xref: /openbmc/u-boot/drivers/usb/musb-new/musb_dma.h (revision dffceb4b) 
1 /*
2  * MUSB OTG driver DMA controller abstraction
3  *
4  * Copyright 2005 Mentor Graphics Corporation
5  * Copyright (C) 2005-2006 by Texas Instruments
6  * Copyright (C) 2006-2007 Nokia Corporation
7  *
8  * SPDX-License-Identifier:	GPL-2.0
9  */
10 
11 #ifndef __MUSB_DMA_H__
12 #define __MUSB_DMA_H__
13 
14 struct musb_hw_ep;
15 
16 /*
17  * DMA Controller Abstraction
18  *
19  * DMA Controllers are abstracted to allow use of a variety of different
20  * implementations of DMA, as allowed by the Inventra USB cores.  On the
21  * host side, usbcore sets up the DMA mappings and flushes caches; on the
22  * peripheral side, the gadget controller driver does.  Responsibilities
23  * of a DMA controller driver include:
24  *
25  *  - Handling the details of moving multiple USB packets
26  *    in cooperation with the Inventra USB core, including especially
27  *    the correct RX side treatment of short packets and buffer-full
28  *    states (both of which terminate transfers).
29  *
30  *  - Knowing the correlation between dma channels and the
31  *    Inventra core's local endpoint resources and data direction.
32  *
33  *  - Maintaining a list of allocated/available channels.
34  *
35  *  - Updating channel status on interrupts,
36  *    whether shared with the Inventra core or separate.
37  */
38 
39 #define	DMA_ADDR_INVALID	(~(dma_addr_t)0)
40 
41 #ifndef CONFIG_USB_MUSB_PIO_ONLY
42 #define	is_dma_capable()	(1)
43 #else
44 #define	is_dma_capable()	(0)
45 #endif
46 
47 #ifdef CONFIG_USB_TI_CPPI_DMA
48 #define	is_cppi_enabled()	1
49 #else
50 #define	is_cppi_enabled()	0
51 #endif
52 
53 #ifdef CONFIG_USB_TUSB_OMAP_DMA
54 #define tusb_dma_omap()			1
55 #else
56 #define tusb_dma_omap()			0
57 #endif
58 
59 /* Anomaly 05000456 - USB Receive Interrupt Is Not Generated in DMA Mode 1
60  *	Only allow DMA mode 1 to be used when the USB will actually generate the
61  *	interrupts we expect.
62  */
63 #ifdef CONFIG_BLACKFIN
64 # undef USE_MODE1
65 # if !ANOMALY_05000456
66 #  define USE_MODE1
67 # endif
68 #endif
69 
70 /*
71  * DMA channel status ... updated by the dma controller driver whenever that
72  * status changes, and protected by the overall controller spinlock.
73  */
74 enum dma_channel_status {
75 	/* unallocated */
76 	MUSB_DMA_STATUS_UNKNOWN,
77 	/* allocated ... but not busy, no errors */
78 	MUSB_DMA_STATUS_FREE,
79 	/* busy ... transactions are active */
80 	MUSB_DMA_STATUS_BUSY,
81 	/* transaction(s) aborted due to ... dma or memory bus error */
82 	MUSB_DMA_STATUS_BUS_ABORT,
83 	/* transaction(s) aborted due to ... core error or USB fault */
84 	MUSB_DMA_STATUS_CORE_ABORT
85 };
86 
87 struct dma_controller;
88 
89 /**
90  * struct dma_channel - A DMA channel.
91  * @private_data: channel-private data
92  * @max_len: the maximum number of bytes the channel can move in one
93  *	transaction (typically representing many USB maximum-sized packets)
94  * @actual_len: how many bytes have been transferred
95  * @status: current channel status (updated e.g. on interrupt)
96  * @desired_mode: true if mode 1 is desired; false if mode 0 is desired
97  *
98  * channels are associated with an endpoint for the duration of at least
99  * one usb transfer.
100  */
101 struct dma_channel {
102 	void			*private_data;
103 	/* FIXME not void* private_data, but a dma_controller * */
104 	size_t			max_len;
105 	size_t			actual_len;
106 	enum dma_channel_status	status;
107 	bool			desired_mode;
108 };
109 
110 /*
111  * dma_channel_status - return status of dma channel
112  * @c: the channel
113  *
114  * Returns the software's view of the channel status.  If that status is BUSY
115  * then it's possible that the hardware has completed (or aborted) a transfer,
116  * so the driver needs to update that status.
117  */
118 static inline enum dma_channel_status
119 dma_channel_status(struct dma_channel *c)
120 {
121 	return (is_dma_capable() && c) ? c->status : MUSB_DMA_STATUS_UNKNOWN;
122 }
123 
124 /**
125  * struct dma_controller - A DMA Controller.
126  * @start: call this to start a DMA controller;
127  *	return 0 on success, else negative errno
128  * @stop: call this to stop a DMA controller
129  *	return 0 on success, else negative errno
130  * @channel_alloc: call this to allocate a DMA channel
131  * @channel_release: call this to release a DMA channel
132  * @channel_abort: call this to abort a pending DMA transaction,
133  *	returning it to FREE (but allocated) state
134  *
135  * Controllers manage dma channels.
136  */
137 struct dma_controller {
138 	int			(*start)(struct dma_controller *);
139 	int			(*stop)(struct dma_controller *);
140 	struct dma_channel	*(*channel_alloc)(struct dma_controller *,
141 					struct musb_hw_ep *, u8 is_tx);
142 	void			(*channel_release)(struct dma_channel *);
143 	int			(*channel_program)(struct dma_channel *channel,
144 							u16 maxpacket, u8 mode,
145 							dma_addr_t dma_addr,
146 							u32 length);
147 	int			(*channel_abort)(struct dma_channel *);
148 	int			(*is_compatible)(struct dma_channel *channel,
149 							u16 maxpacket,
150 							void *buf, u32 length);
151 };
152 
153 /* called after channel_program(), may indicate a fault */
154 extern void musb_dma_completion(struct musb *musb, u8 epnum, u8 transmit);
155 
156 
157 extern struct dma_controller *__init
158 dma_controller_create(struct musb *, void __iomem *);
159 
160 extern void dma_controller_destroy(struct dma_controller *);
161 
162 #endif	/* __MUSB_DMA_H__ */
163