blob: 373d8ec251dab5e687c5db224a43a8d9a0af0737 [file] [log] [blame]
Scott Branden5653a822014-08-11 13:58:22 -07001/*
2 * Copyright 2014 Broadcom Corporation.
3 *
4 * SPDX-License-Identifier: GPL-2.0+
5 */
6
7#include <common.h>
8#include <div64.h>
9#include <asm/io.h>
10#include <asm/iproc-common/timer.h>
11#include <asm/iproc-common/sysmap.h>
12
13static inline uint64_t timer_global_read(void)
14{
15 uint64_t cur_tick;
16 uint32_t count_h;
17 uint32_t count_l;
18
19 do {
20 count_h = readl(IPROC_PERIPH_GLB_TIM_REG_BASE +
21 TIMER_GLB_HI_OFFSET);
22 count_l = readl(IPROC_PERIPH_GLB_TIM_REG_BASE +
23 TIMER_GLB_LOW_OFFSET);
24 cur_tick = readl(IPROC_PERIPH_GLB_TIM_REG_BASE +
25 TIMER_GLB_HI_OFFSET);
26 } while (cur_tick != count_h);
27
28 return (cur_tick << 32) + count_l;
29}
30
31void timer_global_init(void)
32{
33 writel(0, IPROC_PERIPH_GLB_TIM_REG_BASE + TIMER_GLB_CTRL_OFFSET);
34 writel(0, IPROC_PERIPH_GLB_TIM_REG_BASE + TIMER_GLB_LOW_OFFSET);
35 writel(0, IPROC_PERIPH_GLB_TIM_REG_BASE + TIMER_GLB_HI_OFFSET);
36 writel(TIMER_GLB_TIM_CTRL_TIM_EN,
37 IPROC_PERIPH_GLB_TIM_REG_BASE + TIMER_GLB_CTRL_OFFSET);
38}
39
40int timer_init(void)
41{
42 timer_global_init();
43 return 0;
44}
45
46unsigned long get_timer(unsigned long base)
47{
48 uint64_t count;
49 uint64_t ret;
50 uint64_t tim_clk;
51 uint64_t periph_clk;
52
53 count = timer_global_read();
54
55 /* default arm clk is 1GHz, periph_clk=arm_clk/2, tick per msec */
56 periph_clk = 500000;
57 tim_clk = lldiv(periph_clk,
58 (((readl(IPROC_PERIPH_GLB_TIM_REG_BASE +
59 TIMER_GLB_CTRL_OFFSET) &
60 TIMER_GLB_TIM_CTRL_PRESC_MASK) >> 8) + 1));
61
62 ret = lldiv(count, (uint32_t)tim_clk);
63
64 /* returns msec */
65 return ret - base;
66}
67
68void __udelay(unsigned long usec)
69{
70 uint64_t cur_tick, end_tick;
71 uint64_t tim_clk;
72 uint64_t periph_clk;
73
74 /* default arm clk is 1GHz, periph_clk=arm_clk/2, tick per usec */
75 periph_clk = 500;
76
77 tim_clk = lldiv(periph_clk,
78 (((readl(IPROC_PERIPH_GLB_TIM_REG_BASE +
79 TIMER_GLB_CTRL_OFFSET) &
80 TIMER_GLB_TIM_CTRL_PRESC_MASK) >> 8) + 1));
81
82 cur_tick = timer_global_read();
83
84 end_tick = tim_clk;
85 end_tick *= usec;
86 end_tick += cur_tick;
87
88 do {
89 cur_tick = timer_global_read();
90
91 } while (cur_tick < end_tick);
92}
93
94void timer_systick_init(uint32_t tick_ms)
95{
96 /* Disable timer and clear interrupt status*/
97 writel(0, IPROC_PERIPH_PVT_TIM_REG_BASE + TIMER_PVT_CTRL_OFFSET);
98 writel(TIMER_PVT_TIM_INT_STATUS_SET,
99 IPROC_PERIPH_PVT_TIM_REG_BASE + TIMER_PVT_STATUS_OFFSET);
100 writel((PLL_AXI_CLK/1000) * tick_ms,
101 IPROC_PERIPH_PVT_TIM_REG_BASE + TIMER_PVT_LOAD_OFFSET);
102 writel(TIMER_PVT_TIM_CTRL_INT_EN |
103 TIMER_PVT_TIM_CTRL_AUTO_RELD |
104 TIMER_PVT_TIM_CTRL_TIM_EN,
105 IPROC_PERIPH_PVT_TIM_REG_BASE + TIMER_PVT_CTRL_OFFSET);
106}
107
108void timer_systick_isr(void *data)
109{
110 writel(TIMER_PVT_TIM_INT_STATUS_SET,
111 IPROC_PERIPH_PVT_TIM_REG_BASE + TIMER_PVT_STATUS_OFFSET);
112}
113
114/*
115 * This function is derived from PowerPC code (read timebase as long long).
116 * On ARM it just returns the timer value in msec.
117 */
118unsigned long long get_ticks(void)
119{
120 return get_timer(0);
121}
122
123/*
124 * This is used in conjuction with get_ticks, which returns msec as ticks.
125 * Here we just return ticks/sec = msec/sec = 1000
126 */
127ulong get_tbclk(void)
128{
129 return 1000;
130}