Peripherals
Peripheral Clock Gating
As usual, peripheral clock gating is still handled by driver itself, users do not need to take care of the peripheral module clock gating.
However, for advanced users who implement their own drivers based on hal
and soc
components, the previous clock gating include path has been changed from driver/periph_ctrl.h
to esp_private/periph_ctrl.h
.
RTC Subsystem Control
RTC control APIs have been moved from driver/rtc_cntl.h
to esp_private/rtc_ctrl.h
.
ADC
ADC Oneshot & Continuous Mode Drivers
The ADC oneshot mode driver has been redesigned.
The new driver is in
esp_adc
component and the include path isesp_adc/adc_oneshot.h
.The legacy driver is still available in the previous include path
driver/adc.h
.
The ADC continuous mode driver has been moved from driver
component to esp_adc
component.
The include path has been changed from
driver/adc.h
toesp_adc/adc_continuous.h
.
Attempting to use the legacy include path driver/adc.h
of either driver triggers the build warning below by default. However, the warning can be suppressed by enabling the CONFIG_ADC_SUPPRESS_DEPRECATE_WARN Kconfig option.
legacy adc driver is deprecated, please migrate to use esp_adc/adc_oneshot.h and esp_adc/adc_continuous.h for oneshot mode and continuous mode drivers respectively
ADC Calibration Driver
The ADC calibration driver has been redesigned.
The new driver is in
esp_adc
component and the include path isesp_adc/adc_cali.h
andesp_adc/adc_cali_scheme.h
.
Legacy driver is still available by including esp_adc_cal.h
. However, if users still would like to use the include path of the legacy driver, users should add esp_adc
component to the list of component requirements in CMakeLists.txt.
Attempting to use the legacy include path esp_adc_cal.h
triggers the build warning below by default. However, the warning can be suppressed by enabling the CONFIG_ADC_CALI_SUPPRESS_DEPRECATE_WARN Kconfig option.
legacy adc calibration driver is deprecated, please migrate to use esp_adc/adc_cali.h and esp_adc/adc_cali_scheme.h
API Changes
The ADC power management APIs
adc_power_acquire
andadc_power_release
have made private and moved toesp_private/adc_share_hw_ctrl.h
.The two APIs were previously made public due to a HW errata workaround.
Now, ADC power management is completely handled internally by drivers.
Users who still require this API can include
esp_private/adc_share_hw_ctrl.h
to continue using these functions.
driver/adc2_wifi_private.h
has been moved toesp_private/adc_share_hw_ctrl.h
.Enums
ADC_UNIT_BOTH
,ADC_UNIT_ALTER
, andADC_UNIT_MAX
inadc_unit_t
have been removed.The following enumerations have been removed as some of their enumeration values are not supported on all chips. This would lead to the driver triggering a runtime error if an unsupported value is used.
Enum
ADC_CHANNEL_MAX
Enum
ADC_ATTEN_MAX
Enum
ADC_CONV_UNIT_MAX
API
hall_sensor_read
on ESP32 has been removed. Hall sensor is no longer supported on ESP32.API
adc_set_i2s_data_source
andadc_i2s_mode_init
have been deprecated. Related enumadc_i2s_source_t
has been deprecated. Please migrate to useesp_adc/adc_continuous.h
.API
adc_digi_filter_reset
,adc_digi_filter_set_config
,adc_digi_filter_get_config
andadc_digi_filter_enable
have been removed. These APIs behaviours are not guaranteed. Enumadc_digi_filter_idx_t
,adc_digi_filter_mode_t
and structureadc_digi_iir_filter_t
have been removed as well.API
esp_adc_cal_characterize
has been deprecated, please migrate toadc_cali_create_scheme_curve_fitting
oradc_cali_create_scheme_line_fitting
instead.API
esp_adc_cal_raw_to_voltage
has been deprecated, please migrate toadc_cali_raw_to_voltage
instead.API
esp_adc_cal_get_voltage
has been deprecated, please migrate toadc_oneshot_get_calibrated_result
instead.
GPIO
The previous Kconfig option RTCIO_SUPPORT_RTC_GPIO_DESC has been removed, thus the
rtc_gpio_desc
array is unavailable. Please usertc_io_desc
array instead.The user callback of a GPIO interrupt should no longer read the GPIO interrupt status register to get the GPIO's pin number of triggering the interrupt. You should use the callback argument to determine the GPIO's pin number instead.
Previously, when a GPIO interrupt occurs, the GPIO's interrupt status register is cleared after calling the user callbacks. Thus, it was possible for users to read the GPIO's interrupt status register inside the callback to determine which GPIO was used to trigger the interrupt.
