2016-08-17 11:08:22 -04:00
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// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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2016-10-19 05:08:05 -04:00
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//
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2016-08-17 11:08:22 -04:00
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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2016-09-12 06:54:45 -04:00
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#include <stdlib.h>
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#include <assert.h>
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2016-09-13 04:40:05 -04:00
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#include <string.h>
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#include <stdio.h>
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2016-08-17 11:08:22 -04:00
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#include <freertos/FreeRTOS.h>
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#include <freertos/task.h>
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#include <freertos/semphr.h>
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2019-03-14 05:29:32 -04:00
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#include <esp32/rom/spi_flash.h>
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#include <esp32/rom/cache.h>
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2016-09-12 06:54:45 -04:00
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#include <soc/soc.h>
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2016-08-17 11:08:22 -04:00
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#include <soc/dport_reg.h>
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2016-08-24 06:01:01 -04:00
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#include "sdkconfig.h"
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2016-09-12 06:54:45 -04:00
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#include "esp_ipc.h"
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#include "esp_attr.h"
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2016-11-25 04:33:51 -05:00
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#include "esp_intr_alloc.h"
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2016-09-12 06:54:45 -04:00
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#include "esp_spi_flash.h"
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2016-09-22 20:44:45 -04:00
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#include "esp_log.h"
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2020-04-24 01:23:28 -04:00
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#include "soc/soc_memory_layout.h"
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2016-08-17 11:08:22 -04:00
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2016-08-24 06:01:01 -04:00
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2016-09-12 06:54:45 -04:00
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static void IRAM_ATTR spi_flash_disable_cache(uint32_t cpuid, uint32_t* saved_state);
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static void IRAM_ATTR spi_flash_restore_cache(uint32_t cpuid, uint32_t saved_state);
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2016-08-24 06:01:01 -04:00
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2016-09-12 06:54:45 -04:00
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static uint32_t s_flash_op_cache_state[2];
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2016-08-24 06:01:01 -04:00
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2016-09-12 06:54:45 -04:00
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#ifndef CONFIG_FREERTOS_UNICORE
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2016-08-24 06:01:01 -04:00
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static SemaphoreHandle_t s_flash_op_mutex;
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2016-11-07 20:02:30 -05:00
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static volatile bool s_flash_op_can_start = false;
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static volatile bool s_flash_op_complete = false;
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2017-01-18 02:07:27 -05:00
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#ifndef NDEBUG
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static volatile int s_flash_op_cpu = -1;
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#endif
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2016-10-19 05:08:05 -04:00
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void spi_flash_init_lock()
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{
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2017-11-16 23:00:16 -05:00
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s_flash_op_mutex = xSemaphoreCreateRecursiveMutex();
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assert(s_flash_op_mutex != NULL);
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}
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2016-10-19 05:08:05 -04:00
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void spi_flash_op_lock()
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{
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2017-11-16 23:00:16 -05:00
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xSemaphoreTakeRecursive(s_flash_op_mutex, portMAX_DELAY);
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2016-10-19 05:08:05 -04:00
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}
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2016-08-24 06:01:01 -04:00
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2016-10-19 05:08:05 -04:00
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void spi_flash_op_unlock()
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{
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xSemaphoreGiveRecursive(s_flash_op_mutex);
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}
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2017-09-04 08:11:15 -04:00
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/*
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If you're going to modify this, keep in mind that while the flash caches of the pro and app
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cpu are separate, the psram cache is *not*. If one of the CPUs returns from a flash routine
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with its cache enabled but the other CPUs cache is not enabled yet, you will have problems
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when accessing psram from the former CPU.
