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2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050 2051 2052 2053 2054 2055 2056 2057 2058 2059 2060 2061 2062 2063 2064 2065 2066 2067 2068 2069 2070 2071 2072 2073 2074 2075 2076 2077 2078 2079 2080 2081 2082 2083 | // SPDX-License-Identifier: GPL-2.0-or-later /* * Handling of a single switch port * * Copyright (c) 2017 Savoir-faire Linux Inc. * Vivien Didelot <vivien.didelot@savoirfairelinux.com> */ #include <linux/if_bridge.h> #include <linux/netdevice.h> #include <linux/notifier.h> #include <linux/of_mdio.h> #include <linux/of_net.h> #include "dsa_priv.h" /** * dsa_port_notify - Notify the switching fabric of changes to a port * @dp: port on which change occurred * @e: event, must be of type DSA_NOTIFIER_* * @v: event-specific value. * * Notify all switches in the DSA tree that this port's switch belongs to, * including this switch itself, of an event. Allows the other switches to * reconfigure themselves for cross-chip operations. Can also be used to * reconfigure ports without net_devices (CPU ports, DSA links) whenever * a user port's state changes. */ static int dsa_port_notify(const struct dsa_port *dp, unsigned long e, void *v) { return dsa_tree_notify(dp->ds->dst, e, v); } static void dsa_port_notify_bridge_fdb_flush(const struct dsa_port *dp, u16 vid) { struct net_device *brport_dev = dsa_port_to_bridge_port(dp); struct switchdev_notifier_fdb_info info = { .vid = vid, }; /* When the port becomes standalone it has already left the bridge. * Don't notify the bridge in that case. */ if (!brport_dev) return; call_switchdev_notifiers(SWITCHDEV_FDB_FLUSH_TO_BRIDGE, brport_dev, &info.info, NULL); } static void dsa_port_fast_age(const struct dsa_port *dp) { struct dsa_switch *ds = dp->ds; if (!ds->ops->port_fast_age) return; ds->ops->port_fast_age(ds, dp->index); /* flush all VLANs */ dsa_port_notify_bridge_fdb_flush(dp, 0); } static int dsa_port_vlan_fast_age(const struct dsa_port *dp, u16 vid) { struct dsa_switch *ds = dp->ds; int err; if (!ds->ops->port_vlan_fast_age) return -EOPNOTSUPP; err = ds->ops->port_vlan_fast_age(ds, dp->index, vid); if (!err) dsa_port_notify_bridge_fdb_flush(dp, vid); return err; } static int dsa_port_msti_fast_age(const struct dsa_port *dp, u16 msti) { DECLARE_BITMAP(vids, VLAN_N_VID) = { 0 }; int err, vid; err = br_mst_get_info(dsa_port_bridge_dev_get(dp), msti, vids); if (err) return err; for_each_set_bit(vid, vids, VLAN_N_VID) { err = dsa_port_vlan_fast_age(dp, vid); if (err) return err; } return 0; } static bool dsa_port_can_configure_learning(struct dsa_port *dp) { struct switchdev_brport_flags flags = { .mask = BR_LEARNING, }; struct dsa_switch *ds = dp->ds; int err; if (!ds->ops->port_bridge_flags || !ds->ops->port_pre_bridge_flags) return false; err = ds->ops->port_pre_bridge_flags(ds, dp->index, flags, NULL); return !err; } bool dsa_port_supports_hwtstamp(struct dsa_port *dp, struct ifreq *ifr) { struct dsa_switch *ds = dp->ds; int err; if (!ds->ops->port_hwtstamp_get || !ds->ops->port_hwtstamp_set) return false; /* "See through" shim implementations of the "get" method. * This will clobber the ifreq structure, but we will either return an * error, or the master will overwrite it with proper values. */ err = ds->ops->port_hwtstamp_get(ds, dp->index, ifr); return err != -EOPNOTSUPP; } int dsa_port_set_state(struct dsa_port *dp, u8 state, bool do_fast_age) { struct dsa_switch *ds = dp->ds; int port = dp->index; if (!ds->ops->port_stp_state_set) return -EOPNOTSUPP; ds->ops->port_stp_state_set(ds, port, state); if (!dsa_port_can_configure_learning(dp) || (do_fast_age && dp->learning)) { /* Fast age FDB entries or flush appropriate forwarding database * for the given port, if we are moving it from Learning or * Forwarding state, to Disabled or Blocking or Listening state. * Ports that were standalone before the STP state change don't * need to fast age the FDB, since address learning is off in * standalone mode. */ if ((dp->stp_state == BR_STATE_LEARNING || dp->stp_state == BR_STATE_FORWARDING) && (state == BR_STATE_DISABLED || state == BR_STATE_BLOCKING || state == BR_STATE_LISTENING)) dsa_port_fast_age(dp); } dp->stp_state = state; return 0; } static void dsa_port_set_state_now(struct dsa_port *dp, u8 state, bool do_fast_age) { struct dsa_switch *ds = dp->ds; int err; err = dsa_port_set_state(dp, state, do_fast_age); if (err && err != -EOPNOTSUPP) { dev_err(ds->dev, "port %d failed to set STP state %u: %pe\n", dp->index, state, ERR_PTR(err)); } } int dsa_port_set_mst_state(struct dsa_port *dp, const struct switchdev_mst_state *state, struct netlink_ext_ack *extack) { struct dsa_switch *ds = dp->ds; u8 prev_state; int err; if (!ds->ops->port_mst_state_set) return -EOPNOTSUPP; err = br_mst_get_state(dsa_port_to_bridge_port(dp), state->msti, &prev_state); if (err) return err; err = ds->ops->port_mst_state_set(ds, dp->index, state); if (err) return err; if (!(dp->learning && (prev_state == BR_STATE_LEARNING || prev_state == BR_STATE_FORWARDING) && (state->state == BR_STATE_DISABLED || state->state == BR_STATE_BLOCKING || state->state == BR_STATE_LISTENING))) return 0; err = dsa_port_msti_fast_age(dp, state->msti); if (err) NL_SET_ERR_MSG_MOD(extack, "Unable to flush associated VLANs"); return 0; } int dsa_port_enable_rt(struct dsa_port *dp, struct phy_device *phy) { struct dsa_switch *ds = dp->ds; int port = dp->index; int err; if (ds->ops->port_enable) { err = ds->ops->port_enable(ds, port, phy); if (err) return err; } if (!dp->bridge) dsa_port_set_state_now(dp, BR_STATE_FORWARDING, false); if (dp->pl) phylink_start(dp->pl); return 0; } int dsa_port_enable(struct dsa_port *dp, struct phy_device *phy) { int err; rtnl_lock(); err = dsa_port_enable_rt(dp, phy); rtnl_unlock(); return err; } void dsa_port_disable_rt(struct dsa_port *dp) { struct dsa_switch *ds = dp->ds; int port = dp->index; if (dp->pl) phylink_stop(dp->pl); if (!dp->bridge) dsa_port_set_state_now(dp, BR_STATE_DISABLED, false); if (ds->ops->port_disable) ds->ops->port_disable(ds, port); } void dsa_port_disable(struct dsa_port *dp) { rtnl_lock(); dsa_port_disable_rt(dp); rtnl_unlock(); } static void dsa_port_reset_vlan_filtering(struct dsa_port *dp, struct dsa_bridge bridge) { struct netlink_ext_ack extack = {0}; bool change_vlan_filtering = false; struct dsa_switch *ds = dp->ds; struct dsa_port *other_dp; bool vlan_filtering; int err; if (ds->needs_standalone_vlan_filtering && !br_vlan_enabled(bridge.dev)) { change_vlan_filtering = true; vlan_filtering = true; } else if (!ds->needs_standalone_vlan_filtering && br_vlan_enabled(bridge.dev)) { change_vlan_filtering = true; vlan_filtering = false; } /* If the bridge was vlan_filtering, the bridge core doesn't trigger an * event for changing vlan_filtering setting upon slave ports leaving * it. That is a good thing, because that lets us handle it and also * handle the case where the switch's vlan_filtering setting is global * (not per port). When that happens, the correct