However, clearing the interrupt status register after calling the user callbacks can potentially cause edge-triggered interrupts to be lost. For example, if an edge-triggered interrupt is triggered/retriggered while the user callbacks are being called, that interrupt will be cleared without its registered user callback being handled.
Now, the GPIO's interrupt status register is cleared before invoking the user callbacks. Thus, users can no longer read the GPIO interrupt status register to determine which pin has triggered the interrupt. Instead, users should use the callback argument to pass the pin number.
Timer Group Driver
Timer Group driver has been redesigned into GPTimer, which aims to unify and simplify the usage of general purpose timer.
Although it is recommended to use the new driver APIs, the legacy driver is still available in the previous include path driver/timer.h
. However, by default, including driver/timer.h
triggers the build warning below. The warning can be suppressed by the Kconfig option CONFIG_GPTIMER_SUPPRESS_DEPRECATE_WARN.
legacy timer group driver is deprecated, please migrate to driver/gptimer.h
The major breaking changes in concept and usage are listed as follows:
Breaking Changes in Concepts
timer_group_t
andtimer_idx_t
which used to identify the hardware timer are removed from user's code. In the new driver, a timer is represented bygptimer_handle_t
.Definition of timer clock source is moved to
gptimer_clock_source_t
, the previoustimer_src_clk_t
is not used.Definition of timer count direction is moved to
gptimer_count_direction_t
, the previoustimer_count_dir_t
is not used.Only level interrupt is supported,
timer_intr_t
andtimer_intr_mode_t
are not used.Auto-reload is enabled by set the
gptimer_alarm_config_t::auto_reload_on_alarm
flag.timer_autoreload_t
is not used.
Breaking Changes in Usage
Timer initialization is done by creating a timer instance from
gptimer_new_timer()
. Basic configurations like clock source, resolution and direction should be set ingptimer_config_t
. Note that, specific configurations of alarm events are not needed during the installation stage of the driver.Alarm event is configured by
gptimer_set_alarm_action()
, with parameters set in thegptimer_alarm_config_t
.Setting and getting count value are done by
gptimer_set_raw_count()
andgptimer_get_raw_count()
. The driver does not help convert the raw value into UTC time-stamp. Instead, the conversion should be done from user's side as the timer resolution is also known to the user.The driver will install the interrupt service as well if
gptimer_event_callbacks_t::on_alarm
is set to a valid callback function. In the callback, users do not have to deal with the low level registers (like "clear interrupt status", "re-enable alarm event" and so on). So functions liketimer_group_get_intr_status_in_isr
andtimer_group_get_auto_reload_in_isr
are not used anymore.To update the alarm configurations when alarm event happens, one can call
gptimer_set_alarm_action()
in the interrupt callback, then the alarm will be re-enabled again.Alarm will always be re-enabled by the driver if
gptimer_alarm_config_t::auto_reload_on_alarm
is set to true.
UART
Removed/Deprecated items |
Replacement |
Remarks |
---|---|---|
|
None |
UART interrupt handling is implemented by driver itself. |
|
None |
UART interrupt handling is implemented by driver itself. |
|
Select the clock source. |
|
|
Enable pattern detection interrupt. |
I2C
Removed/Deprecated items |
Replacement |
Remarks |
---|---|---|
|
None |
I2C interrupt handling is implemented by driver itself. |
|
None |
I2C interrupt handling is implemented by driver itself. |
|
None |
It is not used anywhere in ESP-IDF. |
SPI
Removed/Deprecated items |
Replacement |
Remarks |
---|---|---|
|
Get SPI real working frequency. |
The internal header file
spi_common_internal.h
has been moved toesp_private/spi_common_internal.h
.
LEDC
Removed/Deprecated items |
Replacement |
Remarks |
---|---|---|
|
Set resolution of the duty cycle. |
Temperature Sensor Driver
The temperature sensor driver has been redesigned and it is recommended to use the new driver. However, the old driver is still available but cannot be used with the new driver simultaneously.
The new driver can be included via driver/temperature_sensor.h
. The old driver is still available in the previous include path driver/temp_sensor.h
. However, including driver/temp_sensor.h
triggers the build warning below by default. The warning can be suppressed by enabling the menuconfig option CONFIG_TEMP_SENSOR_SUPPRESS_DEPRECATE_WARN.
legacy temperature sensor driver is deprecated, please migrate to driver/temperature_sensor.h
Configuration contents has been changed. In the old version, users need to configure clk_div
and dac_offset
. While in the new version, users only need to choose tsens_range
.
