circuitpython/ports/mimxrt10xx/supervisor/port.c

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/*
* This file is part of the MicroPython project, http://micropython.org/
*
* The MIT License (MIT)
*
* Copyright (c) 2020 Scott Shawcroft for Adafruit Industries
* Copyright (c) 2020 Artur Pacholec
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*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
/*
* Copyright 2018 NXP
* All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
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#include "boards/board.h"
#include "supervisor/port.h"
#include "fsl_device_registers.h"
#include "common-hal/microcontroller/Pin.h"
#include "common-hal/pulseio/PulseIn.h"
#include "common-hal/pulseio/PulseOut.h"
#include "common-hal/pulseio/PWMOut.h"
#include "common-hal/rtc/RTC.h"
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#include "common-hal/busio/SPI.h"
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#include "reset.h"
#include "tusb.h"
#if CIRCUITPY_GAMEPAD
#include "shared-module/gamepad/__init__.h"
#endif
#if CIRCUITPY_GAMEPADSHIFT
#include "shared-module/gamepadshift/__init__.h"
#endif
#include "shared-module/_pew/PewPew.h"
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#include "supervisor/shared/tick.h"
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#include "clocks.h"
#include "fsl_gpio.h"
#include "fsl_lpuart.h"
// Device memories must be accessed in order.
#define DEVICE 2
// Normal memory can have accesses reorder and prefetched.
#define NORMAL 0
// Prevents instruction access.
#define NO_EXECUTION 1
#define EXECUTION 0
// Shareable if the memory system manages coherency.
#define NOT_SHAREABLE 0
#define SHAREABLE 1
//
#define NOT_CACHEABLE 0
#define CACHEABLE 1
#define NOT_BUFFERABLE 0
#define BUFFERABLE 1
#define NO_SUBREGIONS 0
extern uint32_t _ld_flash_size;
extern uint32_t _ld_stack_top;
extern uint32_t __isr_vector[];
extern uint32_t _ld_ocram_bss_start;
extern uint32_t _ld_ocram_bss_size;
extern uint32_t _ld_ocram_data_destination;
extern uint32_t _ld_ocram_data_size;
extern uint32_t _ld_ocram_data_flash_copy;
extern uint32_t _ld_dtcm_bss_start;
extern uint32_t _ld_dtcm_bss_size;
extern uint32_t _ld_dtcm_data_destination;
extern uint32_t _ld_dtcm_data_size;
extern uint32_t _ld_dtcm_data_flash_copy;
extern uint32_t _ld_itcm_destination;
extern uint32_t _ld_itcm_size;
extern uint32_t _ld_itcm_flash_copy;
extern void main(void);
// This replaces the Reset_Handler in startup_*.S and SystemInit in system_*.c.
__attribute__((used, naked)) void Reset_Handler(void) {
__disable_irq();
SCB->VTOR = (uint32_t) &__isr_vector;
__set_MSP((uint32_t) &_ld_stack_top);
/* Disable I cache and D cache */
SCB_DisableICache();
SCB_DisableDCache();
// Changing the FlexRAM must happen here where the stack is empty. If it is in a function call,
// then the return will jump to an invalid address.
// Configure FlexRAM. The e is one block of ITCM (0b11) and DTCM (0b10). The rest is two OCRAM
// (0b01). We shift in zeroes for all unimplemented banks.
IOMUXC_GPR->GPR17 = (0xe5555555) >> (32 - 2 * FSL_FEATURE_FLEXRAM_INTERNAL_RAM_TOTAL_BANK_NUMBERS);
// Switch from FlexRAM fuse config to the IOMUXC values.
IOMUXC_GPR->GPR16 |= IOMUXC_GPR_GPR16_FLEXRAM_BANK_CFG_SEL(1);
// Let the core know the TCM sizes changed.
