ESP-NETIF Custom I/O Driver

This section outlines implementing a new I/O driver with esp-netif connection capabilities. By convention the I/O driver has to register itself as an esp-netif driver and thus holds a dependency on esp-netif component and is responsible for providing data path functions, post-attach callback and in most cases also default event handlers to define network interface actions based on driver's lifecycle transitions.

Packet input/output

As shown in the diagram, the following three API functions for the packet data path must be defined for connecting with esp-netif:

The first two functions for transmitting and freeing the rx buffer are provided as callbacks, i.e. they get called from esp-netif (and its underlying TCP/IP stack) and I/O driver provides their implementation.

The receiving function on the other hand gets called from the I/O driver, so that the driver's code simply calls esp_netif_receive() on a new data received event.

Post attach callback

A final part of the network interface initialization consists of attaching the esp-netif instance to the I/O driver, by means of calling the following API:

esp_err_t esp_netif_attach(esp_netif_t *esp_netif, esp_netif_iodriver_handle driver_handle);

It is assumed that the esp_netif_iodriver_handle is a pointer to driver's object, a struct derived from struct esp_netif_driver_base_s, so that the first member of I/O driver structure must be this base structure with pointers to

  • post-attach function callback

  • related esp-netif instance

As a consequence the I/O driver has to create an instance of the struct per below:

typedef struct my_netif_driver_s {
        esp_netif_driver_base_t base;           /*!< base structure reserved as esp-netif driver */
        driver_impl             *h;             /*!< handle of driver implementation */
    } my_netif_driver_t;

with actual values of my_netif_driver_t::base.post_attach and the actual drivers handle my_netif_driver_t::h. So when the esp_netif_attach() gets called from the initialization code, the post-attach callback from I/O driver's code gets executed to mutually register callbacks between esp-netif and I/O driver instances. Typically the driver is started as well in the post-attach callback. An example of a simple post-attach callback is outlined below:

static esp_err_t my_post_attach_start(esp_netif_t * esp_netif, void * args)
{
    my_netif_driver_t *driver = args;
    const esp_netif_driver_ifconfig_t driver_ifconfig = {
            .driver_free_rx_buffer = my_free_rx_buf,
            .transmit = my_transmit,
            .handle = driver->driver_impl
    };
    driver->base.netif = esp_netif;
    ESP_ERROR_CHECK(esp_netif_set_driver_config(esp_netif, &driver_ifconfig));
    my_driver_start(driver->driver_impl);
    return ESP_OK;
}

Default handlers

I/O drivers also typically provide default definitions of lifecycle behaviour of related network interfaces based on state transitions of I/O drivers. For example driver start -> network start, etc. An example of such a default handler is provided below:

esp_err_t my_driver_netif_set_default_handlers(my_netif_driver_t *driver, esp_netif_t * esp_netif)
{
    driver_set_event_handler(driver->driver_impl, esp_netif_action_start, MY_DRV_EVENT_START, esp_netif);
    driver_set_event_handler(driver->driver_impl, esp_netif_action_stop, MY_DRV_EVENT_STOP, esp_netif);
    return ESP_OK;
}

Network stack connection

The packet data path functions for transmitting and freeing the rx buffer (defined in the I/O driver) are called from the esp-netif, specifically from its TCP/IP stack connecting layer.

Note, that IDF provides several network stack configurations for the most common network interfaces, such as for the WiFi station or Ethernet. These configurations are defined in esp_netif/include/esp_netif_defaults.h and should be sufficient for most network drivers. (In rare cases, expert users might want to define custom lwIP based interface layers; it is possible, but an explicit dependency to lwIP needs to be set)

The following API reference outlines these network stack interaction with the esp-netif:

Header File

Functions

esp_netif_t *esp_netif_get_handle_from_netif_impl(void *dev)

Returns esp-netif handle.

参数

dev -- [in] opaque ptr to network interface of specific TCP/IP stack

返回

handle to related esp-netif instance

void *esp_netif_get_netif_impl(esp_netif_t *esp_netif)

Returns network stack specific implementation handle (if supported)

Note that it is not supported to acquire PPP netif impl pointer and this function will return NULL for esp_netif instances configured to PPP mode

参数

esp_netif -- [in] Handle to esp-netif instance

返回

handle to related network stack netif handle

Set link-speed for the specified network interface.

参数
  • esp_netif -- [in] Handle to esp-netif instance

  • speed -- [in] Link speed in bit/s

返回

ESP_OK on success

esp_err_t esp_netif_transmit(esp_netif_t *esp_netif, void *data, size_t len)

Outputs packets from the TCP/IP stack to the media to be transmitted.

This function gets called from network stack to output packets to IO driver.

参数
  • esp_netif -- [in] Handle to esp-netif instance

  • data -- [in] Data to be transmitted

  • len -- [in] Length of the data frame

返回

ESP_OK on success, an error passed from the I/O driver otherwise

esp_err_t esp_netif_transmit_wrap(esp_netif_t *esp_netif, void *data, size_t len, void *netstack_buf)

Outputs packets from the TCP/IP stack to the media to be transmitted.

This function gets called from network stack to output packets to IO driver.

参数
  • esp_netif -- [in] Handle to esp-netif instance

  • data -- [in] Data to be transmitted

  • len -- [in] Length of the data frame

  • netstack_buf -- [in] net stack buffer

返回

ESP_OK on success, an error passed from the I/O driver otherwise

void esp_netif_free_rx_buffer(void *esp_netif, void *buffer)

Free the rx buffer allocated by the media driver.

This function gets called from network stack when the rx buffer to be freed in IO driver context, i.e. to deallocate a buffer owned by io driver (when data packets were passed to higher levels to avoid copying)

参数
  • esp_netif -- [in] Handle to esp-netif instance

  • buffer -- [in] Rx buffer pointer