1*622bad10SPhil Edworthy /*
2*622bad10SPhil Edworthy * ARM Cortex M3/M4/M7 SysTick timer driver
3*622bad10SPhil Edworthy * (C) Copyright 2017 Renesas Electronics Europe Ltd
4*622bad10SPhil Edworthy *
5*622bad10SPhil Edworthy * Based on arch/arm/mach-stm32/stm32f1/timer.c
6*622bad10SPhil Edworthy * (C) Copyright 2015
7*622bad10SPhil Edworthy * Kamil Lulko, <kamil.lulko@gmail.com>
8*622bad10SPhil Edworthy *
9*622bad10SPhil Edworthy * Copyright 2015 ATS Advanced Telematics Systems GmbH
10*622bad10SPhil Edworthy * Copyright 2015 Konsulko Group, Matt Porter <mporter@konsulko.com>
11*622bad10SPhil Edworthy *
12*622bad10SPhil Edworthy * SPDX-License-Identifier: GPL-2.0+
13*622bad10SPhil Edworthy *
14*622bad10SPhil Edworthy * The SysTick timer is a 24-bit count down timer. The clock can be either the
15*622bad10SPhil Edworthy * CPU clock or a reference clock. Since the timer will wrap around very quickly
16*622bad10SPhil Edworthy * when using the CPU clock, and we do not handle the timer interrupts, it is
17*622bad10SPhil Edworthy * expected that this driver is only ever used with a slow reference clock.
18*622bad10SPhil Edworthy *
19*622bad10SPhil Edworthy * The number of reference clock ticks that correspond to 10ms is normally
20*622bad10SPhil Edworthy * defined in the SysTick Calibration register's TENMS field. However, on some
21*622bad10SPhil Edworthy * devices this is wrong, so this driver allows the clock rate to be defined
22*622bad10SPhil Edworthy * using CONFIG_SYS_HZ_CLOCK.
23*622bad10SPhil Edworthy */
24*622bad10SPhil Edworthy
25*622bad10SPhil Edworthy #include <common.h>
26*622bad10SPhil Edworthy #include <asm/io.h>
27*622bad10SPhil Edworthy
28*622bad10SPhil Edworthy DECLARE_GLOBAL_DATA_PTR;
29*622bad10SPhil Edworthy
30*622bad10SPhil Edworthy /* SysTick Base Address - fixed for all Cortex M3, M4 and M7 devices */
31*622bad10SPhil Edworthy #define SYSTICK_BASE 0xE000E010
32*622bad10SPhil Edworthy
33*622bad10SPhil Edworthy struct cm3_systick {
34*622bad10SPhil Edworthy uint32_t ctrl;
35*622bad10SPhil Edworthy uint32_t reload_val;
36*622bad10SPhil Edworthy uint32_t current_val;
37*622bad10SPhil Edworthy uint32_t calibration;
38*622bad10SPhil Edworthy };
39*622bad10SPhil Edworthy
40*622bad10SPhil Edworthy #define TIMER_MAX_VAL 0x00FFFFFF
41*622bad10SPhil Edworthy #define SYSTICK_CTRL_EN BIT(0)
42*622bad10SPhil Edworthy /* Clock source: 0 = Ref clock, 1 = CPU clock */
43*622bad10SPhil Edworthy #define SYSTICK_CTRL_CPU_CLK BIT(2)
44*622bad10SPhil Edworthy #define SYSTICK_CAL_NOREF BIT(31)
45*622bad10SPhil Edworthy #define SYSTICK_CAL_SKEW BIT(30)
46*622bad10SPhil Edworthy #define SYSTICK_CAL_TENMS_MASK 0x00FFFFFF
47*622bad10SPhil Edworthy
48*622bad10SPhil Edworthy /* read the 24-bit timer */
read_timer(void)49*622bad10SPhil Edworthy static ulong read_timer(void)
50*622bad10SPhil Edworthy {
51*622bad10SPhil Edworthy struct cm3_systick *systick = (struct cm3_systick *)SYSTICK_BASE;
52*622bad10SPhil Edworthy
53*622bad10SPhil Edworthy /* The timer counts down, therefore convert to an incrementing timer */
