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// SPDX-License-Identifier: GPL-2.0-or-later
/*
 * net/dsa/dsa2.c - Hardware switch handling, binding version 2
 * Copyright (c) 2008-2009 Marvell Semiconductor
 * Copyright (c) 2013 Florian Fainelli <florian@openwrt.org>
 * Copyright (c) 2016 Andrew Lunn <andrew@lunn.ch>
 */

#include <linux/device.h>
#include <linux/err.h>
#include <linux/list.h>
#include <linux/netdevice.h>
#include <linux/slab.h>
#include <linux/rtnetlink.h>
#include <linux/of.h>
#include <linux/of_net.h>
#include <net/devlink.h>

#include "dsa_priv.h"

static DEFINE_MUTEX(dsa2_mutex);
LIST_HEAD(dsa_tree_list);

/* Track the bridges with forwarding offload enabled */
static unsigned long dsa_fwd_offloading_bridges;

/**
 * dsa_tree_notify - Execute code for all switches in a DSA switch tree.
 * @dst: collection of struct dsa_switch devices to notify.
 * @e: event, must be of type DSA_NOTIFIER_*
 * @v: event-specific value.
 *
 * Given a struct dsa_switch_tree, this can be used to run a function once for
 * each member DSA switch. The other alternative of traversing the tree is only
 * through its ports list, which does not uniquely list the switches.
 */
int dsa_tree_notify(struct dsa_switch_tree *dst, unsigned long e, void *v)
{
	struct raw_notifier_head *nh = &dst->nh;
	int err;

	err = raw_notifier_call_chain(nh, e, v);

	return notifier_to_errno(err);
}

/**
 * dsa_broadcast - Notify all DSA trees in the system.
 * @e: event, must be of type DSA_NOTIFIER_*
 * @v: event-specific value.
 *
 * Can be used to notify the switching fabric of events such as cross-chip
 * bridging between disjoint trees (such as islands of tagger-compatible
 * switches bridged by an incompatible middle switch).
 *
 * WARNING: this function is not reliable during probe time, because probing
 * between trees is asynchronous and not all DSA trees might have probed.
 */
int dsa_broadcast(unsigned long e, void *v)
{
	struct dsa_switch_tree *dst;
	int err = 0;

	list_for_each_entry(dst, &dsa_tree_list, list) {
		err = dsa_tree_notify(dst, e, v);
		if (err)
			break;
	}

	return err;
}

/**
 * dsa_lag_map() - Map LAG netdev to a linear LAG ID
 * @dst: Tree in which to record the mapping.
 * @lag: Netdev that is to be mapped to an ID.
 *
 * dsa_lag_id/dsa_lag_dev can then be used to translate between the
 * two spaces. The size of the mapping space is determined by the
 * driver by setting ds->num_lag_ids. It is perfectly legal to leave
 * it unset if it is not needed, in which case these functions become
 * no-ops.
 */
void dsa_lag_map(struct dsa_switch_tree *dst, struct net_device *lag)
{
	unsigned int id;

	if (dsa_lag_id(dst, lag) >= 0)
		/* Already mapped */
		return;

	for (id = 0; id < dst->lags_len; id++) {
		if (!dsa_lag_dev(dst, id)) {
			dst->lags[id] = lag;
			return;
		}
	}

	/* No IDs left, which is OK. Some drivers do not need it. The
	 * ones that do, e.g. mv88e6xxx, will discover that dsa_lag_id
	 * returns an error for this device when joining the LAG. The
	 * driver can then return -EOPNOTSUPP back to DSA, which will
	 * fall back to a software LAG.
	 */
}

/**
 * dsa_lag_unmap() - Remove a LAG ID mapping
 * @dst: Tree in which the mapping is recorded.
 * @lag: Netdev that was mapped.
 *
 * As there may be multiple users of the mapping, it is only removed
 * if there are no other references to it.
 */
void dsa_lag_unmap(struct dsa_switch_tree *dst, struct net_device *lag)
{
	struct dsa_port *dp;
	unsigned int id;

	dsa_lag_foreach_port(dp, dst, lag)
		/* There are remaining users of this mapping */
		return;

	dsa_lags_foreach_id(id, dst) {
		if (dsa_lag_dev(dst, id) == lag) {
			dst->lags[id] = NULL;
			break;
		}
	}
}

struct dsa_bridge *dsa_tree_bridge_find(struct dsa_switch_tree *dst,
					const struct net_device *br)
{
	struct dsa_port *dp;

	list_for_each_entry(dp, &dst->ports, list)
		if (dsa_port_bridge_dev_get(dp) == br)
			return dp->bridge;

	return NULL;
}

static int dsa_bridge_num_find(const struct net_device *bridge_dev)
{
	struct dsa_switch_tree *dst;

	list_for_each_entry(dst, &dsa_tree_list, list) {
		struct dsa_bridge *bridge;

		bridge = dsa_tree_bridge_find(dst, bridge_dev);
		if (bridge)
			return bridge->num;
	}

	return 0;
}

unsigned int dsa_bridge_num_get(const struct net_device *bridge_dev, int max)
{
	unsigned int bridge_num = dsa_bridge_num_find(bridge_dev);

	/* Switches without FDB isolation support don't get unique
	 * bridge numbering
	 */
	if (!max)
		return 0;

	if (!bridge_num) {
		/* First port that requests FDB isolation or TX forwarding
		 * offload for this bridge
		 */
		bridge_num = find_next_zero_bit(&dsa_fwd_offloading_bridges,
						DSA_MAX_NUM_OFFLOADING_BRIDGES,
						1);
		if (bridge_num >= max)
			return 0;

		set_bit(bridge_num, &dsa_fwd_offloading_bridges);
	}

	return bridge_num;
}

void dsa_bridge_num_put(const struct net_device *bridge_dev,
			unsigned int bridge_num)
{
	/* Since we refcount bridges, we know that when we call this function
	 * it is no longer in use, so we can just go ahead and remove it from
	 * the bit mask.
	 */
	clear_bit(bridge_num, &dsa_fwd_offloading_bridges);
}

struct dsa_switch *dsa_switch_find(int tree_index, int sw_index)
{
	struct dsa_switch_tree *dst;
	struct dsa_port *dp;

	list_for_each_entry(dst, &dsa_tree_list, list) {
		if (dst->index != tree_index)
			continue;

		list_for_each_entry(dp, &dst->ports, list) {
			if (dp->ds->index != sw_index)
				continue;

			return dp->ds;
		}
	}

	return NULL;
}
EXPORT_SYMBOL_GPL(dsa_switch_find);

static struct dsa_switch_tree *dsa_tree_find(int index)
{
	struct dsa_switch_tree *dst;

	list_for_each_entry(dst, &dsa_tree_list, list)
		if (dst->index == index)
			return dst;

	return NULL;
}

static struct dsa_switch_tree *dsa_tree_alloc(int index)
{
	struct dsa_switch_tree *dst;

	dst = kzalloc(sizeof(*dst), GFP_KERNEL);
	if (!dst)
		return NULL;

	dst->index = index;

