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ESP8266Interface.cpp
913 lines (757 loc) · 25.7 KB
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ESP8266Interface.cpp
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/* ESP8266 implementation of NetworkInterfaceAPI
* Copyright (c) 2015 ARM Limited
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#if DEVICE_SERIAL && DEVICE_INTERRUPTIN && defined(MBED_CONF_EVENTS_PRESENT) && defined(MBED_CONF_NSAPI_PRESENT) && defined(MBED_CONF_RTOS_PRESENT)
#include <string.h>
#include <stdint.h>
#include "ESP8266.h"
#include "ESP8266Interface.h"
#include "events/EventQueue.h"
#include "events/mbed_shared_queues.h"
#include "features/netsocket/nsapi_types.h"
#include "mbed_trace.h"
#include "platform/Callback.h"
#include "platform/mbed_critical.h"
#include "platform/mbed_debug.h"
#include "platform/mbed_wait_api.h"
#ifndef MBED_CONF_ESP8266_DEBUG
#define MBED_CONF_ESP8266_DEBUG false
#endif
#ifndef MBED_CONF_ESP8266_RTS
#define MBED_CONF_ESP8266_RTS NC
#endif
#ifndef MBED_CONF_ESP8266_CTS
#define MBED_CONF_ESP8266_CTS NC
#endif
#ifndef MBED_CONF_ESP8266_RST
#define MBED_CONF_ESP8266_RST NC
#endif
#define TRACE_GROUP "ESPI" // ESP8266 Interface
using namespace mbed;
#if defined MBED_CONF_ESP8266_TX && defined MBED_CONF_ESP8266_RX
ESP8266Interface::ESP8266Interface()
: _esp(MBED_CONF_ESP8266_TX, MBED_CONF_ESP8266_RX, MBED_CONF_ESP8266_DEBUG, MBED_CONF_ESP8266_RTS, MBED_CONF_ESP8266_CTS),
_rst_pin(MBED_CONF_ESP8266_RST), // Notice that Pin7 CH_EN cannot be left floating if used as reset
_ap_sec(NSAPI_SECURITY_UNKNOWN),
_if_blocking(true),
_if_connected(_cmutex),
_initialized(false),
_connect_retval(NSAPI_ERROR_OK),
_conn_stat(NSAPI_STATUS_DISCONNECTED),
_conn_stat_cb(NULL),
_global_event_queue(mbed_event_queue()), // Needs to be set before attaching event() to SIGIO
_oob_event_id(0),
_connect_event_id(0)
{
memset(_cbs, 0, sizeof(_cbs));
memset(ap_ssid, 0, sizeof(ap_ssid));
memset(ap_pass, 0, sizeof(ap_pass));
_ch_info.track_ap = true;
strncpy(_ch_info.country_code, MBED_CONF_ESP8266_COUNTRY_CODE, sizeof(_ch_info.country_code));
_ch_info.channel_start = MBED_CONF_ESP8266_CHANNEL_START;
_ch_info.channels = MBED_CONF_ESP8266_CHANNELS;
_esp.sigio(this, &ESP8266Interface::event);
_esp.set_timeout();
_esp.attach(this, &ESP8266Interface::refresh_conn_state_cb);
for (int i = 0; i < ESP8266_SOCKET_COUNT; i++) {
_sock_i[i].open = false;
_sock_i[i].sport = 0;
}
}
#endif
// ESP8266Interface implementation
ESP8266Interface::ESP8266Interface(PinName tx, PinName rx, bool debug, PinName rts, PinName cts, PinName rst)
: _esp(tx, rx, debug, rts, cts),
_rst_pin(rst),
_ap_sec(NSAPI_SECURITY_UNKNOWN),
_if_blocking(true),
_if_connected(_cmutex),
_initialized(false),
_conn_stat(NSAPI_STATUS_DISCONNECTED),
_conn_stat_cb(NULL),
_global_event_queue(mbed_event_queue()), // Needs to be set before attaching event() to SIGIO
_oob_event_id(0),
_connect_event_id(0)
{
memset(_cbs, 0, sizeof(_cbs));
memset(ap_ssid, 0, sizeof(ap_ssid));
memset(ap_pass, 0, sizeof(ap_pass));
_ch_info.track_ap = true;
strncpy(_ch_info.country_code, MBED_CONF_ESP8266_COUNTRY_CODE, sizeof(_ch_info.country_code));
