207 lines
5.5 KiB
C
207 lines
5.5 KiB
C
/*
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* Copyright (c) 2020 Stephanos Ioannidis <root@stephanos.io>
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* Copyright (c) 2018 Xilinx, Inc.
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#define DT_DRV_COMPAT xlnx_ttcps
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#include <zephyr/arch/cpu.h>
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#include <zephyr/init.h>
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#include <zephyr/irq.h>
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#include <zephyr/sys_clock.h>
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#include <soc.h>
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#include <zephyr/drivers/timer/system_timer.h>
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#include "xlnx_psttc_timer_priv.h"
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#define TIMER_INDEX CONFIG_XLNX_PSTTC_TIMER_INDEX
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#define TIMER_IRQ DT_INST_IRQN(0)
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#define TIMER_BASE_ADDR DT_INST_REG_ADDR(0)
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#define TIMER_CLOCK_FREQUECY DT_INST_PROP(0, clock_frequency)
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#define TICKS_PER_SEC CONFIG_SYS_CLOCK_TICKS_PER_SEC
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#define CYCLES_PER_SEC TIMER_CLOCK_FREQUECY
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#define CYCLES_PER_TICK (CYCLES_PER_SEC / TICKS_PER_SEC)
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#if defined(CONFIG_TEST)
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const int32_t z_sys_timer_irq_for_test = DT_IRQN(DT_INST(0, xlnx_ttcps));
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#endif
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/*
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* CYCLES_NEXT_MIN must be large enough to ensure that the timer does not miss
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* interrupts. This value was conservatively set using the trial and error
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* method, and there is room for improvement.
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*/
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#define CYCLES_NEXT_MIN (10000)
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#define CYCLES_NEXT_MAX (XTTC_MAX_INTERVAL_COUNT)
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BUILD_ASSERT(TIMER_CLOCK_FREQUECY ==
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CONFIG_SYS_CLOCK_HW_CYCLES_PER_SEC,
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"Configured system timer frequency does not match the TTC "
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"clock frequency in the device tree");
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BUILD_ASSERT(CYCLES_PER_SEC >= TICKS_PER_SEC,
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"Timer clock frequency must be greater than the system tick "
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"frequency");
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BUILD_ASSERT((CYCLES_PER_SEC % TICKS_PER_SEC) == 0,
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"Timer clock frequency is not divisible by the system tick "
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"frequency");
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#ifdef CONFIG_TICKLESS_KERNEL
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static uint32_t last_cycles;
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#endif
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static uint32_t read_count(void)
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{
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/* Read current counter value */
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return sys_read32(TIMER_BASE_ADDR + XTTCPS_COUNT_VALUE_OFFSET);
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}
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static void update_match(uint32_t cycles, uint32_t match)
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{
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uint32_t delta = match - cycles;
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/* Ensure that the match value meets the minimum timing requirements */
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if (delta < CYCLES_NEXT_MIN) {
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match += CYCLES_NEXT_MIN - delta;
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}
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/* Write counter match value for interrupt generation */
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sys_write32(match, TIMER_BASE_ADDR + XTTCPS_MATCH_0_OFFSET);
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}
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static void ttc_isr(const void *arg)
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{
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uint32_t cycles;
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uint32_t ticks;
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ARG_UNUSED(arg);
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/* Acknowledge interrupt */
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sys_read32(TIMER_BASE_ADDR + XTTCPS_ISR_OFFSET);
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/* Read counter value */
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cycles = read_count();
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#ifdef CONFIG_TICKLESS_KERNEL
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/* Calculate the number of ticks since last announcement */
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ticks = (cycles - last_cycles) / CYCLES_PER_TICK;
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/* Update last cycles count */
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last_cycles = cycles;
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#else
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/* Update counter match value for the next interrupt */
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update_match(cycles, cycles + CYCLES_PER_TICK);
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/* Advance tick count by 1 */
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ticks = 1;
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#endif
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/* Announce to the kernel*/
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sys_clock_announce(ticks);
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}
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void sys_clock_set_timeout(int32_t ticks, bool idle)
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{