54*622bad10SPhil Edworthy return TIMER_MAX_VAL - readl(&systick->current_val);
55*622bad10SPhil Edworthy }
56*622bad10SPhil Edworthy
timer_init(void)57*622bad10SPhil Edworthy int timer_init(void)
58*622bad10SPhil Edworthy {
59*622bad10SPhil Edworthy struct cm3_systick *systick = (struct cm3_systick *)SYSTICK_BASE;
60*622bad10SPhil Edworthy u32 cal;
61*622bad10SPhil Edworthy
62*622bad10SPhil Edworthy writel(TIMER_MAX_VAL, &systick->reload_val);
63*622bad10SPhil Edworthy /* Any write to current_val reg clears it to 0 */
64*622bad10SPhil Edworthy writel(0, &systick->current_val);
65*622bad10SPhil Edworthy
66*622bad10SPhil Edworthy cal = readl(&systick->calibration);
67*622bad10SPhil Edworthy if (cal & SYSTICK_CAL_NOREF)
68*622bad10SPhil Edworthy /* Use CPU clock, no interrupts */
69*622bad10SPhil Edworthy writel(SYSTICK_CTRL_EN | SYSTICK_CTRL_CPU_CLK, &systick->ctrl);
70*622bad10SPhil Edworthy else
71*622bad10SPhil Edworthy /* Use external clock, no interrupts */
72*622bad10SPhil Edworthy writel(SYSTICK_CTRL_EN, &systick->ctrl);
73*622bad10SPhil Edworthy
74*622bad10SPhil Edworthy /*
75*622bad10SPhil Edworthy * If the TENMS field is inexact or wrong, specify the clock rate using
76*622bad10SPhil Edworthy * CONFIG_SYS_HZ_CLOCK.
77*622bad10SPhil Edworthy */
78*622bad10SPhil Edworthy #if defined(CONFIG_SYS_HZ_CLOCK)
79*622bad10SPhil Edworthy gd->arch.timer_rate_hz = CONFIG_SYS_HZ_CLOCK;
80*622bad10SPhil Edworthy #else
81*622bad10SPhil Edworthy gd->arch.timer_rate_hz = (cal & SYSTICK_CAL_TENMS_MASK) * 100;
82*622bad10SPhil Edworthy #endif
83*622bad10SPhil Edworthy
84*622bad10SPhil Edworthy gd->arch.tbl = 0;
85*622bad10SPhil Edworthy gd->arch.tbu = 0;
86*622bad10SPhil Edworthy gd->arch.lastinc = read_timer();
87*622bad10SPhil Edworthy
88*622bad10SPhil Edworthy return 0;
89*622bad10SPhil Edworthy }
90*622bad10SPhil Edworthy
91*622bad10SPhil Edworthy /* return milli-seconds timer value */
get_timer(ulong base)92*622bad10SPhil Edworthy ulong get_timer(ulong base)
93*622bad10SPhil Edworthy {
94*622bad10SPhil Edworthy unsigned long long t = get_ticks() * 1000;
95*622bad10SPhil Edworthy
96*622bad10SPhil Edworthy return (ulong)((t / gd->arch.timer_rate_hz)) - base;
97*622bad10SPhil Edworthy }
98*622bad10SPhil Edworthy
get_ticks(void)99*622bad10SPhil Edworthy unsigned long long get_ticks(void)
100*622bad10SPhil Edworthy {
101*622bad10SPhil Edworthy u32 now = read_timer();
102*622bad10SPhil Edworthy
103*622bad10SPhil Edworthy if (now >= gd->arch.lastinc)
104*622bad10SPhil Edworthy gd->arch.tbl += (now - gd->arch.lastinc);
105*622bad10SPhil Edworthy else
106*622bad10SPhil Edworthy gd->arch.tbl += (TIMER_MAX_VAL - gd->arch.lastinc) + now;
107*622bad10SPhil Edworthy
108*622bad10SPhil Edworthy gd->arch.lastinc = now;
109*622bad10SPhil Edworthy
110*622bad10SPhil Edworthy return gd->arch.tbl;
111*622bad10SPhil Edworthy }
112*622bad10SPhil Edworthy
get_tbclk(void)113*622bad10SPhil Edworthy ulong get_tbclk(void)
114*622bad10SPhil Edworthy {
115*622bad10SPhil Edworthy return gd->arch.timer_rate_hz;
116*622bad10SPhil Edworthy }
117