esp-open-rtos/open_esplibs/libmain/os_cpu_a.c

/* Recreated Espressif libmain os_cpu_o contents.

   Copyright (C) 2015 Espressif Systems. Derived from MIT Licensed SDK libraries.
   BSD Licensed as described in the file LICENSE
*/
#include "open_esplibs.h"
#if OPEN_LIBMAIN_OS_CPU_A
// The contents of this file are only built if OPEN_LIBMAIN_OS_CPU_A is set to true

#include "esp/types.h"
#include "FreeRTOS.h"
#include "task.h"
#include "xtensa_ops.h"
#include "common_macros.h"
#include "esplibs/libmain.h"

// xPortSysTickHandle is defined in FreeRTOS/Source/portable/esp8266/port.c but
// does not exist in any header files.
void xPortSysTickHandle(void);

/* The following "functions" manipulate the stack at a low level and thus cannot be coded directly in C */

void IRAM vPortYield(void) {
    asm("   wsr    a0, excsave1            \n\
            addi   sp, sp, -80             \n\
            s32i   a0, sp, 4               \n\
            addi   a0, sp, 80              \n\
            s32i   a0, sp, 16              \n\
            rsr    a0, ps                  \n\
            s32i   a0, sp, 8               \n\
            rsr    a0, excsave1            \n\
            s32i   a0, sp, 12              \n\
            movi   a0, _xt_user_exit       \n\
            s32i   a0, sp, 0               \n\
            call0  sdk__xt_int_enter       \n\
            call0  vPortEnterCritical      \n\
            call0  vTaskSwitchContext      \n\
            call0  vPortExitCritical       \n\
            call0  sdk__xt_int_exit        \n\
    ");
}

void IRAM sdk__xt_int_enter(void) {
    asm("   s32i   a12, sp, 60             \n\
            s32i   a13, sp, 64             \n\
            mov    a12, a0                 \n\
            call0  sdk__xt_context_save    \n\
            movi   a0, pxCurrentTCB        \n\
            l32i   a0, a0, 0               \n\
            s32i   sp, a0, 0               \n\
            mov    a0, a12                 \n\
    ");
}

void IRAM sdk__xt_int_exit(void) {
    asm("   s32i   a14, sp, 68             \n\
            s32i   a15, sp, 72             \n\
            movi   sp, pxCurrentTCB        \n\
            l32i   sp, sp, 0               \n\
            l32i   sp, sp, 0               \n\
            movi   a14, pxCurrentTCB       \n\
            l32i   a14, a14, 0             \n\
            addi   a15, sp, 80             \n\
            s32i   a15, a14, 0             \n\
            call0  sdk__xt_context_restore \n\
            l32i   a14, sp, 68             \n\
            l32i   a15, sp, 72             \n\
            l32i   a0, sp, 0               \n\
    ");
}

void IRAM sdk__xt_timer_int(void) {
    uint32_t trigger_ccount;
    uint32_t current_ccount;
    uint32_t ccount_interval = portTICK_RATE_MS * sdk_os_get_cpu_frequency() * 1000;

    do {
        RSR(trigger_ccount, ccompare0);
        WSR(trigger_ccount + ccount_interval, ccompare0);
        ESYNC();
        xPortSysTickHandle();
        ESYNC();
        RSR(current_ccount, ccount);
    } while (current_ccount - trigger_ccount > ccount_interval);
}

void IRAM sdk__xt_timer_int1(void) {
    vTaskSwitchContext();
}

#define INTENABLE_CCOMPARE  BIT(6)

void IRAM sdk__xt_tick_timer_init(void) {
    uint32_t ints_enabled;
    uint32_t current_ccount;
    uint32_t ccount_interval = portTICK_RATE_MS * sdk_os_get_cpu_frequency() * 1000;

    RSR(current_ccount, ccount);
    WSR(current_ccount + ccount_interval, ccompare0);
    ints_enabled = 0;
    XSR(ints_enabled, intenable);
    WSR(ints_enabled | INTENABLE_CCOMPARE, intenable);
}

void IRAM sdk__xt_isr_unmask(uint32_t mask) {
    uint32_t ints_enabled;

    ints_enabled = 0;
    XSR(ints_enabled, intenable);
    WSR(ints_enabled | mask, intenable);
}

void IRAM sdk__xt_isr_mask(uint32_t mask) {
    uint32_t ints_enabled;

    ints_enabled = 0;
    XSR(ints_enabled, intenable);
    WSR(ints_enabled & mask, intenable);
}

uint32_t IRAM sdk__xt_read_ints(void) {
    uint32_t ints_enabled;