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*/
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2016-09-12 06:54:45 -04:00
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2016-10-19 05:08:05 -04:00
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void IRAM_ATTR spi_flash_op_block_func(void* arg)
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2016-08-17 11:08:22 -04:00
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{
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2016-09-12 06:54:45 -04:00
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// Disable scheduler on this CPU
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vTaskSuspendAll();
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2016-11-25 04:33:51 -05:00
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// Restore interrupts that aren't located in IRAM
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esp_intr_noniram_disable();
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2016-08-24 06:01:01 -04:00
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uint32_t cpuid = (uint32_t) arg;
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2017-03-27 13:02:58 -04:00
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// s_flash_op_complete flag is cleared on *this* CPU, otherwise the other
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// CPU may reset the flag back to false before IPC task has a chance to check it
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// (if it is preempted by an ISR taking non-trivial amount of time)
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s_flash_op_complete = false;
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2016-09-12 06:54:45 -04:00
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s_flash_op_can_start = true;
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while (!s_flash_op_complete) {
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// busy loop here and wait for the other CPU to finish flash operation
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2016-08-17 11:08:22 -04:00
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}
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2016-09-12 06:54:45 -04:00
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// Flash operation is complete, re-enable cache
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spi_flash_restore_cache(cpuid, s_flash_op_cache_state[cpuid]);
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2016-11-25 04:33:51 -05:00
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// Restore interrupts that aren't located in IRAM
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esp_intr_noniram_enable();
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2016-09-12 06:54:45 -04:00
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// Re-enable scheduler
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xTaskResumeAll();
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2016-08-17 11:08:22 -04:00
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}
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2016-10-19 05:08:05 -04:00
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void IRAM_ATTR spi_flash_disable_interrupts_caches_and_other_cpu()
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2016-08-24 06:01:01 -04:00
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{
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2020-04-24 01:23:28 -04:00
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assert(esp_ptr_in_dram((const void *)get_sp()));
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2016-10-19 05:08:05 -04:00
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spi_flash_op_lock();
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2016-09-12 06:54:45 -04:00
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2016-08-24 06:01:01 -04:00
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const uint32_t cpuid = xPortGetCoreID();
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2016-09-13 00:47:21 -04:00
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const uint32_t other_cpuid = (cpuid == 0) ? 1 : 0;
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2017-01-18 02:07:27 -05:00
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#ifndef NDEBUG
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// For sanity check later: record the CPU which has started doing flash operation
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assert(s_flash_op_cpu == -1);
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s_flash_op_cpu = cpuid;
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#endif
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2016-09-12 06:54:45 -04:00
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if (xTaskGetSchedulerState() == taskSCHEDULER_NOT_STARTED) {
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2016-09-13 00:47:21 -04:00
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// Scheduler hasn't been started yet, it means that spi_flash API is being
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// called from the 2nd stage bootloader or from user_start_cpu0, i.e. from
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// PRO CPU. APP CPU is either in reset or spinning inside user_start_cpu1,
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// which is in IRAM. So it is safe to disable cache for the other_cpuid here.
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assert(other_cpuid == 1);
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spi_flash_disable_cache(other_cpuid, &s_flash_op_cache_state[other_cpuid]);
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} else {
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2017-10-30 06:53:39 -04:00
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// Temporarily raise current task priority to prevent a deadlock while
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// waiting for IPC task to start on the other CPU
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int old_prio = uxTaskPriorityGet(NULL);
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vTaskPrioritySet(NULL, configMAX_PRIORITIES - 1);
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2016-09-12 06:54:45 -04:00
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// Signal to the spi_flash_op_block_task on the other CPU that we need it to
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// disable cache there and block other tasks from executing.
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s_flash_op_can_start = false;
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2017-01-18 02:07:27 -05:00
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esp_err_t ret = esp_ipc_call(other_cpuid, &spi_flash_op_block_func, (void*) other_cpuid);
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assert(ret == ESP_OK);
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2016-09-12 06:54:45 -04:00
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while (!s_flash_op_can_start) {
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// Busy loop and wait for spi_flash_op_block_func to disable cache
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// on the other CPU
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}
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2017-01-18 02:07:27 -05:00
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// Disable scheduler on the current CPU
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2016-09-12 06:54:45 -04:00
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vTaskSuspendAll();
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2017-10-30 06:53:39 -04:00
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// Can now set the priority back to the normal one
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vTaskPrioritySet(NULL, old_prio);
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2016-09-12 06:54:45 -04:00
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// This is guaranteed to run on CPU <cpuid> because the other CPU is now
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// occupied by highest priority task
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assert(xPortGetCoreID() == cpuid);
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2016-08-24 06:01:01 -04:00
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}
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2016-11-25 04:33:51 -05:00
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// Kill interrupts that aren't located in IRAM
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esp_intr_noniram_disable();
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2017-09-04 08:11:15 -04:00
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// This CPU executes this routine, with non-IRAM interrupts and the scheduler
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// disabled. The other CPU is spinning in the spi_flash_op_block_func task, also
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// with non-iram interrupts and the scheduler disabled. None of these CPUs will
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// touch external RAM or flash this way, so we can safely disable caches.
