18c2ecf20Sopenharmony_ci// SPDX-License-Identifier: GPL-2.0-only
28c2ecf20Sopenharmony_ci/*
38c2ecf20Sopenharmony_ci * Intel Wireless WiMAX Connection 2400m
48c2ecf20Sopenharmony_ci * Generic probe/disconnect, reset and message passing
58c2ecf20Sopenharmony_ci *
68c2ecf20Sopenharmony_ci * Copyright (C) 2007-2008 Intel Corporation <linux-wimax@intel.com>
78c2ecf20Sopenharmony_ci * Inaky Perez-Gonzalez <inaky.perez-gonzalez@intel.com>
88c2ecf20Sopenharmony_ci *
98c2ecf20Sopenharmony_ci * See i2400m.h for driver documentation. This contains helpers for
108c2ecf20Sopenharmony_ci * the driver model glue [_setup()/_release()], handling device resets
118c2ecf20Sopenharmony_ci * [_dev_reset_handle()], and the backends for the WiMAX stack ops
128c2ecf20Sopenharmony_ci * reset [_op_reset()] and message from user [_op_msg_from_user()].
138c2ecf20Sopenharmony_ci *
148c2ecf20Sopenharmony_ci * ROADMAP:
158c2ecf20Sopenharmony_ci *
168c2ecf20Sopenharmony_ci * i2400m_op_msg_from_user()
178c2ecf20Sopenharmony_ci *   i2400m_msg_to_dev()
188c2ecf20Sopenharmony_ci *   wimax_msg_to_user_send()
198c2ecf20Sopenharmony_ci *
208c2ecf20Sopenharmony_ci * i2400m_op_reset()
218c2ecf20Sopenharmony_ci *   i240m->bus_reset()
228c2ecf20Sopenharmony_ci *
238c2ecf20Sopenharmony_ci * i2400m_dev_reset_handle()
248c2ecf20Sopenharmony_ci *   __i2400m_dev_reset_handle()
258c2ecf20Sopenharmony_ci *     __i2400m_dev_stop()
268c2ecf20Sopenharmony_ci *     __i2400m_dev_start()
278c2ecf20Sopenharmony_ci *
288c2ecf20Sopenharmony_ci * i2400m_setup()
298c2ecf20Sopenharmony_ci *   i2400m->bus_setup()
308c2ecf20Sopenharmony_ci *   i2400m_bootrom_init()
318c2ecf20Sopenharmony_ci *   register_netdev()
328c2ecf20Sopenharmony_ci *   wimax_dev_add()
338c2ecf20Sopenharmony_ci *   i2400m_dev_start()
348c2ecf20Sopenharmony_ci *     __i2400m_dev_start()
358c2ecf20Sopenharmony_ci *       i2400m_dev_bootstrap()
368c2ecf20Sopenharmony_ci *       i2400m_tx_setup()
378c2ecf20Sopenharmony_ci *       i2400m->bus_dev_start()
388c2ecf20Sopenharmony_ci *       i2400m_firmware_check()
398c2ecf20Sopenharmony_ci *       i2400m_check_mac_addr()
408c2ecf20Sopenharmony_ci *
418c2ecf20Sopenharmony_ci * i2400m_release()
428c2ecf20Sopenharmony_ci *   i2400m_dev_stop()
438c2ecf20Sopenharmony_ci *     __i2400m_dev_stop()
448c2ecf20Sopenharmony_ci *       i2400m_dev_shutdown()
458c2ecf20Sopenharmony_ci *       i2400m->bus_dev_stop()
468c2ecf20Sopenharmony_ci *       i2400m_tx_release()
478c2ecf20Sopenharmony_ci *   i2400m->bus_release()
488c2ecf20Sopenharmony_ci *   wimax_dev_rm()
498c2ecf20Sopenharmony_ci *   unregister_netdev()
508c2ecf20Sopenharmony_ci */
518c2ecf20Sopenharmony_ci#include "i2400m.h"
528c2ecf20Sopenharmony_ci#include <linux/etherdevice.h>
538c2ecf20Sopenharmony_ci#include <linux/wimax/i2400m.h>
548c2ecf20Sopenharmony_ci#include <linux/module.h>
558c2ecf20Sopenharmony_ci#include <linux/moduleparam.h>
568c2ecf20Sopenharmony_ci#include <linux/suspend.h>
578c2ecf20Sopenharmony_ci#include <linux/slab.h>
588c2ecf20Sopenharmony_ci
598c2ecf20Sopenharmony_ci#define D_SUBMODULE driver
608c2ecf20Sopenharmony_ci#include "debug-levels.h"
618c2ecf20Sopenharmony_ci
628c2ecf20Sopenharmony_ci
638c2ecf20Sopenharmony_cistatic char i2400m_debug_params[128];
648c2ecf20Sopenharmony_cimodule_param_string(debug, i2400m_debug_params, sizeof(i2400m_debug_params),
658c2ecf20Sopenharmony_ci		    0644);
668c2ecf20Sopenharmony_ciMODULE_PARM_DESC(debug,
678c2ecf20Sopenharmony_ci		 "String of space-separated NAME:VALUE pairs, where NAMEs "
688c2ecf20Sopenharmony_ci		 "are the different debug submodules and VALUE are the "
698c2ecf20Sopenharmony_ci		 "initial debug value to set.");
708c2ecf20Sopenharmony_ci
718c2ecf20Sopenharmony_cistatic char i2400m_barkers_params[128];
728c2ecf20Sopenharmony_cimodule_param_string(barkers, i2400m_barkers_params,
738c2ecf20Sopenharmony_ci		    sizeof(i2400m_barkers_params), 0644);
748c2ecf20Sopenharmony_ciMODULE_PARM_DESC(barkers,
758c2ecf20Sopenharmony_ci		 "String of comma-separated 32-bit values; each is "
768c2ecf20Sopenharmony_ci		 "recognized as the value the device sends as a reboot "
778c2ecf20Sopenharmony_ci		 "signal; values are appended to a list--setting one value "
788c2ecf20Sopenharmony_ci		 "as zero cleans the existing list and starts a new one.");
798c2ecf20Sopenharmony_ci
808c2ecf20Sopenharmony_ci/*
818c2ecf20Sopenharmony_ci * WiMAX stack operation: relay a message from user space
828c2ecf20Sopenharmony_ci *
838c2ecf20Sopenharmony_ci * @wimax_dev: device descriptor
848c2ecf20Sopenharmony_ci * @pipe_name: named pipe the message is for
858c2ecf20Sopenharmony_ci * @msg_buf: pointer to the message bytes
868c2ecf20Sopenharmony_ci * @msg_len: length of the buffer
878c2ecf20Sopenharmony_ci * @genl_info: passed by the generic netlink layer
888c2ecf20Sopenharmony_ci *
898c2ecf20Sopenharmony_ci * The WiMAX stack will call this function when a message was received
908c2ecf20Sopenharmony_ci * from user space.
918c2ecf20Sopenharmony_ci *
928c2ecf20Sopenharmony_ci * For the i2400m, this is an L3L4 message, as specified in
938c2ecf20Sopenharmony_ci * include/linux/wimax/i2400m.h, and thus prefixed with a 'struct
948c2ecf20Sopenharmony_ci * i2400m_l3l4_hdr'. Driver (and device) expect the messages to be
958c2ecf20Sopenharmony_ci * coded in Little Endian.
968c2ecf20Sopenharmony_ci *
978c2ecf20Sopenharmony_ci * This function just verifies that the header declaration and the
988c2ecf20Sopenharmony_ci * payload are consistent and then deals with it, either forwarding it
998c2ecf20Sopenharmony_ci * to the device or procesing it locally.
1008c2ecf20Sopenharmony_ci *
1018c2ecf20Sopenharmony_ci * In the i2400m, messages are basically commands that will carry an
1028c2ecf20Sopenharmony_ci * ack, so we use i2400m_msg_to_dev() and then deliver the ack back to
1038c2ecf20Sopenharmony_ci * user space. The rx.c code might intercept the response and use it
1048c2ecf20Sopenharmony_ci * to update the driver's state, but then it will pass it on so it can
1058c2ecf20Sopenharmony_ci * be relayed back to user space.
1068c2ecf20Sopenharmony_ci *
1078c2ecf20Sopenharmony_ci * Note that asynchronous events from the device are processed and
1088c2ecf20Sopenharmony_ci * sent to user space in rx.c.
