1 /*
2 * Copyright (c) 2019-2020, Xilinx, Inc. All rights reserved.
3 *
4 * SPDX-License-Identifier: BSD-3-Clause
5 */
6
7 /*
8 * APU specific definition of processors in the subsystem as well as functions
9 * for getting information about and changing state of the APU.
10 */
11
12 #include <assert.h>
13 #include <plat_ipi.h>
14 #include <platform_def.h>
15 #include <versal_def.h>
16 #include <lib/bakery_lock.h>
17 #include <lib/mmio.h>
18 #include <lib/utils.h>
19 #include <drivers/arm/gicv3.h>
20 #include <drivers/arm/gic_common.h>
21 #include <plat/common/platform.h>
22 #include "pm_api_sys.h"
23 #include "pm_client.h"
24
25 #define UNDEFINED_CPUID (~0)
26 #define IRQ_MAX 142
27 #define NUM_GICD_ISENABLER ((IRQ_MAX >> 5) + 1)
28
29 DEFINE_BAKERY_LOCK(pm_client_secure_lock);
30
31 static const struct pm_ipi apu_ipi = {
32 .local_ipi_id = IPI_ID_APU,
33 .remote_ipi_id = IPI_ID_PMC,
34 .buffer_base = IPI_BUFFER_APU_BASE,
35 };
36
37 /* Order in pm_procs_all array must match cpu ids */
38 static const struct pm_proc pm_procs_all[] = {
39 {
40 .node_id = XPM_DEVID_ACPU_0,
41 .ipi = &apu_ipi,
42 .pwrdn_mask = APU_0_PWRCTL_CPUPWRDWNREQ_MASK,
43 },
44 {
45 .node_id = XPM_DEVID_ACPU_1,
46 .ipi = &apu_ipi,
47 .pwrdn_mask = APU_1_PWRCTL_CPUPWRDWNREQ_MASK,
48 }
49 };
50
51 const struct pm_proc *primary_proc = &pm_procs_all[0];
52
53 /* Interrupt to PM node index map */
54 static enum pm_device_node_idx irq_node_map[IRQ_MAX + 1] = {
55 [13] = XPM_NODEIDX_DEV_GPIO,
56 [14] = XPM_NODEIDX_DEV_I2C_0,
57 [15] = XPM_NODEIDX_DEV_I2C_1,
58 [16] = XPM_NODEIDX_DEV_SPI_0,
59 [17] = XPM_NODEIDX_DEV_SPI_1,
60 [18] = XPM_NODEIDX_DEV_UART_0,
61 [19] = XPM_NODEIDX_DEV_UART_1,
62 [20] = XPM_NODEIDX_DEV_CAN_FD_0,
63 [21] = XPM_NODEIDX_DEV_CAN_FD_1,
64 [22] = XPM_NODEIDX_DEV_USB_0,
65 [23] = XPM_NODEIDX_DEV_USB_0,
66 [24] = XPM_NODEIDX_DEV_USB_0,
67 [25] = XPM_NODEIDX_DEV_USB_0,
68 [26] = XPM_NODEIDX_DEV_USB_0,
69 [37] = XPM_NODEIDX_DEV_TTC_0,
70 [38] = XPM_NODEIDX_DEV_TTC_0,
71 [39] = XPM_NODEIDX_DEV_TTC_0,
72 [40] = XPM_NODEIDX_DEV_TTC_1,
73 [41] = XPM_NODEIDX_DEV_TTC_1,
74 [42] = XPM_NODEIDX_DEV_TTC_1,
75 [43] = XPM_NODEIDX_DEV_TTC_2,
76 [44] = XPM_NODEIDX_DEV_TTC_2,
77 [45] = XPM_NODEIDX_DEV_TTC_2,
78 [46] = XPM_NODEIDX_DEV_TTC_3,
79 [47] = XPM_NODEIDX_DEV_TTC_3,
80 [48] = XPM_NODEIDX_DEV_TTC_3,
81 [56] = XPM_NODEIDX_DEV_GEM_0,
82 [57] = XPM_NODEIDX_DEV_GEM_0,
83 [58] = XPM_NODEIDX_DEV_GEM_1,
84 [59] = XPM_NODEIDX_DEV_GEM_1,
85 [60] = XPM_NODEIDX_DEV_ADMA_0,
86 [61] = XPM_NODEIDX_DEV_ADMA_1,
87 [62] = XPM_NODEIDX_DEV_ADMA_2,
88 [63] = XPM_NODEIDX_DEV_ADMA_3,
89 [64] = XPM_NODEIDX_DEV_ADMA_4,
90 [65] = XPM_NODEIDX_DEV_ADMA_5,
91 [66] = XPM_NODEIDX_DEV_ADMA_6,
92 [67] = XPM_NODEIDX_DEV_ADMA_7,
93 [74] = XPM_NODEIDX_DEV_USB_0,
94 [126] = XPM_NODEIDX_DEV_SDIO_0,
95 [127] = XPM_NODEIDX_DEV_SDIO_0,
96 [128] = XPM_NODEIDX_DEV_SDIO_1,
97 [129] = XPM_NODEIDX_DEV_SDIO_1,
98 [142] = XPM_NODEIDX_DEV_RTC,
99 };
100
101 /**
102 * irq_to_pm_node_idx - Get PM node index corresponding to the interrupt number
103 * @irq: Interrupt number
104 *
105 * Return: PM node index corresponding to the specified interrupt
106 */
irq_to_pm_node_idx(unsigned int irq)107 static enum pm_device_node_idx irq_to_pm_node_idx(unsigned int irq)
108 {
109 assert(irq <= IRQ_MAX);
110 return irq_node_map[irq];
111 }
112
113 /**
114 * pm_client_set_wakeup_sources - Set all devices with enabled interrupts as
115 * wake sources in the LibPM.
