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zephyr/drivers/wifi/simplelink/simplelink.c
Gil Pitney 7f956a9353 drivers: wifi: simplelink: add timeout for fast connect feature 
The SimpleLink wifi driver enables the Fast Connect method of
WiFi provisioning, which allows the network coprocessor to
reconnect to a previously connected Access Point (AP) on
startup.

Previously, if Fast Connect failed to connect, any network
socket applications would inevitably fail, as there would have
been no wifi connection.

This patch adds a configurable timeout for the Fast Connect
feature, after which timeout, an error is logged informing
the user to manually reconnect to an AP.

Reconnection is typically accomplished by separately running the
wifi sample shell program.

Fixes: #11889

Signed-off-by: Gil Pitney <gil.pitney@linaro.org>
2019-01-18 12:32:59 +02:00

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/**
* Copyright (c) 2018 Texas Instruments, Incorporated
*
* SPDX-License-Identifier: Apache-2.0
*/
#include "simplelink_log.h"
LOG_MODULE_REGISTER(LOG_MODULE_NAME);
#include <zephyr.h>
#include <kernel.h>
#include <device.h>
#include <net/net_if.h>
#include <net/wifi_mgmt.h>
#include <net/net_offload.h>
#ifdef CONFIG_NET_SOCKETS_OFFLOAD
#include <net/socket_offload.h>
#endif
#include <ti/drivers/net/wifi/wlan.h>
#include "simplelink_support.h"
#include "simplelink_sockets.h"
#define SCAN_RETRY_DELAY 2000 /* ms */
#define FC_TIMEOUT K_SECONDS(CONFIG_WIFI_SIMPLELINK_FAST_CONNECT_TIMEOUT)
struct simplelink_data {
struct net_if *iface;
unsigned char mac[6];
/* Fields for scan API to emulate an asynchronous scan: */
struct k_delayed_work work;
scan_result_cb_t cb;
int num_results_or_err;
int scan_retries;
bool initialized;
};
static struct simplelink_data simplelink_data;
static K_SEM_DEFINE(ip_acquired, 0, 1);
/* Handle connection events from the SimpleLink Event Handlers: */
static void simplelink_wifi_cb(u32_t event, struct sl_connect_state *conn)
{
struct in_addr addr;
struct in_addr gwaddr;
int status;
/*
* Once Zephyr wifi_mgmt wifi_status codes are defined, will need
* to map from SimpleLink error codes. For now, just return -EIO.
*/
status = (conn->error ? -EIO : 0);
switch (event) {
case SL_WLAN_EVENT_CONNECT:
/* Only get this event if connect succeeds: */
wifi_mgmt_raise_connect_result_event(simplelink_data.iface,
status);
break;
case SL_WLAN_EVENT_DISCONNECT:
/* Could be during a connect, disconnect, or async error: */
wifi_mgmt_raise_disconnect_result_event(simplelink_data.iface,
status);
break;
case SIMPLELINK_WIFI_CB_IPACQUIRED:
addr.s_addr = htonl(conn->ip_addr);
gwaddr.s_addr = htonl(conn->gateway_ip);
net_if_ipv4_set_gw(simplelink_data.iface, &gwaddr);
net_if_ipv4_addr_add(simplelink_data.iface, &addr,
NET_ADDR_DHCP, 0);
if (!simplelink_data.initialized) {
simplelink_data.initialized = true;
k_sem_give(&ip_acquired);
}
break;
default:
LOG_DBG("Unrecognized mgmt event: 0x%x", event);
break;
}
}
static void simplelink_scan_work_handler(struct k_work *work)
{
if (simplelink_data.num_results_or_err > 0) {
int index = 0;
struct wifi_scan_result scan_result;
/* Iterate over the table, and call the scan_result callback. */
while (index < simplelink_data.num_results_or_err) {
_simplelink_get_scan_result(index, &scan_result);
simplelink_data.cb(simplelink_data.iface, 0,
&scan_result);
/* Yield, to ensure notifications get delivered: */
k_yield();
index++;
}
/* Sending a NULL entry indicates e/o results, and
* triggers the NET_EVENT_WIFI_SCAN_DONE event:
*/
simplelink_data.cb(simplelink_data.iface, 0, NULL);
} else if ((simplelink_data.num_results_or_err ==
SL_ERROR_WLAN_GET_NETWORK_LIST_EAGAIN) &&
(simplelink_data.scan_retries++ <
CONFIG_WIFI_SIMPLELINK_MAX_SCAN_RETRIES)) {
s32_t delay;
/* Try again: */
simplelink_data.num_results_or_err = _simplelink_start_scan();