1098c2ecf20Sopenharmony_ci */
1108c2ecf20Sopenharmony_cistatic
1118c2ecf20Sopenharmony_ciint i2400m_op_msg_from_user(struct wimax_dev *wimax_dev,
1128c2ecf20Sopenharmony_ci			    const char *pipe_name,
1138c2ecf20Sopenharmony_ci			    const void *msg_buf, size_t msg_len,
1148c2ecf20Sopenharmony_ci			    const struct genl_info *genl_info)
1158c2ecf20Sopenharmony_ci{
1168c2ecf20Sopenharmony_ci	int result;
1178c2ecf20Sopenharmony_ci	struct i2400m *i2400m = wimax_dev_to_i2400m(wimax_dev);
1188c2ecf20Sopenharmony_ci	struct device *dev = i2400m_dev(i2400m);
1198c2ecf20Sopenharmony_ci	struct sk_buff *ack_skb;
1208c2ecf20Sopenharmony_ci
1218c2ecf20Sopenharmony_ci	d_fnstart(4, dev, "(wimax_dev %p [i2400m %p] msg_buf %p "
1228c2ecf20Sopenharmony_ci		  "msg_len %zu genl_info %p)\n", wimax_dev, i2400m,
1238c2ecf20Sopenharmony_ci		  msg_buf, msg_len, genl_info);
1248c2ecf20Sopenharmony_ci	ack_skb = i2400m_msg_to_dev(i2400m, msg_buf, msg_len);
1258c2ecf20Sopenharmony_ci	result = PTR_ERR(ack_skb);
1268c2ecf20Sopenharmony_ci	if (IS_ERR(ack_skb))
1278c2ecf20Sopenharmony_ci		goto error_msg_to_dev;
1288c2ecf20Sopenharmony_ci	result = wimax_msg_send(&i2400m->wimax_dev, ack_skb);
1298c2ecf20Sopenharmony_cierror_msg_to_dev:
1308c2ecf20Sopenharmony_ci	d_fnend(4, dev, "(wimax_dev %p [i2400m %p] msg_buf %p msg_len %zu "
1318c2ecf20Sopenharmony_ci		"genl_info %p) = %d\n", wimax_dev, i2400m, msg_buf, msg_len,
1328c2ecf20Sopenharmony_ci		genl_info, result);
1338c2ecf20Sopenharmony_ci	return result;
1348c2ecf20Sopenharmony_ci}
1358c2ecf20Sopenharmony_ci
1368c2ecf20Sopenharmony_ci
1378c2ecf20Sopenharmony_ci/*
1388c2ecf20Sopenharmony_ci * Context to wait for a reset to finalize
1398c2ecf20Sopenharmony_ci */
1408c2ecf20Sopenharmony_cistruct i2400m_reset_ctx {
1418c2ecf20Sopenharmony_ci	struct completion completion;
1428c2ecf20Sopenharmony_ci	int result;
1438c2ecf20Sopenharmony_ci};
1448c2ecf20Sopenharmony_ci
1458c2ecf20Sopenharmony_ci
1468c2ecf20Sopenharmony_ci/*
1478c2ecf20Sopenharmony_ci * WiMAX stack operation: reset a device
1488c2ecf20Sopenharmony_ci *
1498c2ecf20Sopenharmony_ci * @wimax_dev: device descriptor
1508c2ecf20Sopenharmony_ci *
1518c2ecf20Sopenharmony_ci * See the documentation for wimax_reset() and wimax_dev->op_reset for
1528c2ecf20Sopenharmony_ci * the requirements of this function. The WiMAX stack guarantees
1538c2ecf20Sopenharmony_ci * serialization on calls to this function.
1548c2ecf20Sopenharmony_ci *
1558c2ecf20Sopenharmony_ci * Do a warm reset on the device; if it fails, resort to a cold reset
1568c2ecf20Sopenharmony_ci * and return -ENODEV. On successful warm reset, we need to block
1578c2ecf20Sopenharmony_ci * until it is complete.
1588c2ecf20Sopenharmony_ci *
1598c2ecf20Sopenharmony_ci * The bus-driver implementation of reset takes care of falling back
1608c2ecf20Sopenharmony_ci * to cold reset if warm fails.
1618c2ecf20Sopenharmony_ci */
1628c2ecf20Sopenharmony_cistatic
1638c2ecf20Sopenharmony_ciint i2400m_op_reset(struct wimax_dev *wimax_dev)
1648c2ecf20Sopenharmony_ci{
1658c2ecf20Sopenharmony_ci	int result;
1668c2ecf20Sopenharmony_ci	struct i2400m *i2400m = wimax_dev_to_i2400m(wimax_dev);
1678c2ecf20Sopenharmony_ci	struct device *dev = i2400m_dev(i2400m);
1688c2ecf20Sopenharmony_ci	struct i2400m_reset_ctx ctx = {
1698c2ecf20Sopenharmony_ci		.completion = COMPLETION_INITIALIZER_ONSTACK(ctx.completion),
1708c2ecf20Sopenharmony_ci		.result = 0,
1718c2ecf20Sopenharmony_ci	};
1728c2ecf20Sopenharmony_ci
1738c2ecf20Sopenharmony_ci	d_fnstart(4, dev, "(wimax_dev %p)\n", wimax_dev);
1748c2ecf20Sopenharmony_ci	mutex_lock(&i2400m->init_mutex);
1758c2ecf20Sopenharmony_ci	i2400m->reset_ctx = &ctx;
1768c2ecf20Sopenharmony_ci	mutex_unlock(&i2400m->init_mutex);
1778c2ecf20Sopenharmony_ci	result = i2400m_reset(i2400m, I2400M_RT_WARM);
1788c2ecf20Sopenharmony_ci	if (result < 0)
1798c2ecf20Sopenharmony_ci		goto out;
1808c2ecf20Sopenharmony_ci	result = wait_for_completion_timeout(&ctx.completion, 4*HZ);
1818c2ecf20Sopenharmony_ci	if (result == 0)
1828c2ecf20Sopenharmony_ci		result = -ETIMEDOUT;
1838c2ecf20Sopenharmony_ci	else if (result > 0)
1848c2ecf20Sopenharmony_ci		result = ctx.result;
1858c2ecf20Sopenharmony_ci	/* if result < 0, pass it on */
1868c2ecf20Sopenharmony_ci	mutex_lock(&i2400m->init_mutex);
1878c2ecf20Sopenharmony_ci	i2400m->reset_ctx = NULL;
1888c2ecf20Sopenharmony_ci	mutex_unlock(&i2400m->init_mutex);
1898c2ecf20Sopenharmony_ciout:
1908c2ecf20Sopenharmony_ci	d_fnend(4, dev, "(wimax_dev %p) = %d\n", wimax_dev, result);
1918c2ecf20Sopenharmony_ci	return result;
1928c2ecf20Sopenharmony_ci}
1938c2ecf20Sopenharmony_ci
1948c2ecf20Sopenharmony_ci
1958c2ecf20Sopenharmony_ci/*
1968c2ecf20Sopenharmony_ci * Check the MAC address we got from boot mode is ok
1978c2ecf20Sopenharmony_ci *
1988c2ecf20Sopenharmony_ci * @i2400m: device descriptor
1998c2ecf20Sopenharmony_ci *
2008c2ecf20Sopenharmony_ci * Returns: 0 if ok, < 0 errno code on error.
2018c2ecf20Sopenharmony_ci */
2028c2ecf20Sopenharmony_cistatic
2038c2ecf20Sopenharmony_ciint i2400m_check_mac_addr(struct i2400m *i2400m)
2048c2ecf20Sopenharmony_ci{
2058c2ecf20Sopenharmony_ci	int result;
2068c2ecf20Sopenharmony_ci	struct device *dev = i2400m_dev(i2400m);
2078c2ecf20Sopenharmony_ci	struct sk_buff *skb;
2088c2ecf20Sopenharmony_ci	const struct i2400m_tlv_detailed_device_info *ddi;
2098c2ecf20Sopenharmony_ci	struct net_device *net_dev = i2400m->wimax_dev.net_dev;
2108c2ecf20Sopenharmony_ci
2118c2ecf20Sopenharmony_ci	d_fnstart(3, dev, "(i2400m %p)\n", i2400m);
2128c2ecf20Sopenharmony_ci	skb = i2400m_get_device_info(i2400m);
2138c2ecf20Sopenharmony_ci	if (IS_ERR(skb)) {
2148c2ecf20Sopenharmony_ci		result = PTR_ERR(skb);
2158c2ecf20Sopenharmony_ci		dev_err(dev, "Cannot verify MAC address, error reading: %d\n",
2168c2ecf20Sopenharmony_ci			result);
2178c2ecf20Sopenharmony_ci		goto error;
2188c2ecf20Sopenharmony_ci	}
2198c2ecf20Sopenharmony_ci	/* Extract MAC address */
2208c2ecf20Sopenharmony_ci	ddi = (void *) skb->data;
2218c2ecf20Sopenharmony_ci	BUILD_BUG_ON(ETH_ALEN != sizeof(ddi->mac_address));
2228c2ecf20Sopenharmony_ci	d_printf(2, dev, "GET DEVICE INFO: mac addr %pM\n",
2238c2ecf20Sopenharmony_ci		 ddi->mac_address);
2248c2ecf20Sopenharmony_ci	if (!memcmp(net_dev->perm_addr, ddi->mac_address,
2258c2ecf20Sopenharmony_ci		   sizeof(ddi->mac_address)))
2268c2ecf20Sopenharmony_ci		goto ok;
2278c2ecf20Sopenharmony_ci	dev_warn(dev, "warning: device reports a different MAC address "
2288c2ecf20Sopenharmony_ci		 "to that of boot mode's\n");
2298c2ecf20Sopenharmony_ci	dev_warn(dev, "device reports     %pM\n", ddi->mac_address);
2308c2ecf20Sopenharmony_ci	dev_warn(dev, "boot mode reported %pM\n", net_dev->perm_addr);
2318c2ecf20Sopenharmony_ci	if (is_zero_ether_addr(ddi->mac_address))
2328c2ecf20Sopenharmony_ci		dev_err(dev, "device reports an invalid MAC address, "
2338c2ecf20Sopenharmony_ci			"not updating\n");
2348c2ecf20Sopenharmony_ci	else {
2358c2ecf20Sopenharmony_ci		dev_warn(dev, "updating MAC address\n");
2368c2ecf20Sopenharmony_ci		net_dev->addr_len = ETH_ALEN;
2378c2ecf20Sopenharmony_ci		memcpy(net_dev->perm_addr, ddi->mac_address, ETH_ALEN);
2388c2ecf20Sopenharmony_ci		memcpy(net_dev->dev_addr, ddi->mac_address, ETH_ALEN);
2398c2ecf20Sopenharmony_ci	}
2408c2ecf20Sopenharmony_ciok:
2418c2ecf20Sopenharmony_ci	result = 0;
2428c2ecf20Sopenharmony_ci	kfree_skb(skb);
2438c2ecf20Sopenharmony_cierror:
2448c2ecf20Sopenharmony_ci	d_fnend(3, dev, "(i2400m %p) = %d\n", i2400m, result);
2458c2ecf20Sopenharmony_ci	return result;
2468c2ecf20Sopenharmony_ci}
2478c2ecf20Sopenharmony_ci
2488c2ecf20Sopenharmony_ci
2498c2ecf20Sopenharmony_ci/**
2508c2ecf20Sopenharmony_ci * __i2400m_dev_start - Bring up driver communication with the device
2518c2ecf20Sopenharmony_ci *
2528c2ecf20Sopenharmony_ci * @i2400m: device descriptor
2538c2ecf20Sopenharmony_ci * @flags: boot mode flags
2548c2ecf20Sopenharmony_ci *
2558c2ecf20Sopenharmony_ci * Returns: 0 if ok, < 0 errno code on error.