	INIT_LIST_HEAD(&dst->rtable);

	INIT_LIST_HEAD(&dst->ports);

	INIT_LIST_HEAD(&dst->list);
	list_add_tail(&dst->list, &dsa_tree_list);

	kref_init(&dst->refcount);

	return dst;
}

static void dsa_tree_free(struct dsa_switch_tree *dst)
{
	if (dst->tag_ops)
		dsa_tag_driver_put(dst->tag_ops);
	list_del(&dst->list);
	kfree(dst);
}

static struct dsa_switch_tree *dsa_tree_get(struct dsa_switch_tree *dst)
{
	if (dst)
		kref_get(&dst->refcount);

	return dst;
}

static struct dsa_switch_tree *dsa_tree_touch(int index)
{
	struct dsa_switch_tree *dst;

	dst = dsa_tree_find(index);
	if (dst)
		return dsa_tree_get(dst);
	else
		return dsa_tree_alloc(index);
}

static void dsa_tree_release(struct kref *ref)
{
	struct dsa_switch_tree *dst;

	dst = container_of(ref, struct dsa_switch_tree, refcount);

	dsa_tree_free(dst);
}

static void dsa_tree_put(struct dsa_switch_tree *dst)
{
	if (dst)
		kref_put(&dst->refcount, dsa_tree_release);
}

static struct dsa_port *dsa_tree_find_port_by_node(struct dsa_switch_tree *dst,
						   struct device_node *dn)
{
	struct dsa_port *dp;

	list_for_each_entry(dp, &dst->ports, list)
		if (dp->dn == dn)
			return dp;

	return NULL;
}

static struct dsa_link *dsa_link_touch(struct dsa_port *dp,
				       struct dsa_port *link_dp)
{
	struct dsa_switch *ds = dp->ds;
	struct dsa_switch_tree *dst;
	struct dsa_link *dl;

	dst = ds->dst;

	list_for_each_entry(dl, &dst->rtable, list)
		if (dl->dp == dp && dl->link_dp == link_dp)
			return dl;

	dl = kzalloc(sizeof(*dl), GFP_KERNEL);
	if (!dl)
		return NULL;

	dl->dp = dp;
	dl->link_dp = link_dp;

	INIT_LIST_HEAD(&dl->list);
	list_add_tail(&dl->list, &dst->rtable);

	return dl;
}

static bool dsa_port_setup_routing_table(struct dsa_port *dp)
{
	struct dsa_switch *ds = dp->ds;
	struct dsa_switch_tree *dst = ds->dst;
	struct device_node *dn = dp->dn;
	struct of_phandle_iterator it;
	struct dsa_port *link_dp;
	struct dsa_link *dl;
	int err;

	of_for_each_phandle(&it, err, dn, "link", NULL, 0) {
		link_dp = dsa_tree_find_port_by_node(dst, it.node);
		if (!link_dp) {
			of_node_put(it.node);
			return false;
		}

		dl = dsa_link_touch(dp, link_dp);
		if (!dl) {
			of_node_put(it.node);
			return false;
		}
	}

	return true;
}

static bool dsa_tree_setup_routing_table(struct dsa_switch_tree *dst)
{
	bool complete = true;
	struct dsa_port *dp;

	list_for_each_entry(dp, &dst->ports, list) {
		if (dsa_port_is_dsa(dp)) {
			complete = dsa_port_setup_routing_table(dp);
			if (!complete)
				break;
		}
	}

	return complete;
}

static struct dsa_port *dsa_tree_find_first_cpu(struct dsa_switch_tree *dst)
{
	struct dsa_port *dp;

	list_for_each_entry(dp, &dst->ports, list)
		if (dsa_port_is_cpu(dp))
			return dp;

	return NULL;
}

/* Assign the default CPU port (the first one in the tree) to all ports of the
 * fabric which don't already have one as part of their own switch.
 */
static int dsa_tree_setup_default_cpu(struct dsa_switch_tree *dst)
{
	struct dsa_port *cpu_dp, *dp;

	cpu_dp = dsa_tree_find_first_cpu(dst);
	if (!cpu_dp) {
		pr_err("DSA: tree %d has no CPU port\n", dst->index);
		return -EINVAL;
	}

	list_for_each_entry(dp, &dst->ports, list) {
		if (dp->cpu_dp)
			continue;

		if (dsa_port_is_user(dp) || dsa_port_is_dsa(dp))
			dp->cpu_dp = cpu_dp;
	}

	return 0;
}

/* Perform initial assignment of CPU ports to user ports and DSA links in the
 * fabric, giving preference to CPU ports local to each switch. Default to
 * using the first CPU port in the switch tree if the port does not have a CPU
 * port local to this switch.
 */
static int dsa_tree_setup_cpu_ports(struct dsa_switch_tree *dst)
{
	struct dsa_port *cpu_dp, *dp;

	list_for_each_entry(cpu_dp, &dst->ports, list) {
		if (!dsa_port_is_cpu(cpu_dp))
			continue;

		/* Prefer a local CPU port */
		dsa_switch_for_each_port(dp, cpu_dp->ds) {
			/* Prefer the first local CPU port found */
			if (dp->cpu_dp)
				continue;

			if (dsa_port_is_user(dp) || dsa_port_is_dsa(dp))
				dp->cpu_dp = cpu_dp;
		}
	}

	return dsa_tree_setup_default_cpu(dst);
}

static void dsa_tree_teardown_cpu_ports(struct dsa_switch_tree *dst)
{
	struct dsa_port *dp;

	list_for_each_entry(dp, &dst->ports, list)
		if (dsa_port_is_user(dp) || dsa_port_is_dsa(dp))
			dp->cpu_dp = NULL;
}

static int dsa_port_setup(struct dsa_port *dp)
{
	struct devlink_port *dlp = &dp->devlink_port;
	bool dsa_port_link_registered = false;
	struct dsa_switch *ds = dp->ds;
	bool dsa_port_enabled = false;
	int err = 0;

