nodemcu-firmware/components/base_nodemcu/user_main.c

/******************************************************************************
 * Copyright 2013-2014 Espressif Systems (Wuxi)
 *
 * FileName: user_main.c
 *
 * Description: entry file of user application
 *
 * Modification history:
 *     2014/1/1, v1.0 create this file.
*******************************************************************************/
#include "lua.h"
#include "linput.h"
#include "platform.h"
#include <string.h>
#include <stdlib.h>
#include "vfs.h"
#include "sdkconfig.h"
#include "esp_system.h"
#include "esp_event.h"
#include "nvs_flash.h"
#include "flash_api.h"

#include "task/task.h"
#include "sections.h"
#include "nodemcu_esp_event.h"

#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "freertos/queue.h"

#define SIG_LUA 0
#define SIG_UARTINPUT 1

// We don't get argument size data from the esp_event dispatch, so it's
// not possible to copy and forward events from the default event queue
// to one running within our task context. To cope with this, we instead
// have to effectively make a blocking inter-task call, by having our
// default loop handler post a nodemcu task event with a pointer to the
// event data, and then *block* until that task event has been processed.
// This is less elegant than I would like, but trying to run the entire
// LVM in the context of the system default event loop RTOS task is an
// even worse idea, so here we are.
typedef struct {
  esp_event_base_t  event_base;
  int32_t           event_id;
  void             *event_data;
} relayed_event_t;
static task_handle_t     relayed_event_task;
static SemaphoreHandle_t relayed_event_handled;


// This function runs in the context of the system default event loop RTOS task
static void relay_default_loop_events(
  void *arg, esp_event_base_t base, int32_t id, void *data)
{
  (void)arg;
  relayed_event_t event = {
    .event_base = base,
    .event_id = id,
    .event_data = data,
  };
  _Static_assert(sizeof(&event) >= sizeof(task_param_t), "pointer-vs-int");
  // Only block if we actually posted the request, otherwise we'll deadlock!
  if (task_post_medium(relayed_event_task, (intptr_t)&event))
    xSemaphoreTake(relayed_event_handled, portMAX_DELAY);
  else
    printf("ERROR: failed to forward esp event %s/%d", base, id);
}


static void handle_default_loop_event(task_param_t param, task_prio_t prio)
{
  (void)prio;
  const relayed_event_t *event = (const relayed_event_t *)param;

  nodemcu_esp_event_reg_t *evregs = &_esp_event_cb_table_start;
  for (; evregs < &_esp_event_cb_table_end; ++evregs)
  {
    bool event_base_match =
      (evregs->event_base_ptr == NULL) || // ESP_EVENT_ANY_BASE marker
      (*evregs->event_base_ptr == event->event_base);
    bool event_id_match =
      (evregs->event_id == event->event_id) ||
      (evregs->event_id == ESP_EVENT_ANY_ID);

    if (event_base_match && event_id_match)
      evregs->callback(event->event_base, event->event_id, event->event_data);
  }
  xSemaphoreGive(relayed_event_handled);
}


// +================== New task interface ==================+
static void start_lua ()
{
  NODE_DBG("Task task_lua started.\n");
  if (lua_main()) // If it returns true then LFS restart is needed
    lua_main();
}

void nodemcu_init(void)
{
    NODE_ERR("\n");
    // Initialize platform first for lua modules.
    if( platform_init() != PLATFORM_OK )
    {
        // This should never happen
        NODE_DBG("Can not init platform for modules.\n");
        return;
    }