2568c2ecf20Sopenharmony_ci *
2578c2ecf20Sopenharmony_ci * Uploads firmware and brings up all the resources needed to be able
2588c2ecf20Sopenharmony_ci * to communicate with the device.
2598c2ecf20Sopenharmony_ci *
2608c2ecf20Sopenharmony_ci * The workqueue has to be setup early, at least before RX handling
2618c2ecf20Sopenharmony_ci * (it's only real user for now) so it can process reports as they
2628c2ecf20Sopenharmony_ci * arrive. We also want to destroy it if we retry, to make sure it is
2638c2ecf20Sopenharmony_ci * flushed...easier like this.
2648c2ecf20Sopenharmony_ci *
2658c2ecf20Sopenharmony_ci * TX needs to be setup before the bus-specific code (otherwise on
2668c2ecf20Sopenharmony_ci * shutdown, the bus-tx code could try to access it).
2678c2ecf20Sopenharmony_ci */
2688c2ecf20Sopenharmony_cistatic
2698c2ecf20Sopenharmony_ciint __i2400m_dev_start(struct i2400m *i2400m, enum i2400m_bri flags)
2708c2ecf20Sopenharmony_ci{
2718c2ecf20Sopenharmony_ci	int result;
2728c2ecf20Sopenharmony_ci	struct wimax_dev *wimax_dev = &i2400m->wimax_dev;
2738c2ecf20Sopenharmony_ci	struct net_device *net_dev = wimax_dev->net_dev;
2748c2ecf20Sopenharmony_ci	struct device *dev = i2400m_dev(i2400m);
2758c2ecf20Sopenharmony_ci	int times = i2400m->bus_bm_retries;
2768c2ecf20Sopenharmony_ci
2778c2ecf20Sopenharmony_ci	d_fnstart(3, dev, "(i2400m %p)\n", i2400m);
2788c2ecf20Sopenharmony_ciretry:
2798c2ecf20Sopenharmony_ci	result = i2400m_dev_bootstrap(i2400m, flags);
2808c2ecf20Sopenharmony_ci	if (result < 0) {
2818c2ecf20Sopenharmony_ci		dev_err(dev, "cannot bootstrap device: %d\n", result);
2828c2ecf20Sopenharmony_ci		goto error_bootstrap;
2838c2ecf20Sopenharmony_ci	}
2848c2ecf20Sopenharmony_ci	result = i2400m_tx_setup(i2400m);
2858c2ecf20Sopenharmony_ci	if (result < 0)
2868c2ecf20Sopenharmony_ci		goto error_tx_setup;
2878c2ecf20Sopenharmony_ci	result = i2400m_rx_setup(i2400m);
2888c2ecf20Sopenharmony_ci	if (result < 0)
2898c2ecf20Sopenharmony_ci		goto error_rx_setup;
2908c2ecf20Sopenharmony_ci	i2400m->work_queue = create_singlethread_workqueue(wimax_dev->name);
2918c2ecf20Sopenharmony_ci	if (i2400m->work_queue == NULL) {
2928c2ecf20Sopenharmony_ci		result = -ENOMEM;
2938c2ecf20Sopenharmony_ci		dev_err(dev, "cannot create workqueue\n");
2948c2ecf20Sopenharmony_ci		goto error_create_workqueue;
2958c2ecf20Sopenharmony_ci	}
2968c2ecf20Sopenharmony_ci	if (i2400m->bus_dev_start) {
2978c2ecf20Sopenharmony_ci		result = i2400m->bus_dev_start(i2400m);
2988c2ecf20Sopenharmony_ci		if (result < 0)
2998c2ecf20Sopenharmony_ci			goto error_bus_dev_start;
3008c2ecf20Sopenharmony_ci	}
3018c2ecf20Sopenharmony_ci	i2400m->ready = 1;
3028c2ecf20Sopenharmony_ci	wmb();		/* see i2400m->ready's documentation  */
3038c2ecf20Sopenharmony_ci	/* process pending reports from the device */
3048c2ecf20Sopenharmony_ci	queue_work(i2400m->work_queue, &i2400m->rx_report_ws);
3058c2ecf20Sopenharmony_ci	result = i2400m_firmware_check(i2400m);	/* fw versions ok? */
3068c2ecf20Sopenharmony_ci	if (result < 0)
3078c2ecf20Sopenharmony_ci		goto error_fw_check;
3088c2ecf20Sopenharmony_ci	/* At this point is ok to send commands to the device */
3098c2ecf20Sopenharmony_ci	result = i2400m_check_mac_addr(i2400m);
3108c2ecf20Sopenharmony_ci	if (result < 0)
3118c2ecf20Sopenharmony_ci		goto error_check_mac_addr;
3128c2ecf20Sopenharmony_ci	result = i2400m_dev_initialize(i2400m);
3138c2ecf20Sopenharmony_ci	if (result < 0)
3148c2ecf20Sopenharmony_ci		goto error_dev_initialize;
3158c2ecf20Sopenharmony_ci
3168c2ecf20Sopenharmony_ci	/* We don't want any additional unwanted error recovery triggered
3178c2ecf20Sopenharmony_ci	 * from any other context so if anything went wrong before we come
3188c2ecf20Sopenharmony_ci	 * here, let's keep i2400m->error_recovery untouched and leave it to
3198c2ecf20Sopenharmony_ci	 * dev_reset_handle(). See dev_reset_handle(). */
3208c2ecf20Sopenharmony_ci
3218c2ecf20Sopenharmony_ci	atomic_dec(&i2400m->error_recovery);
3228c2ecf20Sopenharmony_ci	/* Every thing works so far, ok, now we are ready to
3238c2ecf20Sopenharmony_ci	 * take error recovery if it's required. */
3248c2ecf20Sopenharmony_ci
3258c2ecf20Sopenharmony_ci	/* At this point, reports will come for the device and set it
3268c2ecf20Sopenharmony_ci	 * to the right state if it is different than UNINITIALIZED */
3278c2ecf20Sopenharmony_ci	d_fnend(3, dev, "(net_dev %p [i2400m %p]) = %d\n",
3288c2ecf20Sopenharmony_ci		net_dev, i2400m, result);
3298c2ecf20Sopenharmony_ci	return result;
3308c2ecf20Sopenharmony_ci
3318c2ecf20Sopenharmony_cierror_dev_initialize:
3328c2ecf20Sopenharmony_cierror_check_mac_addr:
3338c2ecf20Sopenharmony_cierror_fw_check:
3348c2ecf20Sopenharmony_ci	i2400m->ready = 0;
3358c2ecf20Sopenharmony_ci	wmb();		/* see i2400m->ready's documentation  */
3368c2ecf20Sopenharmony_ci	flush_workqueue(i2400m->work_queue);
3378c2ecf20Sopenharmony_ci	if (i2400m->bus_dev_stop)
3388c2ecf20Sopenharmony_ci		i2400m->bus_dev_stop(i2400m);
3398c2ecf20Sopenharmony_cierror_bus_dev_start:
3408c2ecf20Sopenharmony_ci	destroy_workqueue(i2400m->work_queue);
3418c2ecf20Sopenharmony_cierror_create_workqueue:
3428c2ecf20Sopenharmony_ci	i2400m_rx_release(i2400m);
3438c2ecf20Sopenharmony_cierror_rx_setup:
3448c2ecf20Sopenharmony_ci	i2400m_tx_release(i2400m);
3458c2ecf20Sopenharmony_cierror_tx_setup:
3468c2ecf20Sopenharmony_cierror_bootstrap:
3478c2ecf20Sopenharmony_ci	if (result == -EL3RST && times-- > 0) {
3488c2ecf20Sopenharmony_ci		flags = I2400M_BRI_SOFT|I2400M_BRI_MAC_REINIT;
3498c2ecf20Sopenharmony_ci		goto retry;
3508c2ecf20Sopenharmony_ci	}
3518c2ecf20Sopenharmony_ci	d_fnend(3, dev, "(net_dev %p [i2400m %p]) = %d\n",
3528c2ecf20Sopenharmony_ci		net_dev, i2400m, result);
3538c2ecf20Sopenharmony_ci	return result;
3548c2ecf20Sopenharmony_ci}
3558c2ecf20Sopenharmony_ci
3568c2ecf20Sopenharmony_ci
3578c2ecf20Sopenharmony_cistatic
3588c2ecf20Sopenharmony_ciint i2400m_dev_start(struct i2400m *i2400m, enum i2400m_bri bm_flags)
3598c2ecf20Sopenharmony_ci{
3608c2ecf20Sopenharmony_ci	int result = 0;
3618c2ecf20Sopenharmony_ci	mutex_lock(&i2400m->init_mutex);	/* Well, start the device */
3628c2ecf20Sopenharmony_ci	if (i2400m->updown == 0) {
3638c2ecf20Sopenharmony_ci		result = __i2400m_dev_start(i2400m, bm_flags);
3648c2ecf20Sopenharmony_ci		if (result >= 0) {
3658c2ecf20Sopenharmony_ci			i2400m->updown = 1;
3668c2ecf20Sopenharmony_ci			i2400m->alive = 1;
3678c2ecf20Sopenharmony_ci			wmb();/* see i2400m->updown and i2400m->alive's doc */
3688c2ecf20Sopenharmony_ci		}
3698c2ecf20Sopenharmony_ci	}
3708c2ecf20Sopenharmony_ci	mutex_unlock(&i2400m->init_mutex);
3718c2ecf20Sopenharmony_ci	return result;
3728c2ecf20Sopenharmony_ci}
3738c2ecf20Sopenharmony_ci
3748c2ecf20Sopenharmony_ci
3758c2ecf20Sopenharmony_ci/**
3768c2ecf20Sopenharmony_ci * i2400m_dev_stop - Tear down driver communication with the device
3778c2ecf20Sopenharmony_ci *
3788c2ecf20Sopenharmony_ci * @i2400m: device descriptor
3798c2ecf20Sopenharmony_ci *
3808c2ecf20Sopenharmony_ci * Returns: 0 if ok, < 0 errno code on error.