	if (dp->setup)
		return 0;

	mutex_init(&dp->addr_lists_lock);
	INIT_LIST_HEAD(&dp->fdbs);
	INIT_LIST_HEAD(&dp->mdbs);

	if (ds->ops->port_setup) {
		err = ds->ops->port_setup(ds, dp->index);
		if (err)
			return err;
	}

	switch (dp->type) {
	case DSA_PORT_TYPE_UNUSED:
		dsa_port_disable(dp);
		break;
	case DSA_PORT_TYPE_CPU:
		err = dsa_port_link_register_of(dp);
		if (err)
			break;
		dsa_port_link_registered = true;

		err = dsa_port_enable(dp, NULL);
		if (err)
			break;
		dsa_port_enabled = true;

		break;
	case DSA_PORT_TYPE_DSA:
		err = dsa_port_link_register_of(dp);
		if (err)
			break;
		dsa_port_link_registered = true;

		err = dsa_port_enable(dp, NULL);
		if (err)
			break;
		dsa_port_enabled = true;

		break;
	case DSA_PORT_TYPE_USER:
		of_get_mac_address(dp->dn, dp->mac);
		err = dsa_slave_create(dp);
		if (err)
			break;

		devlink_port_type_eth_set(dlp, dp->slave);
		break;
	}

	if (err && dsa_port_enabled)
		dsa_port_disable(dp);
	if (err && dsa_port_link_registered)
		dsa_port_link_unregister_of(dp);
	if (err) {
		if (ds->ops->port_teardown)
			ds->ops->port_teardown(ds, dp->index);
		return err;
	}

	dp->setup = true;

	return 0;
}

static int dsa_port_devlink_setup(struct dsa_port *dp)
{
	struct devlink_port *dlp = &dp->devlink_port;
	struct dsa_switch_tree *dst = dp->ds->dst;
	struct devlink_port_attrs attrs = {};
	struct devlink *dl = dp->ds->devlink;
	const unsigned char *id;
	unsigned char len;
	int err;

	id = (const unsigned char *)&dst->index;
	len = sizeof(dst->index);

	attrs.phys.port_number = dp->index;
	memcpy(attrs.switch_id.id, id, len);
	attrs.switch_id.id_len = len;
	memset(dlp, 0, sizeof(*dlp));

	switch (dp->type) {
	case DSA_PORT_TYPE_UNUSED:
		attrs.flavour = DEVLINK_PORT_FLAVOUR_UNUSED;
		break;
	case DSA_PORT_TYPE_CPU:
		attrs.flavour = DEVLINK_PORT_FLAVOUR_CPU;
		break;
	case DSA_PORT_TYPE_DSA:
		attrs.flavour = DEVLINK_PORT_FLAVOUR_DSA;
		break;
	case DSA_PORT_TYPE_USER:
		attrs.flavour = DEVLINK_PORT_FLAVOUR_PHYSICAL;
		break;
	}

	devlink_port_attrs_set(dlp, &attrs);
	err = devlink_port_register(dl, dlp, dp->index);

	if (!err)
		dp->devlink_port_setup = true;

	return err;
}

static void dsa_port_teardown(struct dsa_port *dp)
{
	struct devlink_port *dlp = &dp->devlink_port;
	struct dsa_switch *ds = dp->ds;
	struct dsa_mac_addr *a, *tmp;
	struct net_device *slave;

	if (!dp->setup)
		return;

	if (ds->ops->port_teardown)
		ds->ops->port_teardown(ds, dp->index);

	devlink_port_type_clear(dlp);

	switch (dp->type) {
	case DSA_PORT_TYPE_UNUSED:
		break;
	case DSA_PORT_TYPE_CPU:
		dsa_port_disable(dp);
		dsa_port_link_unregister_of(dp);
		break;
	case DSA_PORT_TYPE_DSA:
		dsa_port_disable(dp);
		dsa_port_link_unregister_of(dp);
		break;
	case DSA_PORT_TYPE_USER:
		slave = dp->slave;

		if (slave) {
			dp->slave = NULL;
			dsa_slave_destroy(slave);
		}
		break;
	}

	list_for_each_entry_safe(a, tmp, &dp->fdbs, list) {
		list_del(&a->list);
		kfree(a);
	}

	list_for_each_entry_safe(a, tmp, &dp->mdbs, list) {
		list_del(&a->list);
		kfree(a);
	}

	dp->setup = false;
}

static void dsa_port_devlink_teardown(struct dsa_port *dp)
{
	struct devlink_port *dlp = &dp->devlink_port;

	if (dp->devlink_port_setup)
		devlink_port_unregister(dlp);
	dp->devlink_port_setup = false;
}

/* Destroy the current devlink port, and create a new one which has the UNUSED
 * flavour. At this point, any call to ds->ops->port_setup has been already
 * balanced out by a call to ds->ops->port_teardown, so we know that any
 * devlink port regions the driver had are now unregistered. We then call its
 * ds->ops->port_setup again, in order for the driver to re-create them on the
 * new devlink port.
 */
static int dsa_port_reinit_as_unused(struct dsa_port *dp)
{
	struct dsa_switch *ds = dp->ds;
	int err;

	dsa_port_devlink_teardown(dp);
	dp->type = DSA_PORT_TYPE_UNUSED;
	err = dsa_port_devlink_setup(dp);
	if (err)
		return err;

	if (ds->ops->port_setup) {
		/* On error, leave the devlink port registered,
		 * dsa_switch_teardown will clean it up later.
		 */
		err = ds->ops->port_setup(ds, dp->index);
		if (err)
			return err;
	}

	return 0;
}

static int dsa_devlink_info_get(struct devlink *dl,
				struct devlink_info_req *req,
				struct netlink_ext_ack *extack)
{
	struct dsa_switch *ds = dsa_devlink_to_ds(dl);

	if (ds->ops->devlink_info_get)
		return ds->ops->devlink_info_get(ds, req, extack);

	return -EOPNOTSUPP;
}

static int dsa_devlink_sb_pool_get(struct devlink *dl,
				   unsigned int sb_index, u16 pool_index,
				   struct devlink_sb_pool_info *pool_info)
{
	struct dsa_switch *ds = dsa_devlink_to_ds(dl);

	if (!ds->ops->devlink_sb_pool_get)
		return -EOPNOTSUPP;

	return ds->ops->devlink_sb_pool_get(ds, sb_index, pool_index,
					    pool_info);
}