uint32_t current_gpr14 = IOMUXC_GPR->GPR14;
current_gpr14 &= ~IOMUXC_GPR_GPR14_CM7_CFGDTCMSZ_MASK;
current_gpr14 |= IOMUXC_GPR_GPR14_CM7_CFGDTCMSZ(0x6);
current_gpr14 &= ~IOMUXC_GPR_GPR14_CM7_CFGITCMSZ_MASK;
current_gpr14 |= IOMUXC_GPR_GPR14_CM7_CFGITCMSZ(0x6);
IOMUXC_GPR->GPR14 = current_gpr14;
#if ((__FPU_PRESENT == 1) && (__FPU_USED == 1))
SCB->CPACR |= ((3UL << 10*2) | (3UL << 11*2)); /* set CP10, CP11 Full Access */
#endif /* ((__FPU_PRESENT == 1) && (__FPU_USED == 1)) */
/* Disable Watchdog Power Down Counter */
WDOG1->WMCR &= ~WDOG_WMCR_PDE_MASK;
WDOG2->WMCR &= ~WDOG_WMCR_PDE_MASK;
/* Watchdog disable */
WDOG1->WCR &= ~WDOG_WCR_WDE_MASK;
WDOG2->WCR &= ~WDOG_WCR_WDE_MASK;
RTWDOG->CNT = 0xD928C520U; /* 0xD928C520U is the update key */
RTWDOG->TOVAL = 0xFFFF;
RTWDOG->CS = (uint32_t) ((RTWDOG->CS) & ~RTWDOG_CS_EN_MASK) | RTWDOG_CS_UPDATE_MASK;
/* Disable Systick which might be enabled by bootrom */
if (SysTick->CTRL & SysTick_CTRL_ENABLE_Msk)
{
SysTick->CTRL &= ~SysTick_CTRL_ENABLE_Msk;
}
/* Disable MPU */
ARM_MPU_Disable();
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// Copy all of the itcm code to run from ITCM. Do this while the MPU is disabled because we write
// protect it.
for (uint32_t i = 0; i < ((size_t) &_ld_itcm_size) / 4; i++) {
(&_ld_itcm_destination)[i] = (&_ld_itcm_flash_copy)[i];
}
// The first number in RBAR is the region number. When searching for a policy, the region with
// the highest number wins. If none match, then the default policy set at enable applies.
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// This is an undocumented region and is likely more registers.
MPU->RBAR = ARM_MPU_RBAR(8, 0xC0000000U);
MPU->RASR = ARM_MPU_RASR(EXECUTION, ARM_MPU_AP_FULL, DEVICE, NOT_SHAREABLE, NOT_CACHEABLE, NOT_BUFFERABLE, NO_SUBREGIONS, ARM_MPU_REGION_SIZE_512MB);
// This is the SEMC region where external RAM and 8+ flash would live. Disable for now, even though the EVKs have stuff here.
MPU->RBAR = ARM_MPU_RBAR(9, 0x80000000U);
MPU->RASR = ARM_MPU_RASR(NO_EXECUTION, ARM_MPU_AP_NONE, DEVICE, NOT_SHAREABLE, NOT_CACHEABLE, NOT_BUFFERABLE, NO_SUBREGIONS, ARM_MPU_REGION_SIZE_1GB);
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// FlexSPI2 is 0x70000000
// This the first 1MB of flash is the bootloader and CircuitPython read-only data.
MPU->RBAR = ARM_MPU_RBAR(10, 0x60000000U);
MPU->RASR = ARM_MPU_RASR(EXECUTION, ARM_MPU_AP_FULL, NORMAL, NOT_SHAREABLE, CACHEABLE, BUFFERABLE, NO_SUBREGIONS, ARM_MPU_REGION_SIZE_1MB);
// The remainder of flash is the fat filesystem which could have code on it too. Make sure that
// we set the region to the minimal size so that bad data doesn't get speculatively fetched.
// Thanks to Damien for the tip!
uint32_t region_size = ARM_MPU_REGION_SIZE_32B;
uint32_t filesystem_size = &_ld_filesystem_end - &_ld_filesystem_start;
while (filesystem_size > (1u << (region_size + 1))) {
region_size += 1;
}
// Mask out as much of the remainder as we can. For example on an 8MB flash, 7MB are for the
// filesystem. The region_size here must be a power of 2 so it is 8MB. Using the subregion mask
// we can ignore 1/8th size chunks. So, we ignore the last 1MB using the subregion.
uint32_t remainder = (1u << (region_size + 1)) - filesystem_size;
uint32_t subregion_size = (1u << (region_size + 1)) / 8;
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uint8_t subregion_mask = (0xff00 >> (remainder / subregion_size)) & 0xff;
MPU->RBAR = ARM_MPU_RBAR(11, 0x60100000U);
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MPU->RASR = ARM_MPU_RASR(EXECUTION, ARM_MPU_AP_FULL, NORMAL, NOT_SHAREABLE, CACHEABLE, BUFFERABLE, subregion_mask, region_size);
// This the ITCM. Set it to read-only because we've loaded everything already and it's easy to
// accidentally write the wrong value to 0x00000000 (aka NULL).