moment to trigger the * vlan_filtering callback is only when the last port leaves the last * VLAN-aware bridge. */ if (change_vlan_filtering && ds->vlan_filtering_is_global) { dsa_switch_for_each_port(other_dp, ds) { struct net_device *br = dsa_port_bridge_dev_get(other_dp); if (br && br_vlan_enabled(br)) { change_vlan_filtering = false; break; } } } if (!change_vlan_filtering) return; err = dsa_port_vlan_filtering(dp, vlan_filtering, &extack); if (extack._msg) { dev_err(ds->dev, "port %d: %s\n", dp->index, extack._msg); } if (err && err != -EOPNOTSUPP) { dev_err(ds->dev, "port %d failed to reset VLAN filtering to %d: %pe\n", dp->index, vlan_filtering, ERR_PTR(err)); } } static int dsa_port_inherit_brport_flags(struct dsa_port *dp, struct netlink_ext_ack *extack) { const unsigned long mask = BR_LEARNING | BR_FLOOD | BR_MCAST_FLOOD | BR_BCAST_FLOOD | BR_PORT_LOCKED; struct net_device *brport_dev = dsa_port_to_bridge_port(dp); int flag, err; for_each_set_bit(flag, &mask, 32) { struct switchdev_brport_flags flags = {0}; flags.mask = BIT(flag); if (br_port_flag_is_set(brport_dev, BIT(flag))) flags.val = BIT(flag); err = dsa_port_bridge_flags(dp, flags, extack); if (err && err != -EOPNOTSUPP) return err; } return 0; } static void dsa_port_clear_brport_flags(struct dsa_port *dp) { const unsigned long val = BR_FLOOD | BR_MCAST_FLOOD | BR_BCAST_FLOOD; const unsigned long mask = BR_LEARNING | BR_FLOOD | BR_MCAST_FLOOD | BR_BCAST_FLOOD | BR_PORT_LOCKED; int flag, err; for_each_set_bit(flag, &mask, 32) { struct switchdev_brport_flags flags = {0}; flags.mask = BIT(flag); flags.val = val & BIT(flag); err = dsa_port_bridge_flags(dp, flags, NULL); if (err && err != -EOPNOTSUPP) dev_err(dp->ds->dev, "failed to clear bridge port flag %lu: %pe\n", flags.val, ERR_PTR(err)); } } static int dsa_port_switchdev_sync_attrs(struct dsa_port *dp, struct netlink_ext_ack *extack) { struct net_device *brport_dev = dsa_port_to_bridge_port(dp); struct net_device *br = dsa_port_bridge_dev_get(dp); int err; err = dsa_port_inherit_brport_flags(dp, extack); if (err) return err; err = dsa_port_set_state(dp, br_port_get_stp_state(brport_dev), false); if (err && err != -EOPNOTSUPP) return err; err = dsa_port_vlan_filtering(dp, br_vlan_enabled(br), extack); if (err && err != -EOPNOTSUPP) return err; err = dsa_port_ageing_time(dp, br_get_ageing_time(br)); if (err && err != -EOPNOTSUPP) return err; return 0; } static void dsa_port_switchdev_unsync_attrs(struct dsa_port *dp, struct dsa_bridge bridge) { /* Configure the port for standalone mode (no address learning, * flood everything). * The bridge only emits SWITCHDEV_ATTR_ID_PORT_BRIDGE_FLAGS events * when the user requests it through netlink or sysfs, but not * automatically at port join or leave, so we need to handle resetting * the brport flags ourselves. But we even prefer it that way, because * otherwise, some setups might never get the notification they need, * for example, when a port leaves a LAG that offloads the bridge, * it becomes standalone, but as far as the bridge is concerned, no * port ever left. */ dsa_port_clear_brport_flags(dp); /* Port left the bridge, put in BR_STATE_DISABLED by the bridge layer, * so allow it to be in BR_STATE_FORWARDING to be kept functional */ dsa_port_set_state_now(dp, BR_STATE_FORWARDING, true); dsa_port_reset_vlan_filtering(dp, bridge); /* Ageing time may be global to the switch chip, so don't change it * here because we have no good reason (or value) to change it to. */ } static int