/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2012 by Amaury Pouly * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include "icoll-imx233.h" #include "rtc-imx233.h" #include "kernel-imx233.h" #include "string.h" #include "timrot-imx233.h" #include "regs/icoll.h" #include "regs/digctl.h" /* helpers */ #if IMX233_SUBTARGET >= 3600 && IMX233_SUBTARGET < 3780 #define BP_ICOLL_PRIORITYn_ENABLEx(x) (2 + 8 * (x)) #define BM_ICOLL_PRIORITYn_ENABLEx(x) (1 << (2 + 8 * (x))) #define BP_ICOLL_PRIORITYn_PRIORITYx(x) (0 + 8 * (x)) #define BM_ICOLL_PRIORITYn_PRIORITYx(x) (3 << (0 + 8 * (x))) #define BF_ICOLL_PRIORITYn_PRIORITYx(x, v) (((v) << BP_ICOLL_PRIORITYn_PRIORITYx(x)) & BM_ICOLL_PRIORITYn_PRIORITYx(x)) #define BFM_ICOLL_PRIORITYn_PRIORITYx(x, v) BM_ICOLL_PRIORITYn_PRIORITYx(x) #define BP_ICOLL_PRIORITYn_SOFTIRQx(x) (3 + 8 * (x)) #define BM_ICOLL_PRIORITYn_SOFTIRQx(x) (1 << (3 + 8 * (x))) #endif #define default_interrupt(name) \ extern __attribute__((weak, alias("UIRQ"))) void name(void) static void UIRQ (void) __attribute__((interrupt ("IRQ"))); void irq_handler(void) __attribute__((naked)); void fiq_handler(void) __attribute__((interrupt("FIQ"))); default_interrupt(INT_USB_CTRL); default_interrupt(INT_TIMER0); default_interrupt(INT_TIMER1); default_interrupt(INT_TIMER2); default_interrupt(INT_TIMER3); default_interrupt(INT_SSP1_DMA); default_interrupt(INT_SSP1_ERROR); default_interrupt(INT_I2C_DMA); default_interrupt(INT_I2C_ERROR); default_interrupt(INT_GPIO0); default_interrupt(INT_GPIO1); default_interrupt(INT_GPIO2); default_interrupt(INT_VDD5V); default_interrupt(INT_LRADC_CH0); default_interrupt(INT_LRADC_CH1); default_interrupt(INT_LRADC_CH2); default_interrupt(INT_LRADC_CH3); default_interrupt(INT_LRADC_CH4); default_interrupt(INT_LRADC_CH5); default_interrupt(INT_LRADC_CH6); default_interrupt(INT_LRADC_CH7); default_interrupt(INT_DAC_DMA); default_interrupt(INT_DAC_ERROR); default_interrupt(INT_ADC_DMA); default_interrupt(INT_ADC_ERROR); default_interrupt(INT_TOUCH_DETECT); default_interrupt(INT_RTC_1MSEC); /* STMP3700+ specific */ #if IMX233_SUBTARGET >= 3700 default_interrupt(INT_SSP2_DMA); default_interrupt(INT_SSP2_ERROR); default_interrupt(INT_DCP); default_interrupt(INT_LCDIF_DMA); default_interrupt(INT_LCDIF_ERROR); #endif /* STMP3780+ specific */ #if IMX233_SUBTARGET >= 3780 #endif default_interrupt(INT_SOFTWARE0); default_interrupt(INT_SOFTWARE1); default_interrupt(INT_SOFTWARE2); default_interrupt(INT_SOFTWARE3); typedef void (*isr_t)(void); static isr_t