1*9a40c0fbSSheetal Tigadoli /*
2*9a40c0fbSSheetal Tigadoli * Copyright (c) 2019-2020, ARM Limited and Contributors. All rights reserved.
3*9a40c0fbSSheetal Tigadoli *
4*9a40c0fbSSheetal Tigadoli * SPDX-License-Identifier: BSD-3-Clause
5*9a40c0fbSSheetal Tigadoli */
6*9a40c0fbSSheetal Tigadoli
7*9a40c0fbSSheetal Tigadoli #include <assert.h>
8*9a40c0fbSSheetal Tigadoli
9*9a40c0fbSSheetal Tigadoli #include <arch_helpers.h>
10*9a40c0fbSSheetal Tigadoli #include <drivers/delay_timer.h>
11*9a40c0fbSSheetal Tigadoli #include <lib/bakery_lock.h>
12*9a40c0fbSSheetal Tigadoli
13*9a40c0fbSSheetal Tigadoli #include <brcm_mhu.h>
14*9a40c0fbSSheetal Tigadoli #include <platform_def.h>
15*9a40c0fbSSheetal Tigadoli
16*9a40c0fbSSheetal Tigadoli #include "m0_ipc.h"
17*9a40c0fbSSheetal Tigadoli
18*9a40c0fbSSheetal Tigadoli #define PLAT_MHU_INTR_REG AP_TO_SCP_MAILBOX1
19*9a40c0fbSSheetal Tigadoli
20*9a40c0fbSSheetal Tigadoli /* SCP MHU secure channel registers */
21*9a40c0fbSSheetal Tigadoli #define SCP_INTR_S_STAT CRMU_IHOST_SW_PERSISTENT_REG11
22*9a40c0fbSSheetal Tigadoli #define SCP_INTR_S_SET CRMU_IHOST_SW_PERSISTENT_REG11
23*9a40c0fbSSheetal Tigadoli #define SCP_INTR_S_CLEAR CRMU_IHOST_SW_PERSISTENT_REG11
24*9a40c0fbSSheetal Tigadoli
25*9a40c0fbSSheetal Tigadoli /* CPU MHU secure channel registers */
26*9a40c0fbSSheetal Tigadoli #define CPU_INTR_S_STAT CRMU_IHOST_SW_PERSISTENT_REG10
27*9a40c0fbSSheetal Tigadoli #define CPU_INTR_S_SET CRMU_IHOST_SW_PERSISTENT_REG10
28*9a40c0fbSSheetal Tigadoli #define CPU_INTR_S_CLEAR CRMU_IHOST_SW_PERSISTENT_REG10
29*9a40c0fbSSheetal Tigadoli
30*9a40c0fbSSheetal Tigadoli static DEFINE_BAKERY_LOCK(bcm_lock);
31*9a40c0fbSSheetal Tigadoli
32*9a40c0fbSSheetal Tigadoli /*
33*9a40c0fbSSheetal Tigadoli * Slot 31 is reserved because the MHU hardware uses this register bit to
34*9a40c0fbSSheetal Tigadoli * indicate a non-secure access attempt. The total number of available slots is
35*9a40c0fbSSheetal Tigadoli * therefore 31 [30:0].
36*9a40c0fbSSheetal Tigadoli */
37*9a40c0fbSSheetal Tigadoli #define MHU_MAX_SLOT_ID 30
38*9a40c0fbSSheetal Tigadoli
mhu_secure_message_start(unsigned int slot_id)39*9a40c0fbSSheetal Tigadoli void mhu_secure_message_start(unsigned int slot_id)
40*9a40c0fbSSheetal Tigadoli {
41*9a40c0fbSSheetal Tigadoli int iter = 1000000;
42*9a40c0fbSSheetal Tigadoli
43*9a40c0fbSSheetal Tigadoli assert(slot_id <= MHU_MAX_SLOT_ID);
44*9a40c0fbSSheetal Tigadoli
45*9a40c0fbSSheetal Tigadoli bakery_lock_get(&bcm_lock);
46*9a40c0fbSSheetal Tigadoli /* Make sure any previous command has finished */
47*9a40c0fbSSheetal Tigadoli do {
48*9a40c0fbSSheetal Tigadoli if (!(mmio_read_32(PLAT_BRCM_MHU_BASE + CPU_INTR_S_STAT) &
49*9a40c0fbSSheetal Tigadoli (1 << slot_id)))
50*9a40c0fbSSheetal Tigadoli break;
51*9a40c0fbSSheetal Tigadoli
52*9a40c0fbSSheetal Tigadoli udelay(1);
53*9a40c0fbSSheetal Tigadoli
54*9a40c0fbSSheetal Tigadoli } while (--iter);
55*9a40c0fbSSheetal Tigadoli
56*9a40c0fbSSheetal Tigadoli assert(iter != 0);
57*9a40c0fbSSheetal Tigadoli }
58*9a40c0fbSSheetal Tigadoli
mhu_secure_message_send(unsigned int slot_id)59*9a40c0fbSSheetal Tigadoli void mhu_secure_message_send(unsigned int slot_id)
60*9a40c0fbSSheetal Tigadoli {
61*9a40c0fbSSheetal Tigadoli uint32_t response, iter = 1000000;
62*9a40c0fbSSheetal Tigadoli
63*9a40c0fbSSheetal Tigadoli assert(slot_id <= MHU_MAX_SLOT_ID);
64*9a40c0fbSSheetal Tigadoli assert(!(mmio_read_32(PLAT_BRCM_MHU_BASE + CPU_INTR_S_STAT) &
65*9a40c0fbSSheetal Tigadoli (1 << slot_id)));