3818c2ecf20Sopenharmony_ci *
3828c2ecf20Sopenharmony_ci * Releases all the resources allocated to communicate with the
3838c2ecf20Sopenharmony_ci * device. Note we cannot destroy the workqueue earlier as until RX is
3848c2ecf20Sopenharmony_ci * fully destroyed, it could still try to schedule jobs.
3858c2ecf20Sopenharmony_ci */
3868c2ecf20Sopenharmony_cistatic
3878c2ecf20Sopenharmony_civoid __i2400m_dev_stop(struct i2400m *i2400m)
3888c2ecf20Sopenharmony_ci{
3898c2ecf20Sopenharmony_ci	struct wimax_dev *wimax_dev = &i2400m->wimax_dev;
3908c2ecf20Sopenharmony_ci	struct device *dev = i2400m_dev(i2400m);
3918c2ecf20Sopenharmony_ci
3928c2ecf20Sopenharmony_ci	d_fnstart(3, dev, "(i2400m %p)\n", i2400m);
3938c2ecf20Sopenharmony_ci	wimax_state_change(wimax_dev, __WIMAX_ST_QUIESCING);
3948c2ecf20Sopenharmony_ci	i2400m_msg_to_dev_cancel_wait(i2400m, -EL3RST);
3958c2ecf20Sopenharmony_ci	complete(&i2400m->msg_completion);
3968c2ecf20Sopenharmony_ci	i2400m_net_wake_stop(i2400m);
3978c2ecf20Sopenharmony_ci	i2400m_dev_shutdown(i2400m);
3988c2ecf20Sopenharmony_ci	/*
3998c2ecf20Sopenharmony_ci	 * Make sure no report hooks are running *before* we stop the
4008c2ecf20Sopenharmony_ci	 * communication infrastructure with the device.
4018c2ecf20Sopenharmony_ci	 */
4028c2ecf20Sopenharmony_ci	i2400m->ready = 0;	/* nobody can queue work anymore */
4038c2ecf20Sopenharmony_ci	wmb();		/* see i2400m->ready's documentation  */
4048c2ecf20Sopenharmony_ci	flush_workqueue(i2400m->work_queue);
4058c2ecf20Sopenharmony_ci
4068c2ecf20Sopenharmony_ci	if (i2400m->bus_dev_stop)
4078c2ecf20Sopenharmony_ci		i2400m->bus_dev_stop(i2400m);
4088c2ecf20Sopenharmony_ci	destroy_workqueue(i2400m->work_queue);
4098c2ecf20Sopenharmony_ci	i2400m_rx_release(i2400m);
4108c2ecf20Sopenharmony_ci	i2400m_tx_release(i2400m);
4118c2ecf20Sopenharmony_ci	wimax_state_change(wimax_dev, WIMAX_ST_DOWN);
4128c2ecf20Sopenharmony_ci	d_fnend(3, dev, "(i2400m %p) = 0\n", i2400m);
4138c2ecf20Sopenharmony_ci}
4148c2ecf20Sopenharmony_ci
4158c2ecf20Sopenharmony_ci
4168c2ecf20Sopenharmony_ci/*
4178c2ecf20Sopenharmony_ci * Watch out -- we only need to stop if there is a need for it. The
4188c2ecf20Sopenharmony_ci * device could have reset itself and failed to come up again (see
4198c2ecf20Sopenharmony_ci * _i2400m_dev_reset_handle()).
4208c2ecf20Sopenharmony_ci */
4218c2ecf20Sopenharmony_cistatic
4228c2ecf20Sopenharmony_civoid i2400m_dev_stop(struct i2400m *i2400m)
4238c2ecf20Sopenharmony_ci{
4248c2ecf20Sopenharmony_ci	mutex_lock(&i2400m->init_mutex);
4258c2ecf20Sopenharmony_ci	if (i2400m->updown) {
4268c2ecf20Sopenharmony_ci		__i2400m_dev_stop(i2400m);
4278c2ecf20Sopenharmony_ci		i2400m->updown = 0;
4288c2ecf20Sopenharmony_ci		i2400m->alive = 0;
4298c2ecf20Sopenharmony_ci		wmb();	/* see i2400m->updown and i2400m->alive's doc */
4308c2ecf20Sopenharmony_ci	}
4318c2ecf20Sopenharmony_ci	mutex_unlock(&i2400m->init_mutex);
4328c2ecf20Sopenharmony_ci}
4338c2ecf20Sopenharmony_ci
4348c2ecf20Sopenharmony_ci
4358c2ecf20Sopenharmony_ci/*
4368c2ecf20Sopenharmony_ci * Listen to PM events to cache the firmware before suspend/hibernation
4378c2ecf20Sopenharmony_ci *
4388c2ecf20Sopenharmony_ci * When the device comes out of suspend, it might go into reset and
4398c2ecf20Sopenharmony_ci * firmware has to be uploaded again. At resume, most of the times, we
4408c2ecf20Sopenharmony_ci * can't load firmware images from disk, so we need to cache it.
4418c2ecf20Sopenharmony_ci *
4428c2ecf20Sopenharmony_ci * i2400m_fw_cache() will allocate a kobject and attach the firmware
4438c2ecf20Sopenharmony_ci * to it; that way we don't have to worry too much about the fw loader
4448c2ecf20Sopenharmony_ci * hitting a race condition.
4458c2ecf20Sopenharmony_ci *
4468c2ecf20Sopenharmony_ci * Note: modus operandi stolen from the Orinoco driver; thx.
4478c2ecf20Sopenharmony_ci */
4488c2ecf20Sopenharmony_cistatic
4498c2ecf20Sopenharmony_ciint i2400m_pm_notifier(struct notifier_block *notifier,
4508c2ecf20Sopenharmony_ci		       unsigned long pm_event,
4518c2ecf20Sopenharmony_ci		       void *unused)
4528c2ecf20Sopenharmony_ci{
4538c2ecf20Sopenharmony_ci	struct i2400m *i2400m =
4548c2ecf20Sopenharmony_ci		container_of(notifier, struct i2400m, pm_notifier);
4558c2ecf20Sopenharmony_ci	struct device *dev = i2400m_dev(i2400m);
4568c2ecf20Sopenharmony_ci
4578c2ecf20Sopenharmony_ci	d_fnstart(3, dev, "(i2400m %p pm_event %lx)\n", i2400m, pm_event);
4588c2ecf20Sopenharmony_ci	switch (pm_event) {
4598c2ecf20Sopenharmony_ci	case PM_HIBERNATION_PREPARE:
4608c2ecf20Sopenharmony_ci	case PM_SUSPEND_PREPARE:
4618c2ecf20Sopenharmony_ci		i2400m_fw_cache(i2400m);
4628c2ecf20Sopenharmony_ci		break;
4638c2ecf20Sopenharmony_ci	case PM_POST_RESTORE:
4648c2ecf20Sopenharmony_ci		/* Restore from hibernation failed. We need to clean
4658c2ecf20Sopenharmony_ci		 * up in exactly the same way, so fall through. */
4668c2ecf20Sopenharmony_ci	case PM_POST_HIBERNATION:
4678c2ecf20Sopenharmony_ci	case PM_POST_SUSPEND:
4688c2ecf20Sopenharmony_ci		i2400m_fw_uncache(i2400m);
4698c2ecf20Sopenharmony_ci		break;
4708c2ecf20Sopenharmony_ci
4718c2ecf20Sopenharmony_ci	case PM_RESTORE_PREPARE:
4728c2ecf20Sopenharmony_ci	default:
4738c2ecf20Sopenharmony_ci		break;
4748c2ecf20Sopenharmony_ci	}
4758c2ecf20Sopenharmony_ci	d_fnend(3, dev, "(i2400m %p pm_event %lx) = void\n", i2400m, pm_event);
4768c2ecf20Sopenharmony_ci	return NOTIFY_DONE;
4778c2ecf20Sopenharmony_ci}
4788c2ecf20Sopenharmony_ci
4798c2ecf20Sopenharmony_ci
4808c2ecf20Sopenharmony_ci/*
4818c2ecf20Sopenharmony_ci * pre-reset is called before a device is going on reset
4828c2ecf20Sopenharmony_ci *
4838c2ecf20Sopenharmony_ci * This has to be followed by a call to i2400m_post_reset(), otherwise
4848c2ecf20Sopenharmony_ci * bad things might happen.
4858c2ecf20Sopenharmony_ci */
4868c2ecf20Sopenharmony_ciint i2400m_pre_reset(struct i2400m *i2400m)
4878c2ecf20Sopenharmony_ci{
4888c2ecf20Sopenharmony_ci	struct device *dev = i2400m_dev(i2400m);
4898c2ecf20Sopenharmony_ci
4908c2ecf20Sopenharmony_ci	d_fnstart(3, dev, "(i2400m %p)\n", i2400m);
4918c2ecf20Sopenharmony_ci	d_printf(1, dev, "pre-reset shut down\n");
4928c2ecf20Sopenharmony_ci
4938c2ecf20Sopenharmony_ci	mutex_lock(&i2400m->init_mutex);
4948c2ecf20Sopenharmony_ci	if (i2400m->updown) {
4958c2ecf20Sopenharmony_ci		netif_tx_disable(i2400m->wimax_dev.net_dev);
4968c2ecf20Sopenharmony_ci		__i2400m_dev_stop(i2400m);
4978c2ecf20Sopenharmony_ci		/* down't set updown to zero -- this way
4988c2ecf20Sopenharmony_ci		 * post_reset can restore properly */
4998c2ecf20Sopenharmony_ci	}
5008c2ecf20Sopenharmony_ci	mutex_unlock(&i2400m->init_mutex);
5018c2ecf20Sopenharmony_ci	if (i2400m->bus_release)
5028c2ecf20Sopenharmony_ci		i2400m->bus_release(i2400m);
5038c2ecf20Sopenharmony_ci	d_fnend(3, dev, "(i2400m %p) = 0\n", i2400m);
5048c2ecf20Sopenharmony_ci	return 0;
5058c2ecf20Sopenharmony_ci}
5068c2ecf20Sopenharmony_ciEXPORT_SYMBOL_GPL(i2400m_pre_reset);
5078c2ecf20Sopenharmony_ci
5088c2ecf20Sopenharmony_ci
5098c2ecf20Sopenharmony_ci/*
5108c2ecf20Sopenharmony_ci * Restore device state after a reset
5118c2ecf20Sopenharmony_ci *
5128c2ecf20Sopenharmony_ci * Do the work needed after a device reset to bring it up to the same
5138c2ecf20Sopenharmony_ci * state as it was before the reset.
