kopia lustrzana https://github.com/espressif/esp-idf
156 wiersze
5.8 KiB
C
156 wiersze
5.8 KiB
C
/*
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* SPDX-FileCopyrightText: 2015-2024 Espressif Systems (Shanghai) CO LTD
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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// The HAL layer for SPI (common part)
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#include "hal/spi_hal.h"
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#include "hal/log.h"
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#include "hal/assert.h"
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#include "soc/soc_caps.h"
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#include "soc/clk_tree_defs.h"
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/* The tag may be unused if log level is set to NONE */
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static const __attribute__((unused)) char SPI_HAL_TAG[] = "spi_hal";
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#define SPI_HAL_CHECK(a, str, ret_val, ...) \
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if (!(a)) { \
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HAL_LOGE(SPI_HAL_TAG,"%s(%d): "str, __FUNCTION__, __LINE__, ##__VA_ARGS__); \
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return (ret_val); \
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}
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void spi_hal_init(spi_hal_context_t *hal, uint32_t host_id)
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{
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memset(hal, 0, sizeof(spi_hal_context_t));
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spi_dev_t *hw = SPI_LL_GET_HW(host_id);
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hal->hw = hw;
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#if SPI_LL_MOSI_FREE_LEVEL
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// Change default data line level to low which same as esp32
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spi_ll_set_mosi_free_level(hw, 0);
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#endif
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spi_ll_master_init(hw);
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//Force a transaction done interrupt. This interrupt won't fire yet because
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//we initialized the SPI interrupt as disabled. This way, we can just
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//enable the SPI interrupt and the interrupt handler will kick in, handling
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//any transactions that are queued.
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spi_ll_enable_int(hw);
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spi_ll_set_int_stat(hw);
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spi_ll_set_mosi_delay(hw, 0, 0);
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spi_ll_apply_config(hw);
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}
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void spi_hal_deinit(spi_hal_context_t *hal)
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{
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spi_dev_t *hw = hal->hw;
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if (hw) {
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spi_ll_disable_int(hw);
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spi_ll_clear_int_stat(hw);
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}
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}
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#if SOC_SPI_SCT_SUPPORTED
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void spi_hal_sct_init(spi_hal_context_t *hal)
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{
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spi_ll_conf_state_enable(hal->hw, true);
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spi_ll_set_magic_number(hal->hw, SPI_LL_SCT_MAGIC_NUMBER);
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spi_ll_disable_int(hal->hw); //trans_done intr enabled in `add device` phase, sct mode shoud use sct_trans_done only
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spi_ll_enable_intr(hal->hw, SPI_LL_INTR_SEG_DONE);
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spi_ll_set_intr(hal->hw, SPI_LL_INTR_SEG_DONE);
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}
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void spi_hal_sct_deinit(spi_hal_context_t *hal)
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{
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spi_ll_conf_state_enable(hal->hw, false);
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spi_ll_disable_intr(hal->hw, SPI_LL_INTR_SEG_DONE);
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spi_ll_clear_intr(hal->hw, SPI_LL_INTR_SEG_DONE);
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spi_ll_clear_int_stat(hal->hw);
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spi_ll_enable_int(hal->hw); //recover trans_done intr
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}
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#endif //#if SOC_SPI_SCT_SUPPORTED
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esp_err_t spi_hal_cal_clock_conf(const spi_hal_timing_param_t *timing_param, spi_hal_timing_conf_t *timing_conf)
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{
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spi_hal_timing_conf_t temp_conf = {};
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int eff_clk_n = spi_ll_master_cal_clock(timing_param->clk_src_hz, timing_param->expected_freq, timing_param->duty_cycle, &temp_conf.clock_reg);
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//When the speed is too fast, we may need to use dummy cycles to compensate the reading.
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//But these don't work for full-duplex connections.