simplelink_data.scan_retries++;
delay = (simplelink_data.num_results_or_err > 0 ? 0 :
SCAN_RETRY_DELAY);
if (delay > 0) {
LOG_DBG("Retrying scan...");
}
k_delayed_work_submit(&simplelink_data.work, delay);
} else {
/* Encountered an error, or max retries exceeded: */
LOG_ERR("Scan failed: retries: %d; err: %d",
simplelink_data.scan_retries,
simplelink_data.num_results_or_err);
simplelink_data.cb(simplelink_data.iface, -EIO, NULL);
}
}
static int simplelink_mgmt_scan(struct device *dev, scan_result_cb_t cb)
{
int err;
int status;
/* Cancel any previous scan processing in progress: */
k_delayed_work_cancel(&simplelink_data.work);
/* "Request" the scan: */
err = _simplelink_start_scan();
/* Now, launch a delayed work handler to do retries and reporting.
* Indicate (to the work handler) either a positive number of results
* already returned, or indicate a retry is required:
*/
if ((err > 0) || (err == SL_ERROR_WLAN_GET_NETWORK_LIST_EAGAIN)) {
s32_t delay = (err > 0 ? 0 : SCAN_RETRY_DELAY);
/* Store for later reference by delayed work handler: */
simplelink_data.cb = cb;
simplelink_data.num_results_or_err = err;
simplelink_data.scan_retries = 0;
k_delayed_work_submit(&simplelink_data.work, delay);
status = 0;
} else {
status = -EIO;
}
return status;
}
static int simplelink_mgmt_connect(struct device *dev,
struct wifi_connect_req_params *params)
{
int ret;
ret = _simplelink_connect(params);
return ret ? -EIO : ret;
}
static int simplelink_mgmt_disconnect(struct device *dev)
{
int ret;
ret = _simplelink_disconnect();
return ret ? -EIO : ret;
}
static int simplelink_dummy_get(sa_family_t family,
enum net_sock_type type,
enum net_ip_protocol ip_proto,
struct net_context **context)
{
LOG_ERR("NET_SOCKET_OFFLOAD must be configured for this driver");
return -1;
}
/* Placeholders, until Zepyr IP stack updated to handle a NULL net_offload */
static struct net_offload simplelink_offload = {
.get = simplelink_dummy_get,
.bind = NULL,
.listen = NULL,
.connect = NULL,
.accept = NULL,
.send = NULL,
.sendto = NULL,
.recv = NULL,
.put = NULL,
};
static void simplelink_iface_init(struct net_if *iface)
{
int ret;
simplelink_data.iface = iface;
/* Direct socket offload used instead of net offload: */
iface->if_dev->offload = &simplelink_offload;
/* Initialize and configure NWP to defaults: */
ret = _simplelink_init(simplelink_wifi_cb);
if (ret) {
LOG_ERR("_simplelink_init failed!");
return;
}
ret = k_sem_take(&ip_acquired, FC_TIMEOUT);
if (ret < 0) {
simplelink_data.initialized = false;
LOG_ERR("FastConnect timed out connecting to previous AP.");
LOG_ERR("Please re-establish WiFi connection.");
}
/* Grab our MAC address: */
_simplelink_get_mac(simplelink_data.mac);
LOG_DBG("MAC Address %02X:%02X:%02X:%02X:%02X:%02X",
simplelink_data.mac[0], simplelink_data.mac[1],
simplelink_data.mac[2],
simplelink_data.mac[3], simplelink_data.mac[4],
simplelink_data.mac[5]);
net_if_set_link_addr(iface, simplelink_data.mac,
sizeof(simplelink_data.mac),
NET_LINK_ETHERNET);
#ifdef CONFIG_NET_SOCKETS_OFFLOAD
/* Direct socket offload: */
socket_offload_register(&simplelink_ops);
simplelink_sockets_init();
#endif
}
static const struct net_wifi_mgmt_offload simplelink_api = {
.iface_api.init = simplelink_iface_init,
.scan = simplelink_mgmt_scan,
.connect = simplelink_mgmt_connect,
.disconnect = simplelink_mgmt_disconnect,
};
static int simplelink_init(struct device *dev)
{
ARG_UNUSED(dev);
/* We use system workqueue to deal with scan retries: */
k_delayed_work_init(&simplelink_data.work,
simplelink_scan_work_handler);
LOG_DBG("SimpleLink driver Initialized");
return 0;
}
NET_DEVICE_OFFLOAD_INIT(simplelink, CONFIG_WIFI_SIMPLELINK_NAME,
simplelink_init, &simplelink_data, NULL,
CONFIG_WIFI_INIT_PRIORITY, &simplelink_api,
CONFIG_WIFI_SIMPLELINK_MAX_PACKET_SIZE);
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