_ch_info.channel_start = MBED_CONF_ESP8266_CHANNEL_START;
_ch_info.channels = MBED_CONF_ESP8266_CHANNELS;
_esp.sigio(this, &ESP8266Interface::event);
_esp.set_timeout();
_esp.attach(this, &ESP8266Interface::refresh_conn_state_cb);
for (int i = 0; i < ESP8266_SOCKET_COUNT; i++) {
_sock_i[i].open = false;
_sock_i[i].sport = 0;
}
}
ESP8266Interface::~ESP8266Interface()
{
if (_oob_event_id) {
_global_event_queue->cancel(_oob_event_id);
}
_cmutex.lock();
if (_connect_event_id) {
_global_event_queue->cancel(_connect_event_id);
}
_cmutex.unlock();
// Power down the modem
_rst_pin.rst_assert();
}
ESP8266Interface::ResetPin::ResetPin(PinName rst_pin) : _rst_pin(mbed::DigitalOut(rst_pin, 1))
{
}
void ESP8266Interface::ResetPin::rst_assert()
{
if (_rst_pin.is_connected()) {
_rst_pin = 0;
tr_debug("HW reset asserted");
}
}
void ESP8266Interface::ResetPin::rst_deassert()
{
if (_rst_pin.is_connected()) {
// Notice that Pin7 CH_EN cannot be left floating if used as reset
_rst_pin = 1;
tr_debug("HW reset deasserted");
}
}
bool ESP8266Interface::ResetPin::is_connected()
{
return _rst_pin.is_connected();
}
int ESP8266Interface::connect(const char *ssid, const char *pass, nsapi_security_t security,
uint8_t channel)
{
if (channel != 0) {
return NSAPI_ERROR_UNSUPPORTED;
}
int err = set_credentials(ssid, pass, security);
if (err) {
return err;
}
return connect();
}
void ESP8266Interface::_connect_async()
{
_cmutex.lock();
if (!_connect_event_id) {
tr_debug("_connect_async(): cancelled");
_cmutex.unlock();
return;
}
_connect_retval = _esp.connect(ap_ssid, ap_pass);
int timeleft_ms = ESP8266_INTERFACE_CONNECT_TIMEOUT_MS - _conn_timer.read_ms();
if (_connect_retval == NSAPI_ERROR_OK || _connect_retval == NSAPI_ERROR_AUTH_FAILURE
|| _connect_retval == NSAPI_ERROR_NO_SSID
|| ((_if_blocking == true) && (timeleft_ms <= 0))) {
_connect_event_id = 0;
_conn_timer.stop();
if (timeleft_ms <= 0) {
_connect_retval = NSAPI_ERROR_CONNECTION_TIMEOUT;
}
_if_connected.notify_all();
} else {
// Postpone to give other stuff time to run
_connect_event_id = _global_event_queue->call_in(timeleft_ms, callback(this, &ESP8266Interface::_connect_async));
if (!_connect_event_id) {
MBED_ERROR(MBED_MAKE_ERROR(MBED_MODULE_DRIVER, MBED_ERROR_CODE_ENOMEM), \
"ESP8266Interface::_connect_async(): unable to add event to queue. Increase \"events.shared-eventsize\"\n");
}
}
_cmutex.unlock();
}
int ESP8266Interface::connect()
{
nsapi_error_t status = _conn_status_to_error();
if (status != NSAPI_ERROR_NO_CONNECTION) {
return status;
}
if (strlen(ap_ssid) == 0) {
return NSAPI_ERROR_NO_SSID;
}
if (_ap_sec != NSAPI_SECURITY_NONE) {
if (strlen(ap_pass) < ESP8266_PASSPHRASE_MIN_LENGTH) {
return NSAPI_ERROR_PARAMETER;
}
}
status = _init();
if (status != NSAPI_ERROR_OK) {
return status;
}
if (get_ip_address()) {
return NSAPI_ERROR_IS_CONNECTED;
}
if (!_esp.dhcp(true, 1)) {
return NSAPI_ERROR_DHCP_FAILURE;
}
_cmutex.lock();
_connect_retval = NSAPI_ERROR_NO_CONNECTION;
MBED_ASSERT(!_connect_event_id);
_conn_timer.stop();
_conn_timer.reset();
_conn_timer.start();
_connect_event_id = _global_event_queue->call(callback(this, &ESP8266Interface::_connect_async));