66*9a40c0fbSSheetal Tigadoli
67*9a40c0fbSSheetal Tigadoli /* Send command to SCP */
68*9a40c0fbSSheetal Tigadoli mmio_setbits_32(PLAT_BRCM_MHU_BASE + CPU_INTR_S_SET, 1 << slot_id);
69*9a40c0fbSSheetal Tigadoli mmio_write_32(CRMU_MAIL_BOX0, MCU_IPC_MCU_CMD_SCPI);
70*9a40c0fbSSheetal Tigadoli mmio_write_32(PLAT_BRCM_MHU_BASE + PLAT_MHU_INTR_REG, 0x1);
71*9a40c0fbSSheetal Tigadoli
72*9a40c0fbSSheetal Tigadoli /* Wait until IPC transport acknowledges reception of SCP command */
73*9a40c0fbSSheetal Tigadoli do {
74*9a40c0fbSSheetal Tigadoli response = mmio_read_32(CRMU_MAIL_BOX0);
75*9a40c0fbSSheetal Tigadoli if ((response & ~MCU_IPC_CMD_REPLY_MASK) ==
76*9a40c0fbSSheetal Tigadoli (MCU_IPC_CMD_DONE_MASK | MCU_IPC_MCU_CMD_SCPI))
77*9a40c0fbSSheetal Tigadoli break;
78*9a40c0fbSSheetal Tigadoli
79*9a40c0fbSSheetal Tigadoli udelay(1);
80*9a40c0fbSSheetal Tigadoli
81*9a40c0fbSSheetal Tigadoli } while (--iter);
82*9a40c0fbSSheetal Tigadoli
83*9a40c0fbSSheetal Tigadoli assert(iter != 0);
84*9a40c0fbSSheetal Tigadoli }
85*9a40c0fbSSheetal Tigadoli
mhu_secure_message_wait(void)86*9a40c0fbSSheetal Tigadoli uint32_t mhu_secure_message_wait(void)
87*9a40c0fbSSheetal Tigadoli {
88*9a40c0fbSSheetal Tigadoli /* Wait for response from SCP */
89*9a40c0fbSSheetal Tigadoli uint32_t response, iter = 1000000;
90*9a40c0fbSSheetal Tigadoli
91*9a40c0fbSSheetal Tigadoli do {
92*9a40c0fbSSheetal Tigadoli response = mmio_read_32(PLAT_BRCM_MHU_BASE + SCP_INTR_S_STAT);
93*9a40c0fbSSheetal Tigadoli if (!response)
94*9a40c0fbSSheetal Tigadoli break;
95*9a40c0fbSSheetal Tigadoli
96*9a40c0fbSSheetal Tigadoli udelay(1);
97*9a40c0fbSSheetal Tigadoli } while (--iter);
98*9a40c0fbSSheetal Tigadoli assert(iter != 0);
99*9a40c0fbSSheetal Tigadoli
100*9a40c0fbSSheetal Tigadoli return response;
101*9a40c0fbSSheetal Tigadoli }
102*9a40c0fbSSheetal Tigadoli
mhu_secure_message_end(unsigned int slot_id)103*9a40c0fbSSheetal Tigadoli void mhu_secure_message_end(unsigned int slot_id)
104*9a40c0fbSSheetal Tigadoli {
105*9a40c0fbSSheetal Tigadoli assert(slot_id <= MHU_MAX_SLOT_ID);
106*9a40c0fbSSheetal Tigadoli
107*9a40c0fbSSheetal Tigadoli /*
108*9a40c0fbSSheetal Tigadoli * Clear any response we got by writing one in the relevant slot bit to
109*9a40c0fbSSheetal Tigadoli * the CLEAR register
110*9a40c0fbSSheetal Tigadoli */
111*9a40c0fbSSheetal Tigadoli mmio_clrbits_32(PLAT_BRCM_MHU_BASE + SCP_INTR_S_CLEAR, 1 << slot_id);
112*9a40c0fbSSheetal Tigadoli bakery_lock_release(&bcm_lock);
113*9a40c0fbSSheetal Tigadoli }
114*9a40c0fbSSheetal Tigadoli
mhu_secure_init(void)115*9a40c0fbSSheetal Tigadoli void mhu_secure_init(void)
116*9a40c0fbSSheetal Tigadoli {
117*9a40c0fbSSheetal Tigadoli bakery_lock_init(&bcm_lock);
118*9a40c0fbSSheetal Tigadoli
119*9a40c0fbSSheetal Tigadoli /*
120*9a40c0fbSSheetal Tigadoli * The STAT register resets to zero. Ensure it is in the expected state,
121*9a40c0fbSSheetal Tigadoli * as a stale or garbage value would make us think it's a message we've
122*9a40c0fbSSheetal Tigadoli * already sent.
123*9a40c0fbSSheetal Tigadoli */
124*9a40c0fbSSheetal Tigadoli mmio_write_32(PLAT_BRCM_MHU_BASE + CPU_INTR_S_STAT, 0);
125*9a40c0fbSSheetal Tigadoli mmio_write_32(PLAT_BRCM_MHU_BASE + SCP_INTR_S_STAT, 0);
126*9a40c0fbSSheetal Tigadoli }
127*9a40c0fbSSheetal Tigadoli
plat_brcm_pwrc_setup(void)128*9a40c0fbSSheetal Tigadoli void plat_brcm_pwrc_setup(void)
129*9a40c0fbSSheetal Tigadoli {
130*9a40c0fbSSheetal Tigadoli mhu_secure_init();
131*9a40c0fbSSheetal Tigadoli }
132