isr_table[INT_SRC_COUNT] = { [INT_SRC_USB_CTRL] = INT_USB_CTRL, [INT_SRC_TIMER(0)] = INT_TIMER0, [INT_SRC_TIMER(1)] = INT_TIMER1, [INT_SRC_TIMER(2)] = INT_TIMER2, [INT_SRC_TIMER(3)] = INT_TIMER3, [INT_SRC_SSP1_DMA] = INT_SSP1_DMA, [INT_SRC_SSP1_ERROR] = INT_SSP1_ERROR, [INT_SRC_I2C_DMA] = INT_I2C_DMA, [INT_SRC_I2C_ERROR] = INT_I2C_ERROR, [INT_SRC_GPIO0] = INT_GPIO0, [INT_SRC_GPIO1] = INT_GPIO1, [INT_SRC_GPIO2] = INT_GPIO2, [INT_SRC_VDD5V] = INT_VDD5V, [INT_SRC_LRADC_CHx(0)] = INT_LRADC_CH0, [INT_SRC_LRADC_CHx(1)] = INT_LRADC_CH1, [INT_SRC_LRADC_CHx(2)] = INT_LRADC_CH2, [INT_SRC_LRADC_CHx(3)] = INT_LRADC_CH3, [INT_SRC_LRADC_CHx(4)] = INT_LRADC_CH4, [INT_SRC_LRADC_CHx(5)] = INT_LRADC_CH5, [INT_SRC_LRADC_CHx(6)] = INT_LRADC_CH6, [INT_SRC_LRADC_CHx(7)] = INT_LRADC_CH7, [INT_SRC_DAC_DMA] = INT_DAC_DMA, [INT_SRC_DAC_ERROR] = INT_DAC_ERROR, [INT_SRC_ADC_DMA] = INT_ADC_DMA, [INT_SRC_ADC_ERROR] = INT_ADC_ERROR, [INT_SRC_TOUCH_DETECT] = INT_TOUCH_DETECT, [INT_SRC_RTC_1MSEC] = INT_RTC_1MSEC, #if IMX233_SUBTARGET >= 3700 [INT_SRC_SSP2_DMA] = INT_SSP2_DMA, [INT_SRC_SSP2_ERROR] = INT_SSP2_ERROR, [INT_SRC_DCP] = INT_DCP, [INT_SRC_LCDIF_DMA] = INT_LCDIF_DMA, [INT_SRC_LCDIF_ERROR] = INT_LCDIF_ERROR, #endif #if IMX233_SUBTARGET >= 3780 #endif [INT_SRC_SOFTWARE(0)] = INT_SOFTWARE0, [INT_SRC_SOFTWARE(1)] = INT_SOFTWARE1, [INT_SRC_SOFTWARE(2)] = INT_SOFTWARE2, [INT_SRC_SOFTWARE(3)] = INT_SOFTWARE3, }; #define IRQ_STORM_DELAY 100 /* ms */ #define IRQ_STORM_THRESHOLD 100000 /* allows irq / delay */ static uint32_t irq_count_old[INT_SRC_COUNT]; static uint32_t irq_count[INT_SRC_COUNT]; static uint32_t irq_max_time_old[INT_SRC_COUNT]; static uint32_t irq_max_time[INT_SRC_COUNT]; static uint32_t irq_tot_time_old[INT_SRC_COUNT]; static uint32_t irq_tot_time[INT_SRC_COUNT]; unsigned imx233_icoll_get_priority(int src) { #if IMX233_SUBTARGET < 3780 return BF_RD(ICOLL_PRIORITYn(src / 4), PRIORITYx(src % 4)); #else return BF_RD(ICOLL_INTERRUPTn(src), PRIORITY); #endif } struct imx233_icoll_irq_info_t imx233_icoll_get_irq_info(int src) { struct imx233_icoll_irq_info_t info; #if IMX233_SUBTARGET < 3780 info.enabled = BF_RD(ICOLL_PRIORITYn(src / 4), ENABLEx(src % 4)); #else info.enabled = BF_RD(ICOLL_INTERRUPTn(src), ENABLE); #endif info.priority = imx233_icoll_get_priority(src); info.freq = irq_count_old[src]; info.max_time = irq_max_time_old[src]; info.total_time = irq_tot_time_old[src]; return info; } static void do_irq_stat(void) { imx233_keep_alive(); static unsigned counter = 0; if(counter++ >= HZ) { counter = 0; memcpy(irq_count_old, irq_count, sizeof(irq_count)); memset(irq_count, 0, sizeof(irq_count)); memcpy(irq_max_time_old, irq_max_time, sizeof(irq_max_time)); memset(irq_max_time, 0, sizeof(irq_max_time)); memcpy(irq_tot_time_old, irq_tot_time, sizeof(irq_tot_time)); memset(irq_tot_time, 0, sizeof(irq_tot_time)); } } static void UIRQ(void) { panicf("Unhandled IRQ %02X", (unsigned int)(HW_ICOLL_VECTOR - (uint32_t)isr_table) / 4); } /* return the priority level */ void _irq_handler(void) { /* read vector and notify as side effect */ uint32_t vec = HW_ICOLL_VECTOR; int irq_nr = (vec - HW_ICOLL_VBASE) / 4; /* check for IRQ storm */ if(irq_count[irq_nr]++ > IRQ_STORM_THRESHOLD) panicf("IRQ %d: storm detected", irq_nr); /* do some regular stat */ if(irq_nr == INT_SRC_TIMER(TIMER_TICK)) do_irq_stat(); /* enable interrupts again */ //enable_irq(); uint32_t