tegra_ivc * ivc,struct tegra_ivc_channel_header * ch)22549626ea8SStephen Warren static inline uint32_t tegra_ivc_channel_avail_count(struct tegra_ivc *ivc,
22649626ea8SStephen Warren 	struct tegra_ivc_channel_header *ch)
22749626ea8SStephen Warren {
22849626ea8SStephen Warren 	/*
22949626ea8SStephen Warren 	 * This function isn't expected to be used in scenarios where an
23049626ea8SStephen Warren 	 * over-full situation can lead to denial of service attacks. See the
23149626ea8SStephen Warren 	 * comment in tegra_ivc_channel_empty() for an explanation about
23249626ea8SStephen Warren 	 * special over-full considerations.
23349626ea8SStephen Warren 	 */
23449626ea8SStephen Warren 	return ACCESS_ONCE(ch->w_count) - ACCESS_ONCE(ch->r_count);
23549626ea8SStephen Warren }
23649626ea8SStephen Warren 
tegra_ivc_read_get_next_frame(struct tegra_ivc * ivc,void ** frame)23749626ea8SStephen Warren int tegra_ivc_read_get_next_frame(struct tegra_ivc *ivc, void **frame)
23849626ea8SStephen Warren {
23949626ea8SStephen Warren 	int result = tegra_ivc_check_read(ivc);
24049626ea8SStephen Warren 	if (result < 0)
24149626ea8SStephen Warren 		return result;
24249626ea8SStephen Warren 
24349626ea8SStephen Warren 	/*
24449626ea8SStephen Warren 	 * Order observation of w_pos potentially indicating new data before
24549626ea8SStephen Warren 	 * data read.
24649626ea8SStephen Warren 	 */
24749626ea8SStephen Warren 	mb();
24849626ea8SStephen Warren 
24949626ea8SStephen Warren 	tegra_ivc_invalidate_frame(ivc, ivc->rx_channel, ivc->r_pos);
25049626ea8SStephen Warren 	*frame = tegra_ivc_frame_pointer(ivc, ivc->rx_channel, ivc->r_pos);
25149626ea8SStephen Warren 
25249626ea8SStephen Warren 	return 0;
25349626ea8SStephen Warren }
25449626ea8SStephen Warren 
tegra_ivc_read_advance(struct tegra_ivc * ivc)25549626ea8SStephen Warren int tegra_ivc_read_advance(struct tegra_ivc *ivc)
25649626ea8SStephen Warren {
25749626ea8SStephen Warren 	ulong offset;
25849626ea8SStephen Warren 	int result;
25949626ea8SStephen Warren 
26049626ea8SStephen Warren 	/*
26149626ea8SStephen Warren 	 * No read barriers or synchronization here: the caller is expected to
26249626ea8SStephen Warren 	 * have already observed the channel non-empty. This check is just to
26349626ea8SStephen Warren 	 * catch programming errors.
26449626ea8SStephen Warren 	 */
26549626ea8SStephen Warren 	result = tegra_ivc_check_read(ivc);
26649626ea8SStephen Warren 	if (result)
26749626ea8SStephen Warren 		return result;
26849626ea8SStephen Warren 
26949626ea8SStephen Warren 	tegra_ivc_advance_rx(ivc);
27049626ea8SStephen Warren 	offset = offsetof(struct tegra_ivc_channel_header, r_count);
27149626ea8SStephen Warren 	tegra_ivc_flush_counter(ivc, ivc->rx_channel, offset);
27249626ea8SStephen Warren 
27349626ea8SStephen Warren 	/*
27449626ea8SStephen Warren 	 * Ensure our write to r_pos occurs before our read from w_pos.