5148c2ecf20Sopenharmony_ci *
5158c2ecf20Sopenharmony_ci * NOTE: this requires i2400m->init_mutex taken
5168c2ecf20Sopenharmony_ci */
5178c2ecf20Sopenharmony_ciint i2400m_post_reset(struct i2400m *i2400m)
5188c2ecf20Sopenharmony_ci{
5198c2ecf20Sopenharmony_ci	int result = 0;
5208c2ecf20Sopenharmony_ci	struct device *dev = i2400m_dev(i2400m);
5218c2ecf20Sopenharmony_ci
5228c2ecf20Sopenharmony_ci	d_fnstart(3, dev, "(i2400m %p)\n", i2400m);
5238c2ecf20Sopenharmony_ci	d_printf(1, dev, "post-reset start\n");
5248c2ecf20Sopenharmony_ci	if (i2400m->bus_setup) {
5258c2ecf20Sopenharmony_ci		result = i2400m->bus_setup(i2400m);
5268c2ecf20Sopenharmony_ci		if (result < 0) {
5278c2ecf20Sopenharmony_ci			dev_err(dev, "bus-specific setup failed: %d\n",
5288c2ecf20Sopenharmony_ci				result);
5298c2ecf20Sopenharmony_ci			goto error_bus_setup;
5308c2ecf20Sopenharmony_ci		}
5318c2ecf20Sopenharmony_ci	}
5328c2ecf20Sopenharmony_ci	mutex_lock(&i2400m->init_mutex);
5338c2ecf20Sopenharmony_ci	if (i2400m->updown) {
5348c2ecf20Sopenharmony_ci		result = __i2400m_dev_start(
5358c2ecf20Sopenharmony_ci			i2400m, I2400M_BRI_SOFT | I2400M_BRI_MAC_REINIT);
5368c2ecf20Sopenharmony_ci		if (result < 0)
5378c2ecf20Sopenharmony_ci			goto error_dev_start;
5388c2ecf20Sopenharmony_ci	}
5398c2ecf20Sopenharmony_ci	mutex_unlock(&i2400m->init_mutex);
5408c2ecf20Sopenharmony_ci	d_fnend(3, dev, "(i2400m %p) = %d\n", i2400m, result);
5418c2ecf20Sopenharmony_ci	return result;
5428c2ecf20Sopenharmony_ci
5438c2ecf20Sopenharmony_cierror_dev_start:
5448c2ecf20Sopenharmony_ci	if (i2400m->bus_release)
5458c2ecf20Sopenharmony_ci		i2400m->bus_release(i2400m);
5468c2ecf20Sopenharmony_ci	/* even if the device was up, it could not be recovered, so we
5478c2ecf20Sopenharmony_ci	 * mark it as down. */
5488c2ecf20Sopenharmony_ci	i2400m->updown = 0;
5498c2ecf20Sopenharmony_ci	wmb();		/* see i2400m->updown's documentation  */
5508c2ecf20Sopenharmony_ci	mutex_unlock(&i2400m->init_mutex);
5518c2ecf20Sopenharmony_cierror_bus_setup:
5528c2ecf20Sopenharmony_ci	d_fnend(3, dev, "(i2400m %p) = %d\n", i2400m, result);
5538c2ecf20Sopenharmony_ci	return result;
5548c2ecf20Sopenharmony_ci}
5558c2ecf20Sopenharmony_ciEXPORT_SYMBOL_GPL(i2400m_post_reset);
5568c2ecf20Sopenharmony_ci
5578c2ecf20Sopenharmony_ci
5588c2ecf20Sopenharmony_ci/*
5598c2ecf20Sopenharmony_ci * The device has rebooted; fix up the device and the driver
5608c2ecf20Sopenharmony_ci *
5618c2ecf20Sopenharmony_ci * Tear down the driver communication with the device, reload the
5628c2ecf20Sopenharmony_ci * firmware and reinitialize the communication with the device.
5638c2ecf20Sopenharmony_ci *
5648c2ecf20Sopenharmony_ci * If someone calls a reset when the device's firmware is down, in
5658c2ecf20Sopenharmony_ci * theory we won't see it because we are not listening. However, just
5668c2ecf20Sopenharmony_ci * in case, leave the code to handle it.
5678c2ecf20Sopenharmony_ci *
5688c2ecf20Sopenharmony_ci * If there is a reset context, use it; this means someone is waiting
5698c2ecf20Sopenharmony_ci * for us to tell him when the reset operation is complete and the
5708c2ecf20Sopenharmony_ci * device is ready to rock again.
5718c2ecf20Sopenharmony_ci *
5728c2ecf20Sopenharmony_ci * NOTE: if we are in the process of bringing up or down the
5738c2ecf20Sopenharmony_ci *       communication with the device [running i2400m_dev_start() or
5748c2ecf20Sopenharmony_ci *       _stop()], don't do anything, let it fail and handle it.
5758c2ecf20Sopenharmony_ci *
5768c2ecf20Sopenharmony_ci * This function is ran always in a thread context
5778c2ecf20Sopenharmony_ci *
5788c2ecf20Sopenharmony_ci * This function gets passed, as payload to i2400m_work() a 'const
5798c2ecf20Sopenharmony_ci * char *' ptr with a "reason" why the reset happened (for messages).
5808c2ecf20Sopenharmony_ci */
5818c2ecf20Sopenharmony_cistatic
5828c2ecf20Sopenharmony_civoid __i2400m_dev_reset_handle(struct work_struct *ws)
5838c2ecf20Sopenharmony_ci{
5848c2ecf20Sopenharmony_ci	struct i2400m *i2400m = container_of(ws, struct i2400m, reset_ws);
5858c2ecf20Sopenharmony_ci	const char *reason = i2400m->reset_reason;
5868c2ecf20Sopenharmony_ci	struct device *dev = i2400m_dev(i2400m);
5878c2ecf20Sopenharmony_ci	struct i2400m_reset_ctx *ctx = i2400m->reset_ctx;
5888c2ecf20Sopenharmony_ci	int result;
5898c2ecf20Sopenharmony_ci
5908c2ecf20Sopenharmony_ci	d_fnstart(3, dev, "(ws %p i2400m %p reason %s)\n", ws, i2400m, reason);
5918c2ecf20Sopenharmony_ci
5928c2ecf20Sopenharmony_ci	i2400m->boot_mode = 1;
5938c2ecf20Sopenharmony_ci	wmb();		/* Make sure i2400m_msg_to_dev() sees boot_mode */
5948c2ecf20Sopenharmony_ci
5958c2ecf20Sopenharmony_ci	result = 0;
5968c2ecf20Sopenharmony_ci	if (mutex_trylock(&i2400m->init_mutex) == 0) {
5978c2ecf20Sopenharmony_ci		/* We are still in i2400m_dev_start() [let it fail] or
5988c2ecf20Sopenharmony_ci		 * i2400m_dev_stop() [we are shutting down anyway, so
5998c2ecf20Sopenharmony_ci		 * ignore it] or we are resetting somewhere else. */
6008c2ecf20Sopenharmony_ci		dev_err(dev, "device rebooted somewhere else?\n");
6018c2ecf20Sopenharmony_ci		i2400m_msg_to_dev_cancel_wait(i2400m, -EL3RST);
6028c2ecf20Sopenharmony_ci		complete(&i2400m->msg_completion);
6038c2ecf20Sopenharmony_ci		goto out;
6048c2ecf20Sopenharmony_ci	}
6058c2ecf20Sopenharmony_ci
6068c2ecf20Sopenharmony_ci	dev_err(dev, "%s: reinitializing driver\n", reason);
6078c2ecf20Sopenharmony_ci	rmb();
6088c2ecf20Sopenharmony_ci	if (i2400m->updown) {
6098c2ecf20Sopenharmony_ci		__i2400m_dev_stop(i2400m);
6108c2ecf20Sopenharmony_ci		i2400m->updown = 0;
6118c2ecf20Sopenharmony_ci		wmb();		/* see i2400m->updown's documentation  */
6128c2ecf20Sopenharmony_ci	}
6138c2ecf20Sopenharmony_ci
6148c2ecf20Sopenharmony_ci	if (i2400m->alive) {
6158c2ecf20Sopenharmony_ci		result = __i2400m_dev_start(i2400m,
6168c2ecf20Sopenharmony_ci				    I2400M_BRI_SOFT | I2400M_BRI_MAC_REINIT);
6178c2ecf20Sopenharmony_ci		if (result < 0) {
6188c2ecf20Sopenharmony_ci			dev_err(dev, "%s: cannot start the device: %d\n",
6198c2ecf20Sopenharmony_ci				reason, result);
6208c2ecf20Sopenharmony_ci			result = -EUCLEAN;
6218c2ecf20Sopenharmony_ci			if (atomic_read(&i2400m->bus_reset_retries)
6228c2ecf20Sopenharmony_ci					>= I2400M_BUS_RESET_RETRIES) {
6238c2ecf20Sopenharmony_ci				result = -ENODEV;
6248c2ecf20Sopenharmony_ci				dev_err(dev, "tried too many times to "
6258c2ecf20Sopenharmony_ci					"reset the device, giving up\n");
6268c2ecf20Sopenharmony_ci			}
6278c2ecf20Sopenharmony_ci		}
6288c2ecf20Sopenharmony_ci	}
6298c2ecf20Sopenharmony_ci
6308c2ecf20Sopenharmony_ci	if (i2400m->reset_ctx) {
6318c2ecf20Sopenharmony_ci		ctx->result = result;
6328c2ecf20Sopenharmony_ci		complete(&ctx->completion);
6338c2ecf20Sopenharmony_ci	}
6348c2ecf20Sopenharmony_ci	mutex_unlock(&i2400m->init_mutex);
6358c2ecf20Sopenharmony_ci	if (result == -EUCLEAN) {
6368c2ecf20Sopenharmony_ci		/*
6378c2ecf20Sopenharmony_ci		 * We come here because the reset during operational mode
6388c2ecf20Sopenharmony_ci		 * wasn't successfully done and need to proceed to a bus