time = HW_DIGCTL_MICROSECONDS; /* process interrupt */ (*(isr_t *)vec)(); time = HW_DIGCTL_MICROSECONDS - time; irq_max_time[irq_nr] = MAX(irq_max_time[irq_nr], time); irq_tot_time[irq_nr] += time; /* acknowledge completion of IRQ */ HW_ICOLL_LEVELACK = 1 << imx233_icoll_get_priority(irq_nr); } void irq_handler(void) { /* save stuff */ asm volatile( /* This part is in IRQ mode (with IRQ stack) */ "sub lr, lr, #4 \n" /* Create return address */ "stmfd sp!, { r0-r5, r12, lr } \n" /* Save what gets clobbered */ "ldr r1, =0x8001c290 \n" /* Save HW_DIGCTL_SCRATCH0 */ "ldr r0, [r1] \n" /* and store instruction pointer */ "str lr, [r1] \n" /* in it (for debug) */ "mrs r2, spsr \n" /* Save SPSR_irq */ "stmfd sp!, { r0, r2 } \n" /* Push it on the stack */ "msr cpsr_c, #0x93 \n" /* Switch to SVC mode, IRQ disabled */ /* This part is in SVC mode (with SVC stack) */ "msr spsr_cxsf, r2 \n" /* Copy SPSR_irq to SPSR_svc (for __get_sp) */ "mov r4, lr \n" /* Save lr_SVC */ "and r5, sp, #4 \n" /* Align SVC stack */ "sub sp, sp, r5 \n" /* on 8-byte boundary */ "blx _irq_handler \n" /* Process IRQ */ "add sp, sp, r5 \n" /* Undo alignement */ "mov lr, r4 \n" /* Restore lr_SVC */ "msr cpsr_c, #0x92 \n" /* Mask IRQ, return to IRQ mode */ /* This part is in IRQ mode (with IRQ stack) */ "ldmfd sp!, { r0, lr } \n" /* Reload saved value */ "ldr r1, =0x8001c290 \n" /* Restore HW_DIGCTL_SCRATCH0 */ "str r0, [r1] \n" /* using saved value */ "msr spsr_cxsf, lr \n" /* Restore SPSR_irq */ "ldmfd sp!, { r0-r5, r12, pc }^ \n" /* Restore regs, and RFE */); } void fiq_handler(void) { } void imx233_icoll_force_irq(unsigned src, bool enable) { #if IMX233_SUBTARGET < 3780 if(enable) BF_SET(ICOLL_PRIORITYn(src / 4), SOFTIRQx(src % 4)); else BF_CLR(ICOLL_PRIORITYn(src / 4), SOFTIRQx(src % 4)); #else if(enable) BF_SET(ICOLL_INTERRUPTn(src), SOFTIRQ); else BF_CLR(ICOLL_INTERRUPTn(src), SOFTIRQ); #endif } void imx233_icoll_enable_interrupt(int src, bool enable) { #if IMX233_SUBTARGET < 3780 if(enable) BF_SET(ICOLL_PRIORITYn(src / 4), ENABLEx(src % 4)); else BF_CLR(ICOLL_PRIORITYn(src / 4), ENABLEx(src % 4)); #else if(enable) BF_SET(ICOLL_INTERRUPTn(src), ENABLE); else BF_CLR(ICOLL_INTERRUPTn(src), ENABLE); #endif } void imx233_icoll_set_priority(int src, unsigned prio) { #if IMX233_SUBTARGET < 3780 BF_WR(ICOLL_PRIORITYn(src / 4), PRIORITYx(src % 4, prio)); #else BF_WR(ICOLL_INTERRUPTn(src), PRIORITY(prio)); #endif } void imx233_icoll_init(void) { imx233_reset_block(&HW_ICOLL_CTRL); /* enable read side-effect mode for nested interrupts */ BF_SET(ICOLL_CTRL, ARM_RSE_MODE); /* disable all interrupts */ /* priority = 0, disable, disable fiq */ #if IMX233_SUBTARGET >= 3780 for(int i = 0; i < INT_SRC_COUNT; i++) HW_ICOLL_INTERRUPTn(i) = 0; #else for(int i = 0; i < INT_SRC_COUNT / 4; i++) HW_ICOLL_PRIORITYn(i) = 0; #endif /* setup vbase as isr_table */ HW_ICOLL_VBASE = (uint32_t)&isr_table; /* enable final irq bit */ BF_SET(ICOLL_CTRL, IRQ_FINAL_ENABLE); }