27549626ea8SStephen Warren 	 */
27649626ea8SStephen Warren 	mb();
27749626ea8SStephen Warren 
27849626ea8SStephen Warren 	offset = offsetof(struct tegra_ivc_channel_header, w_count);
27949626ea8SStephen Warren 	tegra_ivc_invalidate_counter(ivc, ivc->rx_channel, offset);
28049626ea8SStephen Warren 
28149626ea8SStephen Warren 	if (tegra_ivc_channel_avail_count(ivc, ivc->rx_channel) ==
28249626ea8SStephen Warren 	    ivc->nframes - 1)
28349626ea8SStephen Warren 		ivc->notify(ivc);
28449626ea8SStephen Warren 
28549626ea8SStephen Warren 	return 0;
28649626ea8SStephen Warren }
28749626ea8SStephen Warren 
tegra_ivc_write_get_next_frame(struct tegra_ivc * ivc,void ** frame)28849626ea8SStephen Warren int tegra_ivc_write_get_next_frame(struct tegra_ivc *ivc, void **frame)
28949626ea8SStephen Warren {
29049626ea8SStephen Warren 	int result = tegra_ivc_check_write(ivc);
29149626ea8SStephen Warren 	if (result)
29249626ea8SStephen Warren 		return result;
29349626ea8SStephen Warren 
29449626ea8SStephen Warren 	*frame = tegra_ivc_frame_pointer(ivc, ivc->tx_channel, ivc->w_pos);
29549626ea8SStephen Warren 
29649626ea8SStephen Warren 	return 0;
29749626ea8SStephen Warren }
29849626ea8SStephen Warren 
tegra_ivc_write_advance(struct tegra_ivc * ivc)29949626ea8SStephen Warren int tegra_ivc_write_advance(struct tegra_ivc *ivc)
30049626ea8SStephen Warren {
30149626ea8SStephen Warren 	ulong offset;
30249626ea8SStephen Warren 	int result;
30349626ea8SStephen Warren 
30449626ea8SStephen Warren 	result = tegra_ivc_check_write(ivc);
30549626ea8SStephen Warren 	if (result)
30649626ea8SStephen Warren 		return result;
30749626ea8SStephen Warren 
30849626ea8SStephen Warren 	tegra_ivc_flush_frame(ivc, ivc->tx_channel, ivc->w_pos);
30949626ea8SStephen Warren 
31049626ea8SStephen Warren 	/*
31149626ea8SStephen Warren 	 * Order any possible stores to the frame before update of w_pos.
31249626ea8SStephen Warren 	 */
31349626ea8SStephen Warren 	mb();
31449626ea8SStephen Warren 
31549626ea8SStephen Warren 	tegra_ivc_advance_tx(ivc);
31649626ea8SStephen Warren 	offset = offsetof(struct tegra_ivc_channel_header, w_count);
31749626ea8SStephen Warren 	tegra_ivc_flush_counter(ivc, ivc->tx_channel, offset);
31849626ea8SStephen Warren 
31949626ea8SStephen Warren 	/*
32049626ea8SStephen Warren 	 * Ensure our write to w_pos occurs before our read from r_pos.
32149626ea8SStephen Warren 	 */
32249626ea8SStephen Warren 	mb();
32349626ea8SStephen Warren 
32449626ea8SStephen Warren 	offset = offsetof(struct tegra_ivc_channel_header, r_count);
32549626ea8SStephen Warren 	tegra_ivc_invalidate_counter(ivc, ivc->tx_channel, offset);
32649626ea8SStephen Warren 
32749626ea8SStephen Warren 	if (tegra_ivc_channel_avail_count(ivc, ivc->tx_channel) == 1)
32849626ea8SStephen Warren 		ivc->notify(ivc);
32949626ea8SStephen Warren 
33049626ea8SStephen Warren 	return 0;
33149626ea8SStephen Warren }
33249626ea8SStephen Warren 
33349626ea8SStephen Warren /*
33449626ea8SStephen Warren  * ===============================================================
33549626ea8SStephen Warren  *  IVC State Transition Table - see tegra_ivc_channel_notified()
33649626ea8SStephen Warren  * ===============================================================
33749626ea8SStephen Warren  *
33849626ea8SStephen Warren  *	local	remote	action
33949626ea8SStephen Warren  *	-----	------	-----------------------------------
34049626ea8SStephen Warren  *	SYNC	EST	<none>
34149626ea8SStephen Warren  *	SYNC	ACK	reset counters; move to EST; notify
34249626ea8SStephen Warren  *	SYNC	SYNC	reset counters; move to ACK; notify
34349626ea8SStephen Warren  *	ACK	EST	move to EST; notify
34449626ea8SStephen Warren  *	ACK	ACK	move to EST; notify
34549626ea8SStephen Warren  *	ACK	SYNC	reset counters; move to ACK; notify
34649626ea8SStephen Warren  *	EST	EST	<none>
34749626ea8SStephen Warren  *	EST	ACK	<none>
34849626ea8SStephen Warren  *	EST	SYNC	reset counters; move to ACK; notify
34949626ea8SStephen Warren  *
35049626ea8SStephen Warren  * ===============================================================
35149626ea8SStephen Warren  */
tegra_ivc_channel_notified(struct tegra_ivc * ivc)35249626ea8SStephen Warren int tegra_ivc_channel_notified(struct tegra_ivc *ivc)
35349626ea8SStephen Warren {
35449626ea8SStephen Warren 	ulong offset;
35549626ea8SStephen Warren 	enum ivc_state peer_state;
35649626ea8SStephen Warren 
35749626ea8SStephen Warren 	/* Copy the receiver's state out of shared memory. */
35849626ea8SStephen Warren 	offset = offsetof(struct tegra_ivc_channel_header, w_count);
35949626ea8SStephen Warren 	tegra_ivc_invalidate_counter(ivc, ivc->rx_channel, offset);
36049626ea8SStephen Warren 	peer_state = ACCESS_ONCE(ivc->rx_channel->state);
36149626ea8SStephen Warren 
36249626ea8SStephen Warren 	if (peer_state == ivc_state_sync) {
36349626ea8SStephen Warren 		/*
36449626ea8SStephen Warren 		 * Order observation of ivc_state_sync before stores clearing
36549626ea8SStephen Warren 		 * tx_channel.