MPU->RBAR = ARM_MPU_RBAR(12, 0x00000000U);
MPU->RASR = ARM_MPU_RASR(EXECUTION, ARM_MPU_AP_RO, NORMAL, NOT_SHAREABLE, CACHEABLE, BUFFERABLE, NO_SUBREGIONS, ARM_MPU_REGION_SIZE_32KB);
// This the DTCM.
MPU->RBAR = ARM_MPU_RBAR(13, 0x20000000U);
MPU->RASR = ARM_MPU_RASR(EXECUTION, ARM_MPU_AP_FULL, NORMAL, NOT_SHAREABLE, CACHEABLE, BUFFERABLE, NO_SUBREGIONS, ARM_MPU_REGION_SIZE_32KB);
// This is OCRAM.
MPU->RBAR = ARM_MPU_RBAR(14, 0x20200000U);
MPU->RASR = ARM_MPU_RASR(EXECUTION, ARM_MPU_AP_FULL, NORMAL, NOT_SHAREABLE, CACHEABLE, BUFFERABLE, NO_SUBREGIONS, ARM_MPU_REGION_SIZE_512KB);
// We steal 64k from FlexRAM for ITCM and DTCM so disable those memory regions here.
MPU->RBAR = ARM_MPU_RBAR(15, 0x20280000U);
MPU->RASR = ARM_MPU_RASR(EXECUTION, ARM_MPU_AP_FULL, NORMAL, NOT_SHAREABLE, CACHEABLE, BUFFERABLE, 0x80, ARM_MPU_REGION_SIZE_512KB);
/* Enable MPU */
ARM_MPU_Enable(MPU_CTRL_PRIVDEFENA_Msk);
/* We're done mucking with memory so enable I cache and D cache */
SCB_EnableDCache();
SCB_EnableICache();
// Copy all of the data to run from DTCM.
for (uint32_t i = 0; i < ((size_t) &_ld_dtcm_data_size) / 4; i++) {
(&_ld_dtcm_data_destination)[i] = (&_ld_dtcm_data_flash_copy)[i];
}
// Clear DTCM bss.
for (uint32_t i = 0; i < ((size_t) &_ld_dtcm_bss_size) / 4; i++) {
(&_ld_dtcm_bss_start)[i] = 0;
}
// Copy all of the data to run from OCRAM.
for (uint32_t i = 0; i < ((size_t) &_ld_ocram_data_size) / 4; i++) {
(&_ld_ocram_data_destination)[i] = (&_ld_ocram_data_flash_copy)[i];
}
// Clear OCRAM bss.
for (uint32_t i = 0; i < ((size_t) &_ld_ocram_bss_size) / 4; i++) {
(&_ld_ocram_bss_start)[i] = 0;
}
__enable_irq();
main();
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}
safe_mode_t port_init(void) {
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CLOCK_SetMode(kCLOCK_ModeRun);
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clocks_init();
#if CIRCUITPY_RTC
rtc_init();
#endif
// Always enable the SNVS interrupt. The GPC won't wake us up unless at least one interrupt is
// enabled. It won't occur very often so it'll be low overhead.
NVIC_EnableIRQ(SNVS_HP_WRAPPER_IRQn);
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// Note that reset_port CANNOT GO HERE, unlike other ports, since we currently rely on it to
// protect never_reset pins per board.
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if (board_requests_safe_mode()) {
return USER_SAFE_MODE;
}
return NO_SAFE_MODE;
}
void reset_port(void) {
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spi_reset();
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#if CIRCUITPY_AUDIOIO
audio_dma_reset();
audioout_reset();
#endif
#if CIRCUITPY_AUDIOBUSIO
i2sout_reset();
//pdmin_reset();
#endif
#if CIRCUITPY_TOUCHIO && CIRCUITPY_TOUCHIO_USE_NATIVE
touchin_reset();
#endif
// eic_reset();
#if CIRCUITPY_PULSEIO
pulseout_reset();
pwmout_reset();
#endif
#if CIRCUITPY_RTC
rtc_reset();
#endif
#if CIRCUITPY_GAMEPAD
gamepad_reset();
#endif
#if CIRCUITPY_GAMEPADSHIFT
gamepadshift_reset();
#endif
#if CIRCUITPY_PEW
pew_reset();
#endif
//reset_event_system();
reset_all_pins();
}
void reset_to_bootloader(void) {
SNVS->LPGPR[0] = DBL_TAP_MAGIC;
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reset();
}
void reset_cpu(void) {
reset();
}
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supervisor_allocation* port_fixed_stack(void) {
return NULL;
}
extern uint32_t _ld_heap_start, _ld_heap_end, _ld_stack_top, _ld_stack_bottom;
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uint32_t *port_stack_get_limit(void) {
return &_ld_heap_start;
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}
uint32_t *port_stack_get_top(void) {
return &_ld_stack_top;
}
uint32_t *port_heap_get_bottom(void) {
return &_ld_heap_start;
}
// Get heap top address
uint32_t *port_heap_get_top(void) {
return &_ld_heap_end;
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}
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// Place the word into the low power section of the SNVS.