6398c2ecf20Sopenharmony_ci		 * reset. For the dev_reset_handle() to be able to handle
6408c2ecf20Sopenharmony_ci		 * the reset event later properly, we restore boot_mode back
6418c2ecf20Sopenharmony_ci		 * to the state before previous reset. ie: just like we are
6428c2ecf20Sopenharmony_ci		 * issuing the bus reset for the first time
6438c2ecf20Sopenharmony_ci		 */
6448c2ecf20Sopenharmony_ci		i2400m->boot_mode = 0;
6458c2ecf20Sopenharmony_ci		wmb();
6468c2ecf20Sopenharmony_ci
6478c2ecf20Sopenharmony_ci		atomic_inc(&i2400m->bus_reset_retries);
6488c2ecf20Sopenharmony_ci		/* ops, need to clean up [w/ init_mutex not held] */
6498c2ecf20Sopenharmony_ci		result = i2400m_reset(i2400m, I2400M_RT_BUS);
6508c2ecf20Sopenharmony_ci		if (result >= 0)
6518c2ecf20Sopenharmony_ci			result = -ENODEV;
6528c2ecf20Sopenharmony_ci	} else {
6538c2ecf20Sopenharmony_ci		rmb();
6548c2ecf20Sopenharmony_ci		if (i2400m->alive) {
6558c2ecf20Sopenharmony_ci			/* great, we expect the device state up and
6568c2ecf20Sopenharmony_ci			 * dev_start() actually brings the device state up */
6578c2ecf20Sopenharmony_ci			i2400m->updown = 1;
6588c2ecf20Sopenharmony_ci			wmb();
6598c2ecf20Sopenharmony_ci			atomic_set(&i2400m->bus_reset_retries, 0);
6608c2ecf20Sopenharmony_ci		}
6618c2ecf20Sopenharmony_ci	}
6628c2ecf20Sopenharmony_ciout:
6638c2ecf20Sopenharmony_ci	d_fnend(3, dev, "(ws %p i2400m %p reason %s) = void\n",
6648c2ecf20Sopenharmony_ci		ws, i2400m, reason);
6658c2ecf20Sopenharmony_ci}
6668c2ecf20Sopenharmony_ci
6678c2ecf20Sopenharmony_ci
6688c2ecf20Sopenharmony_ci/**
6698c2ecf20Sopenharmony_ci * i2400m_dev_reset_handle - Handle a device's reset in a thread context
6708c2ecf20Sopenharmony_ci *
6718c2ecf20Sopenharmony_ci * Schedule a device reset handling out on a thread context, so it
6728c2ecf20Sopenharmony_ci * is safe to call from atomic context. We can't use the i2400m's
6738c2ecf20Sopenharmony_ci * queue as we are going to destroy it and reinitialize it as part of
6748c2ecf20Sopenharmony_ci * the driver bringup/bringup process.
6758c2ecf20Sopenharmony_ci *
6768c2ecf20Sopenharmony_ci * See __i2400m_dev_reset_handle() for details; that takes care of
6778c2ecf20Sopenharmony_ci * reinitializing the driver to handle the reset, calling into the
6788c2ecf20Sopenharmony_ci * bus-specific functions ops as needed.
6798c2ecf20Sopenharmony_ci */
6808c2ecf20Sopenharmony_ciint i2400m_dev_reset_handle(struct i2400m *i2400m, const char *reason)
6818c2ecf20Sopenharmony_ci{
6828c2ecf20Sopenharmony_ci	i2400m->reset_reason = reason;
6838c2ecf20Sopenharmony_ci	return schedule_work(&i2400m->reset_ws);
6848c2ecf20Sopenharmony_ci}
6858c2ecf20Sopenharmony_ciEXPORT_SYMBOL_GPL(i2400m_dev_reset_handle);
6868c2ecf20Sopenharmony_ci
6878c2ecf20Sopenharmony_ci
6888c2ecf20Sopenharmony_ci /*
6898c2ecf20Sopenharmony_ci * The actual work of error recovery.
6908c2ecf20Sopenharmony_ci *
6918c2ecf20Sopenharmony_ci * The current implementation of error recovery is to trigger a bus reset.
6928c2ecf20Sopenharmony_ci */
6938c2ecf20Sopenharmony_cistatic
6948c2ecf20Sopenharmony_civoid __i2400m_error_recovery(struct work_struct *ws)
6958c2ecf20Sopenharmony_ci{
6968c2ecf20Sopenharmony_ci	struct i2400m *i2400m = container_of(ws, struct i2400m, recovery_ws);
6978c2ecf20Sopenharmony_ci
6988c2ecf20Sopenharmony_ci	i2400m_reset(i2400m, I2400M_RT_BUS);
6998c2ecf20Sopenharmony_ci}
7008c2ecf20Sopenharmony_ci
7018c2ecf20Sopenharmony_ci/*
7028c2ecf20Sopenharmony_ci * Schedule a work struct for error recovery.
7038c2ecf20Sopenharmony_ci *
7048c2ecf20Sopenharmony_ci * The intention of error recovery is to bring back the device to some
7058c2ecf20Sopenharmony_ci * known state whenever TX sees -110 (-ETIMEOUT) on copying the data to
7068c2ecf20Sopenharmony_ci * the device. The TX failure could mean a device bus stuck, so the current
7078c2ecf20Sopenharmony_ci * error recovery implementation is to trigger a bus reset to the device
7088c2ecf20Sopenharmony_ci * and hopefully it can bring back the device.
7098c2ecf20Sopenharmony_ci *
7108c2ecf20Sopenharmony_ci * The actual work of error recovery has to be in a thread context because
7118c2ecf20Sopenharmony_ci * it is kicked off in the TX thread (i2400ms->tx_workqueue) which is to be
7128c2ecf20Sopenharmony_ci * destroyed by the error recovery mechanism (currently a bus reset).
7138c2ecf20Sopenharmony_ci *
7148c2ecf20Sopenharmony_ci * Also, there may be already a queue of TX works that all hit
7158c2ecf20Sopenharmony_ci * the -ETIMEOUT error condition because the device is stuck already.
7168c2ecf20Sopenharmony_ci * Since bus reset is used as the error recovery mechanism and we don't
7178c2ecf20Sopenharmony_ci * want consecutive bus resets simply because the multiple TX works
7188c2ecf20Sopenharmony_ci * in the queue all hit the same device erratum, the flag "error_recovery"
7198c2ecf20Sopenharmony_ci * is introduced for preventing unwanted consecutive bus resets.
7208c2ecf20Sopenharmony_ci *
7218c2ecf20Sopenharmony_ci * Error recovery shall only be invoked again if previous one was completed.
7228c2ecf20Sopenharmony_ci * The flag error_recovery is set when error recovery mechanism is scheduled,
7238c2ecf20Sopenharmony_ci * and is checked when we need to schedule another error recovery. If it is
7248c2ecf20Sopenharmony_ci * in place already, then we shouldn't schedule another one.
7258c2ecf20Sopenharmony_ci */
7268c2ecf20Sopenharmony_civoid i2400m_error_recovery(struct i2400m *i2400m)
7278c2ecf20Sopenharmony_ci{
7288c2ecf20Sopenharmony_ci	if (atomic_add_return(1, &i2400m->error_recovery) == 1)
7298c2ecf20Sopenharmony_ci		schedule_work(&i2400m->recovery_ws);
7308c2ecf20Sopenharmony_ci	else
7318c2ecf20Sopenharmony_ci		atomic_dec(&i2400m->error_recovery);
7328c2ecf20Sopenharmony_ci}
7338c2ecf20Sopenharmony_ciEXPORT_SYMBOL_GPL(i2400m_error_recovery);
7348c2ecf20Sopenharmony_ci
7358c2ecf20Sopenharmony_ci/*
7368c2ecf20Sopenharmony_ci * Alloc the command and ack buffers for boot mode
7378c2ecf20Sopenharmony_ci *
7388c2ecf20Sopenharmony_ci * Get the buffers needed to deal with boot mode messages.
7398c2ecf20Sopenharmony_ci */
7408c2ecf20Sopenharmony_cistatic
7418c2ecf20Sopenharmony_ciint i2400m_bm_buf_alloc(struct i2400m *i2400m)
7428c2ecf20Sopenharmony_ci{
7438c2ecf20Sopenharmony_ci	i2400m->bm_cmd_buf = kzalloc(I2400M_BM_CMD_BUF_SIZE, GFP_KERNEL);
7448c2ecf20Sopenharmony_ci	if (i2400m->bm_cmd_buf == NULL)
7458c2ecf20Sopenharmony_ci		goto error_bm_cmd_kzalloc;
7468c2ecf20Sopenharmony_ci	i2400m->bm_ack_buf = kzalloc(I2400M_BM_ACK_BUF_SIZE, GFP_KERNEL);
7478c2ecf20Sopenharmony_ci	if (i2400m->bm_ack_buf == NULL)
7488c2ecf20Sopenharmony_ci		goto error_bm_ack_buf_kzalloc;
7498c2ecf20Sopenharmony_ci	return 0;
7508c2ecf20Sopenharmony_ci
7518c2ecf20Sopenharmony_cierror_bm_ack_buf_kzalloc:
7528c2ecf20Sopenharmony_ci	kfree(i2400m->bm_cmd_buf);
7538c2ecf20Sopenharmony_cierror_bm_cmd_kzalloc:
7548c2ecf20Sopenharmony_ci	return -ENOMEM;
7558c2ecf20Sopenharmony_ci}
7568c2ecf20Sopenharmony_ci
7578c2ecf20Sopenharmony_ci
7588c2ecf20Sopenharmony_ci/*
7598c2ecf20Sopenharmony_ci * Free boot mode command and ack buffers.