#if defined ( CONFIG_NODEMCU_BUILD_SPIFFS )
    // This can take a while, so be nice and provide some feedback while waiting
    printf ("Mounting flash filesystem...\n");
    if (!vfs_mount("/FLASH", 0)) {
        // Failed to mount -- try reformat
	      NODE_ERR("Formatting file system. Please wait...\n");
        if (!vfs_format()) {
            NODE_ERR( "*** ERROR ***: unable to format. FS might be compromised.\n" );
            NODE_ERR( "It is advised to re-flash the NodeMCU image.\n" );
        }
        // Note that fs_format leaves the file system mounted
    }
#endif
}


void __attribute__((noreturn)) app_main(void)
{
  task_init();

  relayed_event_handled = xSemaphoreCreateBinary();
  relayed_event_task = task_get_id(handle_default_loop_event);

  esp_event_loop_create_default();
  esp_event_handler_register(
    ESP_EVENT_ANY_BASE,
    ESP_EVENT_ANY_ID,
    relay_default_loop_events,
    NULL);

  platform_uart_start(CONFIG_ESP_CONSOLE_UART_NUM);
  setvbuf(stdout, NULL, _IONBF, 0);

  nodemcu_init ();

  nvs_flash_init ();
  esp_netif_init ();

  start_lua ();
  task_pump_messages ();
  __builtin_unreachable ();
}
WIP ESP32 IDF port. Currently the UART driver break boot (or at least output). 2016-09-16 10:10:18 +02:00			`/******************************************************************************`
			`* Copyright 2013-2014 Espressif Systems (Wuxi)`
			`*`
			`* FileName: user_main.c`
			`*`
			`* Description: entry file of user application`
			`*`
			`* Modification history:`
			`* 2014/1/1, v1.0 create this file.`
			`*******************************************************************************/`
			`#include "lua.h"`
Port Terry's Lua 5.1 + 5.3 work from the esp8266 branch. Changes have been kept to a minimum, but a serious chunk of work was needed to move from 8266isms to IDFisms. Some things got refactored into components/lua/common, in particular the LFS location awareness. As part of this work I also evicted our partition table manipulation code, as with the current IDF it kept breaking checksums and rendering things unbootable, which is the opposite of helpful (which was the original intent behind it). The uart module got relocated from base_nodemcu to the modules component properly, after I worked out how to force its inclusion using Kconfig alone. 2021-08-21 17:39:54 +02:00			`#include "linput.h"`
WIP ESP32 IDF port. Currently the UART driver break boot (or at least output). 2016-09-16 10:10:18 +02:00			`#include "platform.h"`
			`#include <string.h>`
			`#include <stdlib.h>`
Grabbed latest spiffs + vfs layer from dev branch. Also included the recent LVM fix. Platform flash layer not yet functional. 2016-09-21 09:51:50 +02:00			`#include "vfs.h"`
WIP ESP32 IDF port. Currently the UART driver break boot (or at least output). 2016-09-16 10:10:18 +02:00			`#include "sdkconfig.h"`
Grabbed latest spiffs + vfs layer from dev branch. Also included the recent LVM fix. Platform flash layer not yet functional. 2016-09-21 09:51:50 +02:00			`#include "esp_system.h"`
Updated to new startup & esp event handling. Modules can now subscribe to ESP system events via the new NODEMCU_ESP_EVENT() macro. See nodemcu_esp_event.h for details. 2016-09-27 10:42:08 +02:00			`#include "esp_event.h"`
			`#include "nvs_flash.h"`
Platform flash layer updated for ESP32. It would appear my ESP3212 only has a 2MB flash chip despite the bootloader saying 4MB. 2016-09-22 06:56:40 +02:00			`#include "flash_api.h"`
WIP ESP32 IDF port. Currently the UART driver break boot (or at least output). 2016-09-16 10:10:18 +02:00
			`#include "task/task.h"`
			`#include "sections.h"`
Updated to new startup & esp event handling. Modules can now subscribe to ESP system events via the new NODEMCU_ESP_EVENT() macro. See nodemcu_esp_event.h for details. 2016-09-27 10:42:08 +02:00			`#include "nodemcu_esp_event.h"`
WIP ESP32 IDF port. Currently the UART driver break boot (or at least output). 2016-09-16 10:10:18 +02:00
Successfully boot barebones NodeMCU on ESP32 (only). RTOS driver evicted as it did not play nice with stdio etc. Implemented a minimal driver to fully support Lua console on UART0. Output on UART0 done via stdout (provided by the IDF). Input and setup handled via driver_console/console.c. In addition to the direct input function console_getc(), the driver also registers in the syscall tables to enable regular stdio input functions to work (yay!). The Lua VM is still using the direct interface since it's less overhead, but does also work when going through stdin/fd 0. Auto-bauding on the console is not yet functional; revisit when the UART docs are available. Module registration/linking/enabling moved over to be Kconfig based. See updates to base_nodemcu/include/module.h and base_nodemcu/Kconfig for details. The sdk-overrides directory/approach is no longer used. The IDF is simply too different to the old RTOS SDK - we need to adapt our code directly instead. Everything in app/ is now unused, and will need to be gradually migrated into components/ though it is probably better to migrate straight from the latest dev branch. 2016-09-20 05:35:56 +02:00			`#include "freertos/FreeRTOS.h"`
			`#include "freertos/task.h"`
Updated to new startup & esp event handling. Modules can now subscribe to ESP system events via the new NODEMCU_ESP_EVENT() macro. See nodemcu_esp_event.h for details. 2016-09-27 10:42:08 +02:00			`#include "freertos/queue.h"`
WIP ESP32 IDF port. Currently the UART driver break boot (or at least output). 2016-09-16 10:10:18 +02:00
			`#define SIG_LUA 0`
			`#define SIG_UARTINPUT 1`