if (!_connect_event_id) {
MBED_ERROR(MBED_MAKE_ERROR(MBED_MODULE_DRIVER, MBED_ERROR_CODE_ENOMEM), \
"connect(): unable to add event to queue. Increase \"events.shared-eventsize\"\n");
}
while (_if_blocking && (_conn_status_to_error() != NSAPI_ERROR_IS_CONNECTED)
&& (_connect_retval == NSAPI_ERROR_NO_CONNECTION)) {
_if_connected.wait();
}
_cmutex.unlock();
if (!_if_blocking) {
return NSAPI_ERROR_OK;
} else {
return _connect_retval;
}
}
int ESP8266Interface::set_credentials(const char *ssid, const char *pass, nsapi_security_t security)
{
nsapi_error_t status = _conn_status_to_error();
if (status != NSAPI_ERROR_NO_CONNECTION) {
return status;
}
_ap_sec = security;
if (!ssid) {
return NSAPI_ERROR_PARAMETER;
}
int ssid_length = strlen(ssid);
if (ssid_length > 0
&& ssid_length <= ESP8266_SSID_MAX_LENGTH) {
memset(ap_ssid, 0, sizeof(ap_ssid));
strncpy(ap_ssid, ssid, sizeof(ap_ssid));
} else {
return NSAPI_ERROR_PARAMETER;
}
if (_ap_sec != NSAPI_SECURITY_NONE) {
if (!pass) {
return NSAPI_ERROR_PARAMETER;
}
int pass_length = strlen(pass);
if (pass_length >= ESP8266_PASSPHRASE_MIN_LENGTH
&& pass_length <= ESP8266_PASSPHRASE_MAX_LENGTH) {
memset(ap_pass, 0, sizeof(ap_pass));
strncpy(ap_pass, pass, sizeof(ap_pass));
} else {
return NSAPI_ERROR_PARAMETER;
}
} else {
memset(ap_pass, 0, sizeof(ap_pass));
}
return NSAPI_ERROR_OK;
}
int ESP8266Interface::set_channel(uint8_t channel)
{
return NSAPI_ERROR_UNSUPPORTED;
}
int ESP8266Interface::disconnect()
{
_cmutex.lock();
if (_connect_event_id) {
_global_event_queue->cancel(_connect_event_id);
_connect_event_id = 0; // cancel asynchronous connection attempt if one is ongoing
}
_cmutex.unlock();
_initialized = false;
nsapi_error_t status = _conn_status_to_error();
if (status == NSAPI_ERROR_NO_CONNECTION) {
return NSAPI_ERROR_NO_CONNECTION;
}
int ret = _esp.disconnect() ? NSAPI_ERROR_OK : NSAPI_ERROR_DEVICE_ERROR;
if (ret == NSAPI_ERROR_OK) {
// Try to lure the nw status update from ESP8266, might come later
_esp.bg_process_oob(ESP8266_RECV_TIMEOUT, true);
// In case the status update arrives later inform upper layers manually
if (_conn_stat != NSAPI_STATUS_DISCONNECTED) {
_conn_stat = NSAPI_STATUS_DISCONNECTED;
if (_conn_stat_cb) {
_conn_stat_cb(NSAPI_EVENT_CONNECTION_STATUS_CHANGE, _conn_stat);
}
}
}
// Power down the modem
_rst_pin.rst_assert();
return ret;
}
const char *ESP8266Interface::get_ip_address()
{
const char *ip_buff = _esp.ip_addr();
if (!ip_buff || strcmp(ip_buff, "0.0.0.0") == 0) {
return NULL;
}
return ip_buff;
}
const char *ESP8266Interface::get_mac_address()
{
return _esp.mac_addr();
}
const char *ESP8266Interface::get_gateway()
{
return _conn_stat != NSAPI_STATUS_DISCONNECTED ? _esp.gateway() : NULL;
}
const char *ESP8266Interface::get_netmask()
{
return _conn_stat != NSAPI_STATUS_DISCONNECTED ? _esp.netmask() : NULL;
}
int8_t ESP8266Interface::get_rssi()
{
return _esp.rssi();
}
int ESP8266Interface::scan(WiFiAccessPoint *res, unsigned count)
{
return scan(res, count, SCANMODE_ACTIVE, 0, 0);
}
int ESP8266Interface::scan(WiFiAccessPoint *res, unsigned count, scan_mode mode, unsigned t_max, unsigned t_min)