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void port_set_saved_word(uint32_t value) {
SNVS->LPGPR[1] = value;
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}
uint32_t port_get_saved_word(void) {
return SNVS->LPGPR[1];
}
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uint64_t port_get_raw_ticks(uint8_t* subticks) {
uint64_t ticks = 0;
uint64_t next_ticks = 1;
while (ticks != next_ticks) {
ticks = next_ticks;
next_ticks = ((uint64_t) SNVS->HPRTCMR) << 32 | SNVS->HPRTCLR;
}
if (subticks != NULL) {
*subticks = ticks % 32;
}
return ticks / 32;
}
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void SNVS_HP_WRAPPER_IRQHandler(void) {
if ((SNVS->HPSR & SNVS_HPSR_PI_MASK) != 0) {
supervisor_tick();
SNVS->HPSR = SNVS_HPSR_PI_MASK;
}
if ((SNVS->HPSR & SNVS_HPSR_HPTA_MASK) != 0) {
SNVS->HPSR = SNVS_HPSR_HPTA_MASK;
}
}
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// Enable 1/1024 second tick.
void port_enable_tick(void) {
uint32_t hpcr = SNVS->HPCR;
hpcr &= ~SNVS_HPCR_PI_FREQ_MASK;
SNVS->HPCR = hpcr | SNVS_HPCR_PI_FREQ(5) | SNVS_HPCR_PI_EN_MASK;
}
// Disable 1/1024 second tick.
void port_disable_tick(void) {
SNVS->HPCR &= ~SNVS_HPCR_PI_EN_MASK;
}
void port_interrupt_after_ticks(uint32_t ticks) {
uint8_t subticks;
uint64_t current_ticks = port_get_raw_ticks(&subticks);
current_ticks += ticks;
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SNVS->HPCR &= ~SNVS_HPCR_HPTA_EN_MASK;
// Wait for the alarm to be disabled.
while ((SNVS->HPCR & SNVS_HPCR_HPTA_EN_MASK) != 0) {}
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SNVS->HPTAMR = current_ticks >> (32 - 5);
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SNVS->HPTALR = current_ticks << 5 | subticks;
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SNVS->HPCR |= SNVS_HPCR_HPTA_EN_MASK;
}
void port_sleep_until_interrupt(void) {
// App note here: https://www.nxp.com/docs/en/application-note/AN12085.pdf
// Clear the FPU interrupt because it can prevent us from sleeping.
if (__get_FPSCR() & ~(0x9f)) {
__set_FPSCR(__get_FPSCR() & ~(0x9f));
(void) __get_FPSCR();
}
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NVIC_ClearPendingIRQ(SNVS_HP_WRAPPER_IRQn);
CLOCK_SetMode(kCLOCK_ModeWait);
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__WFI();
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CLOCK_SetMode(kCLOCK_ModeRun);
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}
/**
* \brief Default interrupt handler for unused IRQs.
*/
__attribute__((used)) void MemManage_Handler(void)
{
reset_into_safe_mode(MEM_MANAGE);
while (true) {
asm("nop;");
}
}
/**
* \brief Default interrupt handler for unused IRQs.
*/
__attribute__((used)) void BusFault_Handler(void)
{
reset_into_safe_mode(MEM_MANAGE);
while (true) {
asm("nop;");
}
}
/**
* \brief Default interrupt handler for unused IRQs.
*/
__attribute__((used)) void UsageFault_Handler(void)
{
reset_into_safe_mode(MEM_MANAGE);
while (true) {
asm("nop;");
}
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}
/**
* \brief Default interrupt handler for unused IRQs.
*/
__attribute__((used)) void HardFault_Handler(void)
{
reset_into_safe_mode(HARD_CRASH);
while (true) {
asm("nop;");
}
}