static int dsa_devlink_sb_pool_set(struct devlink *dl, unsigned int sb_index,
				   u16 pool_index, u32 size,
				   enum devlink_sb_threshold_type threshold_type,
				   struct netlink_ext_ack *extack)
{
	struct dsa_switch *ds = dsa_devlink_to_ds(dl);

	if (!ds->ops->devlink_sb_pool_set)
		return -EOPNOTSUPP;

	return ds->ops->devlink_sb_pool_set(ds, sb_index, pool_index, size,
					    threshold_type, extack);
}

static int dsa_devlink_sb_port_pool_get(struct devlink_port *dlp,
					unsigned int sb_index, u16 pool_index,
					u32 *p_threshold)
{
	struct dsa_switch *ds = dsa_devlink_port_to_ds(dlp);
	int port = dsa_devlink_port_to_port(dlp);

	if (!ds->ops->devlink_sb_port_pool_get)
		return -EOPNOTSUPP;

	return ds->ops->devlink_sb_port_pool_get(ds, port, sb_index,
						 pool_index, p_threshold);
}

static int dsa_devlink_sb_port_pool_set(struct devlink_port *dlp,
					unsigned int sb_index, u16 pool_index,
					u32 threshold,
					struct netlink_ext_ack *extack)
{
	struct dsa_switch *ds = dsa_devlink_port_to_ds(dlp);
	int port = dsa_devlink_port_to_port(dlp);

	if (!ds->ops->devlink_sb_port_pool_set)
		return -EOPNOTSUPP;

	return ds->ops->devlink_sb_port_pool_set(ds, port, sb_index,
						 pool_index, threshold, extack);
}

static int
dsa_devlink_sb_tc_pool_bind_get(struct devlink_port *dlp,
				unsigned int sb_index, u16 tc_index,
				enum devlink_sb_pool_type pool_type,
				u16 *p_pool_index, u32 *p_threshold)
{
	struct dsa_switch *ds = dsa_devlink_port_to_ds(dlp);
	int port = dsa_devlink_port_to_port(dlp);

	if (!ds->ops->devlink_sb_tc_pool_bind_get)
		return -EOPNOTSUPP;

	return ds->ops->devlink_sb_tc_pool_bind_get(ds, port, sb_index,
						    tc_index, pool_type,
						    p_pool_index, p_threshold);
}

static int
dsa_devlink_sb_tc_pool_bind_set(struct devlink_port *dlp,
				unsigned int sb_index, u16 tc_index,
				enum devlink_sb_pool_type pool_type,
				u16 pool_index, u32 threshold,
				struct netlink_ext_ack *extack)
{
	struct dsa_switch *ds = dsa_devlink_port_to_ds(dlp);
	int port = dsa_devlink_port_to_port(dlp);

	if (!ds->ops->devlink_sb_tc_pool_bind_set)
		return -EOPNOTSUPP;

	return ds->ops->devlink_sb_tc_pool_bind_set(ds, port, sb_index,
						    tc_index, pool_type,
						    pool_index, threshold,
						    extack);
}

static int dsa_devlink_sb_occ_snapshot(struct devlink *dl,
				       unsigned int sb_index)
{
	struct dsa_switch *ds = dsa_devlink_to_ds(dl);

	if (!ds->ops->devlink_sb_occ_snapshot)
		return -EOPNOTSUPP;

	return ds->ops->devlink_sb_occ_snapshot(ds, sb_index);
}

static int dsa_devlink_sb_occ_max_clear(struct devlink *dl,
					unsigned int sb_index)
{
	struct dsa_switch *ds = dsa_devlink_to_ds(dl);

	if (!ds->ops->devlink_sb_occ_max_clear)
		return -EOPNOTSUPP;

	return ds->ops->devlink_sb_occ_max_clear(ds, sb_index);
}

static int dsa_devlink_sb_occ_port_pool_get(struct devlink_port *dlp,
					    unsigned int sb_index,
					    u16 pool_index, u32 *p_cur,
					    u32 *p_max)
{
	struct dsa_switch *ds = dsa_devlink_port_to_ds(dlp);
	int port = dsa_devlink_port_to_port(dlp);

	if (!ds->ops->devlink_sb_occ_port_pool_get)
		return -EOPNOTSUPP;

	return ds->ops->devlink_sb_occ_port_pool_get(ds, port, sb_index,
						     pool_index, p_cur, p_max);
}

static int
dsa_devlink_sb_occ_tc_port_bind_get(struct devlink_port *dlp,
				    unsigned int sb_index, u16 tc_index,
				    enum devlink_sb_pool_type pool_type,
				    u32 *p_cur, u32 *p_max)
{
	struct dsa_switch *ds = dsa_devlink_port_to_ds(dlp);
	int port = dsa_devlink_port_to_port(dlp);

	if (!ds->ops->devlink_sb_occ_tc_port_bind_get)
		return -EOPNOTSUPP;

	return ds->ops->devlink_sb_occ_tc_port_bind_get(ds, port,
							sb_index, tc_index,
							pool_type, p_cur,
							p_max);
}

static const struct devlink_ops dsa_devlink_ops = {
	.info_get			= dsa_devlink_info_get,
	.sb_pool_get			= dsa_devlink_sb_pool_get,
	.sb_pool_set			= dsa_devlink_sb_pool_set,
	.sb_port_pool_get		= dsa_devlink_sb_port_pool_get,
	.sb_port_pool_set		= dsa_devlink_sb_port_pool_set,
	.sb_tc_pool_bind_get		= dsa_devlink_sb_tc_pool_bind_get,
	.sb_tc_pool_bind_set		= dsa_devlink_sb_tc_pool_bind_set,
	.sb_occ_snapshot		= dsa_devlink_sb_occ_snapshot,
	.sb_occ_max_clear		= dsa_devlink_sb_occ_max_clear,
	.sb_occ_port_pool_get		= dsa_devlink_sb_occ_port_pool_get,
	.sb_occ_tc_port_bind_get	= dsa_devlink_sb_occ_tc_port_bind_get,
};

static int dsa_switch_setup_tag_protocol(struct dsa_switch *ds)
{
	const struct dsa_device_ops *tag_ops = ds->dst->tag_ops;
	struct dsa_switch_tree *dst = ds->dst;
	struct dsa_port *cpu_dp;
	int err;

	if (tag_ops->proto == dst->default_proto)
		goto connect;

	dsa_switch_for_each_cpu_port(cpu_dp, ds) {
		rtnl_lock();
		err = ds->ops->change_tag_protocol(ds, cpu_dp->index,
						   tag_ops->proto);
		rtnl_unlock();
		if (err) {
			dev_err(ds->dev, "Unable to use tag protocol \"%s\": %pe\n",
				tag_ops->name, ERR_PTR(err));
			return err;
		}
	}

connect:
	if (tag_ops->connect) {
		err = tag_ops->connect(ds);
		if (err)
			return err;
	}

	if (ds->ops->connect_tag_protocol) {
		err = ds->ops->connect_tag_protocol(ds, tag_ops->proto);
		if (err) {
			dev_err(ds->dev,
				"Unable to connect to tag protocol \"%s\": %pe\n",
				tag_ops->name, ERR_PTR(err));
			goto disconnect;
		}
	}

	return 0;

disconnect:
	if (tag_ops->disconnect)
		tag_ops->disconnect(ds);

	return err;
}

static int dsa_switch_setup(struct dsa_switch *ds)
{
	struct dsa_devlink_priv *dl_priv;
	struct dsa_port *dp;
	int err;

	if (ds->setup)
		return 0;