36649626ea8SStephen Warren 		 */
36749626ea8SStephen Warren 		mb();
36849626ea8SStephen Warren 
36949626ea8SStephen Warren 		/*
37049626ea8SStephen Warren 		 * Reset tx_channel counters. The remote end is in the SYNC
37149626ea8SStephen Warren 		 * state and won't make progress until we change our state,
37249626ea8SStephen Warren 		 * so the counters are not in use at this time.
37349626ea8SStephen Warren 		 */
37449626ea8SStephen Warren 		ivc->tx_channel->w_count = 0;
37549626ea8SStephen Warren 		ivc->rx_channel->r_count = 0;
37649626ea8SStephen Warren 
37749626ea8SStephen Warren 		ivc->w_pos = 0;
37849626ea8SStephen Warren 		ivc->r_pos = 0;
37949626ea8SStephen Warren 
38049626ea8SStephen Warren 		/*
38149626ea8SStephen Warren 		 * Ensure that counters appear cleared before new state can be
38249626ea8SStephen Warren 		 * observed.
38349626ea8SStephen Warren 		 */
38449626ea8SStephen Warren 		mb();
38549626ea8SStephen Warren 
38649626ea8SStephen Warren 		/*
38749626ea8SStephen Warren 		 * Move to ACK state. We have just cleared our counters, so it
38849626ea8SStephen Warren 		 * is now safe for the remote end to start using these values.
38949626ea8SStephen Warren 		 */
39049626ea8SStephen Warren 		ivc->tx_channel->state = ivc_state_ack;
39149626ea8SStephen Warren 		offset = offsetof(struct tegra_ivc_channel_header, w_count);
39249626ea8SStephen Warren 		tegra_ivc_flush_counter(ivc, ivc->tx_channel, offset);
39349626ea8SStephen Warren 
39449626ea8SStephen Warren 		/*
39549626ea8SStephen Warren 		 * Notify remote end to observe state transition.
39649626ea8SStephen Warren 		 */
39749626ea8SStephen Warren 		ivc->notify(ivc);
39849626ea8SStephen Warren 	} else if (ivc->tx_channel->state == ivc_state_sync &&
39949626ea8SStephen Warren 			peer_state == ivc_state_ack) {
40049626ea8SStephen Warren 		/*
40149626ea8SStephen Warren 		 * Order observation of ivc_state_sync before stores clearing
40249626ea8SStephen Warren 		 * tx_channel.
40349626ea8SStephen Warren 		 */
40449626ea8SStephen Warren 		mb();
40549626ea8SStephen Warren 
40649626ea8SStephen Warren 		/*
40749626ea8SStephen Warren 		 * Reset tx_channel counters. The remote end is in the ACK
40849626ea8SStephen Warren 		 * state and won't make progress until we change our state,
40949626ea8SStephen Warren 		 * so the counters are not in use at this time.
41049626ea8SStephen Warren 		 */
41149626ea8SStephen Warren 		ivc->tx_channel->w_count = 0;
41249626ea8SStephen Warren 		ivc->rx_channel->r_count = 0;
41349626ea8SStephen Warren 
41449626ea8SStephen Warren 		ivc->w_pos = 0;
41549626ea8SStephen Warren 		ivc->r_pos = 0;
41649626ea8SStephen Warren 
41749626ea8SStephen Warren 		/*
41849626ea8SStephen Warren 		 * Ensure that counters appear cleared before new state can be
41949626ea8SStephen Warren 		 * observed.
42049626ea8SStephen Warren 		 */
42149626ea8SStephen Warren 		mb();
42249626ea8SStephen Warren 
42349626ea8SStephen Warren 		/*
42449626ea8SStephen Warren 		 * Move to ESTABLISHED state. We know that the remote end has
42549626ea8SStephen Warren 		 * already cleared its counters, so it is safe to start
42649626ea8SStephen Warren 		 * writing/reading on this channel.