idf4: part 2.1 - uplift to new esp_event system events Some parts dry-coded in the disabled modules; to be fixed when sorting out the deprecated/removed APIs used in said modules. Still untested beyond compile/linking. 2021-07-19 09:23:38 +02:00			`// We don't get argument size data from the esp_event dispatch, so it's`
			`// not possible to copy and forward events from the default event queue`
			`// to one running within our task context. To cope with this, we instead`
			`// have to effectively make a blocking inter-task call, by having our`
			`// default loop handler post a nodemcu task event with a pointer to the`
			`// event data, and then block until that task event has been processed.`
			`// This is less elegant than I would like, but trying to run the entire`
			`// LVM in the context of the system default event loop RTOS task is an`
			`// even worse idea, so here we are.`
			`typedef struct {`
			`esp_event_base_t event_base;`
			`int32_t event_id;`
			`void *event_data;`
			`} relayed_event_t;`
			`static task_handle_t relayed_event_task;`
			`static SemaphoreHandle_t relayed_event_handled;`


			`// This function runs in the context of the system default event loop RTOS task`
			`static void relay_default_loop_events(`
			`void arg, esp_event_base_t base, int32_t id, void data)`
Updated to new startup & esp event handling. Modules can now subscribe to ESP system events via the new NODEMCU_ESP_EVENT() macro. See nodemcu_esp_event.h for details. 2016-09-27 10:42:08 +02:00			`{`
idf4: part 2.1 - uplift to new esp_event system events Some parts dry-coded in the disabled modules; to be fixed when sorting out the deprecated/removed APIs used in said modules. Still untested beyond compile/linking. 2021-07-19 09:23:38 +02:00			`(void)arg;`
			`relayed_event_t event = {`
			`.event_base = base,`
			`.event_id = id,`
			`.event_data = data,`
			`};`
			`_Static_assert(sizeof(&event) >= sizeof(task_param_t), "pointer-vs-int");`
			`// Only block if we actually posted the request, otherwise we'll deadlock!`
			`if (task_post_medium(relayed_event_task, (intptr_t)&event))`
			`xSemaphoreTake(relayed_event_handled, portMAX_DELAY);`
			`else`
			`printf("ERROR: failed to forward esp event %s/%d", base, id);`
Updated to new startup & esp event handling. Modules can now subscribe to ESP system events via the new NODEMCU_ESP_EVENT() macro. See nodemcu_esp_event.h for details. 2016-09-27 10:42:08 +02:00			`}`


