2 * Copyright (c) 2016, NVIDIA CORPORATION.
4 * SPDX-License-Identifier: GPL-2.0
10 #include <linux/errno.h>
13 * A reset is a hardware signal indicating that a HW module (or IP block, or
14 * sometimes an entire off-CPU chip) reset all of its internal state to some
15 * known-good initial state. Drivers will often reset HW modules when they
16 * begin execution to ensure that hardware correctly responds to all requests,
17 * or in response to some error condition. Reset signals are often controlled
18 * externally to the HW module being reset, by an entity this API calls a reset
19 * controller. This API provides a standard means for drivers to request that
20 * reset controllers set or clear reset signals.
22 * A driver that implements UCLASS_RESET is a reset controller or provider. A
23 * controller will often implement multiple separate reset signals, since the
24 * hardware it manages often has this capability. reset-uclass.h describes the
25 * interface which reset controllers must implement.
27 * Reset consumers/clients are the HW modules affected by reset signals. This
28 * header file describes the API used by drivers for those HW modules.
34 * struct reset_ctl - A handle to (allowing control of) a single reset signal.
36 * Clients provide storage for reset control handles. The content of the
37 * structure is managed solely by the reset API and reset drivers. A reset
38 * control struct is initialized by "get"ing the reset control struct. The
39 * reset control struct is passed to all other reset APIs to identify which
40 * reset signal to operate upon.
42 * @dev: The device which implements the reset signal.
43 * @id: The reset signal ID within the provider.
45 * Currently, the reset API assumes that a single integer ID is enough to
46 * identify and configure any reset signal for any reset provider. If this
47 * assumption becomes invalid in the future, the struct could be expanded to
48 * either (a) add more fields to allow reset providers to store additional
49 * information, or (b) replace the id field with an opaque pointer, which the
50 * provider would dynamically allocated during its .of_xlate op, and process
51 * during is .request op. This may require the addition of an extra op to clean
57 * Written by of_xlate. We assume a single id is enough for now. In the
58 * future, we might add more fields here.
63 #ifdef CONFIG_DM_RESET
65 * reset_get_by_index - Get/request a reset signal by integer index.
67 * This looks up and requests a reset signal. The index is relative to the
68 * client device; each device is assumed to have n reset signals associated
69 * with it somehow, and this function finds and requests one of them. The
70 * mapping of client device reset signal indices to provider reset signals may
71 * be via device-tree properties, board-provided mapping tables, or some other
74 * @dev: The client device.
75 * @index: The index of the reset signal to request, within the client's
76 * list of reset signals.
77 * @reset_ctl A pointer to a reset control struct to initialize.
78 * @return 0 if OK, or a negative error code.
80 int reset_get_by_index(struct udevice *dev, int index,
81 struct reset_ctl *reset_ctl);
84 * reset_get_by_name - Get/request a reset signal by name.
86 * This looks up and requests a reset signal. The name is relative to the
87 * client device; each device is assumed to have n reset signals associated
88 * with it somehow, and this function finds and requests one of them. The
89 * mapping of client device reset signal names to provider reset signal may be
90 * via device-tree properties, board-provided mapping tables, or some other
93 * @dev: The client device.
94 * @name: The name of the reset signal to request, within the client's
95 * list of reset signals.
96 * @reset_ctl: A pointer to a reset control struct to initialize.
97 * @return 0 if OK, or a negative error code.
99 int reset_get_by_name(struct udevice *dev, const char *name,
100 struct reset_ctl *reset_ctl);
103 * reset_free - Free a previously requested reset signal.
105 * @reset_ctl: A reset control struct that was previously successfully
106 * requested by reset_get_by_*().
107 * @return 0 if OK, or a negative error code.
109 int reset_free(struct reset_ctl *reset_ctl);
112 * reset_assert - Assert a reset signal.
114 * This function will assert the specified reset signal, thus resetting the
115 * affected HW module(s). Depending on the reset controller hardware, the reset
116 * signal will either stay asserted until reset_deassert() is called, or the
117 * hardware may autonomously clear the reset signal itself.
119 * @reset_ctl: A reset control struct that was previously successfully
120 * requested by reset_get_by_*().
121 * @return 0 if OK, or a negative error code.
123 int reset_assert(struct reset_ctl *reset_ctl);
126 * reset_deassert - Deassert a reset signal.
128 * This function will deassert the specified reset signal, thus releasing the
129 * affected HW modules() from reset, and allowing them to continue normal
132 * @reset_ctl: A reset control struct that was previously successfully
133 * requested by reset_get_by_*().
134 * @return 0 if OK, or a negative error code.
136 int reset_deassert(struct reset_ctl *reset_ctl);
139 static inline int reset_get_by_index(struct udevice *dev, int index,
140 struct reset_ctl *reset_ctl)
145 static inline int reset_get_by_name(struct udevice *dev, const char *name,
146 struct reset_ctl *reset_ctl)
151 static inline int reset_free(struct reset_ctl *reset_ctl)
156 static inline int reset_assert(struct reset_ctl *reset_ctl)
161 static inline int reset_deassert(struct reset_ctl *reset_ctl)