    RSR(ints_enabled, intenable);
    return ints_enabled;
}

void IRAM sdk__xt_clear_ints(uint32_t mask) {
    WSR(mask, intclear);
}

#endif /* OPEN_LIBMAIN_OS_CPU_A */
open_esplibs: Add README and Copyright headers 2016-06-30 06:08:59 +00:00			`/* Recreated Espressif libmain os_cpu_o contents.`

			`Copyright (C) 2015 Espressif Systems. Derived from MIT Licensed SDK libraries.`
			`BSD Licensed as described in the file LICENSE`
			`*/`
Add conditional compilation for open_esplib code 2016-03-23 00:43:07 +00:00			`#include "open_esplibs.h"`
			`#if OPEN_LIBMAIN_OS_CPU_A`
			`// The contents of this file are only built if OPEN_LIBMAIN_OS_CPU_A is set to true`

First batch of opensdk additions Replacements for: libmain/misc.o libmain/os_cpu_a.o libmain/spi_flash.o libmain/timers.o libmain/uart.o libmain/xtensa_context.o 2015-10-11 04:56:11 +00:00			`#include "esp/types.h"`
			`#include "FreeRTOS.h"`
			`#include "task.h"`
			`#include "xtensa_ops.h"`
			`#include "common_macros.h"`
Honour values of configCPU_CLOCK_HZ & configTICK_RATE_HZ for tick rate Fixes #147 * Can vary tick rate from 100Hz via configTICK_RATE_HZ. Note that the SDK binary libraries are hard-coded to assume the tick rate is 100Hz, so changing the tick rate may have unexpected consequences for lower layer WiFi behaviour (such as certain kinds of timeouts happening faster/slower.) * Setting configCPU_CLOCK_HZ to 160MHz means ESP will set 160MHz during initialisation. Only 80MHz and 160MHz are supported. * Timing of tasks is no longer affected by current CPU freq (whether set via configCPU_CLOCK_HZ or via sdk_system_update_cpu_freq().) Previously doubling the CPU frequency would double the tick rate. 2016-06-29 23:22:17 +00:00			`#include "esplibs/libmain.h"`
First batch of opensdk additions Replacements for: libmain/misc.o libmain/os_cpu_a.o libmain/spi_flash.o libmain/timers.o libmain/uart.o libmain/xtensa_context.o 2015-10-11 04:56:11 +00:00
			`// xPortSysTickHandle is defined in FreeRTOS/Source/portable/esp8266/port.c but`
			`// does not exist in any header files.`
			`void xPortSysTickHandle(void);`

			`/* The following "functions" manipulate the stack at a low level and thus cannot be coded directly in C */`

			`void IRAM vPortYield(void) {`
			`asm(" wsr a0, excsave1 \n\`
			`addi sp, sp, -80 \n\`
			`s32i a0, sp, 4 \n\`
			`addi a0, sp, 80 \n\`
			`s32i a0, sp, 16 \n\`
			`rsr a0, ps \n\`
			`s32i a0, sp, 8 \n\`
			`rsr a0, excsave1 \n\`
			`s32i a0, sp, 12 \n\`
			`movi a0, _xt_user_exit \n\`
			`s32i a0, sp, 0 \n\`
			`call0 sdk__xt_int_enter \n\`
			`call0 vPortEnterCritical \n\`
			`call0 vTaskSwitchContext \n\`
			`call0 vPortExitCritical \n\`
			`call0 sdk__xt_int_exit \n\`
			`");`
			`}`

			`void IRAM sdk__xt_int_enter(void) {`
			`asm(" s32i a12, sp, 60 \n\`
			`s32i a13, sp, 64 \n\`
			`mov a12, a0 \n\`
			`call0 sdk__xt_context_save \n\`
			`movi a0, pxCurrentTCB \n\`
			`l32i a0, a0, 0 \n\`
			`s32i sp, a0, 0 \n\`
			`mov a0, a12 \n\`
			`");`
			`}`

			`void IRAM sdk__xt_int_exit(void) {`
			`asm(" s32i a14, sp, 68 \n\`
			`s32i a15, sp, 72 \n\`
			`movi sp, pxCurrentTCB \n\`
			`l32i sp, sp, 0 \n\`
			`l32i sp, sp, 0 \n\`
			`movi a14, pxCurrentTCB \n\`
			`l32i a14, a14, 0 \n\`
			`addi a15, sp, 80 \n\`
			`s32i a15, a14, 0 \n\`
			`call0 sdk__xt_context_restore \n\`
			`l32i a14, sp, 68 \n\`
			`l32i a15, sp, 72 \n\`
			`l32i a0, sp, 0 \n\`
			`");`
			`}`

