Further refine autoreload
This unifies the delay into the post-run delay that also waits for user input and fake sleep. This ensures we always delay. Previous code would only delay if the code.py was running when autoreload was triggered. Now it will always delay. We also now suspend autoreload when a USB write starts and then resume on completion. This should prevent reloading in between sectors of a single write.
This commit is contained in:
parent
7cb66dd316
commit
32ac396a41
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@ -25,7 +25,7 @@ msgstr ""
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#: main.c
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msgid ""
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"\n"
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"Code stopped by auto-reload.\n"
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"Code stopped by auto-reload. Reloading soon.\n"
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msgstr ""
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#: supervisor/shared/safe_mode.c
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@ -584,10 +584,6 @@ msgstr ""
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msgid "Brightness must be 0-1.0"
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msgstr ""
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#: shared-bindings/supervisor/__init__.c
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msgid "Brightness must be between 0 and 255"
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msgstr ""
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#: shared-bindings/displayio/Display.c
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#: shared-bindings/framebufferio/FramebufferDisplay.c
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msgid "Brightness not adjustable"
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@ -688,6 +684,7 @@ msgstr ""
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msgid "Can only alarm on two low pins from deep sleep."
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msgstr ""
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#: ports/espressif/common-hal/_bleio/Characteristic.c
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#: ports/nrf/common-hal/_bleio/Characteristic.c
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msgid "Can't set CCCD on local Characteristic"
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msgstr ""
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@ -1605,6 +1602,7 @@ msgstr ""
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msgid "Nimble out of memory"
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msgstr ""
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#: ports/espressif/common-hal/_bleio/Characteristic.c
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#: ports/nrf/common-hal/_bleio/Characteristic.c
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msgid "No CCCD for this Characteristic"
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msgstr ""
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@ -3642,7 +3640,7 @@ msgstr ""
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msgid "matrix is not positive definite"
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msgstr ""
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#: shared-bindings/wifi/Radio.c
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#: ports/espressif/common-hal/wifi/Radio.c
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msgid "max_connections must be between 0 and 10"
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msgstr ""
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@ -4061,6 +4059,7 @@ msgstr ""
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#: ports/espressif/boards/adafruit_metro_esp32s2/mpconfigboard.h
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#: ports/espressif/boards/adafruit_qtpy_esp32s2/mpconfigboard.h
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#: ports/espressif/boards/adafruit_qtpy_esp32s3_nopsram/mpconfigboard.h
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#: ports/espressif/boards/ai_thinker_esp32-c3s-2m/mpconfigboard.h
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#: ports/espressif/boards/ai_thinker_esp32-c3s/mpconfigboard.h
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#: ports/espressif/boards/ai_thinker_esp_12k_nodemcu/mpconfigboard.h
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#: ports/espressif/boards/artisense_rd00/mpconfigboard.h
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@ -4068,6 +4067,7 @@ msgstr ""
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#: ports/espressif/boards/crumpspace_crumps2/mpconfigboard.h
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#: ports/espressif/boards/electroniccats_bastwifi/mpconfigboard.h
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#: ports/espressif/boards/espressif_esp32c3_devkitm_1_n4/mpconfigboard.h
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#: ports/espressif/boards/espressif_esp32s2_devkitc_1_n4r2/mpconfigboard.h
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#: ports/espressif/boards/espressif_esp32s3_box/mpconfigboard.h
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#: ports/espressif/boards/espressif_esp32s3_devkitc_1_n8/mpconfigboard.h
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#: ports/espressif/boards/espressif_esp32s3_devkitc_1_n8r2/mpconfigboard.h
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@ -4083,6 +4083,7 @@ msgstr ""
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#: ports/espressif/boards/gravitech_cucumber_ms/mpconfigboard.h
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#: ports/espressif/boards/gravitech_cucumber_r/mpconfigboard.h
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#: ports/espressif/boards/gravitech_cucumber_rs/mpconfigboard.h
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#: ports/espressif/boards/hiibot_iots2/mpconfigboard.h
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#: ports/espressif/boards/lilygo_ttgo_t8_s2_st7789/mpconfigboard.h
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#: ports/espressif/boards/lolin_s2_mini/mpconfigboard.h
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#: ports/espressif/boards/lolin_s2_pico/mpconfigboard.h
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39
main.c
39
main.c
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@ -124,7 +124,6 @@ static void reset_devices(void) {
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}
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STATIC void start_mp(supervisor_allocation *heap, bool first_run) {
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autoreload_reset();
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supervisor_workflow_reset();
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// Stack limit should be less than real stack size, so we have a chance
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@ -336,7 +335,13 @@ STATIC bool run_code_py(safe_mode_t safe_mode, bool first_run, bool *simulate_re
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// Collects stickiness bits that apply in the current situation.
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uint8_t next_code_stickiness_situation = SUPERVISOR_NEXT_CODE_OPT_NEWLY_SET;
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// Do the filesystem flush check before reload in case another write comes
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// in while we're doing the flush.