{
if (t_max > ESP8266_SCAN_TIME_MAX) {
return NSAPI_ERROR_PARAMETER;
}
if (mode == SCANMODE_ACTIVE && t_min > t_max) {
return NSAPI_ERROR_PARAMETER;
}
nsapi_error_t status = _init();
if (status != NSAPI_ERROR_OK) {
return status;
}
return _esp.scan(res, count, (mode == SCANMODE_ACTIVE ? ESP8266::SCANMODE_ACTIVE : ESP8266::SCANMODE_PASSIVE),
t_min, t_max);
}
bool ESP8266Interface::_get_firmware_ok()
{
ESP8266::fw_at_version at_v = _esp.at_version();
if (at_v.major < ESP8266_AT_VERSION_MAJOR) {
debug("ESP8266: ERROR: AT Firmware v%d incompatible with this driver.", at_v.major);
debug("Update at least to v%d - https://developer.mbed.org/teams/ESP8266/wiki/Firmware-Update\n", ESP8266_AT_VERSION_MAJOR);
MBED_ERROR(MBED_MAKE_ERROR(MBED_MODULE_DRIVER, MBED_ERROR_UNSUPPORTED), "Too old AT firmware");
}
ESP8266::fw_sdk_version sdk_v = _esp.sdk_version();
if (sdk_v.major < ESP8266_SDK_VERSION_MAJOR) {
debug("ESP8266: ERROR: Firmware v%d incompatible with this driver.", sdk_v.major);
debug("Update at least to v%d - https://developer.mbed.org/teams/ESP8266/wiki/Firmware-Update\n", ESP8266_SDK_VERSION_MAJOR);
MBED_ERROR(MBED_MAKE_ERROR(MBED_MODULE_DRIVER, MBED_ERROR_UNSUPPORTED), "Too old SDK firmware");
}
return true;
}
nsapi_error_t ESP8266Interface::_init(void)
{
if (!_initialized) {
if (_reset() != NSAPI_ERROR_OK) {
return NSAPI_ERROR_DEVICE_ERROR;
}
if (!_esp.echo_off()) {
return NSAPI_ERROR_DEVICE_ERROR;
}
if (!_esp.start_uart_hw_flow_ctrl()) {
return NSAPI_ERROR_DEVICE_ERROR;
}
if (!_get_firmware_ok()) {
return NSAPI_ERROR_DEVICE_ERROR;
}
if (!_esp.set_default_wifi_mode(ESP8266::WIFIMODE_STATION)) {
return NSAPI_ERROR_DEVICE_ERROR;
}
if (!_esp.set_country_code_policy(true, _ch_info.country_code, _ch_info.channel_start, _ch_info.channels)) {
return NSAPI_ERROR_DEVICE_ERROR;
}
if (!_esp.cond_enable_tcp_passive_mode()) {
return NSAPI_ERROR_DEVICE_ERROR;
}
if (!_esp.startup(ESP8266::WIFIMODE_STATION)) {
return NSAPI_ERROR_DEVICE_ERROR;
}
_initialized = true;
}
return NSAPI_ERROR_OK;
}
nsapi_error_t ESP8266Interface::_reset()
{
if (_rst_pin.is_connected()) {
_rst_pin.rst_assert();
// If you happen to use Pin7 CH_EN as reset pin, not needed otherwise
// https://www.espressif.com/sites/default/files/documentation/esp8266_hardware_design_guidelines_en.pdf
wait_ms(2); // Documentation says 200 us should have been enough, but experimentation shows that 1ms was not enough
_esp.flush();
_rst_pin.rst_deassert();
} else {
_esp.flush();
if (!_esp.at_available()) {
return NSAPI_ERROR_DEVICE_ERROR;
}
if (!_esp.reset()) {
return NSAPI_ERROR_DEVICE_ERROR;
}
}
return _esp.at_available() ? NSAPI_ERROR_OK : NSAPI_ERROR_DEVICE_ERROR;
}
struct esp8266_socket {
int id;
nsapi_protocol_t proto;
bool connected;
SocketAddress addr;
int keepalive; // TCP
};
int ESP8266Interface::socket_open(void **handle, nsapi_protocol_t proto)
{
// Look for an unused socket
int id = -1;
for (int i = 0; i < ESP8266_SOCKET_COUNT; i++) {
if (!_sock_i[i].open) {
id = i;
_sock_i[i].open = true;
break;
}
}
if (id == -1) {
return NSAPI_ERROR_NO_SOCKET;
}
struct esp8266_socket *socket = new struct esp8266_socket;