idf4: part 2.1 - uplift to new esp_event system events Some parts dry-coded in the disabled modules; to be fixed when sorting out the deprecated/removed APIs used in said modules. Still untested beyond compile/linking. 2021-07-19 09:23:38 +02:00			`static void handle_default_loop_event(task_param_t param, task_prio_t prio)`
Updated to new startup & esp event handling. Modules can now subscribe to ESP system events via the new NODEMCU_ESP_EVENT() macro. See nodemcu_esp_event.h for details. 2016-09-27 10:42:08 +02:00			`{`
			`(void)prio;`
idf4: part 2.1 - uplift to new esp_event system events Some parts dry-coded in the disabled modules; to be fixed when sorting out the deprecated/removed APIs used in said modules. Still untested beyond compile/linking. 2021-07-19 09:23:38 +02:00			`const relayed_event_t event = (const relayed_event_t )param;`
Updated to new startup & esp event handling. Modules can now subscribe to ESP system events via the new NODEMCU_ESP_EVENT() macro. See nodemcu_esp_event.h for details. 2016-09-27 10:42:08 +02:00
idf4: part 2.1 - uplift to new esp_event system events Some parts dry-coded in the disabled modules; to be fixed when sorting out the deprecated/removed APIs used in said modules. Still untested beyond compile/linking. 2021-07-19 09:23:38 +02:00			`nodemcu_esp_event_reg_t *evregs = &_esp_event_cb_table_start;`
			`for (; evregs < &_esp_event_cb_table_end; ++evregs)`
Updated to new startup & esp event handling. Modules can now subscribe to ESP system events via the new NODEMCU_ESP_EVENT() macro. See nodemcu_esp_event.h for details. 2016-09-27 10:42:08 +02:00			`{`
idf4: part 2.1 - uplift to new esp_event system events Some parts dry-coded in the disabled modules; to be fixed when sorting out the deprecated/removed APIs used in said modules. Still untested beyond compile/linking. 2021-07-19 09:23:38 +02:00			`bool event_base_match =`
			`(evregs->event_base_ptr == NULL) \|\| // ESP_EVENT_ANY_BASE marker`
			`(*evregs->event_base_ptr == event->event_base);`
			`bool event_id_match =`
			`(evregs->event_id == event->event_id) \|\|`
			`(evregs->event_id == ESP_EVENT_ANY_ID);`

			`if (event_base_match && event_id_match)`
			`evregs->callback(event->event_base, event->event_id, event->event_data);`
Updated to new startup & esp event handling. Modules can now subscribe to ESP system events via the new NODEMCU_ESP_EVENT() macro. See nodemcu_esp_event.h for details. 2016-09-27 10:42:08 +02:00			`}`
idf4: part 2.1 - uplift to new esp_event system events Some parts dry-coded in the disabled modules; to be fixed when sorting out the deprecated/removed APIs used in said modules. Still untested beyond compile/linking. 2021-07-19 09:23:38 +02:00			`xSemaphoreGive(relayed_event_handled);`
Updated to new startup & esp event handling. Modules can now subscribe to ESP system events via the new NODEMCU_ESP_EVENT() macro. See nodemcu_esp_event.h for details. 2016-09-27 10:42:08 +02:00			`}`


WIP ESP32 IDF port. Currently the UART driver break boot (or at least output). 2016-09-16 10:10:18 +02:00			`// +================== New task interface ==================+`
Prevent UART/startup race ala 1517. We're already in the right context, there is no point posting back the Lua start, we can do it right then and there instead. 2016-10-03 04:05:17 +02:00			`static void start_lua ()`
			`{`
WIP ESP32 IDF port. Currently the UART driver break boot (or at least output). 2016-09-16 10:10:18 +02:00			`NODE_DBG("Task task_lua started.\n");`
Discard old console driver. The IDF provides all we need these days, and the old driver was just needlessly conflicting with the IDF settings and setup. This also simplifies our uart input path as we no longer need to duplicate the raw byte handling for when "run_input" is false. 2021-08-23 15:00:54 +02:00			`if (lua_main()) // If it returns true then LFS restart is needed`
			`lua_main();`
WIP ESP32 IDF port. Currently the UART driver break boot (or at least output). 2016-09-16 10:10:18 +02:00			`}`