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spi_flash_disable_cache(cpuid, &s_flash_op_cache_state[cpuid]);
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2017-09-04 08:11:15 -04:00
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spi_flash_disable_cache(other_cpuid, &s_flash_op_cache_state[other_cpuid]);
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2016-08-24 06:01:01 -04:00
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}
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2016-10-19 05:08:05 -04:00
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void IRAM_ATTR spi_flash_enable_interrupts_caches_and_other_cpu()
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2016-08-24 06:01:01 -04:00
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{
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2016-09-12 06:54:45 -04:00
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const uint32_t cpuid = xPortGetCoreID();
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2016-09-13 00:47:21 -04:00
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const uint32_t other_cpuid = (cpuid == 0) ? 1 : 0;
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2017-01-18 02:07:27 -05:00
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#ifndef NDEBUG
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// Sanity check: flash operation ends on the same CPU as it has started
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assert(cpuid == s_flash_op_cpu);
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2017-09-04 08:11:15 -04:00
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// More sanity check: if scheduler isn't started, only CPU0 can call this.
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assert(!(xTaskGetSchedulerState() == taskSCHEDULER_NOT_STARTED && cpuid != 0));
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2017-01-18 02:07:27 -05:00
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s_flash_op_cpu = -1;
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#endif
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2016-09-12 06:54:45 -04:00
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2017-09-04 08:11:15 -04:00
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// Re-enable cache on both CPUs. After this, cache (flash and external RAM) should work again.
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2016-09-12 06:54:45 -04:00
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spi_flash_restore_cache(cpuid, s_flash_op_cache_state[cpuid]);
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2017-09-04 08:11:15 -04:00
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spi_flash_restore_cache(other_cpuid, s_flash_op_cache_state[other_cpuid]);
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2016-09-12 06:54:45 -04:00
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2017-09-04 08:11:15 -04:00
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if (xTaskGetSchedulerState() != taskSCHEDULER_NOT_STARTED) {
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2016-09-12 06:54:45 -04:00
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// Signal to spi_flash_op_block_task that flash operation is complete
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s_flash_op_complete = true;
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2017-01-18 02:07:27 -05:00
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}
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2017-09-04 08:11:15 -04:00
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2017-01-18 02:07:27 -05:00
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// Re-enable non-iram interrupts
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esp_intr_noniram_enable();
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// Resume tasks on the current CPU, if the scheduler has started.
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// NOTE: enabling non-IRAM interrupts has to happen before this,
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// because once the scheduler has started, due to preemption the
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// current task can end up being moved to the other CPU.