7608c2ecf20Sopenharmony_ci */
7618c2ecf20Sopenharmony_cistatic
7628c2ecf20Sopenharmony_civoid i2400m_bm_buf_free(struct i2400m *i2400m)
7638c2ecf20Sopenharmony_ci{
7648c2ecf20Sopenharmony_ci	kfree(i2400m->bm_ack_buf);
7658c2ecf20Sopenharmony_ci	kfree(i2400m->bm_cmd_buf);
7668c2ecf20Sopenharmony_ci}
7678c2ecf20Sopenharmony_ci
7688c2ecf20Sopenharmony_ci
7698c2ecf20Sopenharmony_ci/**
7708c2ecf20Sopenharmony_ci * i2400m_init - Initialize a 'struct i2400m' from all zeroes
7718c2ecf20Sopenharmony_ci *
7728c2ecf20Sopenharmony_ci * This is a bus-generic API call.
7738c2ecf20Sopenharmony_ci */
7748c2ecf20Sopenharmony_civoid i2400m_init(struct i2400m *i2400m)
7758c2ecf20Sopenharmony_ci{
7768c2ecf20Sopenharmony_ci	wimax_dev_init(&i2400m->wimax_dev);
7778c2ecf20Sopenharmony_ci
7788c2ecf20Sopenharmony_ci	i2400m->boot_mode = 1;
7798c2ecf20Sopenharmony_ci	i2400m->rx_reorder = 1;
7808c2ecf20Sopenharmony_ci	init_waitqueue_head(&i2400m->state_wq);
7818c2ecf20Sopenharmony_ci
7828c2ecf20Sopenharmony_ci	spin_lock_init(&i2400m->tx_lock);
7838c2ecf20Sopenharmony_ci	i2400m->tx_pl_min = UINT_MAX;
7848c2ecf20Sopenharmony_ci	i2400m->tx_size_min = UINT_MAX;
7858c2ecf20Sopenharmony_ci
7868c2ecf20Sopenharmony_ci	spin_lock_init(&i2400m->rx_lock);
7878c2ecf20Sopenharmony_ci	i2400m->rx_pl_min = UINT_MAX;
7888c2ecf20Sopenharmony_ci	i2400m->rx_size_min = UINT_MAX;
7898c2ecf20Sopenharmony_ci	INIT_LIST_HEAD(&i2400m->rx_reports);
7908c2ecf20Sopenharmony_ci	INIT_WORK(&i2400m->rx_report_ws, i2400m_report_hook_work);
7918c2ecf20Sopenharmony_ci
7928c2ecf20Sopenharmony_ci	mutex_init(&i2400m->msg_mutex);
7938c2ecf20Sopenharmony_ci	init_completion(&i2400m->msg_completion);
7948c2ecf20Sopenharmony_ci
7958c2ecf20Sopenharmony_ci	mutex_init(&i2400m->init_mutex);
7968c2ecf20Sopenharmony_ci	/* wake_tx_ws is initialized in i2400m_tx_setup() */
7978c2ecf20Sopenharmony_ci
7988c2ecf20Sopenharmony_ci	INIT_WORK(&i2400m->reset_ws, __i2400m_dev_reset_handle);
7998c2ecf20Sopenharmony_ci	INIT_WORK(&i2400m->recovery_ws, __i2400m_error_recovery);
8008c2ecf20Sopenharmony_ci
8018c2ecf20Sopenharmony_ci	atomic_set(&i2400m->bus_reset_retries, 0);
8028c2ecf20Sopenharmony_ci
8038c2ecf20Sopenharmony_ci	i2400m->alive = 0;
8048c2ecf20Sopenharmony_ci
8058c2ecf20Sopenharmony_ci	/* initialize error_recovery to 1 for denoting we
8068c2ecf20Sopenharmony_ci	 * are not yet ready to take any error recovery */
8078c2ecf20Sopenharmony_ci	atomic_set(&i2400m->error_recovery, 1);
8088c2ecf20Sopenharmony_ci}
8098c2ecf20Sopenharmony_ciEXPORT_SYMBOL_GPL(i2400m_init);
8108c2ecf20Sopenharmony_ci
8118c2ecf20Sopenharmony_ci
8128c2ecf20Sopenharmony_ciint i2400m_reset(struct i2400m *i2400m, enum i2400m_reset_type rt)
8138c2ecf20Sopenharmony_ci{
8148c2ecf20Sopenharmony_ci	struct net_device *net_dev = i2400m->wimax_dev.net_dev;
8158c2ecf20Sopenharmony_ci
8168c2ecf20Sopenharmony_ci	/*
8178c2ecf20Sopenharmony_ci	 * Make sure we stop TXs and down the carrier before
8188c2ecf20Sopenharmony_ci	 * resetting; this is needed to avoid things like
8198c2ecf20Sopenharmony_ci	 * i2400m_wake_tx() scheduling stuff in parallel.
8208c2ecf20Sopenharmony_ci	 */
8218c2ecf20Sopenharmony_ci	if (net_dev->reg_state == NETREG_REGISTERED) {
8228c2ecf20Sopenharmony_ci		netif_tx_disable(net_dev);
8238c2ecf20Sopenharmony_ci		netif_carrier_off(net_dev);
8248c2ecf20Sopenharmony_ci	}
8258c2ecf20Sopenharmony_ci	return i2400m->bus_reset(i2400m, rt);
8268c2ecf20Sopenharmony_ci}
8278c2ecf20Sopenharmony_ciEXPORT_SYMBOL_GPL(i2400m_reset);
8288c2ecf20Sopenharmony_ci
8298c2ecf20Sopenharmony_ci
8308c2ecf20Sopenharmony_ci/**
8318c2ecf20Sopenharmony_ci * i2400m_setup - bus-generic setup function for the i2400m device
8328c2ecf20Sopenharmony_ci *
8338c2ecf20Sopenharmony_ci * @i2400m: device descriptor (bus-specific parts have been initialized)
8348c2ecf20Sopenharmony_ci *
8358c2ecf20Sopenharmony_ci * Returns: 0 if ok, < 0 errno code on error.
8368c2ecf20Sopenharmony_ci *
8378c2ecf20Sopenharmony_ci * Sets up basic device comunication infrastructure, boots the ROM to
8388c2ecf20Sopenharmony_ci * read the MAC address, registers with the WiMAX and network stacks
8398c2ecf20Sopenharmony_ci * and then brings up the device.
8408c2ecf20Sopenharmony_ci */
8418c2ecf20Sopenharmony_ciint i2400m_setup(struct i2400m *i2400m, enum i2400m_bri bm_flags)
8428c2ecf20Sopenharmony_ci{
8438c2ecf20Sopenharmony_ci	int result;
8448c2ecf20Sopenharmony_ci	struct device *dev = i2400m_dev(i2400m);
8458c2ecf20Sopenharmony_ci	struct wimax_dev *wimax_dev = &i2400m->wimax_dev;
8468c2ecf20Sopenharmony_ci	struct net_device *net_dev = i2400m->wimax_dev.net_dev;
8478c2ecf20Sopenharmony_ci
8488c2ecf20Sopenharmony_ci	d_fnstart(3, dev, "(i2400m %p)\n", i2400m);
8498c2ecf20Sopenharmony_ci
8508c2ecf20Sopenharmony_ci	snprintf(wimax_dev->name, sizeof(wimax_dev->name),
8518c2ecf20Sopenharmony_ci		 "i2400m-%s:%s", dev->bus->name, dev_name(dev));
8528c2ecf20Sopenharmony_ci
8538c2ecf20Sopenharmony_ci	result = i2400m_bm_buf_alloc(i2400m);
8548c2ecf20Sopenharmony_ci	if (result < 0) {
8558c2ecf20Sopenharmony_ci		dev_err(dev, "cannot allocate bootmode scratch buffers\n");
8568c2ecf20Sopenharmony_ci		goto error_bm_buf_alloc;
8578c2ecf20Sopenharmony_ci	}
8588c2ecf20Sopenharmony_ci
8598c2ecf20Sopenharmony_ci	if (i2400m->bus_setup) {
8608c2ecf20Sopenharmony_ci		result = i2400m->bus_setup(i2400m);
8618c2ecf20Sopenharmony_ci		if (result < 0) {
8628c2ecf20Sopenharmony_ci			dev_err(dev, "bus-specific setup failed: %d\n",
8638c2ecf20Sopenharmony_ci				result);
8648c2ecf20Sopenharmony_ci			goto error_bus_setup;
8658c2ecf20Sopenharmony_ci		}
8668c2ecf20Sopenharmony_ci	}
8678c2ecf20Sopenharmony_ci
8688c2ecf20Sopenharmony_ci	result = i2400m_bootrom_init(i2400m, bm_flags);
8698c2ecf20Sopenharmony_ci	if (result < 0) {
8708c2ecf20Sopenharmony_ci		dev_err(dev, "read mac addr: bootrom init "
8718c2ecf20Sopenharmony_ci			"failed: %d\n", result);
8728c2ecf20Sopenharmony_ci		goto error_bootrom_init;
8738c2ecf20Sopenharmony_ci	}
8748c2ecf20Sopenharmony_ci	result = i2400m_read_mac_addr(i2400m);
8758c2ecf20Sopenharmony_ci	if (result < 0)
8768c2ecf20Sopenharmony_ci		goto error_read_mac_addr;
8778c2ecf20Sopenharmony_ci	eth_random_addr(i2400m->src_mac_addr);
8788c2ecf20Sopenharmony_ci
8798c2ecf20Sopenharmony_ci	i2400m->pm_notifier.notifier_call = i2400m_pm_notifier;
8808c2ecf20Sopenharmony_ci	register_pm_notifier(&i2400m->pm_notifier);
8818c2ecf20Sopenharmony_ci