116 * @node_id: Node id of processor
117 */
pm_client_set_wakeup_sources(uint32_t node_id)118 static void pm_client_set_wakeup_sources(uint32_t node_id)
119 {
120 uint32_t reg_num;
121 uint32_t device_id;
122 uint8_t pm_wakeup_nodes_set[XPM_NODEIDX_DEV_MAX];
123 uintptr_t isenabler1 = PLAT_VERSAL_GICD_BASE + GICD_ISENABLER + 4;
124
125 zeromem(&pm_wakeup_nodes_set, sizeof(pm_wakeup_nodes_set));
126
127 for (reg_num = 0; reg_num < NUM_GICD_ISENABLER; reg_num++) {
128 uint32_t base_irq = reg_num << ISENABLER_SHIFT;
129 uint32_t reg = mmio_read_32(isenabler1 + (reg_num << 2));
130
131 if (!reg)
132 continue;
133
134 while (reg) {
135 enum pm_device_node_idx node_idx;
136 uint32_t idx, ret, irq, lowest_set = reg & (-reg);
137
138 idx = __builtin_ctz(lowest_set);
139 irq = base_irq + idx;
140
141 if (irq > IRQ_MAX)
142 break;
143
144 node_idx = irq_to_pm_node_idx(irq);
145 reg &= ~lowest_set;
146
147 if ((node_idx != XPM_NODEIDX_DEV_MIN) &&
148 (!pm_wakeup_nodes_set[node_idx])) {
149 /* Get device ID from node index */
150 device_id = PERIPH_DEVID(node_idx);
151 ret = pm_set_wakeup_source(node_id,
152 device_id, 1);
153 pm_wakeup_nodes_set[node_idx] = !ret;
154 }
155 }
156 }
157 }
158
159 /**
160 * pm_client_suspend() - Client-specific suspend actions
161 *
162 * This function should contain any PU-specific actions
163 * required prior to sending suspend request to PMU
164 * Actions taken depend on the state system is suspending to.
165 */
pm_client_suspend(const struct pm_proc * proc,unsigned int state)166 void pm_client_suspend(const struct pm_proc *proc, unsigned int state)
167 {
168 bakery_lock_get(&pm_client_secure_lock);
169
170 if (state == PM_STATE_SUSPEND_TO_RAM)
171 pm_client_set_wakeup_sources(proc->node_id);
172
173 /* Set powerdown request */
174 mmio_write_32(FPD_APU_PWRCTL, mmio_read_32(FPD_APU_PWRCTL) |
175 proc->pwrdn_mask);
176
177 bakery_lock_release(&pm_client_secure_lock);
178 }
179
180 /**
181 * pm_client_abort_suspend() - Client-specific abort-suspend actions
182 *
183 * This function should contain any PU-specific actions
184 * required for aborting a prior suspend request
185 */
pm_client_abort_suspend(void)186 void pm_client_abort_suspend(void)
187 {
188 /* Enable interrupts at processor level (for current cpu) */
189 gicv3_cpuif_enable(plat_my_core_pos());
190
191 bakery_lock_get(&pm_client_secure_lock);
192
193 /* Clear powerdown request */
194 mmio_write_32(FPD_APU_PWRCTL, mmio_read_32(FPD_APU_PWRCTL) &
195 ~primary_proc->pwrdn_mask);
196
197 bakery_lock_release(&pm_client_secure_lock);
198 }
199
200 /**
201 * pm_get_cpuid() - get the local cpu ID for a global node ID
202 * @nid: node id of the processor
203 *
204 * Return: the cpu ID (starting from 0) for the subsystem
205 */
pm_get_cpuid(uint32_t nid)206 static unsigned int pm_get_cpuid(uint32_t nid)
207 {
208 for (size_t i = 0; i < ARRAY_SIZE(pm_procs_all); i++) {
209 if (pm_procs_all[i].node_id == nid)
210 return i;
211 }
212 return UNDEFINED_CPUID;
213 }
214
215 /**
216 * pm_client_wakeup() - Client-specific wakeup actions
217 *
218 * This function should contain any PU-specific actions
219 * required for waking up another APU core
220 */
pm_client_wakeup(const struct pm_proc * proc)221 void pm_client_wakeup(const struct pm_proc *proc)
222 {
223 unsigned int cpuid = pm_get_cpuid(proc->node_id);
224
225 if (cpuid == UNDEFINED_CPUID)
226 return;
227
228 bakery_lock_get(&pm_client_secure_lock);
229
230 /* clear powerdown bit for affected cpu */
231 uint32_t val = mmio_read_32(FPD_APU_PWRCTL);
232 val &= ~(proc->pwrdn_mask);
233 mmio_write_32(FPD_APU_PWRCTL, val);
234
235 bakery_lock_release(&pm_client_secure_lock);
236 }
237
238 /**
239 * pm_get_proc() - returns pointer to the proc structure
240 * @cpuid: id of the cpu whose proc struct pointer should be returned
241 *
242 * Return: pointer to a proc structure if proc is found, otherwise NULL
243 */
pm_get_proc(unsigned int cpuid)244 const struct pm_proc *pm_get_proc(unsigned int cpuid)
245 {
246 if (cpuid < ARRAY_SIZE(pm_procs_all))
247 return &pm_procs_all[cpuid];
248
249 return NULL;
250 }
251