			`void nodemcu_init(void)`
			`{`
			`NODE_ERR("\n");`
			`// Initialize platform first for lua modules.`
			`if( platform_init() != PLATFORM_OK )`
			`{`
			`// This should never happen`
			`NODE_DBG("Can not init platform for modules.\n");`
			`return;`
			`}`

idf4: overhaul to new build system, part 1 of 3 Yet to come: - part 2: dealing with deprecated and removed APIs - part 3: making it actually work again 2021-07-15 08:25:25 +02:00			`#if defined ( CONFIG_NODEMCU_BUILD_SPIFFS )`
Improved flash-size auto-detection. No longer limited to the default 2MB. 2016-09-23 09:39:06 +02:00			`// This can take a while, so be nice and provide some feedback while waiting`
			`printf ("Mounting flash filesystem...\n");`
Grabbed latest spiffs + vfs layer from dev branch. Also included the recent LVM fix. Platform flash layer not yet functional. 2016-09-21 09:51:50 +02:00			`if (!vfs_mount("/FLASH", 0)) {`
			`// Failed to mount -- try reformat`
			`NODE_ERR("Formatting file system. Please wait...\n");`
SPIFFS partition support, file module from dev. Now uses the designated partition (type 0xC2, 0x00) unconditionally. 2016-09-22 09:18:22 +02:00			`if (!vfs_format()) {`
Grabbed latest spiffs + vfs layer from dev branch. Also included the recent LVM fix. Platform flash layer not yet functional. 2016-09-21 09:51:50 +02:00			`NODE_ERR( "* ERROR *: unable to format. FS might be compromised.\n" );`
			`NODE_ERR( "It is advised to re-flash the NodeMCU image.\n" );`
			`}`
			`// Note that fs_format leaves the file system mounted`
			`}`
WIP ESP32 IDF port. Currently the UART driver break boot (or at least output). 2016-09-16 10:10:18 +02:00			`#endif`
			`}`


idf4: part 2.1 - uplift to new esp_event system events Some parts dry-coded in the disabled modules; to be fixed when sorting out the deprecated/removed APIs used in said modules. Still untested beyond compile/linking. 2021-07-19 09:23:38 +02:00			`void __attribute__((noreturn)) app_main(void)`
WIP ESP32 IDF port. Currently the UART driver break boot (or at least output). 2016-09-16 10:10:18 +02:00			`{`
Fix net module data loss & RTOS task unsafety (#2829) To avoid races between the lwIP callbacks (lwIP RTOS task) and the Lua handlers (LVM RTOS task), the data flow and ownership has been simplified and cleaned up. lwIP callbacks now have no visibility of the userdata struct. They are limited to creating small event objects and task_post()ing them over to the LVM "thread", passing ownership in doing so. The shared identifier then becomes the struct netconn*. On the LVM side, we keep a linked list of active userdata objects. This allows us to retrieve the correct userdata when we get an event with a netconn pointer. Because this list is only ever used within the LVM task, no locking is necessary. The old approach of stashing a userdata pointer into the 'socket' field on the netconn has been removed entirely, as this was both not thread/RTOS-task safe, and also interfered with the IDFs internal use of the socket field (even when using only the netconn layer). As an added benefit, this removed the need for all the SYS_ARCH_PROTECT() locking stuff. The need to track receive events before the corresponding userdata object has been established has been removed by virtue of not reordering the "accept" and the "recv" events any more (previously accepts were posted with medium priority, while the receives where high priority, leading to the observed reordering and associated headaches). The workaround for IDF issue 784 has been removed as it is now not needed and is in fact directly harmful as it results in a double-free. Yay for getting rid of old workarounds! DNS resolution code paths were merged for the two instances of "socket" initiated resolves (connect/dns functions). Also fixed an instance of using a stack variable for receiving the resolved IP address, with said variable going out of scope before the DNS resolution necessarily completed (hello, memory corruption!). Where possible, moved to use the Lua allocator rather than plain malloc. Finally, the NodeMCU task posting mechanism got a polish and an adjustment. Given all the Bad(tm) that tends to happen if something fails task posting, I went through a couple of iterations on how to avoid that. Alas, the preferred solution of blocking non-LVM RTOS tasks until a slot is free turned out to not be viable, as this easily resulted in deadlocks with the lwIP stack. After much deliberation I settled on increasing the number of available queue slots for the task_post() mechanism, but in the interest of user control also now made it user configurable via Kconfig. 2019-07-14 23:20:20 +02:00			`task_init();`

idf4: part 2.1 - uplift to new esp_event system events Some parts dry-coded in the disabled modules; to be fixed when sorting out the deprecated/removed APIs used in said modules. Still untested beyond compile/linking. 2021-07-19 09:23:38 +02:00			`relayed_event_handled = xSemaphoreCreateBinary();`
			`relayed_event_task = task_get_id(handle_default_loop_event);`