	/* Initialize ds->phys_mii_mask before registering the slave MDIO bus
	 * driver and before ops->setup() has run, since the switch drivers and
	 * the slave MDIO bus driver rely on these values for probing PHY
	 * devices or not
	 */
	ds->phys_mii_mask |= dsa_user_ports(ds);

	/* Add the switch to devlink before calling setup, so that setup can
	 * add dpipe tables
	 */
	ds->devlink =
		devlink_alloc(&dsa_devlink_ops, sizeof(*dl_priv), ds->dev);
	if (!ds->devlink)
		return -ENOMEM;
	dl_priv = devlink_priv(ds->devlink);
	dl_priv->ds = ds;

	/* Setup devlink port instances now, so that the switch
	 * setup() can register regions etc, against the ports
	 */
	dsa_switch_for_each_port(dp, ds) {
		err = dsa_port_devlink_setup(dp);
		if (err)
			goto unregister_devlink_ports;
	}

	err = dsa_switch_register_notifier(ds);
	if (err)
		goto unregister_devlink_ports;

	ds->configure_vlan_while_not_filtering = true;

	err = ds->ops->setup(ds);
	if (err < 0)
		goto unregister_notifier;

	err = dsa_switch_setup_tag_protocol(ds);
	if (err)
		goto teardown;

	if (!ds->slave_mii_bus && ds->ops->phy_read) {
		ds->slave_mii_bus = mdiobus_alloc();
		if (!ds->slave_mii_bus) {
			err = -ENOMEM;
			goto teardown;
		}

		dsa_slave_mii_bus_init(ds);

		err = mdiobus_register(ds->slave_mii_bus);
		if (err < 0)
			goto free_slave_mii_bus;
	}

	ds->setup = true;
	devlink_register(ds->devlink);
	return 0;

free_slave_mii_bus:
	if (ds->slave_mii_bus && ds->ops->phy_read)
		mdiobus_free(ds->slave_mii_bus);
teardown:
	if (ds->ops->teardown)
		ds->ops->teardown(ds);
unregister_notifier:
	dsa_switch_unregister_notifier(ds);
unregister_devlink_ports:
	dsa_switch_for_each_port(dp, ds)
		dsa_port_devlink_teardown(dp);
	devlink_free(ds->devlink);
	ds->devlink = NULL;
	return err;
}

static void dsa_switch_teardown(struct dsa_switch *ds)
{
	struct dsa_port *dp;

	if (!ds->setup)
		return;

	if (ds->devlink)
		devlink_unregister(ds->devlink);

	if (ds->slave_mii_bus && ds->ops->phy_read) {
		mdiobus_unregister(ds->slave_mii_bus);
		mdiobus_free(ds->slave_mii_bus);
		ds->slave_mii_bus = NULL;
	}

	if (ds->ops->teardown)
		ds->ops->teardown(ds);

	dsa_switch_unregister_notifier(ds);

	if (ds->devlink) {
		dsa_switch_for_each_port(dp, ds)
			dsa_port_devlink_teardown(dp);
		devlink_free(ds->devlink);
		ds->devlink = NULL;
	}

	ds->setup = false;
}

/* First tear down the non-shared, then the shared ports. This ensures that
 * all work items scheduled by our switchdev handlers for user ports have
 * completed before we destroy the refcounting kept on the shared ports.
 */
static void dsa_tree_teardown_ports(struct dsa_switch_tree *dst)
{
	struct dsa_port *dp;

	list_for_each_entry(dp, &dst->ports, list)
		if (dsa_port_is_user(dp) || dsa_port_is_unused(dp))
			dsa_port_teardown(dp);

	dsa_flush_workqueue();

	list_for_each_entry(dp, &dst->ports, list)
		if (dsa_port_is_dsa(dp) || dsa_port_is_cpu(dp))
			dsa_port_teardown(dp);
}

static void dsa_tree_teardown_switches(struct dsa_switch_tree *dst)
{
	struct dsa_port *dp;

	list_for_each_entry(dp, &dst->ports, list)
		dsa_switch_teardown(dp->ds);
}

/* Bring shared ports up first, then non-shared ports */
static int dsa_tree_setup_ports(struct dsa_switch_tree *dst)
{
	struct dsa_port *dp;
	int err = 0;

	list_for_each_entry(dp, &dst->ports, list) {
		if (dsa_port_is_dsa(dp) || dsa_port_is_cpu(dp)) {
			err = dsa_port_setup(dp);
			if (err)
				goto teardown;
		}
	}

	list_for_each_entry(dp, &dst->ports, list) {
		if (dsa_port_is_user(dp) || dsa_port_is_unused(dp)) {
			err = dsa_port_setup(dp);
			if (err) {
				err = dsa_port_reinit_as_unused(dp);
				if (err)
					goto teardown;
			}
		}
	}

	return 0;

teardown:
	dsa_tree_teardown_ports(dst);

	return err;
}

static int dsa_tree_setup_switches(struct dsa_switch_tree *dst)
{
	struct dsa_port *dp;
	int err = 0;

	list_for_each_entry(dp, &dst->ports, list) {
		err = dsa_switch_setup(dp->ds);
		if (err) {
			dsa_tree_teardown_switches(dst);
			break;
		}
	}

	return err;
}

static int dsa_tree_setup_master(struct dsa_switch_tree *dst)
{
	struct dsa_port *dp;
	int err;

	rtnl_lock();

	list_for_each_entry(dp, &dst->ports, list) {
		if (dsa_port_is_cpu(dp)) {
			err = dsa_master_setup(dp->master, dp);
			if (err)
				return err;
		}
	}

