1 /* 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 13 static 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 31 void 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 40 int timer_init(void) 41 { 42 timer_global_init(); 43 return 0; 44 } 45 46 unsigned 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 68 void __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 94 void 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 } 107 108 void 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 */ 118 unsigned 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 */ 127 ulong get_tbclk(void) 128 { 129 return 1000; 130 } 131