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if (safe_mode == NO_SAFE_MODE) {
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stack_resize();
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filesystem_flush();
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}
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if (safe_mode == NO_SAFE_MODE && !autoreload_pending()) {
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static const char *const supported_filenames[] = STRING_LIST(
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"code.txt", "code.py", "main.py", "main.txt");
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#if CIRCUITPY_FULL_BUILD
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"main.txt.py", "main.py.txt", "main.txt.txt","main.py.py");
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#endif
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stack_resize();
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filesystem_flush();
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supervisor_allocation *heap = allocate_remaining_memory();
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// Prepare the VM state. Includes an alarm check/reset for sleep.
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// Print done before resetting everything so that we get the message over
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// BLE before it is reset and we have a delay before reconnect.
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if ((result.return_code & PYEXEC_RELOAD) && supervisor_get_run_reason() == RUN_REASON_AUTO_RELOAD) {
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serial_write_compressed(translate("\nCode stopped by auto-reload.\n"));
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// Wait for autoreload interval before reloading
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uint64_t start_ticks = 0;
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do {
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// Start waiting, or restart interval if another reload request was initiated
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// while we were waiting.
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if (reload_requested) {
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reload_requested = false;
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start_ticks = supervisor_ticks_ms64();
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}
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RUN_BACKGROUND_TASKS;
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} while (supervisor_ticks_ms64() - start_ticks < CIRCUITPY_AUTORELOAD_DELAY_MS);
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// Restore request for use below.
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reload_requested = true;
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serial_write_compressed(translate("\nCode stopped by auto-reload. Reloading soon.\n"));
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} else {
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serial_write_compressed(translate("\nCode done running.\n"));
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}
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if (result.return_code & PYEXEC_RELOAD) {
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next_code_stickiness_situation |= SUPERVISOR_NEXT_CODE_OPT_STICKY_ON_RELOAD;
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skip_repl = true;
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skip_wait = true;
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} else if (result.return_code == 0) {
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next_code_stickiness_situation |= SUPERVISOR_NEXT_CODE_OPT_STICKY_ON_SUCCESS;
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if (next_code_options & SUPERVISOR_NEXT_CODE_OPT_RELOAD_ON_SUCCESS) {
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size_t total_time = blink_time + LED_SLEEP_TIME_MS;
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#endif
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// This loop is waits after code completes. It waits for fake sleeps to
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// finish, user input or autoreloads.
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#if CIRCUITPY_ALARM
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bool fake_sleeping = false;
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#endif
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RUN_BACKGROUND_TASKS;
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// If a reload was requested by the supervisor or autoreload, return.
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if (reload_requested) {
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if (autoreload_ready()) {
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next_code_stickiness_situation |= SUPERVISOR_NEXT_CODE_OPT_STICKY_ON_RELOAD;
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// Should the STICKY_ON_SUCCESS and STICKY_ON_ERROR bits be cleared in
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// next_code_stickiness_situation? I can see arguments either way, but I'm deciding
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// "no" for now, mainly because it's a bit less code. At this point, we have both a
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// success or error and a reload, so let's have both of the respective options take
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// effect (in OR combination).
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reload_requested = false;
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skip_repl = true;
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// We're kicking off the autoreload process so reset now. If any
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// other reloads trigger after this, then we'll want another wait
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// period.
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autoreload_reset();
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break;
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}
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#endif
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// If messages haven't been printed yet, print them
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if (!printed_press_any_key && serial_connected()) {
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if (!printed_press_any_key && serial_connected() && !autoreload_pending()) {
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if (!serial_connected_at_start) {
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print_code_py_status_message(safe_mode);
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}
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@ -346,8 +346,6 @@ void port_enable_tick(void) {
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stm32_peripherals_rtc_assign_wkup_callback(supervisor_tick);
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stm32_peripherals_rtc_enable_wakeup_timer();
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}
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// TODO: what is this? can I get rid of it?
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extern volatile uint32_t autoreload_delay_ms;
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// Disable 1/1024 second tick.
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void port_disable_tick(void) {
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if (mp_hal_is_interrupted()) {
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return;
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}
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if (reload_requested) {
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if (autoreload_ready()) {
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// Reload is about to happen, so don't redisplay.
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return;
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}
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@ -325,8 +325,7 @@ STATIC uint8_t _process_write(const uint8_t *raw_buf, size_t command_len) {
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if (chunk_size == 0) {
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// Don't reload until everything is written out of the packet buffer.
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common_hal_bleio_packet_buffer_flush(&_transfer_packet_buffer);
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// Trigger an autoreload
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autoreload_start();
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autoreload_trigger();
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return ANY_COMMAND;
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}
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#endif
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// Don't reload until everything is written out of the packet buffer.
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common_hal_bleio_packet_buffer_flush(&_transfer_packet_buffer);
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// Trigger an autoreload
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autoreload_start();
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autoreload_trigger();
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return ANY_COMMAND;
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}
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return WRITE_DATA;
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if (result == FR_OK) {
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// Don't reload until everything is written out of the packet buffer.
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common_hal_bleio_packet_buffer_flush(&_transfer_packet_buffer);
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// Trigger an autoreload
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autoreload_start();
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autoreload_trigger();
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}
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return ANY_COMMAND;
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}
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if (result == FR_OK) {
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// Don't reload until everything is written out of the packet buffer.