42749626ea8SStephen Warren 		 */
42849626ea8SStephen Warren 		ivc->tx_channel->state = ivc_state_established;
42949626ea8SStephen Warren 		offset = offsetof(struct tegra_ivc_channel_header, w_count);
43049626ea8SStephen Warren 		tegra_ivc_flush_counter(ivc, ivc->tx_channel, offset);
43149626ea8SStephen Warren 
43249626ea8SStephen Warren 		/*
43349626ea8SStephen Warren 		 * Notify remote end to observe state transition.
43449626ea8SStephen Warren 		 */
43549626ea8SStephen Warren 		ivc->notify(ivc);
43649626ea8SStephen Warren 	} else if (ivc->tx_channel->state == ivc_state_ack) {
43749626ea8SStephen Warren 		/*
43849626ea8SStephen Warren 		 * At this point, we have observed the peer to be in either
43949626ea8SStephen Warren 		 * the ACK or ESTABLISHED state. Next, order observation of
44049626ea8SStephen Warren 		 * peer state before storing to tx_channel.
44149626ea8SStephen Warren 		 */
44249626ea8SStephen Warren 		mb();
44349626ea8SStephen Warren 
44449626ea8SStephen Warren 		/*
44549626ea8SStephen Warren 		 * Move to ESTABLISHED state. We know that we have previously
44649626ea8SStephen Warren 		 * cleared our counters, and we know that the remote end has
44749626ea8SStephen Warren 		 * cleared its counters, so it is safe to start writing/reading
44849626ea8SStephen Warren 		 * on this channel.
44949626ea8SStephen Warren 		 */
45049626ea8SStephen Warren 		ivc->tx_channel->state = ivc_state_established;
45149626ea8SStephen Warren 		offset = offsetof(struct tegra_ivc_channel_header, w_count);
45249626ea8SStephen Warren 		tegra_ivc_flush_counter(ivc, ivc->tx_channel, offset);
45349626ea8SStephen Warren 
45449626ea8SStephen Warren 		/*
45549626ea8SStephen Warren 		 * Notify remote end to observe state transition.
45649626ea8SStephen Warren 		 */
45749626ea8SStephen Warren 		ivc->notify(ivc);
45849626ea8SStephen Warren 	} else {
45949626ea8SStephen Warren 		/*
46049626ea8SStephen Warren 		 * There is no need to handle any further action. Either the
46149626ea8SStephen Warren 		 * channel is already fully established, or we are waiting for
46249626ea8SStephen Warren 		 * the remote end to catch up with our current state. Refer
46349626ea8SStephen Warren 		 * to the diagram in "IVC State Transition Table" above.
46449626ea8SStephen Warren 		 */
46549626ea8SStephen Warren 	}
46649626ea8SStephen Warren 
46749626ea8SStephen Warren 	if (ivc->tx_channel->state != ivc_state_established)
46849626ea8SStephen Warren 		return -EAGAIN;
46949626ea8SStephen Warren 
47049626ea8SStephen Warren 	return 0;
47149626ea8SStephen Warren }
47249626ea8SStephen Warren 
tegra_ivc_channel_reset(struct tegra_ivc * ivc)47349626ea8SStephen Warren void tegra_ivc_channel_reset(struct tegra_ivc *ivc)
47449626ea8SStephen Warren {
47549626ea8SStephen Warren 	ulong offset;
47649626ea8SStephen Warren 
47749626ea8SStephen Warren 	ivc->tx_channel->state = ivc_state_sync;
47849626ea8SStephen Warren 	offset = offsetof(struct tegra_ivc_channel_header, w_count);
47949626ea8SStephen Warren 	tegra_ivc_flush_counter(ivc, ivc->tx_channel, offset);
48049626ea8SStephen Warren 	ivc->notify(ivc);
48149626ea8SStephen Warren }
48249626ea8SStephen Warren 
check_ivc_params(ulong qbase1,ulong qbase2,uint32_t nframes,uint32_t frame_size)48349626ea8SStephen Warren static int check_ivc_params(ulong qbase1, ulong qbase2, uint32_t nframes,
48449626ea8SStephen Warren 			    uint32_t frame_size)
48549626ea8SStephen Warren {
48649626ea8SStephen Warren 	int ret = 0;
48749626ea8SStephen Warren 
48849626ea8SStephen Warren 	BUG_ON(offsetof(struct tegra_ivc_channel_header, w_count) &
48949626ea8SStephen Warren 	       (TEGRA_IVC_ALIGN - 1));
49049626ea8SStephen Warren 	BUG_ON(offsetof(struct tegra_ivc_channel_header, r_count) &
49149626ea8SStephen Warren 	       (TEGRA_IVC_ALIGN - 1));
49249626ea8SStephen Warren 	BUG_ON(sizeof(struct tegra_ivc_channel_header) &
49349626ea8SStephen Warren 	       (TEGRA_IVC_ALIGN - 1));
49449626ea8SStephen Warren 
49549626ea8SStephen Warren 	if ((uint64_t)nframes * (uint64_t)frame_size >= 0x100000000) {
496*90aa625cSMasahiro Yamada 		pr_err("tegra_ivc: nframes * frame_size overflows\n");
49749626ea8SStephen Warren 		return -EINVAL;
49849626ea8SStephen Warren 	}
49949626ea8SStephen Warren 
50049626ea8SStephen Warren 	/*
50149626ea8SStephen Warren 	 * The headers must at least be aligned enough for counters
50249626ea8SStephen Warren 	 * to be accessed atomically.
