1/* SPDX-License-Identifier: GPL-2.0-only */
2/*
3 * Copyright (c) 2013, Sony Mobile Communications AB.
4 */
5#ifndef __PINCTRL_MSM_H__
6#define __PINCTRL_MSM_H__
7
8#include <linux/pm.h>
9#include <linux/types.h>
10
11#include <linux/pinctrl/pinctrl.h>
12
13struct platform_device;
14
15struct pinctrl_pin_desc;
16
17#define APQ_PIN_FUNCTION(fname)					\
18	[APQ_MUX_##fname] = PINCTRL_PINFUNCTION(#fname,		\
19					fname##_groups,		\
20					ARRAY_SIZE(fname##_groups))
21
22#define IPQ_PIN_FUNCTION(fname)					\
23	[IPQ_MUX_##fname] = PINCTRL_PINFUNCTION(#fname,		\
24					fname##_groups,		\
25					ARRAY_SIZE(fname##_groups))
26
27#define MSM_PIN_FUNCTION(fname) 				\
28	[msm_mux_##fname] = PINCTRL_PINFUNCTION(#fname,		\
29					fname##_groups,		\
30					ARRAY_SIZE(fname##_groups))
31
32#define QCA_PIN_FUNCTION(fname)					\
33	[qca_mux_##fname] = PINCTRL_PINFUNCTION(#fname,		\
34					fname##_groups,		\
35					ARRAY_SIZE(fname##_groups))
36
37/**
38 * struct msm_pingroup - Qualcomm pingroup definition
39 * @grp:                  Generic data of the pin group (name and pins)
40 * @funcs:                A list of pinmux functions that can be selected for
41 *                        this group. The index of the selected function is used
42 *                        for programming the function selector.
43 *                        Entries should be indices into the groups list of the
44 *                        struct msm_pinctrl_soc_data.
45 * @ctl_reg:              Offset of the register holding control bits for this group.
46 * @io_reg:               Offset of the register holding input/output bits for this group.
47 * @intr_cfg_reg:         Offset of the register holding interrupt configuration bits.
48 * @intr_status_reg:      Offset of the register holding the status bits for this group.
49 * @intr_target_reg:      Offset of the register specifying routing of the interrupts
50 *                        from this group.
51 * @mux_bit:              Offset in @ctl_reg for the pinmux function selection.
52 * @pull_bit:             Offset in @ctl_reg for the bias configuration.
53 * @drv_bit:              Offset in @ctl_reg for the drive strength configuration.
54 * @od_bit:               Offset in @ctl_reg for controlling open drain.
55 * @oe_bit:               Offset in @ctl_reg for controlling output enable.
56 * @in_bit:               Offset in @io_reg for the input bit value.
57 * @out_bit:              Offset in @io_reg for the output bit value.
58 * @intr_enable_bit:      Offset in @intr_cfg_reg for enabling the interrupt for this group.
59 * @intr_status_bit:      Offset in @intr_status_reg for reading and acking the interrupt
60 *                        status.
61 * @intr_wakeup_present_bit: Offset in @intr_target_reg specifying the GPIO can generate
62 *			  wakeup events.
63 * @intr_wakeup_enable_bit: Offset in @intr_target_reg to enable wakeup events for the GPIO.
64 * @intr_target_bit:      Offset in @intr_target_reg for configuring the interrupt routing.
65 * @intr_target_width:    Number of bits used for specifying interrupt routing target.
66 * @intr_target_kpss_val: Value in @intr_target_bit for specifying that the interrupt from
67 *                        this gpio should get routed to the KPSS processor.
68 * @intr_raw_status_bit:  Offset in @intr_cfg_reg for the raw status bit.
69 * @intr_polarity_bit:    Offset in @intr_cfg_reg for specifying polarity of the interrupt.
70 * @intr_detection_bit:   Offset in @intr_cfg_reg for specifying interrupt type.
71 * @intr_detection_width: Number of bits used for specifying interrupt type,
72 *                        Should be 2 for SoCs that can detect both edges in hardware,
73 *                        otherwise 1.