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// But esp_intr_noniram_enable has to be called on the same CPU which
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// called esp_intr_noniram_disable
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if (xTaskGetSchedulerState() != taskSCHEDULER_NOT_STARTED) {
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2016-09-12 06:54:45 -04:00
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xTaskResumeAll();
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}
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2016-08-24 06:01:01 -04:00
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// Release API lock
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2016-10-19 05:08:05 -04:00
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spi_flash_op_unlock();
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2016-08-24 06:01:01 -04:00
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}
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2017-01-03 14:01:40 -05:00
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void IRAM_ATTR spi_flash_disable_interrupts_caches_and_other_cpu_no_os()
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2016-12-21 18:56:23 -05:00
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{
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const uint32_t cpuid = xPortGetCoreID();
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const uint32_t other_cpuid = (cpuid == 0) ? 1 : 0;
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// do not care about other CPU, it was halted upon entering panic handler
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spi_flash_disable_cache(other_cpuid, &s_flash_op_cache_state[other_cpuid]);
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// Kill interrupts that aren't located in IRAM
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esp_intr_noniram_disable();
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// Disable cache on this CPU as well
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spi_flash_disable_cache(cpuid, &s_flash_op_cache_state[cpuid]);
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}
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2017-01-03 14:01:40 -05:00
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void IRAM_ATTR spi_flash_enable_interrupts_caches_no_os()
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2016-12-21 18:56:23 -05:00
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{
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const uint32_t cpuid = xPortGetCoreID();
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// Re-enable cache on this CPU
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spi_flash_restore_cache(cpuid, s_flash_op_cache_state[cpuid]);
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// Re-enable non-iram interrupts
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esp_intr_noniram_enable();
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}
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2016-10-19 05:08:05 -04:00
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#else // CONFIG_FREERTOS_UNICORE
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2016-08-24 06:01:01 -04:00
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2016-10-19 05:08:05 -04:00
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void spi_flash_init_lock()
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2016-08-24 06:01:01 -04:00
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{
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}
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2016-10-19 05:08:05 -04:00
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void spi_flash_op_lock()
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2016-08-17 11:08:22 -04:00
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{
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vTaskSuspendAll();
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}
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2016-10-19 05:08:05 -04:00
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void spi_flash_op_unlock()
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2016-08-17 11:08:22 -04:00
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{
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xTaskResumeAll();
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}
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2016-08-24 06:01:01 -04:00
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2016-10-19 05:08:05 -04:00
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void IRAM_ATTR spi_flash_disable_interrupts_caches_and_other_cpu()
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2016-09-13 03:16:36 -04:00
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{
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2017-11-16 23:00:51 -05:00
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spi_flash_op_lock();
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2017-02-21 08:57:53 -05:00
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esp_intr_noniram_disable();
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2016-10-19 05:08:05 -04:00
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spi_flash_disable_cache(0, &s_flash_op_cache_state[0]);
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2016-09-13 03:16:36 -04:00
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}
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2016-10-19 05:08:05 -04:00
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void IRAM_ATTR spi_flash_enable_interrupts_caches_and_other_cpu()
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2016-08-17 11:08:22 -04:00
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{
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2016-10-19 05:08:05 -04:00
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spi_flash_restore_cache(0, s_flash_op_cache_state[0]);
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2016-11-25 04:33:51 -05:00
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esp_intr_noniram_enable();
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2017-02-21 08:57:53 -05:00
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spi_flash_op_unlock();
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2016-08-17 11:08:22 -04:00
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}
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2017-01-03 14:01:40 -05:00
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void IRAM_ATTR spi_flash_disable_interrupts_caches_and_other_cpu_no_os()
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2016-12-21 18:56:23 -05:00
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{
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// Kill interrupts that aren't located in IRAM
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esp_intr_noniram_disable();
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// Disable cache on this CPU as well
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spi_flash_disable_cache(0, &s_flash_op_cache_state[0]);
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}
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2017-01-03 14:01:40 -05:00
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void IRAM_ATTR spi_flash_enable_interrupts_caches_no_os()
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2016-12-21 18:56:23 -05:00
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{
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// Re-enable cache on this CPU
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spi_flash_restore_cache(0, s_flash_op_cache_state[0]);
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// Re-enable non-iram interrupts
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esp_intr_noniram_enable();
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}
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2016-10-19 05:08:05 -04:00
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#endif // CONFIG_FREERTOS_UNICORE
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2016-08-17 11:08:22 -04:00
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2016-10-19 05:08:05 -04:00
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/**
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* The following two functions are replacements for Cache_Read_Disable and Cache_Read_Enable
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* function in ROM. They are used to work around a bug where Cache_Read_Disable requires a call to
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* Cache_Flush before Cache_Read_Enable, even if cached data was not modified.