if (!socket) {
return NSAPI_ERROR_NO_SOCKET;
}
socket->id = id;
socket->proto = proto;
socket->connected = false;
socket->keepalive = 0;
*handle = socket;
return 0;
}
int ESP8266Interface::socket_close(void *handle)
{
struct esp8266_socket *socket = (struct esp8266_socket *)handle;
int err = 0;
if (!socket) {
return NSAPI_ERROR_NO_SOCKET;
}
if (socket->connected && !_esp.close(socket->id)) {
err = NSAPI_ERROR_DEVICE_ERROR;
}
_cbs[socket->id].callback = NULL;
_cbs[socket->id].data = NULL;
core_util_atomic_store_u8(&_cbs[socket->id].deferred, false);
socket->connected = false;
_sock_i[socket->id].open = false;
_sock_i[socket->id].sport = 0;
delete socket;
return err;
}
int ESP8266Interface::socket_bind(void *handle, const SocketAddress &address)
{
struct esp8266_socket *socket = (struct esp8266_socket *)handle;
if (!socket) {
return NSAPI_ERROR_NO_SOCKET;
}
if (socket->proto == NSAPI_UDP) {
if (address.get_addr().version != NSAPI_UNSPEC) {
return NSAPI_ERROR_UNSUPPORTED;
}
for (int id = 0; id < ESP8266_SOCKET_COUNT; id++) {
if (_sock_i[id].sport == address.get_port() && id != socket->id) { // Port already reserved by another socket
return NSAPI_ERROR_PARAMETER;
} else if (id == socket->id && socket->connected) {
return NSAPI_ERROR_PARAMETER;
}
}
_sock_i[socket->id].sport = address.get_port();
return 0;
}
return NSAPI_ERROR_UNSUPPORTED;
}
int ESP8266Interface::socket_listen(void *handle, int backlog)
{
return NSAPI_ERROR_UNSUPPORTED;
}
int ESP8266Interface::socket_connect(void *handle, const SocketAddress &addr)
{
struct esp8266_socket *socket = (struct esp8266_socket *)handle;
nsapi_error_t ret;
if (!socket) {
return NSAPI_ERROR_NO_SOCKET;
}
if (socket->proto == NSAPI_UDP) {
ret = _esp.open_udp(socket->id, addr.get_ip_address(), addr.get_port(), _sock_i[socket->id].sport);
} else {
ret = _esp.open_tcp(socket->id, addr.get_ip_address(), addr.get_port(), socket->keepalive);
}
socket->connected = (ret == NSAPI_ERROR_OK) ? true : false;
return ret;
}
int ESP8266Interface::socket_accept(void *server, void **socket, SocketAddress *addr)
{
return NSAPI_ERROR_UNSUPPORTED;
}
int ESP8266Interface::socket_send(void *handle, const void *data, unsigned size)
{
nsapi_error_t status;
struct esp8266_socket *socket = (struct esp8266_socket *)handle;
uint8_t expect_false = false;
if (!socket) {
return NSAPI_ERROR_NO_SOCKET;
}
if (!_sock_i[socket->id].open) {
return NSAPI_ERROR_CONNECTION_LOST;
}
if (!size) {
// Firmware limitation
return socket->proto == NSAPI_TCP ? 0 : NSAPI_ERROR_UNSUPPORTED;
}
status = _esp.send(socket->id, data, size);
if (status == NSAPI_ERROR_WOULD_BLOCK
&& socket->proto == NSAPI_TCP
&& core_util_atomic_cas_u8(&_cbs[socket->id].deferred, &expect_false, true)) {
tr_debug("Postponing SIGIO from the device");
if (!_global_event_queue->call_in(50, callback(this, &ESP8266Interface::event_deferred))) {
MBED_ERROR(MBED_MAKE_ERROR(MBED_MODULE_DRIVER, MBED_ERROR_CODE_ENOMEM), \
"socket_send(): unable to add event to queue. Increase \"events.shared-eventsize\"\n");
}
} else if (status == NSAPI_ERROR_WOULD_BLOCK && socket->proto == NSAPI_UDP) {
status = NSAPI_ERROR_DEVICE_ERROR;
}