74 */
75struct msm_pingroup {
76	struct pingroup grp;
77
78	unsigned *funcs;
79	unsigned nfuncs;
80
81	u32 ctl_reg;
82	u32 io_reg;
83	u32 intr_cfg_reg;
84	u32 intr_status_reg;
85	u32 intr_target_reg;
86
87	unsigned int tile:2;
88
89	unsigned mux_bit:5;
90
91	unsigned pull_bit:5;
92	unsigned drv_bit:5;
93	unsigned i2c_pull_bit:5;
94
95	unsigned od_bit:5;
96	unsigned egpio_enable:5;
97	unsigned egpio_present:5;
98	unsigned oe_bit:5;
99	unsigned in_bit:5;
100	unsigned out_bit:5;
101
102	unsigned intr_enable_bit:5;
103	unsigned intr_status_bit:5;
104	unsigned intr_ack_high:1;
105
106	unsigned intr_wakeup_present_bit:5;
107	unsigned intr_wakeup_enable_bit:5;
108	unsigned intr_target_bit:5;
109	unsigned intr_target_width:5;
110	unsigned intr_target_kpss_val:5;
111	unsigned intr_raw_status_bit:5;
112	unsigned intr_polarity_bit:5;
113	unsigned intr_detection_bit:5;
114	unsigned intr_detection_width:5;
115};
116
117/**
118 * struct msm_gpio_wakeirq_map - Map of GPIOs and their wakeup pins
119 * @gpio:          The GPIOs that are wakeup capable
120 * @wakeirq:       The interrupt at the always-on interrupt controller
121 */
122struct msm_gpio_wakeirq_map {
123	unsigned int gpio;
124	unsigned int wakeirq;
125};
126
127/**
128 * struct msm_pinctrl_soc_data - Qualcomm pin controller driver configuration
129 * @pins:	    An array describing all pins the pin controller affects.
130 * @npins:	    The number of entries in @pins.
131 * @functions:	    An array describing all mux functions the SoC supports.
132 * @nfunctions:	    The number of entries in @functions.
133 * @groups:	    An array describing all pin groups the pin SoC supports.
134 * @ngroups:	    The numbmer of entries in @groups.
135 * @ngpio:	    The number of pingroups the driver should expose as GPIOs.
136 * @pull_no_keeper: The SoC does not support keeper bias.
137 * @wakeirq_map:    The map of wakeup capable GPIOs and the pin at PDC/MPM
138 * @nwakeirq_map:   The number of entries in @wakeirq_map
139 * @wakeirq_dual_edge_errata: If true then GPIOs using the wakeirq_map need
140 *                            to be aware that their parent can't handle dual
141 *                            edge interrupts.
142 * @gpio_func: Which function number is GPIO (usually 0).
143 * @egpio_func: If non-zero then this SoC supports eGPIO. Even though in
144 *              hardware this is a mux 1-level above the TLMM, we'll treat
145 *              it as if this is just another mux state of the TLMM. Since
146 *              it doesn't really map to hardware, we'll allocate a virtual
147 *              function number for eGPIO and any time we see that function
148 *              number used we'll treat it as a request to mux away from
149 *              our TLMM towards another owner.
150 */
151struct msm_pinctrl_soc_data {
152	const struct pinctrl_pin_desc *pins;
153	unsigned npins;
154	const struct pinfunction *functions;
155	unsigned nfunctions;
156	const struct msm_pingroup *groups;
157	unsigned ngroups;
158	unsigned ngpios;
159	bool pull_no_keeper;
160	const char *const *tiles;
161	unsigned int ntiles;
162	const int *reserved_gpios;
163	const struct msm_gpio_wakeirq_map *wakeirq_map;
164	unsigned int nwakeirq_map;
165	bool wakeirq_dual_edge_errata;
166	unsigned int gpio_func;
167	unsigned int egpio_func;
168};
169
170extern const struct dev_pm_ops msm_pinctrl_dev_pm_ops;
171
172int msm_pinctrl_probe(struct platform_device *pdev,
173		      const struct msm_pinctrl_soc_data *soc_data);
174void msm_pinctrl_remove(struct platform_device *pdev);
175
176#endif
177