/* * LPC22XX/LPC21xx clock specific using the System Timer * Copyright (c) 2006 by Ray * Set the Time0 to generate click for RTEMS * * This is hardware specific part of the clock driver. At the end of this * file, the generic part of the driver is #included. * * The license and distribution terms for this file may be * found in the file LICENSE in this distribution or at * http://www.rtems.com/license/LICENSE. */ #include #include #include #include #include /* for printk */ void Clock_isr(rtems_irq_hdl_param arg); static void clock_isr_on(const rtems_irq_connect_data *unused); static void clock_isr_off(const rtems_irq_connect_data *unused); static int clock_isr_is_on(const rtems_irq_connect_data *irq); /* Replace the first value with the clock's interrupt name. */ rtems_irq_connect_data clock_isr_data = { .name = LPC22xx_INTERRUPT_TIMER0, .hdl = Clock_isr, .handle = NULL, .on = clock_isr_on, .off = clock_isr_off, .isOn = clock_isr_is_on, }; /* use the /shared/clockdrv_shell.h code template */ /** * When we get the clock interrupt * - clear the interrupt bit? * - restart the timer? */ #define Clock_driver_support_at_tick() \ do { \ if (!(T0IR & 0x01)) \ return; \ T0IR = 0x01; \ VICVectAddr = 0x00; \ } while(0) /** * Installs the clock ISR. You shouldn't need to change this. */ #define Clock_driver_support_install_isr( _new, _old ) \ do { \ (_old) = NULL; \ BSP_install_rtems_irq_handler(&clock_isr_data); \ } while(0) /** * Initialize the hardware for the clock * - Set the frequency * - enable it * - clear any pending interrupts * * Since you may want the clock always running, you can * enable interrupts here. If you do so, the clock_isr_on(), * clock_isr_off(), and clock_isr_is_on() functions can be * NOPs. * * set timer to generate interrupt every * rtems_configuration_get_microseconds_per_tick() * MR0/(LPC22xx_Fpclk/(PR0+1)) = 10/1000 = 0.01s */ #define Clock_driver_support_initialize_hardware() \ do { \ /* disable and clear timer 0, set to */ \ T0TCR &= 0; \ /* TC is incrementet on every pclk.*/ \ T0PC = 0; \ /* initialize the timer period and prescaler */ \ T0MR0 = ((LPC22xx_Fpclk/1000 * \ rtems_configuration_get_microseconds_per_tick()) / 1000); \ /* generate interrupt when T0MR0 match T0TC and Reset Timer Count*/ \ T0MCR |= 0x03; \ /* No external match */ \ T0EMR = 0; \ /* enable timer0 */ \ T0TCR = 1; \ /* enable interrupt, skyeye will check this*/ \ T0IR |= 0x01; \ } while (0) /** * Do whatever you need to shut the clock down and remove the * interrupt handler. Since this normally only gets called on * RTEMS shutdown, you may not need to do anything other than * remove the ISR. */ #define Clock_driver_support_shutdown_hardware() \ do { \ /* Disable timer */ \ T0TCR&=~0x02; \ BSP_remove_rtems_irq_handler(&clock_isr_data); \ } while (0) uint32_t bsp_clock_nanoseconds_since_last_tick(void) { uint32_t clicks; uint32_t microseconds; clicks = T0TC; /* T0TC is the 32bit time counter 0 */ microseconds = (rtems_configuration_get_microseconds_per_tick() - clicks); return microseconds * 1000; } #define Clock_driver_nanoseconds_since_last_tick \ bsp_clock_nanoseconds_since_last_tick /** * Enables clock interrupt. * * If the interrupt is always on, this can be a NOP. */ static void clock_isr_on(const rtems_irq_connect_data *unused) { T0IR&=0x01; } /** * Disables clock interrupts * * If the interrupt is always on, this can be a NOP. */ static void clock_isr_off(const rtems_irq_connect_data *unused) { T0IR=0x00; } /** * Tests to see if clock interrupt is enabled, and returns 1 if so. * If interrupt is not enabled, returns 0. * * If the interrupt is always on, this always returns 1. */ static int clock_isr_is_on(const rtems_irq_connect_data *irq) { return T0IR & 0x01; /* MR0 mask */ } /* Make sure to include this, and only at the end of the file */ #include "../../../../libbsp/shared/clockdrv_shell.h"