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*/
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2016-09-12 06:54:45 -04:00
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2016-09-13 00:47:21 -04:00
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static const uint32_t cache_mask = DPORT_APP_CACHE_MASK_OPSDRAM | DPORT_APP_CACHE_MASK_DROM0 |
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DPORT_APP_CACHE_MASK_DRAM1 | DPORT_APP_CACHE_MASK_IROM0 |
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DPORT_APP_CACHE_MASK_IRAM1 | DPORT_APP_CACHE_MASK_IRAM0;
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2016-09-12 06:54:45 -04:00
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static void IRAM_ATTR spi_flash_disable_cache(uint32_t cpuid, uint32_t* saved_state)
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{
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uint32_t ret = 0;
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if (cpuid == 0) {
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2017-05-08 08:03:04 -04:00
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ret |= DPORT_GET_PERI_REG_BITS2(DPORT_PRO_CACHE_CTRL1_REG, cache_mask, 0);
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while (DPORT_GET_PERI_REG_BITS2(DPORT_PRO_DCACHE_DBUG0_REG, DPORT_PRO_CACHE_STATE, DPORT_PRO_CACHE_STATE_S) != 1) {
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2016-09-12 06:54:45 -04:00
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;
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}
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2017-05-08 08:03:04 -04:00
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DPORT_SET_PERI_REG_BITS(DPORT_PRO_CACHE_CTRL_REG, 1, 0, DPORT_PRO_CACHE_ENABLE_S);
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2016-09-12 06:54:45 -04:00
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} else {
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2017-05-08 08:03:04 -04:00
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ret |= DPORT_GET_PERI_REG_BITS2(DPORT_APP_CACHE_CTRL1_REG, cache_mask, 0);
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while (DPORT_GET_PERI_REG_BITS2(DPORT_APP_DCACHE_DBUG0_REG, DPORT_APP_CACHE_STATE, DPORT_APP_CACHE_STATE_S) != 1) {
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2016-09-12 06:54:45 -04:00
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;
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}
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2017-05-08 08:03:04 -04:00
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DPORT_SET_PERI_REG_BITS(DPORT_APP_CACHE_CTRL_REG, 1, 0, DPORT_APP_CACHE_ENABLE_S);
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2016-09-12 06:54:45 -04:00
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}
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*saved_state = ret;
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}
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static void IRAM_ATTR spi_flash_restore_cache(uint32_t cpuid, uint32_t saved_state)
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{
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if (cpuid == 0) {
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2017-05-08 08:03:04 -04:00
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DPORT_SET_PERI_REG_BITS(DPORT_PRO_CACHE_CTRL_REG, 1, 1, DPORT_PRO_CACHE_ENABLE_S);
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DPORT_SET_PERI_REG_BITS(DPORT_PRO_CACHE_CTRL1_REG, cache_mask, saved_state, 0);
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2016-09-12 06:54:45 -04:00
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} else {
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2017-05-08 08:03:04 -04:00
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DPORT_SET_PERI_REG_BITS(DPORT_APP_CACHE_CTRL_REG, 1, 1, DPORT_APP_CACHE_ENABLE_S);
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DPORT_SET_PERI_REG_BITS(DPORT_APP_CACHE_CTRL1_REG, cache_mask, saved_state, 0);
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2016-09-12 06:54:45 -04:00
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}
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}
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2016-09-13 04:40:05 -04:00
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2017-03-01 23:21:03 -05:00
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IRAM_ATTR bool spi_flash_cache_enabled()
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{
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2017-09-18 05:26:59 -04:00
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bool result = (DPORT_REG_GET_BIT(DPORT_PRO_CACHE_CTRL_REG, DPORT_PRO_CACHE_ENABLE) != 0);
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#if portNUM_PROCESSORS == 2
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result = result && (DPORT_REG_GET_BIT(DPORT_APP_CACHE_CTRL_REG, DPORT_APP_CACHE_ENABLE) != 0);
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#endif
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return result;
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2017-03-01 23:21:03 -05:00
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}
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