			`esp_event_loop_create_default();`
			`esp_event_handler_register(`
			`ESP_EVENT_ANY_BASE,`
			`ESP_EVENT_ANY_ID,`
			`relay_default_loop_events,`
			`NULL);`
Fix bthci compilation issue (#3201) Manifests as multiple definition of esp_event_send during compilation, as bthci triggers inclusion of `event_loop.c`. Also improved lbth_init() to support BTDM or BLE_ONLY controller modes. 2020-08-03 13:39:42 +02:00
Discard old console driver. The IDF provides all we need these days, and the old driver was just needlessly conflicting with the IDF settings and setup. This also simplifies our uart input path as we no longer need to duplicate the raw byte handling for when "run_input" is false. 2021-08-23 15:00:54 +02:00			`platform_uart_start(CONFIG_ESP_CONSOLE_UART_NUM);`
Set stdout to unbuffered (#2508) * Set stdout to unbuffered This fixes issue #2507 esp32 serial console doesn't show output until enter pressed. * Moved setvbuf call to app_main immediately after console_init 2018-10-07 21:40:49 +02:00			`setvbuf(stdout, NULL, _IONBF, 0);`
WIP ESP32 IDF port. Currently the UART driver break boot (or at least output). 2016-09-16 10:10:18 +02:00
Updated to new startup & esp event handling. Modules can now subscribe to ESP system events via the new NODEMCU_ESP_EVENT() macro. See nodemcu_esp_event.h for details. 2016-09-27 10:42:08 +02:00			`nodemcu_init ();`
Successfully boot barebones NodeMCU on ESP32 (only). RTOS driver evicted as it did not play nice with stdio etc. Implemented a minimal driver to fully support Lua console on UART0. Output on UART0 done via stdout (provided by the IDF). Input and setup handled via driver_console/console.c. In addition to the direct input function console_getc(), the driver also registers in the syscall tables to enable regular stdio input functions to work (yay!). The Lua VM is still using the direct interface since it's less overhead, but does also work when going through stdin/fd 0. Auto-bauding on the console is not yet functional; revisit when the UART docs are available. Module registration/linking/enabling moved over to be Kconfig based. See updates to base_nodemcu/include/module.h and base_nodemcu/Kconfig for details. The sdk-overrides directory/approach is no longer used. The IDF is simply too different to the old RTOS SDK - we need to adapt our code directly instead. Everything in app/ is now unused, and will need to be gradually migrated into components/ though it is probably better to migrate straight from the latest dev branch. 2016-09-20 05:35:56 +02:00
Updated to latest IDF. 2016-09-28 09:57:00 +02:00			`nvs_flash_init ();`
idf4: overhaul to new build system, part 1 of 3 Yet to come: - part 2: dealing with deprecated and removed APIs - part 3: making it actually work again 2021-07-15 08:25:25 +02:00			`esp_netif_init ();`
WIP ESP32 IDF port. Currently the UART driver break boot (or at least output). 2016-09-16 10:10:18 +02:00
Prevent UART/startup race ala 1517. We're already in the right context, there is no point posting back the Lua start, we can do it right then and there instead. 2016-10-03 04:05:17 +02:00			`start_lua ();`
Updated to new startup & esp event handling. Modules can now subscribe to ESP system events via the new NODEMCU_ESP_EVENT() macro. See nodemcu_esp_event.h for details. 2016-09-27 10:42:08 +02:00			`task_pump_messages ();`
			`__builtin_unreachable ();`
WIP ESP32 IDF port. Currently the UART driver break boot (or at least output). 2016-09-16 10:10:18 +02:00			`}`