esp-idf/components/hal
aleks 193f1f9b4e driver: fix uart handler in iram calls inline uart_ll_is_tx_idle 2021-03-31 14:39:59 +00:00
..
esp32 driver: fix uart handler in iram calls inline uart_ll_is_tx_idle 2021-03-31 14:39:59 +00:00
esp32c3 TWAI: FIFO overrun handling and errata workarounds 2021-03-30 14:17:31 +08:00
esp32s2 driver: fix uart handler in iram calls inline uart_ll_is_tx_idle 2021-03-31 14:39:59 +00:00
esp32s3 driver: fix uart handler in iram calls inline uart_ll_is_tx_idle 2021-03-31 14:39:59 +00:00
include/hal TWAI: FIFO overrun handling and errata workarounds 2021-03-30 14:17:31 +08:00
test
CMakeLists.txt lcd: add LL driver for esp32-s3 2021-03-13 22:31:30 +08:00
README.md
adc_hal.c adc: apply adc power API to adc driver 2021-03-26 17:58:00 +08:00
aes_hal.c
component.mk lcd: add LL driver for esp32-s3 2021-03-13 22:31:30 +08:00
cpu_hal.c
dac_hal.c
ds_hal.c
gdma_hal.c
gpio_hal.c
i2c_hal.c
i2c_hal_iram.c
i2s_hal.c
interrupt_controller_hal.c
lcd_hal.c lcd: add LL driver for esp32-s3 2021-03-13 22:31:30 +08:00
ledc_hal.c
ledc_hal_iram.c
linker.lf
mcpwm_hal.c mcpwm: rename macros related to soc capbility 2021-03-16 21:53:59 +08:00
mpu_hal.c
pcnt_hal.c
rmt_hal.c
rtc_io_hal.c
sdio_slave_hal.c
sha_hal.c
sigmadelta_hal.c
soc_hal.c
spi_flash_hal.c
spi_flash_hal_common.inc
spi_flash_hal_gpspi.c
spi_flash_hal_iram.c
spi_hal.c
spi_hal_iram.c
spi_slave_hal.c
spi_slave_hal_iram.c
spi_slave_hd_hal.c
timer_hal.c
touch_sensor_hal.c
twai_hal.c TWAI: FIFO overrun handling and errata workarounds 2021-03-30 14:17:31 +08:00
twai_hal_iram.c TWAI: FIFO overrun handling and errata workarounds 2021-03-30 14:17:31 +08:00
uart_hal.c
uart_hal_iram.c
wdt_hal_iram.c

README.md

hal

The hal component provides hardware abstraction and implementation for targets supported by ESP-IDF.

include/hal

/include/hal contains header files which provides a hardware-agnostic interface to the SoC. The interface consists of function declarations and abstracted types that other, higher level components can make use of in order to have code portable to all targets ESP-IDF supports.

It contains an abstraction layer for ineracting with/driving the hardware found in the SoC such as the peripherals and 'core' hardware such as the CPU, MPU, caches, etc. It contains for the abstracted types. The abstraction design is actually two levels -- often somtimes xxx_hal.h includes a lower-level header from a xxx_ll.h, which resides in the implementation. More on this abstraction design in the hal/include/hal's Readme

target/include

Provides the implementation of the hardware-agnostic interface in the abstraction. Target-specific subdirectories exist for wildly different implementations among targets; while code that are common/very similar might be placed in the top-level of /<target>/include, using some amount of conditional preprocessors. It is up to the developers' discretion on which strategy to use. Code usually reside in source files with same names to header files whose interfaces they implement, ex. xxx_hal.c for xxx_hal.h.

As mentioned previously, the lower-level abstraction header xxx_ll.h resides in this directory, since they contain hardware-specific details. However, what these can do is provide some abstraction among implementations, so that more code can be moved to the common, non-target-specific subdirectories.

This can also contain target-specific extensions to the HAL headers. These target-specific HAL headers have the same name and include the abstraction layer HAL header via include_next. These extensions might add more function declarations or override some things using macro magic.