			`void IRAM sdk__xt_timer_int(void) {`
			`uint32_t trigger_ccount;`
			`uint32_t current_ccount;`
Honour values of configCPU_CLOCK_HZ & configTICK_RATE_HZ for tick rate Fixes #147 * Can vary tick rate from 100Hz via configTICK_RATE_HZ. Note that the SDK binary libraries are hard-coded to assume the tick rate is 100Hz, so changing the tick rate may have unexpected consequences for lower layer WiFi behaviour (such as certain kinds of timeouts happening faster/slower.) * Setting configCPU_CLOCK_HZ to 160MHz means ESP will set 160MHz during initialisation. Only 80MHz and 160MHz are supported. * Timing of tasks is no longer affected by current CPU freq (whether set via configCPU_CLOCK_HZ or via sdk_system_update_cpu_freq().) Previously doubling the CPU frequency would double the tick rate. 2016-06-29 23:22:17 +00:00			`uint32_t ccount_interval = portTICK_RATE_MS * sdk_os_get_cpu_frequency() * 1000;`
First batch of opensdk additions Replacements for: libmain/misc.o libmain/os_cpu_a.o libmain/spi_flash.o libmain/timers.o libmain/uart.o libmain/xtensa_context.o 2015-10-11 04:56:11 +00:00
			`do {`
			`RSR(trigger_ccount, ccompare0);`
			`WSR(trigger_ccount + ccount_interval, ccompare0);`
			`ESYNC();`
			`xPortSysTickHandle();`
			`ESYNC();`
			`RSR(current_ccount, ccount);`
			`} while (current_ccount - trigger_ccount > ccount_interval);`
			`}`

			`void IRAM sdk__xt_timer_int1(void) {`
			`vTaskSwitchContext();`
			`}`

			`#define INTENABLE_CCOMPARE BIT(6)`

			`void IRAM sdk__xt_tick_timer_init(void) {`
			`uint32_t ints_enabled;`
			`uint32_t current_ccount;`
Honour values of configCPU_CLOCK_HZ & configTICK_RATE_HZ for tick rate Fixes #147 * Can vary tick rate from 100Hz via configTICK_RATE_HZ. Note that the SDK binary libraries are hard-coded to assume the tick rate is 100Hz, so changing the tick rate may have unexpected consequences for lower layer WiFi behaviour (such as certain kinds of timeouts happening faster/slower.) * Setting configCPU_CLOCK_HZ to 160MHz means ESP will set 160MHz during initialisation. Only 80MHz and 160MHz are supported. * Timing of tasks is no longer affected by current CPU freq (whether set via configCPU_CLOCK_HZ or via sdk_system_update_cpu_freq().) Previously doubling the CPU frequency would double the tick rate. 2016-06-29 23:22:17 +00:00			`uint32_t ccount_interval = portTICK_RATE_MS * sdk_os_get_cpu_frequency() * 1000;`
First batch of opensdk additions Replacements for: libmain/misc.o libmain/os_cpu_a.o libmain/spi_flash.o libmain/timers.o libmain/uart.o libmain/xtensa_context.o 2015-10-11 04:56:11 +00:00
			`RSR(current_ccount, ccount);`
			`WSR(current_ccount + ccount_interval, ccompare0);`
			`ints_enabled = 0;`
			`XSR(ints_enabled, intenable);`
			`WSR(ints_enabled \| INTENABLE_CCOMPARE, intenable);`
			`}`

			`void IRAM sdk__xt_isr_unmask(uint32_t mask) {`
			`uint32_t ints_enabled;`

			`ints_enabled = 0;`
			`XSR(ints_enabled, intenable);`
			`WSR(ints_enabled \| mask, intenable);`
			`}`

			`void IRAM sdk__xt_isr_mask(uint32_t mask) {`
			`uint32_t ints_enabled;`

			`ints_enabled = 0;`
			`XSR(ints_enabled, intenable);`
			`WSR(ints_enabled & mask, intenable);`
			`}`

			`uint32_t IRAM sdk__xt_read_ints(void) {`
			`uint32_t ints_enabled;`

			`RSR(ints_enabled, intenable);`
			`return ints_enabled;`
			`}`

			`void IRAM sdk__xt_clear_ints(uint32_t mask) {`
			`WSR(mask, intclear);`
			`}`

Add conditional compilation for open_esplib code 2016-03-23 00:43:07 +00:00			`#endif /* OPEN_LIBMAIN_OS_CPU_A */`