dsa_port_bridge_create(struct dsa_port *dp, struct net_device *br, struct netlink_ext_ack *extack) { struct dsa_switch *ds = dp->ds; struct dsa_bridge *bridge; bridge = dsa_tree_bridge_find(ds->dst, br); if (bridge) { refcount_inc(&bridge->refcount); dp->bridge = bridge; return 0; } bridge = kzalloc(sizeof(*bridge), GFP_KERNEL); if (!bridge) return -ENOMEM; refcount_set(&bridge->refcount, 1); bridge->dev = br; bridge->num = dsa_bridge_num_get(br, ds->max_num_bridges); if (ds->max_num_bridges && !bridge->num) { NL_SET_ERR_MSG_MOD(extack, "Range of offloadable bridges exceeded"); kfree(bridge); return -EOPNOTSUPP; } dp->bridge = bridge; return 0; } static void dsa_port_bridge_destroy(struct dsa_port *dp, const struct net_device *br) { struct dsa_bridge *bridge = dp->bridge; dp->bridge = NULL; if (!refcount_dec_and_test(&bridge->refcount)) return; if (bridge->num) dsa_bridge_num_put(br, bridge->num); kfree(bridge); } static bool dsa_port_supports_mst(struct dsa_port *dp) { struct dsa_switch *ds = dp->ds; return ds->ops->vlan_msti_set && ds->ops->port_mst_state_set && ds->ops->port_vlan_fast_age && dsa_port_can_configure_learning(dp); } int dsa_port_bridge_join(struct dsa_port *dp, struct net_device *br, struct netlink_ext_ack *extack) { struct dsa_notifier_bridge_info info = { .dp = dp, .extack = extack, }; struct net_device *dev = dp->slave; struct net_device *brport_dev; int err; if (br_mst_enabled(br) && !dsa_port_supports_mst(dp)) return -EOPNOTSUPP; /* Here the interface is already bridged. Reflect the current * configuration so that drivers can program their chips accordingly. */ err = dsa_port_bridge_create(dp, br, extack); if (err) return err; brport_dev = dsa_port_to_bridge_port(dp); info.bridge = *dp->bridge; err = dsa_broadcast(DSA_NOTIFIER_BRIDGE_JOIN, &info); if (err) goto out_rollback; /* Drivers which support bridge TX forwarding should set this */ dp->bridge->tx_fwd_offload = info.tx_fwd_offload; err = switchdev_bridge_port_offload(brport_dev, dev, dp, &dsa_slave_switchdev_notifier, &dsa_slave_switchdev_blocking_notifier, dp->bridge->tx_fwd_offload, extack); if (err) goto out_rollback_unbridge; err = dsa_port_switchdev_sync_attrs(dp, extack); if (err) goto out_rollback_unoffload; return 0; out_rollback_unoffload: switchdev_bridge_port_unoffload(brport_dev, dp, &dsa_slave_switchdev_notifier, &dsa_slave_switchdev_blocking_notifier); dsa_flush_workqueue(); out_rollback_unbridge: dsa_broadcast(DSA_NOTIFIER_BRIDGE_LEAVE, &info); out_rollback: dsa_port_bridge_destroy(dp, br); return err; } void dsa_port_pre_bridge_leave(struct dsa_port *dp, struct net_device *br) { struct net_device *brport_dev = dsa_port_to_bridge_port(dp); /* Don't try to unoffload something that is not offloaded */ if (!brport_dev) return; switchdev_bridge_port_unoffload(brport_dev, dp, &dsa_slave_switchdev_notifier, &dsa_slave_switchdev_blocking_notifier); dsa_flush_workqueue(); } void dsa_port_bridge_leave(struct dsa_port *dp, struct net_device *br) { struct dsa_notifier_bridge_info info = { .dp = dp, }; int err; /* If the port could not be offloaded to begin with, then * there is nothing to do. */ if (!dp->bridge) return; info.bridge = *dp->bridge; /* Here the port is already unbridged. Reflect the current configuration * so that drivers can program their chips accordingly. */ dsa_port_bridge_destroy(dp, br); err = dsa_broadcast(DSA_NOTIFIER_BRIDGE_LEAVE, &info); if (err) dev_err(dp->ds->dev, "port %d failed to notify DSA_NOTIFIER_BRIDGE_LEAVE: %pe\n", dp->index, ERR_PTR(err)); dsa_port_switchdev_unsync_attrs(dp, info.bridge); } int dsa_port_lag_change(struct dsa_port *dp, struct netdev_lag_lower_state_info *linfo) { struct dsa_notifier_lag_info info = { .dp = dp, }; bool tx_enabled; if (!dp->lag) return 0; /* On statically configured aggregates (e.g. loadbalance * without LACP) ports will always be tx_enabled, even if the * link is down. Thus we require both link_up and tx_enabled * in order to include it in the tx set. */ tx_enabled = linfo->link_up && linfo->tx_enabled; if (tx_enabled == dp->lag_tx_enabled) return 0; dp->lag_tx_enabled = tx_enabled; return dsa_port_notify(dp, DSA_NOTIFIER_LAG_CHANGE, &info); } static int dsa_port_lag_create(struct dsa_port *dp, struct net_device *lag_dev) { struct dsa_switch *ds = dp->ds; struct dsa_lag *lag; lag = dsa_tree_lag_find(ds->dst, lag_dev); if (lag) { refcount_inc(&lag->refcount); dp->lag = lag; return 0; } lag = kzalloc(sizeof(*lag), GFP_KERNEL); if (!lag) return -ENOMEM; refcount_set(&lag->refcount, 1); mutex_init(&lag->fdb_lock); INIT_LIST_HEAD(&lag->fdbs); lag->dev = lag_dev; dsa_lag_map(ds->dst, lag); dp->lag = lag; return 0; } static void dsa_port_lag_destroy(struct dsa_port *dp) { struct dsa_lag *lag = dp->lag; dp->lag = NULL; dp->lag_tx_enabled = false; if (!refcount_dec_and_test(&lag->refcount)) return; WARN_ON(!list_empty(&lag->fdbs)); dsa_lag_unmap(dp->ds->dst, lag); kfree(lag); } int dsa_port_lag_join(struct dsa_port *dp, struct net_device *lag_dev, struct netdev_lag_upper_info *uinfo, struct netlink_ext_ack *extack) { struct dsa_notifier_lag_info info = { .dp = dp, .info = uinfo, .extack = extack, }; struct net_device *bridge_dev; int err; err = dsa_port_lag_create(dp, lag_dev); if (err) goto err_lag_create; info.lag = *dp->lag; err = dsa_port_notify(dp, DSA_NOTIFIER_LAG_JOIN, &info); if (err) goto err_lag_join; bridge_dev = netdev_master_upper_dev_get(lag_dev); if (!bridge_dev || !netif_is_bridge_master(bridge_dev)) return 0; err = dsa_port_bridge_join(dp, bridge_dev, extack); if (err) goto err_bridge_join; return 0; err_bridge_join: dsa_port_notify(dp, DSA_NOTIFIER_LAG_LEAVE, &info); err_lag_join: dsa_port_lag_destroy(dp); err_lag_create: return err; } void dsa_port_pre_lag_leave(struct dsa_port *dp, struct net_device *lag_dev) { struct net_device *br = dsa_port_bridge_dev_get(dp); if (br) dsa_port_pre_bridge_leave(dp, br); } void dsa_port_lag_leave(struct dsa_port *dp, struct net_device *lag_dev) { struct net_device *br = dsa_port_bridge_dev_get(dp); struct dsa_notifier_lag_info info = { .dp = dp, }; int err; if (!dp->lag) return; /* Port might have been part of a LAG that in turn was * attached to a bridge. */ if (br) dsa_port_bridge_leave(dp, br); info.lag = *dp->lag; dsa_port_lag_destroy(dp); err = dsa_port_notify(dp, DSA_NOTIFIER_LAG_LEAVE, &info); if (err) dev_err(dp->ds->dev, "port %d failed to notify DSA_NOTIFIER_LAG_LEAVE: %pe\n", dp->index, ERR_PTR(err)); } /* Must be called under rcu_read_lock() */ static bool dsa_port_can_apply_vlan_filtering(struct dsa_port *dp, bool vlan_filtering, struct netlink_ext_ack *extack) { struct dsa_switch *ds = dp->ds; struct dsa_port *other_dp; int err; /* VLAN awareness was off, so the question is "can we turn it on". * We may have had 8021q uppers, those need to go. Make sure we don't * enter an inconsistent state: deny changing the VLAN awareness state * as long as we have 8021q uppers. */ if (vlan_filtering && dsa_port_is_user(dp)) { struct net_device *br = dsa_port_bridge_dev_get(dp); struct