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spi_hal_cal_timing(timing_param->clk_src_hz, eff_clk_n, timing_param->use_gpio, timing_param->input_delay_ns, &temp_conf.timing_dummy, &temp_conf.timing_miso_delay);
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#ifdef CONFIG_IDF_TARGET_ESP32
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const int freq_limit = spi_hal_get_freq_limit(timing_param->use_gpio, timing_param->input_delay_ns);
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SPI_HAL_CHECK(timing_param->half_duplex || temp_conf.timing_dummy == 0 || timing_param->no_compensate,
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"When work in full-duplex mode at frequency > %.1fMHz, device cannot read correct data.\n\
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Try to use IOMUX pins to increase the frequency limit, or use the half duplex mode.\n\
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Please note the SPI master can only work at divisors of 80MHz, and the driver always tries to find the closest frequency to your configuration.\n\
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Specify ``SPI_DEVICE_NO_DUMMY`` to ignore this checking. Then you can output data at higher speed, or read data at your own risk.",
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ESP_ERR_NOT_SUPPORTED, freq_limit / 1000. / 1000 );
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#endif
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temp_conf.real_freq = eff_clk_n;
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if (timing_conf) {
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*timing_conf = temp_conf;
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}
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return ESP_OK;
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}
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int spi_hal_master_cal_clock(int fapb, int hz, int duty_cycle)
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{
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return spi_ll_master_cal_clock(fapb, hz, duty_cycle, NULL);
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}
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void spi_hal_cal_timing(int source_freq_hz, int eff_clk, bool gpio_is_used, int input_delay_ns, int *dummy_n, int *miso_delay_n)
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{
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const int apbclk_kHz = source_freq_hz / 1000;
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//how many apb clocks a period has
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const int spiclk_apb_n = source_freq_hz / eff_clk;
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const int gpio_delay_ns = gpio_is_used ? GPIO_MATRIX_DELAY_NS : 0;
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//how many apb clocks the delay is, the 1 is to compensate in case ``input_delay_ns`` is rounded off.
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int delay_apb_n = (1 + input_delay_ns + gpio_delay_ns) * apbclk_kHz / 1000 / 1000;
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if (delay_apb_n < 0) {
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delay_apb_n = 0;
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}
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int dummy_required = delay_apb_n / spiclk_apb_n;
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int miso_delay = 0;
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if (dummy_required > 0) {
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//due to the clock delay between master and slave, there's a range in which data is random
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//give MISO a delay if needed to make sure we sample at the time MISO is stable
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miso_delay = (dummy_required + 1) * spiclk_apb_n - delay_apb_n - 1;
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} else {
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//if the dummy is not required, maybe we should also delay half a SPI clock if the data comes too early
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if (delay_apb_n * 4 <= spiclk_apb_n) {
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miso_delay = -1;
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}
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}
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*dummy_n = dummy_required;
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*miso_delay_n = miso_delay;
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HAL_LOGD(SPI_HAL_TAG, "eff: %d, limit: %dk(/%d), %d dummy, %d delay", eff_clk / 1000, apbclk_kHz / (delay_apb_n + 1), delay_apb_n, dummy_required, miso_delay);
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}
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#ifdef CONFIG_IDF_TARGET_ESP32
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//TODO: IDF-6578
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int spi_hal_get_freq_limit(bool gpio_is_used, int input_delay_ns)
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{
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const int apbclk_kHz = APB_CLK_FREQ / 1000;
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const int gpio_delay_ns = gpio_is_used ? GPIO_MATRIX_DELAY_NS : 0;
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//how many apb clocks the delay is, the 1 is to compensate in case ``input_delay_ns`` is rounded off.
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int delay_apb_n = (1 + input_delay_ns + gpio_delay_ns) * apbclk_kHz / 1000 / 1000;
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if (delay_apb_n < 0) {
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delay_apb_n = 0;
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}
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return APB_CLK_FREQ / (delay_apb_n + 1);
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}
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#endif
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