50349626ea8SStephen Warren 	 */
50449626ea8SStephen Warren 	if ((qbase1 & (TEGRA_IVC_ALIGN - 1)) ||
50549626ea8SStephen Warren 	    (qbase2 & (TEGRA_IVC_ALIGN - 1))) {
506*90aa625cSMasahiro Yamada 		pr_err("tegra_ivc: channel start not aligned\n");
50749626ea8SStephen Warren 		return -EINVAL;
50849626ea8SStephen Warren 	}
50949626ea8SStephen Warren 
51049626ea8SStephen Warren 	if (frame_size & (TEGRA_IVC_ALIGN - 1)) {
511*90aa625cSMasahiro Yamada 		pr_err("tegra_ivc: frame size not adequately aligned\n");
51249626ea8SStephen Warren 		return -EINVAL;
51349626ea8SStephen Warren 	}
51449626ea8SStephen Warren 
51549626ea8SStephen Warren 	if (qbase1 < qbase2) {
51649626ea8SStephen Warren 		if (qbase1 + frame_size * nframes > qbase2)
51749626ea8SStephen Warren 			ret = -EINVAL;
51849626ea8SStephen Warren 	} else {
51949626ea8SStephen Warren 		if (qbase2 + frame_size * nframes > qbase1)
52049626ea8SStephen Warren 			ret = -EINVAL;
52149626ea8SStephen Warren 	}
52249626ea8SStephen Warren 
52349626ea8SStephen Warren 	if (ret) {
524*90aa625cSMasahiro Yamada 		pr_err("tegra_ivc: queue regions overlap\n");
52549626ea8SStephen Warren 		return ret;
52649626ea8SStephen Warren 	}
52749626ea8SStephen Warren 
52849626ea8SStephen Warren 	return 0;
52949626ea8SStephen Warren }
53049626ea8SStephen Warren 
tegra_ivc_init(struct tegra_ivc * ivc,ulong rx_base,ulong tx_base,uint32_t nframes,uint32_t frame_size,void (* notify)(struct tegra_ivc *))53149626ea8SStephen Warren int tegra_ivc_init(struct tegra_ivc *ivc, ulong rx_base, ulong tx_base,
53249626ea8SStephen Warren 		   uint32_t nframes, uint32_t frame_size,
53349626ea8SStephen Warren 		   void (*notify)(struct tegra_ivc *))
53449626ea8SStephen Warren {
53549626ea8SStephen Warren 	int ret;
53649626ea8SStephen Warren 
53749626ea8SStephen Warren 	if (!ivc)
53849626ea8SStephen Warren 		return -EINVAL;
53949626ea8SStephen Warren 
54049626ea8SStephen Warren 	ret = check_ivc_params(rx_base, tx_base, nframes, frame_size);
54149626ea8SStephen Warren 	if (ret)
54249626ea8SStephen Warren 		return ret;
54349626ea8SStephen Warren 
54449626ea8SStephen Warren 	ivc->rx_channel = (struct tegra_ivc_channel_header *)rx_base;
54549626ea8SStephen Warren 	ivc->tx_channel = (struct tegra_ivc_channel_header *)tx_base;
54649626ea8SStephen Warren 	ivc->w_pos = 0;
54749626ea8SStephen Warren 	ivc->r_pos = 0;
54849626ea8SStephen Warren 	ivc->nframes = nframes;
54949626ea8SStephen Warren 	ivc->frame_size = frame_size;
55049626ea8SStephen Warren 	ivc->notify = notify;
55149626ea8SStephen Warren 
55249626ea8SStephen Warren 	return 0;
55349626ea8SStephen Warren }
554