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common_hal_bleio_packet_buffer_flush(&_transfer_packet_buffer);
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// Trigger an autoreload
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autoreload_start();
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autoreload_trigger();
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}
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return ANY_COMMAND;
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}
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@ -668,8 +664,7 @@ STATIC uint8_t _process_move(const uint8_t *raw_buf, size_t command_len) {
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if (result == FR_OK) {
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// Don't reload until everything is written out of the packet buffer.
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common_hal_bleio_packet_buffer_flush(&_transfer_packet_buffer);
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// Trigger an autoreload
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autoreload_start();
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autoreload_trigger();
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}
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return ANY_COMMAND;
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}
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// Non-zero if autoreload is temporarily off, due to an AUTORELOAD_SUSPEND_... reason.
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static uint32_t autoreload_suspended = 0;
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// True if something has requested a reload/restart.
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volatile bool reload_requested = false;
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volatile uint32_t last_autoreload_trigger = 0;
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void reload_initiate(supervisor_run_reason_t run_reason) {
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reload_requested = true;
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supervisor_set_run_reason(run_reason);
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// Raise reload exception, in case code is running.
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}
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void autoreload_reset() {
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reload_requested = false;
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last_autoreload_trigger = 0;
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}
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void autoreload_enable() {
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autoreload_enabled = true;
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reload_requested = false;
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last_autoreload_trigger = 0;
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}
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void autoreload_disable() {
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return autoreload_enabled;
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}
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void autoreload_start() {
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if (autoreload_enabled && autoreload_suspended == 0) {
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void autoreload_trigger() {
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if (autoreload_enabled) {
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last_autoreload_trigger = supervisor_ticks_ms32();
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// Guard against the rare time that ticks is 0;
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if (last_autoreload_trigger == 0) {
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last_autoreload_trigger += 1;
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}
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// Initiate a reload of the VM immediately. Later code will pause to
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// wait for the autoreload to become ready. Doing the VM exit
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// immediately is clearer for the user.
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reload_initiate(RUN_REASON_AUTO_RELOAD);
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}
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}
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bool autoreload_ready() {
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if (last_autoreload_trigger == 0 || autoreload_suspended != 0) {
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return false;
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}
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// Wait for autoreload interval before reloading
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uint32_t now = supervisor_ticks_ms32();
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uint32_t diff;
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if (now >= last_autoreload_trigger) {
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diff = now - last_autoreload_trigger;
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} else {
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diff = now + (0xffffffff - last_autoreload_trigger);
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}
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return diff > CIRCUITPY_AUTORELOAD_DELAY_MS;
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}
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bool autoreload_pending(void) {
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return last_autoreload_trigger != 0;
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}
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@ -42,7 +42,8 @@ enum {
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enum {
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AUTORELOAD_SUSPEND_REPL = 0x1,
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AUTORELOAD_SUSPEND_BLE = 0x2
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AUTORELOAD_SUSPEND_BLE = 0x2,
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AUTORELOAD_SUSPEND_USB = 0x4
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};
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typedef struct {
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extern supervisor_allocation *next_code_allocation;
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extern volatile bool reload_requested;
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// Helper for exiting the VM and reloading immediately.
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void reload_initiate(supervisor_run_reason_t run_reason);
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void autoreload_start(void);
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void autoreload_reset(void);
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// Enabled state is user controllable and very sticky. We don't reset it.
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void autoreload_enable(void);
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void autoreload_disable(void);
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bool autoreload_is_enabled(void);
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// Temporarily turn autoreload off, for the given reason(s).
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// Start the autoreload process.
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void autoreload_trigger(void);
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// True when the autoreload should occur. (A trigger happened and the delay has
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// passed.)
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bool autoreload_ready(void);
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// Reset the autoreload timer in preparation for another trigger. Call when the
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// last trigger starts being executed.
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void autoreload_reset(void);
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// True when a trigger has occurred but we're still delaying in case another
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// trigger occurs.
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bool autoreload_pending(void);
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// Temporarily turn autoreload off, for the given reason(s). Autoreload triggers
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// will still be tracked so resuming with autoreload ready with cause an
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// immediate reload.
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// Used during the REPL or during parts of BLE workflow.
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void autoreload_suspend(uint32_t suspend_reason_mask);
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// Allow autoreloads again, for the given reason(s).
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@ -185,6 +185,7 @@ int32_t tud_msc_read10_cb(uint8_t lun, uint32_t lba, uint32_t offset, void *buff
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int32_t tud_msc_write10_cb(uint8_t lun, uint32_t lba, uint32_t offset, uint8_t *buffer, uint32_t bufsize) {
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(void)lun;
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(void)offset;
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autoreload_suspend(AUTORELOAD_SUSPEND_USB);
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const uint32_t block_count = bufsize / MSC_FLASH_BLOCK_SIZE;
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(void)lun;
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// This write is complete; initiate an autoreload.
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autoreload_start();
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autoreload_trigger();
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autoreload_resume(AUTORELOAD_SUSPEND_USB);
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}
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// Invoked when received SCSI_CMD_INQUIRY
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