return status != NSAPI_ERROR_OK ? status : size;
}
int ESP8266Interface::socket_recv(void *handle, void *data, unsigned size)
{
struct esp8266_socket *socket = (struct esp8266_socket *)handle;
if (!socket) {
return NSAPI_ERROR_NO_SOCKET;
}
if (!_sock_i[socket->id].open) {
return NSAPI_ERROR_CONNECTION_LOST;
}
int32_t recv;
if (socket->proto == NSAPI_TCP) {
recv = _esp.recv_tcp(socket->id, data, size);
if (recv <= 0 && recv != NSAPI_ERROR_WOULD_BLOCK) {
socket->connected = false;
}
} else {
recv = _esp.recv_udp(socket->id, data, size);
}
return recv;
}
int ESP8266Interface::socket_sendto(void *handle, const SocketAddress &addr, const void *data, unsigned size)
{
struct esp8266_socket *socket = (struct esp8266_socket *)handle;
if (!socket) {
return NSAPI_ERROR_NO_SOCKET;
}
if ((strcmp(addr.get_ip_address(), "0.0.0.0") == 0) || !addr.get_port()) {
return NSAPI_ERROR_DNS_FAILURE;
}
if (socket->connected && socket->addr != addr) {
if (!_esp.close(socket->id)) {
return NSAPI_ERROR_DEVICE_ERROR;
}
socket->connected = false;
}
if (!socket->connected) {
int err = socket_connect(socket, addr);
if (err < 0) {
return err;
}
socket->addr = addr;
}
return socket_send(socket, data, size);
}
int ESP8266Interface::socket_recvfrom(void *handle, SocketAddress *addr, void *data, unsigned size)
{
struct esp8266_socket *socket = (struct esp8266_socket *)handle;
if (!socket) {
return NSAPI_ERROR_NO_SOCKET;
}
int ret = socket_recv(socket, data, size);
if (ret >= 0 && addr) {
*addr = socket->addr;
}
return ret;
}
void ESP8266Interface::socket_attach(void *handle, void (*callback)(void *), void *data)
{
struct esp8266_socket *socket = (struct esp8266_socket *)handle;
_cbs[socket->id].callback = callback;
_cbs[socket->id].data = data;
}
nsapi_error_t ESP8266Interface::setsockopt(nsapi_socket_t handle, int level,
int optname, const void *optval, unsigned optlen)
{
struct esp8266_socket *socket = (struct esp8266_socket *)handle;
if (!optlen) {
return NSAPI_ERROR_PARAMETER;
} else if (!socket) {
return NSAPI_ERROR_NO_SOCKET;
}
if (level == NSAPI_SOCKET && socket->proto == NSAPI_TCP) {
switch (optname) {
case NSAPI_KEEPALIVE: {
if (socket->connected) { // ESP8266 limitation, keepalive needs to be given before connecting
return NSAPI_ERROR_UNSUPPORTED;
}
if (optlen == sizeof(int)) {
int secs = *(int *)optval;
if (secs >= 0 && secs <= 7200) {
socket->keepalive = secs;
return NSAPI_ERROR_OK;
}
}
return NSAPI_ERROR_PARAMETER;
}
}
}
return NSAPI_ERROR_UNSUPPORTED;
}
nsapi_error_t ESP8266Interface::getsockopt(nsapi_socket_t handle, int level, int optname, void *optval, unsigned *optlen)
{
struct esp8266_socket *socket = (struct esp8266_socket *)handle;
if (!optval || !optlen) {
return NSAPI_ERROR_PARAMETER;
} else if (!socket) {
return NSAPI_ERROR_NO_SOCKET;
}
if (level == NSAPI_SOCKET && socket->proto == NSAPI_TCP) {
switch (optname) {
case NSAPI_KEEPALIVE: {
if (*optlen > sizeof(int)) {
*optlen = sizeof(int);
}
memcpy(optval, &(socket->keepalive), *optlen);
return NSAPI_ERROR_OK;
}
}
}
return NSAPI_ERROR_UNSUPPORTED;
}
void ESP8266Interface::event()
{
if (!_oob_event_id) {
// Throttles event creation by using arbitrary small delay