	rtnl_unlock();

	return 0;
}

static void dsa_tree_teardown_master(struct dsa_switch_tree *dst)
{
	struct dsa_port *dp;

	rtnl_lock();

	list_for_each_entry(dp, &dst->ports, list)
		if (dsa_port_is_cpu(dp))
			dsa_master_teardown(dp->master);

	rtnl_unlock();
}

static int dsa_tree_setup_lags(struct dsa_switch_tree *dst)
{
	unsigned int len = 0;
	struct dsa_port *dp;

	list_for_each_entry(dp, &dst->ports, list) {
		if (dp->ds->num_lag_ids > len)
			len = dp->ds->num_lag_ids;
	}

	if (!len)
		return 0;

	dst->lags = kcalloc(len, sizeof(*dst->lags), GFP_KERNEL);
	if (!dst->lags)
		return -ENOMEM;

	dst->lags_len = len;
	return 0;
}

static void dsa_tree_teardown_lags(struct dsa_switch_tree *dst)
{
	kfree(dst->lags);
}

static int dsa_tree_setup(struct dsa_switch_tree *dst)
{
	bool complete;
	int err;

	if (dst->setup) {
		pr_err("DSA: tree %d already setup! Disjoint trees?\n",
		       dst->index);
		return -EEXIST;
	}

	complete = dsa_tree_setup_routing_table(dst);
	if (!complete)
		return 0;

	err = dsa_tree_setup_cpu_ports(dst);
	if (err)
		return err;

	err = dsa_tree_setup_switches(dst);
	if (err)
		goto teardown_cpu_ports;

	err = dsa_tree_setup_master(dst);
	if (err)
		goto teardown_switches;

	err = dsa_tree_setup_ports(dst);
	if (err)
		goto teardown_master;

	err = dsa_tree_setup_lags(dst);
	if (err)
		goto teardown_ports;

	dst->setup = true;

	pr_info("DSA: tree %d setup\n", dst->index);

	return 0;

teardown_ports:
	dsa_tree_teardown_ports(dst);
teardown_master:
	dsa_tree_teardown_master(dst);
teardown_switches:
	dsa_tree_teardown_switches(dst);
teardown_cpu_ports:
	dsa_tree_teardown_cpu_ports(dst);

	return err;
}

static void dsa_tree_teardown(struct dsa_switch_tree *dst)
{
	struct dsa_link *dl, *next;

	if (!dst->setup)
		return;

	dsa_tree_teardown_lags(dst);

	dsa_tree_teardown_ports(dst);

	dsa_tree_teardown_master(dst);

	dsa_tree_teardown_switches(dst);

	dsa_tree_teardown_cpu_ports(dst);

	list_for_each_entry_safe(dl, next, &dst->rtable, list) {
		list_del(&dl->list);
		kfree(dl);
	}

	pr_info("DSA: tree %d torn down\n", dst->index);

	dst->setup = false;
}

static int dsa_tree_bind_tag_proto(struct dsa_switch_tree *dst,
				   const struct dsa_device_ops *tag_ops)
{
	const struct dsa_device_ops *old_tag_ops = dst->tag_ops;
	struct dsa_notifier_tag_proto_info info;
	int err;

	dst->tag_ops = tag_ops;

	/* Notify the switches from this tree about the connection
	 * to the new tagger
	 */
	info.tag_ops = tag_ops;
	err = dsa_tree_notify(dst, DSA_NOTIFIER_TAG_PROTO_CONNECT, &info);
	if (err && err != -EOPNOTSUPP)
		goto out_disconnect;

	/* Notify the old tagger about the disconnection from this tree */
	info.tag_ops = old_tag_ops;
	dsa_tree_notify(dst, DSA_NOTIFIER_TAG_PROTO_DISCONNECT, &info);

	return 0;

out_disconnect:
	info.tag_ops = tag_ops;
	dsa_tree_notify(dst, DSA_NOTIFIER_TAG_PROTO_DISCONNECT, &info);
	dst->tag_ops = old_tag_ops;

	return err;
}

/* Since the dsa/tagging sysfs device attribute is per master, the assumption
 * is that all DSA switches within a tree share the same tagger, otherwise
 * they would have formed disjoint trees (different "dsa,member" values).
 */
int dsa_tree_change_tag_proto(struct dsa_switch_tree *dst,
			      struct net_device *master,
			      const struct dsa_device_ops *tag_ops,
			      const struct dsa_device_ops *old_tag_ops)
{
	struct dsa_notifier_tag_proto_info info;
	struct dsa_port *dp;
	int err = -EBUSY;

	if (!rtnl_trylock())
		return restart_syscall();

	/* At the moment we don't allow changing the tag protocol under
	 * traffic. The rtnl_mutex also happens to serialize concurrent
	 * attempts to change the tagging protocol. If we ever lift the IFF_UP
	 * restriction, there needs to be another mutex which serializes this.
	 */
	if (master->flags & IFF_UP)
		goto out_unlock;

	list_for_each_entry(dp, &dst->ports, list) {
		if (!dsa_port_is_user(dp))
			continue;

		if (dp->slave->flags & IFF_UP)
			goto out_unlock;
	}

	/* Notify the tag protocol change */
	info.tag_ops = tag_ops;
	err = dsa_tree_notify(dst, DSA_NOTIFIER_TAG_PROTO, &info);
	if (err)
		return err;

	err = dsa_tree_bind_tag_proto(dst, tag_ops);
	if (err)
		goto out_unwind_tagger;

	rtnl_unlock();

	return 0;

out_unwind_tagger:
	info.tag_ops = old_tag_ops;
	dsa_tree_notify(dst, DSA_NOTIFIER_TAG_PROTO, &info);
out_unlock:
	rtnl_unlock();
	return err;
}

static struct dsa_port *dsa_port_touch(struct dsa_switch *ds, int index)
{
	struct dsa_switch_tree *dst = ds->dst;
	struct dsa_port *dp;

	dsa_switch_for_each_port(dp, ds)
		if (dp->index == index)
			return dp;

	dp = kzalloc(sizeof(*dp), GFP_KERNEL);
	if (!dp)
		return NULL;

	dp->ds = ds;
	dp->index = index;