The process of using temperature sensor has been changed. In the old version, users can use config->start->read_celsius
to get value. In the new version, users should install the temperature sensor driver firstly, by temperature_sensor_install
and uninstall it when finished. For more information, please refer to Temperature Sensor .
LCD
The LCD panel initialization flow is slightly changed. Now the
esp_lcd_panel_init()
will not turn on the display automatically. User needs to callesp_lcd_panel_disp_on_off()
to manually turn on the display. Note, this is different from turning on backlight. With this breaking change, user can flash a predefined pattern to the screen before turning on the screen. This can help avoid random noise on the screen after a power on reset.esp_lcd_panel_disp_off()
is deprecated, please useesp_lcd_panel_disp_on_off()
instead.dc_as_cmd_phase
is removed. The SPI LCD driver currently does not support a 9-bit SPI LCD. Please always use a dedicated GPIO to control the LCD D/C line.The way to register RGB panel event callbacks has been moved from the
esp_lcd_rgb_panel_config_t
into a separate APIesp_lcd_rgb_panel_register_event_callbacks()
. However, the event callback signature is not changed.Previous
relax_on_idle
flag inesp_lcd_rgb_panel_config_t
has been renamed intoesp_lcd_rgb_panel_config_t::refresh_on_demand
, which expresses the same meaning but with a clear name.If the RGB LCD is created with the
refresh_on_demand
flag enabled, the driver will not start a refresh in theesp_lcd_panel_draw_bitmap()
. Now users have to callesp_lcd_rgb_panel_refresh()
to refresh the screen by themselves.esp_lcd_color_space_t
is deprecated, please uselcd_color_space_t
to describe the color space, and uselcd_rgb_element_order_t
to describe the data order of RGB color.
Dedicated GPIO Driver
All of the dedicated GPIO related Low Level (LL) functions in
cpu_ll.h
have been moved todedic_gpio_cpu_ll.h
and renamed.
I2S Driver
The I2S driver has been redesigned (see I2S Driver), which aims to rectify the shortcomings of the driver that were exposed when supporting all the new features of ESP32-C3 & ESP32-S3. The new driver's APIs are available by including corresponding I2S mode's header files esp_driver_i2s/include/driver/i2s_std.h, esp_driver_i2s/include/driver/i2s_pdm.h, or esp_driver_i2s/include/driver/i2s_tdm.h.
Meanwhile, the old driver's APIs in driver/deprecated/driver/i2s.h are still supported for backward compatibility. But there will be warnings if users keep using the old APIs in their projects, these warnings can be suppressed by the Kconfig option CONFIG_I2S_SUPPRESS_DEPRECATE_WARN.
Here is the general overview of the current I2S files:
Breaking changes in Concepts
Independent TX/RX channels
The minimum control unit in new I2S driver are now individual TX/RX channels instead of an entire I2S controller (that consists of multiple channels).
The TX and RX channels of the same I2S controller can be controlled separately, meaning that they are configured such that they can be started or stopped separately.
The
i2s_chan_handle_t
handle type is used to uniquely identify I2S channels. All the APIs require the channel handle and users need to maintain the channel handles by themselves.On the ESP32-C3 and ESP32-S3, TX and RX channels in the same controller can be configured to different clocks or modes.
However, on the ESP32 and ESP32-S2, the TX and RX channels of the same controller still share some hardware resources. Thus, configurations may cause one channel to affect another channel in the same controller.
The channels can be registered to an available I2S controller automatically by setting
i2s_port_t::I2S_NUM_AUTO
as I2S port ID which causes the driver to search for the available TX/RX channels. However, the driver also supports registering channels to a specific port.In order to distinguish between TX/RX channels and sound channels, the term "channel" in the context of the I2S driver only refers to TX/RX channels. Meanwhile, sound channels are referred to as "slots".
I2S Mode Categorization
I2S communication modes are categorized into the following three modes. Note that:
Standard mode: Standard mode always has two slots, it can support Philips, MSB, and PCM (short frame sync) formats. Please refer to esp_driver_i2s/include/driver/i2s_std.h for more details.