_oob_event_id = _global_event_queue->call_in(50, callback(this, &ESP8266Interface::proc_oob_evnt));
if (!_oob_event_id) {
MBED_ERROR(MBED_MAKE_ERROR(MBED_MODULE_DRIVER, MBED_ERROR_CODE_ENOMEM), \
"ESP8266Interface::event(): unable to add event to queue. Increase \"events.shared-eventsize\"\n");
}
}
for (int i = 0; i < ESP8266_SOCKET_COUNT; i++) {
if (_cbs[i].callback) {
_cbs[i].callback(_cbs[i].data);
}
}
}
void ESP8266Interface::event_deferred()
{
for (int i = 0; i < ESP8266_SOCKET_COUNT; i++) {
uint8_t expect_true = true;
if (core_util_atomic_cas_u8(&_cbs[i].deferred, &expect_true, false) && _cbs[i].callback) {
_cbs[i].callback(_cbs[i].data);
}
}
}
void ESP8266Interface::attach(Callback<void(nsapi_event_t, intptr_t)> status_cb)
{
_conn_stat_cb = status_cb;
}
nsapi_connection_status_t ESP8266Interface::get_connection_status() const
{
return _conn_stat;
}
#if MBED_CONF_ESP8266_PROVIDE_DEFAULT
WiFiInterface *WiFiInterface::get_default_instance()
{
static ESP8266Interface esp;
return &esp;
}
#endif
void ESP8266Interface::refresh_conn_state_cb()
{
nsapi_connection_status_t prev_stat = _conn_stat;
_conn_stat = _esp.connection_status();
switch (_conn_stat) {
// Doesn't require changes
case NSAPI_STATUS_CONNECTING:
case NSAPI_STATUS_GLOBAL_UP:
break;
// Start from scratch if connection drops/is dropped
case NSAPI_STATUS_DISCONNECTED:
break;
// Handled on AT layer
case NSAPI_STATUS_LOCAL_UP:
case NSAPI_STATUS_ERROR_UNSUPPORTED:
default:
_initialized = false;
_conn_stat = NSAPI_STATUS_DISCONNECTED;
for (int i = 0; i < ESP8266_SOCKET_COUNT; i++) {
_sock_i[i].open = false;
_sock_i[i].sport = 0;
}
}
if (prev_stat == _conn_stat) {
return;
}
tr_debug("refresh_conn_state_cb(): changed to %d", _conn_stat);
// Inform upper layers
if (_conn_stat_cb) {
_conn_stat_cb(NSAPI_EVENT_CONNECTION_STATUS_CHANGE, _conn_stat);
}
}
void ESP8266Interface::proc_oob_evnt()
{
_oob_event_id = 0; // Allows creation of a new event
_esp.bg_process_oob(ESP8266_RECV_TIMEOUT, true);
}
nsapi_error_t ESP8266Interface::_conn_status_to_error()
{
nsapi_error_t ret;
_esp.bg_process_oob(ESP8266_RECV_TIMEOUT, true);
switch (_conn_stat) {
case NSAPI_STATUS_DISCONNECTED:
ret = NSAPI_ERROR_NO_CONNECTION;
break;
case NSAPI_STATUS_CONNECTING:
ret = NSAPI_ERROR_ALREADY;
break;
case NSAPI_STATUS_GLOBAL_UP:
ret = NSAPI_ERROR_IS_CONNECTED;
break;
default:
ret = NSAPI_ERROR_DEVICE_ERROR;
}
return ret;
}
nsapi_error_t ESP8266Interface::set_blocking(bool blocking)
{
_if_blocking = blocking;
return NSAPI_ERROR_OK;
}
nsapi_error_t ESP8266Interface::set_country_code(bool track_ap, const char *country_code, int len, int channel_start, int channels)
{
for (int i = 0; i < len; i++) {
// Validation done by firmware
if (!country_code[i]) {
tr_warning("invalid country code");
return NSAPI_ERROR_PARAMETER;
}
}
_ch_info.track_ap = track_ap;
// Firmware takes only first three characters
strncpy(_ch_info.country_code, country_code, sizeof(_ch_info.country_code));
_ch_info.country_code[sizeof(_ch_info.country_code) - 1] = '\0';
_ch_info.channel_start = channel_start;
_ch_info.channels = channels;
return NSAPI_ERROR_OK;
}
#endif