	INIT_LIST_HEAD(&dp->list);
	list_add_tail(&dp->list, &dst->ports);

	return dp;
}

static int dsa_port_parse_user(struct dsa_port *dp, const char *name)
{
	if (!name)
		name = "eth%d";

	dp->type = DSA_PORT_TYPE_USER;
	dp->name = name;

	return 0;
}

static int dsa_port_parse_dsa(struct dsa_port *dp)
{
	dp->type = DSA_PORT_TYPE_DSA;

	return 0;
}

static enum dsa_tag_protocol dsa_get_tag_protocol(struct dsa_port *dp,
						  struct net_device *master)
{
	enum dsa_tag_protocol tag_protocol = DSA_TAG_PROTO_NONE;
	struct dsa_switch *mds, *ds = dp->ds;
	unsigned int mdp_upstream;
	struct dsa_port *mdp;

	/* It is possible to stack DSA switches onto one another when that
	 * happens the switch driver may want to know if its tagging protocol
	 * is going to work in such a configuration.
	 */
	if (dsa_slave_dev_check(master)) {
		mdp = dsa_slave_to_port(master);
		mds = mdp->ds;
		mdp_upstream = dsa_upstream_port(mds, mdp->index);
		tag_protocol = mds->ops->get_tag_protocol(mds, mdp_upstream,
							  DSA_TAG_PROTO_NONE);
	}

	/* If the master device is not itself a DSA slave in a disjoint DSA
	 * tree, then return immediately.
	 */
	return ds->ops->get_tag_protocol(ds, dp->index, tag_protocol);
}

static int dsa_port_parse_cpu(struct dsa_port *dp, struct net_device *master,
			      const char *user_protocol)
{
	struct dsa_switch *ds = dp->ds;
	struct dsa_switch_tree *dst = ds->dst;
	const struct dsa_device_ops *tag_ops;
	enum dsa_tag_protocol default_proto;

	/* Find out which protocol the switch would prefer. */
	default_proto = dsa_get_tag_protocol(dp, master);
	if (dst->default_proto) {
		if (dst->default_proto != default_proto) {
			dev_err(ds->dev,
				"A DSA switch tree can have only one tagging protocol\n");
			return -EINVAL;
		}
	} else {
		dst->default_proto = default_proto;
	}

	/* See if the user wants to override that preference. */
	if (user_protocol) {
		if (!ds->ops->change_tag_protocol) {
			dev_err(ds->dev, "Tag protocol cannot be modified\n");
			return -EINVAL;
		}

		tag_ops = dsa_find_tagger_by_name(user_protocol);
	} else {
		tag_ops = dsa_tag_driver_get(default_proto);
	}

	if (IS_ERR(tag_ops)) {
		if (PTR_ERR(tag_ops) == -ENOPROTOOPT)
			return -EPROBE_DEFER;

		dev_warn(ds->dev, "No tagger for this switch\n");
		return PTR_ERR(tag_ops);
	}

	if (dst->tag_ops) {
		if (dst->tag_ops != tag_ops) {
			dev_err(ds->dev,
				"A DSA switch tree can have only one tagging protocol\n");

			dsa_tag_driver_put(tag_ops);
			return -EINVAL;
		}

		/* In the case of multiple CPU ports per switch, the tagging
		 * protocol is still reference-counted only per switch tree.
		 */
		dsa_tag_driver_put(tag_ops);
	} else {
		dst->tag_ops = tag_ops;
	}

	dp->master = master;
	dp->type = DSA_PORT_TYPE_CPU;
	dsa_port_set_tag_protocol(dp, dst->tag_ops);
	dp->dst = dst;

	/* At this point, the tree may be configured to use a different
	 * tagger than the one chosen by the switch driver during
	 * .setup, in the case when a user selects a custom protocol
	 * through the DT.
	 *
	 * This is resolved by syncing the driver with the tree in
	 * dsa_switch_setup_tag_protocol once .setup has run and the
	 * driver is ready to accept calls to .change_tag_protocol. If
	 * the driver does not support the custom protocol at that
	 * point, the tree is wholly rejected, thereby ensuring that the
	 * tree and driver are always in agreement on the protocol to
	 * use.
	 */
	return 0;
}

static int dsa_port_parse_of(struct dsa_port *dp, struct device_node *dn)
{
	struct device_node *ethernet = of_parse_phandle(dn, "ethernet", 0);
	const char *name = of_get_property(dn, "label", NULL);
	bool link = of_property_read_bool(dn, "link");

	dp->dn = dn;

	if (ethernet) {
		struct net_device *master;
		const char *user_protocol;

		master = of_find_net_device_by_node(ethernet);
		if (!master)
			return -EPROBE_DEFER;

		user_protocol = of_get_property(dn, "dsa-tag-protocol", NULL);
		return dsa_port_parse_cpu(dp, master, user_protocol);
	}

	if (link)
		return dsa_port_parse_dsa(dp);

	return dsa_port_parse_user(dp, name);
}

static int dsa_switch_parse_ports_of(struct dsa_switch *ds,
				     struct device_node *dn)
{
	struct device_node *ports, *port;
	struct dsa_port *dp;
	int err = 0;
	u32 reg;

	ports = of_get_child_by_name(dn, "ports");
	if (!ports) {
		/* The second possibility is "ethernet-ports" */
		ports = of_get_child_by_name(dn, "ethernet-ports");
		if (!ports) {
			dev_err(ds->dev, "no ports child node found\n");
			return -EINVAL;
		}
	}

	for_each_available_child_of_node(ports, port) {
		err = of_property_read_u32(port, "reg", &reg);
		if (err) {
			of_node_put(port);
			goto out_put_node;
		}

		if (reg >= ds->num_ports) {
			dev_err(ds->dev, "port %pOF index %u exceeds num_ports (%u)\n",
				port, reg, ds->num_ports);
			of_node_put(port);
			err = -EINVAL;
			goto out_put_node;
		}

		dp = dsa_to_port(ds, reg);

		err = dsa_port_parse_of(dp, port);
		if (err) {
			of_node_put(port);
			goto out_put_node;
		}
	}

out_put_node:
	of_node_put(ports);
	return err;
}

static int dsa_switch_parse_member_of(struct dsa_switch *ds,
				      struct device_node *dn)
{
	u32 m[2] = { 0, 0 };
	int sz;