PDM mode: PDM mode only supports two slots with 16-bit data width, but the configurations of PDM TX and PDM RX are slightly different. For PDM TX, the sample rate can be set by
i2s_pdm_tx_clk_config_t::sample_rate
, and its clock frequency depends on the up-sampling configuration. For PDM RX, the sample rate can be set byi2s_pdm_rx_clk_config_t::sample_rate
, and its clock frequency depends on the down-sampling configuration. Please refer to esp_driver_i2s/include/driver/i2s_pdm.h for details.TDM mode: TDM mode can support up to 16 slots. It can work in Philips, MSB, PCM (short frame sync), and PCM (long frame sync) formats. Please refer to esp_driver_i2s/include/driver/i2s_tdm.h for details.
When allocating a new channel in a specific mode, users should initialize that channel by its corresponding function. It is strongly recommended to use the helper macros to generate the default configurations in case the default values are changed in the future.
Independent Slot and Clock Configuration
The slot configurations and clock configurations can be configured separately.
Call
i2s_channel_init_std_mode()
,i2s_channel_init_pdm_rx_mode()
,i2s_channel_init_pdm_tx_mode()
, ori2s_channel_init_tdm_mode()
to initialize the slot/clock/gpio_pin configurations.Calling
i2s_channel_reconfig_std_slot()
,i2s_channel_reconfig_pdm_rx_slot()
,i2s_channel_reconfig_pdm_tx_slot()
, ori2s_channel_reconfig_tdm_slot()
can change the slot configurations after initialization.Calling
i2s_channel_reconfig_std_clock()
,i2s_channel_reconfig_pdm_rx_clock()
,i2s_channel_reconfig_pdm_tx_clock()
, ori2s_channel_reconfig_tdm_clock()
can change the clock configurations after initialization.Calling
i2s_channel_reconfig_std_gpio()
,i2s_channel_reconfig_pdm_rx_gpio()
,i2s_channel_reconfig_pdm_tx_gpio()
, ori2s_channel_reconfig_tdm_gpio()
can change the GPIO configurations after initialization.
Misc
States and state-machine are adopted in the new I2S driver to avoid APIs called in wrong state.
ADC and DAC modes are removed. They are only supported in their own drivers and the legacy I2S driver.
Breaking Changes in Usage
To use the new I2S driver, please follow these steps:
Call
i2s_new_channel()
to acquire channel handles. We should specify the work role and I2S port in this step. Besides, the TX or RX channel handle will be generated by the driver. Inputting both two TX and RX channel handles is not necessary but at least one handle is needed. In the case of inputting both two handles, the driver will work at the duplex mode. Both TX and RX channels will be available on a same port, and they will share the MCLK, BCLK and WS signal. But if only one of the TX or RX channel handle is inputted, this channel will only work in the simplex mode.Call
i2s_channel_init_std_mode()
,i2s_channel_init_pdm_rx_mode()
,i2s_channel_init_pdm_tx_mode()
ori2s_channel_init_tdm_mode()
to initialize the channel to the specified mode. Corresponding slot, clock and GPIO configurations are needed in this step.(Optional) Call
i2s_channel_register_event_callback()
to register the ISR event callback functions. I2S events now can be received by the callback function synchronously, instead of from the event queue asynchronously.Call
i2s_channel_enable()
to start the hardware of I2S channel. In the new driver, I2S does not start automatically after installed, and users are supposed to know clearly whether the channel has started or not.Read or write data by
i2s_channel_read()
ori2s_channel_write()
. Certainly, only the RX channel handle is suppoesd to be inputted ini2s_channel_read()
and the TX channel handle ini2s_channel_write()
.(Optional) The slot, clock and GPIO configurations can be changed by corresponding 'reconfig' functions, but
i2s_channel_disable()
must be called before updating the configurations.Call
i2s_channel_disable()
to stop the hardware of I2S channel.Call
i2s_del_channel()
to delete and release the resources of the channel if it is not needed any more, but the channel must be disabled before deleting it.
Register Access Macros
Previously, all register access macros could be used as expressions, so the following was allowed:
uint32_t val = REG_SET_BITS(reg, bits, mask);
In ESP-IDF v5.0, register access macros which write or read-modify-write the register can no longer be used as expressions, and can only be used as statements. This applies to the following macros: REG_WRITE
, REG_SET_BIT
, REG_CLR_BIT
, REG_SET_BITS
, REG_SET_FIELD
, WRITE_PERI_REG
, CLEAR_PERI_REG_MASK
, SET_PERI_REG_MASK
, SET_PERI_REG_BITS
.
To store the value which would have been written into the register, split the operation as follows:
uint32_t new_val = REG_READ(reg) | mask;
REG_WRITE(reg, new_val);
To get the value of the register after modification (which may be different from the value written), add an explicit read:
REG_SET_BITS(reg, bits, mask);
uint32_t new_val = REG_READ(reg);