8828c2ecf20Sopenharmony_ci	result = register_netdev(net_dev);	/* Okey dokey, bring it up */
8838c2ecf20Sopenharmony_ci	if (result < 0) {
8848c2ecf20Sopenharmony_ci		dev_err(dev, "cannot register i2400m network device: %d\n",
8858c2ecf20Sopenharmony_ci			result);
8868c2ecf20Sopenharmony_ci		goto error_register_netdev;
8878c2ecf20Sopenharmony_ci	}
8888c2ecf20Sopenharmony_ci	netif_carrier_off(net_dev);
8898c2ecf20Sopenharmony_ci
8908c2ecf20Sopenharmony_ci	i2400m->wimax_dev.op_msg_from_user = i2400m_op_msg_from_user;
8918c2ecf20Sopenharmony_ci	i2400m->wimax_dev.op_rfkill_sw_toggle = i2400m_op_rfkill_sw_toggle;
8928c2ecf20Sopenharmony_ci	i2400m->wimax_dev.op_reset = i2400m_op_reset;
8938c2ecf20Sopenharmony_ci
8948c2ecf20Sopenharmony_ci	result = wimax_dev_add(&i2400m->wimax_dev, net_dev);
8958c2ecf20Sopenharmony_ci	if (result < 0)
8968c2ecf20Sopenharmony_ci		goto error_wimax_dev_add;
8978c2ecf20Sopenharmony_ci
8988c2ecf20Sopenharmony_ci	/* Now setup all that requires a registered net and wimax device. */
8998c2ecf20Sopenharmony_ci	result = sysfs_create_group(&net_dev->dev.kobj, &i2400m_dev_attr_group);
9008c2ecf20Sopenharmony_ci	if (result < 0) {
9018c2ecf20Sopenharmony_ci		dev_err(dev, "cannot setup i2400m's sysfs: %d\n", result);
9028c2ecf20Sopenharmony_ci		goto error_sysfs_setup;
9038c2ecf20Sopenharmony_ci	}
9048c2ecf20Sopenharmony_ci
9058c2ecf20Sopenharmony_ci	i2400m_debugfs_add(i2400m);
9068c2ecf20Sopenharmony_ci
9078c2ecf20Sopenharmony_ci	result = i2400m_dev_start(i2400m, bm_flags);
9088c2ecf20Sopenharmony_ci	if (result < 0)
9098c2ecf20Sopenharmony_ci		goto error_dev_start;
9108c2ecf20Sopenharmony_ci	d_fnend(3, dev, "(i2400m %p) = %d\n", i2400m, result);
9118c2ecf20Sopenharmony_ci	return result;
9128c2ecf20Sopenharmony_ci
9138c2ecf20Sopenharmony_cierror_dev_start:
9148c2ecf20Sopenharmony_ci	i2400m_debugfs_rm(i2400m);
9158c2ecf20Sopenharmony_ci	sysfs_remove_group(&i2400m->wimax_dev.net_dev->dev.kobj,
9168c2ecf20Sopenharmony_ci			   &i2400m_dev_attr_group);
9178c2ecf20Sopenharmony_cierror_sysfs_setup:
9188c2ecf20Sopenharmony_ci	wimax_dev_rm(&i2400m->wimax_dev);
9198c2ecf20Sopenharmony_cierror_wimax_dev_add:
9208c2ecf20Sopenharmony_ci	unregister_netdev(net_dev);
9218c2ecf20Sopenharmony_cierror_register_netdev:
9228c2ecf20Sopenharmony_ci	unregister_pm_notifier(&i2400m->pm_notifier);
9238c2ecf20Sopenharmony_cierror_read_mac_addr:
9248c2ecf20Sopenharmony_cierror_bootrom_init:
9258c2ecf20Sopenharmony_ci	if (i2400m->bus_release)
9268c2ecf20Sopenharmony_ci		i2400m->bus_release(i2400m);
9278c2ecf20Sopenharmony_cierror_bus_setup:
9288c2ecf20Sopenharmony_ci	i2400m_bm_buf_free(i2400m);
9298c2ecf20Sopenharmony_cierror_bm_buf_alloc:
9308c2ecf20Sopenharmony_ci	d_fnend(3, dev, "(i2400m %p) = %d\n", i2400m, result);
9318c2ecf20Sopenharmony_ci	return result;
9328c2ecf20Sopenharmony_ci}
9338c2ecf20Sopenharmony_ciEXPORT_SYMBOL_GPL(i2400m_setup);
9348c2ecf20Sopenharmony_ci
9358c2ecf20Sopenharmony_ci
9368c2ecf20Sopenharmony_ci/**
9378c2ecf20Sopenharmony_ci * i2400m_release - release the bus-generic driver resources
9388c2ecf20Sopenharmony_ci *
9398c2ecf20Sopenharmony_ci * Sends a disconnect message and undoes any setup done by i2400m_setup()
9408c2ecf20Sopenharmony_ci */
9418c2ecf20Sopenharmony_civoid i2400m_release(struct i2400m *i2400m)
9428c2ecf20Sopenharmony_ci{
9438c2ecf20Sopenharmony_ci	struct device *dev = i2400m_dev(i2400m);
9448c2ecf20Sopenharmony_ci
9458c2ecf20Sopenharmony_ci	d_fnstart(3, dev, "(i2400m %p)\n", i2400m);
9468c2ecf20Sopenharmony_ci	netif_stop_queue(i2400m->wimax_dev.net_dev);
9478c2ecf20Sopenharmony_ci
9488c2ecf20Sopenharmony_ci	i2400m_dev_stop(i2400m);
9498c2ecf20Sopenharmony_ci
9508c2ecf20Sopenharmony_ci	cancel_work_sync(&i2400m->reset_ws);
9518c2ecf20Sopenharmony_ci	cancel_work_sync(&i2400m->recovery_ws);
9528c2ecf20Sopenharmony_ci
9538c2ecf20Sopenharmony_ci	i2400m_debugfs_rm(i2400m);
9548c2ecf20Sopenharmony_ci	sysfs_remove_group(&i2400m->wimax_dev.net_dev->dev.kobj,
9558c2ecf20Sopenharmony_ci			   &i2400m_dev_attr_group);
9568c2ecf20Sopenharmony_ci	wimax_dev_rm(&i2400m->wimax_dev);
9578c2ecf20Sopenharmony_ci	unregister_netdev(i2400m->wimax_dev.net_dev);
9588c2ecf20Sopenharmony_ci	unregister_pm_notifier(&i2400m->pm_notifier);
9598c2ecf20Sopenharmony_ci	if (i2400m->bus_release)
9608c2ecf20Sopenharmony_ci		i2400m->bus_release(i2400m);
9618c2ecf20Sopenharmony_ci	i2400m_bm_buf_free(i2400m);
9628c2ecf20Sopenharmony_ci	d_fnend(3, dev, "(i2400m %p) = void\n", i2400m);
9638c2ecf20Sopenharmony_ci}
9648c2ecf20Sopenharmony_ciEXPORT_SYMBOL_GPL(i2400m_release);
9658c2ecf20Sopenharmony_ci
9668c2ecf20Sopenharmony_ci
9678c2ecf20Sopenharmony_ci/*
9688c2ecf20Sopenharmony_ci * Debug levels control; see debug.h
9698c2ecf20Sopenharmony_ci */
9708c2ecf20Sopenharmony_cistruct d_level D_LEVEL[] = {
9718c2ecf20Sopenharmony_ci	D_SUBMODULE_DEFINE(control),
9728c2ecf20Sopenharmony_ci	D_SUBMODULE_DEFINE(driver),
9738c2ecf20Sopenharmony_ci	D_SUBMODULE_DEFINE(debugfs),
9748c2ecf20Sopenharmony_ci	D_SUBMODULE_DEFINE(fw),
9758c2ecf20Sopenharmony_ci	D_SUBMODULE_DEFINE(netdev),
9768c2ecf20Sopenharmony_ci	D_SUBMODULE_DEFINE(rfkill),
9778c2ecf20Sopenharmony_ci	D_SUBMODULE_DEFINE(rx),
9788c2ecf20Sopenharmony_ci	D_SUBMODULE_DEFINE(sysfs),
9798c2ecf20Sopenharmony_ci	D_SUBMODULE_DEFINE(tx),
9808c2ecf20Sopenharmony_ci};
9818c2ecf20Sopenharmony_cisize_t D_LEVEL_SIZE = ARRAY_SIZE(D_LEVEL);
9828c2ecf20Sopenharmony_ci
9838c2ecf20Sopenharmony_ci
9848c2ecf20Sopenharmony_cistatic
9858c2ecf20Sopenharmony_ciint __init i2400m_driver_init(void)
9868c2ecf20Sopenharmony_ci{
9878c2ecf20Sopenharmony_ci	d_parse_params(D_LEVEL, D_LEVEL_SIZE, i2400m_debug_params,
9888c2ecf20Sopenharmony_ci		       "i2400m.debug");
9898c2ecf20Sopenharmony_ci	return i2400m_barker_db_init(i2400m_barkers_params);
9908c2ecf20Sopenharmony_ci}
9918c2ecf20Sopenharmony_cimodule_init(i2400m_driver_init);
9928c2ecf20Sopenharmony_ci
9938c2ecf20Sopenharmony_cistatic
9948c2ecf20Sopenharmony_civoid __exit i2400m_driver_exit(void)
9958c2ecf20Sopenharmony_ci{
9968c2ecf20Sopenharmony_ci	i2400m_barker_db_exit();
9978c2ecf20Sopenharmony_ci}
9988c2ecf20Sopenharmony_cimodule_exit(i2400m_driver_exit);
9998c2ecf20Sopenharmony_ci
10008c2ecf20Sopenharmony_ciMODULE_AUTHOR("Intel Corporation <linux-wimax@intel.com>");
10018c2ecf20Sopenharmony_ciMODULE_DESCRIPTION("Intel 2400M WiMAX networking bus-generic driver");
10028c2ecf20Sopenharmony_ciMODULE_LICENSE("GPL");
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