	/* Don't error out if this optional property isn't found */
	sz = of_property_read_variable_u32_array(dn, "dsa,member", m, 2, 2);
	if (sz < 0 && sz != -EINVAL)
		return sz;

	ds->index = m[1];

	ds->dst = dsa_tree_touch(m[0]);
	if (!ds->dst)
		return -ENOMEM;

	if (dsa_switch_find(ds->dst->index, ds->index)) {
		dev_err(ds->dev,
			"A DSA switch with index %d already exists in tree %d\n",
			ds->index, ds->dst->index);
		return -EEXIST;
	}

	if (ds->dst->last_switch < ds->index)
		ds->dst->last_switch = ds->index;

	return 0;
}

static int dsa_switch_touch_ports(struct dsa_switch *ds)
{
	struct dsa_port *dp;
	int port;

	for (port = 0; port < ds->num_ports; port++) {
		dp = dsa_port_touch(ds, port);
		if (!dp)
			return -ENOMEM;
	}

	return 0;
}

static int dsa_switch_parse_of(struct dsa_switch *ds, struct device_node *dn)
{
	int err;

	err = dsa_switch_parse_member_of(ds, dn);
	if (err)
		return err;

	err = dsa_switch_touch_ports(ds);
	if (err)
		return err;

	return dsa_switch_parse_ports_of(ds, dn);
}

static int dsa_port_parse(struct dsa_port *dp, const char *name,
			  struct device *dev)
{
	if (!strcmp(name, "cpu")) {
		struct net_device *master;

		master = dsa_dev_to_net_device(dev);
		if (!master)
			return -EPROBE_DEFER;

		dev_put(master);

		return dsa_port_parse_cpu(dp, master, NULL);
	}

	if (!strcmp(name, "dsa"))
		return dsa_port_parse_dsa(dp);

	return dsa_port_parse_user(dp, name);
}

static int dsa_switch_parse_ports(struct dsa_switch *ds,
				  struct dsa_chip_data *cd)
{
	bool valid_name_found = false;
	struct dsa_port *dp;
	struct device *dev;
	const char *name;
	unsigned int i;
	int err;

	for (i = 0; i < DSA_MAX_PORTS; i++) {
		name = cd->port_names[i];
		dev = cd->netdev[i];
		dp = dsa_to_port(ds, i);

		if (!name)
			continue;

		err = dsa_port_parse(dp, name, dev);
		if (err)
			return err;

		valid_name_found = true;
	}

	if (!valid_name_found && i == DSA_MAX_PORTS)
		return -EINVAL;

	return 0;
}

static int dsa_switch_parse(struct dsa_switch *ds, struct dsa_chip_data *cd)
{
	int err;

	ds->cd = cd;

	/* We don't support interconnected switches nor multiple trees via
	 * platform data, so this is the unique switch of the tree.
	 */
	ds->index = 0;
	ds->dst = dsa_tree_touch(0);
	if (!ds->dst)
		return -ENOMEM;

	err = dsa_switch_touch_ports(ds);
	if (err)
		return err;

	return dsa_switch_parse_ports(ds, cd);
}

static void dsa_switch_release_ports(struct dsa_switch *ds)
{
	struct dsa_port *dp, *next;

	dsa_switch_for_each_port_safe(dp, next, ds) {
		list_del(&dp->list);
		kfree(dp);
	}
}

static int dsa_switch_probe(struct dsa_switch *ds)
{
	struct dsa_switch_tree *dst;
	struct dsa_chip_data *pdata;
	struct device_node *np;
	int err;

	if (!ds->dev)
		return -ENODEV;

	pdata = ds->dev->platform_data;
	np = ds->dev->of_node;

	if (!ds->num_ports)
		return -EINVAL;

	if (np) {
		err = dsa_switch_parse_of(ds, np);
		if (err)
			dsa_switch_release_ports(ds);
	} else if (pdata) {
		err = dsa_switch_parse(ds, pdata);
		if (err)
			dsa_switch_release_ports(ds);
	} else {
		err = -ENODEV;
	}

	if (err)
		return err;

	dst = ds->dst;
	dsa_tree_get(dst);
	err = dsa_tree_setup(dst);
	if (err) {
		dsa_switch_release_ports(ds);
		dsa_tree_put(dst);
	}

	return err;
}

int dsa_register_switch(struct dsa_switch *ds)
{
	int err;

	mutex_lock(&dsa2_mutex);
	err = dsa_switch_probe(ds);
	dsa_tree_put(ds->dst);
	mutex_unlock(&dsa2_mutex);

	return err;
}
EXPORT_SYMBOL_GPL(dsa_register_switch);

static void dsa_switch_remove(struct dsa_switch *ds)
{
	struct dsa_switch_tree *dst = ds->dst;

	dsa_tree_teardown(dst);
	dsa_switch_release_ports(ds);
	dsa_tree_put(dst);
}

void dsa_unregister_switch(struct dsa_switch *ds)
{
	mutex_lock(&dsa2_mutex);
	dsa_switch_remove(ds);
	mutex_unlock(&dsa2_mutex);
}
EXPORT_SYMBOL_GPL(dsa_unregister_switch);

/* If the DSA master chooses to unregister its net_device on .shutdown, DSA is
 * blocking that operation from completion, due to the dev_hold taken inside
 * netdev_upper_dev_link. Unlink the DSA slave interfaces from being uppers of
 * the DSA master, so that the system can reboot successfully.
 */
void dsa_switch_shutdown(struct dsa_switch *ds)
{
	struct net_device *master, *slave_dev;
	LIST_HEAD(unregister_list);
	struct dsa_port *dp;

	mutex_lock(&dsa2_mutex);
	rtnl_lock();

	dsa_switch_for_each_user_port(dp, ds) {
		master = dp->cpu_dp->master;
		slave_dev = dp->slave;

		netdev_upper_dev_unlink(master, slave_dev);
		/* Just unlinking ourselves as uppers of the master is not
		 * sufficient. When the master net device unregisters, that will
		 * also call dev_close, which we will catch as NETDEV_GOING_DOWN
		 * and trigger a dev_close on our own devices (dsa_slave_close).
		 * In turn, that will call dev_mc_unsync on the master's net
		 * device. If the master is also a DSA switch port, this will
		 * trigger dsa_slave_set_rx_mode which will call dev_mc_sync on
		 * its own master. Lockdep will complain about the fact that
		 * all cascaded masters have the same dsa_master_addr_list_lock_key,
		 * which it normally would not do if the cascaded masters would
		 * be in a proper upper/lower relationship, which we've just
		 * destroyed.
		 * To suppress the lockdep warnings, let's actually unregister
		 * the DSA slave interfaces too, to avoid the nonsensical
		 * multicast address list synchronization on shutdown.
		 */
		unregister_netdevice_queue(slave_dev, &unregister_list);
	}
	unregister_netdevice_many(&unregister_list);

	rtnl_unlock();
	mutex_unlock(&dsa2_mutex);
}
EXPORT_SYMBOL_GPL(dsa_switch_shutdown);