4b97a1edb2
- call rtc_gpio_init for pins which aren't configured as RTC by default - for RTC IOs 16 and 17, read higher part of the input register - automatically convert GPIO number into RTC IO number - use ulp_set_wakeup_period instead of writing to register
157 lines
4 KiB
ArmAsm
157 lines
4 KiB
ArmAsm
/* ULP Example: pulse counting
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This example code is in the Public Domain (or CC0 licensed, at your option.)
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Unless required by applicable law or agreed to in writing, this
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software is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR
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CONDITIONS OF ANY KIND, either express or implied.
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This file contains assembly code which runs on the ULP.
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ULP wakes up to run this code at a certain period, determined by the values
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in SENS_ULP_CP_SLEEP_CYCx_REG registers. On each wake up, the program checks
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the input on GPIO0. If the value is different from the previous one, the
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program "debounces" the input: on the next debounce_max_count wake ups,
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it expects to see the same value of input.
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If this condition holds true, the program increments edge_count and starts
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waiting for input signal polarity to change again.
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When the edge counter reaches certain value (set by the main program),
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this program running triggers a wake up from deep sleep.
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*/
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/* ULP assembly files are passed through C preprocessor first, so include directives
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and C macros may be used in these files
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*/
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#include "soc/rtc_cntl_reg.h"
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#include "soc/rtc_io_reg.h"
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#include "soc/soc_ulp.h"
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/* Define variables, which go into .bss section (zero-initialized data) */
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.bss
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/* Next input signal edge expected: 0 (negative) or 1 (positive) */
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.global next_edge
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next_edge:
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.long 0
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/* Counter started when signal value changes.
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Edge is "debounced" when the counter reaches zero. */
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.global debounce_counter
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debounce_counter:
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.long 0
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/* Value to which debounce_counter gets reset.
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Set by the main program. */
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.global debounce_max_count
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debounce_max_count:
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.long 0
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/* Total number of signal edges acquired */
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.global edge_count
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edge_count:
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.long 0
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/* Number of edges to acquire before waking up the SoC.
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Set by the main program. */
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.global edge_count_to_wake_up
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edge_count_to_wake_up:
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.long 0
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/* RTC IO number used to sample the input signal.
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Set by main program. */
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.global io_number
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io_number:
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.long 0
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/* Code goes into .text section */
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.text
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.global entry
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entry:
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/* Load io_number */
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move r3, io_number
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ld r3, r3, 0
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/* Lower 16 IOs and higher need to be handled separately,
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* because r0-r3 registers are 16 bit wide.
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* Check which IO this is.
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*/
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move r0, r3
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jumpr read_io_high, 16, ge
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/* Read the value of lower 16 RTC IOs into R0 */
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READ_RTC_REG(RTC_GPIO_IN_REG, RTC_GPIO_IN_NEXT_S, 16)
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rsh r0, r0, r3
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jump read_done
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/* Read the value of RTC IOs 16-17, into R0 */
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read_io_high:
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READ_RTC_REG(RTC_GPIO_IN_REG, RTC_GPIO_IN_NEXT_S + 16, 2)
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sub r3, r3, 16
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rsh r0, r0, r3
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read_done:
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and r0, r0, 1
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/* State of input changed? */
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move r3, next_edge
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ld r3, r3, 0
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add r3, r0, r3
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and r3, r3, 1
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jump changed, eq
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/* Not changed */
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/* Reset debounce_counter to debounce_max_count */
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move r3, debounce_max_count
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move r2, debounce_counter
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ld r3, r3, 0
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st r3, r2, 0
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/* End program */
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halt
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.global changed
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changed:
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/* Input state changed */
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/* Has debounce_counter reached zero? */
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move r3, debounce_counter
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ld r2, r3, 0
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add r2, r2, 0 /* dummy ADD to use "jump if ALU result is zero" */
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jump edge_detected, eq
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/* Not yet. Decrement debounce_counter */
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sub r2, r2, 1
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st r2, r3, 0
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/* End program */
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halt
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.global edge_detected
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edge_detected:
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/* Reset debounce_counter to debounce_max_count */
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move r3, debounce_max_count
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move r2, debounce_counter
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ld r3, r3, 0
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st r3, r2, 0
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/* Flip next_edge */
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move r3, next_edge
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ld r2, r3, 0
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add r2, r2, 1
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and r2, r2, 1
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st r2, r3, 0
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/* Increment edge_count */
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move r3, edge_count
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ld r2, r3, 0
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add r2, r2, 1
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st r2, r3, 0
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/* Compare edge_count to edge_count_to_wake_up */
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move r3, edge_count_to_wake_up
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ld r3, r3, 0
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sub r3, r3, r2
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jump wake_up, eq
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/* Not yet. End program */
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halt
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.global wake_up
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wake_up:
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/* Check if the system can be woken up */
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READ_RTC_FIELD(RTC_CNTL_LOW_POWER_ST_REG, RTC_CNTL_RDY_FOR_WAKEUP)
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and r0, r0, 1
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jump wake_up, eq
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/* Wake up the SoC, end program */
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wake
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halt
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