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#ifdef CONFIG_TICKLESS_KERNEL
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uint32_t cycles;
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uint32_t next_cycles;
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/* Read counter value */
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cycles = read_count();
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/* Calculate timeout counter value */
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if (ticks == K_TICKS_FOREVER) {
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next_cycles = cycles + CYCLES_NEXT_MAX;
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} else {
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next_cycles = cycles + ((uint32_t)ticks * CYCLES_PER_TICK);
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}
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/* Set match value for the next interrupt */
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update_match(cycles, next_cycles);
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#endif
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}
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uint32_t sys_clock_elapsed(void)
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{
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#ifdef CONFIG_TICKLESS_KERNEL
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uint32_t cycles;
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/* Read counter value */
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cycles = read_count();
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/* Return the number of ticks since last announcement */
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return (cycles - last_cycles) / CYCLES_PER_TICK;
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#else
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/* Always return 0 for tickful operation */
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return 0;
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#endif
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}
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uint32_t sys_clock_cycle_get_32(void)
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{
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/* Return the current counter value */
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return read_count();
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}
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static int sys_clock_driver_init(void)
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{
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uint32_t reg_val;
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/* Stop timer */
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sys_write32(XTTCPS_CNT_CNTRL_DIS_MASK,
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TIMER_BASE_ADDR + XTTCPS_CNT_CNTRL_OFFSET);
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#ifdef CONFIG_TICKLESS_KERNEL
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/* Initialise internal states */
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last_cycles = 0;
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#endif
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/* Initialise timer registers */
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sys_write32(XTTCPS_CNT_CNTRL_RESET_VALUE,
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TIMER_BASE_ADDR + XTTCPS_CNT_CNTRL_OFFSET);
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sys_write32(0, TIMER_BASE_ADDR + XTTCPS_CLK_CNTRL_OFFSET);
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sys_write32(0, TIMER_BASE_ADDR + XTTCPS_INTERVAL_VAL_OFFSET);
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sys_write32(0, TIMER_BASE_ADDR + XTTCPS_MATCH_0_OFFSET);
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sys_write32(0, TIMER_BASE_ADDR + XTTCPS_MATCH_1_OFFSET);
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sys_write32(0, TIMER_BASE_ADDR + XTTCPS_MATCH_2_OFFSET);
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sys_write32(0, TIMER_BASE_ADDR + XTTCPS_IER_OFFSET);
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sys_write32(XTTCPS_IXR_ALL_MASK, TIMER_BASE_ADDR + XTTCPS_ISR_OFFSET);
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/* Reset counter value */
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reg_val = sys_read32(TIMER_BASE_ADDR + XTTCPS_CNT_CNTRL_OFFSET);
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reg_val |= XTTCPS_CNT_CNTRL_RST_MASK;
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sys_write32(reg_val, TIMER_BASE_ADDR + XTTCPS_CNT_CNTRL_OFFSET);
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/* Set match mode */
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reg_val = sys_read32(TIMER_BASE_ADDR + XTTCPS_CNT_CNTRL_OFFSET);
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reg_val |= XTTCPS_CNT_CNTRL_MATCH_MASK;
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sys_write32(reg_val, TIMER_BASE_ADDR + XTTCPS_CNT_CNTRL_OFFSET);
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/* Set initial timeout */
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reg_val = IS_ENABLED(CONFIG_TICKLESS_KERNEL) ?
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CYCLES_NEXT_MAX : CYCLES_PER_TICK;
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sys_write32(reg_val, TIMER_BASE_ADDR + XTTCPS_MATCH_0_OFFSET);
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/* Connect timer interrupt */
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IRQ_CONNECT(TIMER_IRQ, 0, ttc_isr, 0, 0);
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irq_enable(TIMER_IRQ);
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/* Enable timer interrupt */
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reg_val = sys_read32(TIMER_BASE_ADDR + XTTCPS_IER_OFFSET);
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reg_val |= XTTCPS_IXR_MATCH_0_MASK;
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sys_write32(reg_val, TIMER_BASE_ADDR + XTTCPS_IER_OFFSET);
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/* Start timer */
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reg_val = sys_read32(TIMER_BASE_ADDR + XTTCPS_CNT_CNTRL_OFFSET);
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reg_val &= (~XTTCPS_CNT_CNTRL_DIS_MASK);
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sys_write32(reg_val, TIMER_BASE_ADDR + XTTCPS_CNT_CNTRL_OFFSET);
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return 0;
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}
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SYS_INIT(sys_clock_driver_init, PRE_KERNEL_2,
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CONFIG_SYSTEM_CLOCK_INIT_PRIORITY);
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