net_device *upper_dev, *slave = dp->slave; struct list_head *iter; netdev_for_each_upper_dev_rcu(slave, upper_dev, iter) { struct bridge_vlan_info br_info; u16 vid; if (!is_vlan_dev(upper_dev)) continue; vid = vlan_dev_vlan_id(upper_dev); /* br_vlan_get_info() returns -EINVAL or -ENOENT if the * device, respectively the VID is not found, returning * 0 means success, which is a failure for us here. */ err = br_vlan_get_info(br, vid, &br_info); if (err == 0) { NL_SET_ERR_MSG_MOD(extack, "Must first remove VLAN uppers having VIDs also present in bridge"); return false; } } } if (!ds->vlan_filtering_is_global) return true; /* For cases where enabling/disabling VLAN awareness is global to the * switch, we need to handle the case where multiple bridges span * different ports of the same switch device and one of them has a * different setting than what is being requested. */ dsa_switch_for_each_port(other_dp, ds) { struct net_device *other_br = dsa_port_bridge_dev_get(other_dp); /* If it's the same bridge, it also has same * vlan_filtering setting => no need to check */ if (!other_br || other_br == dsa_port_bridge_dev_get(dp)) continue; if (br_vlan_enabled(other_br) != vlan_filtering) { NL_SET_ERR_MSG_MOD(extack, "VLAN filtering is a global setting"); return false; } } return true; } int dsa_port_vlan_filtering(struct dsa_port *dp, bool vlan_filtering, struct netlink_ext_ack *extack) { bool old_vlan_filtering = dsa_port_is_vlan_filtering(dp); struct dsa_switch *ds = dp->ds; bool apply; int err; if (!ds->ops->port_vlan_filtering) return -EOPNOTSUPP; /* We are called from dsa_slave_switchdev_blocking_event(), * which is not under rcu_read_lock(), unlike * dsa_slave_switchdev_event(). */ rcu_read_lock(); apply = dsa_port_can_apply_vlan_filtering(dp, vlan_filtering, extack); rcu_read_unlock(); if (!apply) return -EINVAL; if (dsa_port_is_vlan_filtering(dp) == vlan_filtering) return 0; err = ds->ops->port_vlan_filtering(ds, dp->index, vlan_filtering, extack); if (err) return err; if (ds->vlan_filtering_is_global) { struct dsa_port *other_dp; ds->vlan_filtering = vlan_filtering; dsa_switch_for_each_user_port(other_dp, ds) { struct net_device *slave = other_dp->slave; /* We might be called in the unbind path, so not * all slave devices might still be registered. */ if (!slave) continue; err = dsa_slave_manage_vlan_filtering(slave, vlan_filtering); if (err) goto restore; } } else { dp->vlan_filtering = vlan_filtering; err = dsa_slave_manage_vlan_filtering(dp->slave, vlan_filtering); if (err) goto restore; } return 0; restore: ds->ops->port_vlan_filtering(ds, dp->index, old_vlan_filtering, NULL); if (ds->vlan_filtering_is_global) ds->vlan_filtering = old_vlan_filtering; else dp->vlan_filtering = old_vlan_filtering; return err; } /* This enforces legacy behavior for switch drivers which assume they can't * receive VLAN configuration when enslaved to a bridge with vlan_filtering=0 */ bool dsa_port_skip_vlan_configuration(struct dsa_port *dp) { struct net_device *br = dsa_port_bridge_dev_get(dp); struct dsa_switch *ds = dp->ds; if (!br) return false; return !ds->configure_vlan_while_not_filtering && !br_vlan_enabled(br); } int dsa_port_ageing_time(struct dsa_port *dp, clock_t ageing_clock) { unsigned long ageing_jiffies = clock_t_to_jiffies(ageing_clock); unsigned int ageing_time = jiffies_to_msecs(ageing_jiffies); struct dsa_notifier_ageing_time_info info; int err; info.ageing_time = ageing_time; err = dsa_port_notify(dp, DSA_NOTIFIER_AGEING_TIME, &info); if (err) return err; dp->ageing_time = ageing_time; return 0; } int dsa_port_mst_enable(struct dsa_port *dp, bool on, struct netlink_ext_ack *extack) { if (on && !dsa_port_supports_mst(dp)) { NL_SET_ERR_MSG_MOD(extack, "Hardware does not support MST"); return -EINVAL; } return 0; } int dsa_port_pre_bridge_flags(const struct dsa_port *dp, struct switchdev_brport_flags flags, struct netlink_ext_ack *extack) { struct dsa_switch *ds = dp->ds; if (!ds->ops->port_pre_bridge_flags) return -EINVAL; return ds->ops->port_pre_bridge_flags(ds, dp->index, flags, extack); } int dsa_port_bridge_flags(struct dsa_port *dp, struct switchdev_brport_flags flags, struct netlink_ext_ack *extack) { struct dsa_switch *ds = dp->ds; int err; if (!ds->ops->port_bridge_flags) return -EOPNOTSUPP; err = ds->ops->port_bridge_flags(ds, dp->index, flags, extack); if (err) return err; if (flags.mask & BR_LEARNING) { bool learning = flags.val & BR_LEARNING; if (learning == dp->learning) return 0; if ((dp->learning && !learning) && (dp->stp_state == BR_STATE_LEARNING || dp->stp_state == BR_STATE_FORWARDING)) dsa_port_fast_age(dp); dp->learning = learning; } return 0; } void dsa_port_set_host_flood(struct dsa_port *dp, bool uc, bool mc) { struct dsa_switch *ds = dp->ds; if (ds->ops->port_set_host_flood) ds->ops->port_set_host_flood(ds, dp->index, uc, mc); } int dsa_port_vlan_msti(struct dsa_port *dp, const struct switchdev_vlan_msti *msti) { struct dsa_switch *ds = dp->ds; if (!ds->ops->vlan_msti_set) return -EOPNOTSUPP; return ds->ops->vlan_msti_set(ds, *dp->bridge, msti); } int dsa_port_mtu_change(struct dsa_port *dp, int new_mtu) { struct dsa_notifier_mtu_info info = { .dp = dp, .mtu = new_mtu, }; return dsa_port_notify(dp, DSA_NOTIFIER_MTU, &info); } int dsa_port_fdb_add(struct dsa_port *dp, const unsigned char *addr, u16 vid) { struct dsa_notifier_fdb_info info = { .dp = dp, .addr = addr, .vid = vid, .db = { .type = DSA_DB_BRIDGE, .bridge = *dp->bridge, }, }; /* Refcounting takes bridge.num as a key, and should be global for all * bridges in the absence of FDB isolation, and per bridge otherwise. * Force the bridge.num to zero here in the absence of FDB isolation. */ if (!dp->ds->fdb_isolation) info.db.bridge.num = 0; return dsa_port_notify(dp, DSA_NOTIFIER_FDB_ADD, &info); } int dsa_port_fdb_del(struct dsa_port *dp, const unsigned char *addr, u16 vid) { struct dsa_notifier_fdb_info info = { .dp = dp, .addr = addr, .vid = vid, .db = { .type = DSA_DB_BRIDGE, .bridge = *dp->bridge, }, }; if (!dp->ds->fdb_isolation) info.db.bridge.num = 0; return dsa_port_notify(dp, DSA_NOTIFIER_FDB_DEL, &info); } static int dsa_port_host_fdb_add(struct dsa_port *dp, const unsigned char *addr, u16 vid, struct dsa_db db) { struct dsa_notifier_fdb_info info = { .dp = dp, .addr = addr, .vid = vid, .db = db, }; if (!dp->ds->fdb_isolation) info.db.bridge.num = 0; return dsa_port_notify(dp, DSA_NOTIFIER_HOST_FDB_ADD, &info); } int dsa_port_standalone_host_fdb_add(struct dsa_port *dp, const unsigned char *addr, u16 vid) { struct dsa_db db = { .type = DSA_DB_PORT, .dp = dp, }; return dsa_port_host_fdb_add(dp, addr, vid, db); } int dsa_port_bridge_host_fdb_add(struct dsa_port *dp, const unsigned char *addr, u16 vid) { struct net_device *master = dsa_port_to_master(dp); struct dsa_db db = { .type = DSA_DB_BRIDGE, .bridge = *dp->bridge, }; int err; /* Avoid a call to __dev_set_promiscuity() on the master, which * requires rtnl_lock(), since we can't guarantee that is held here, * and we can't take it either. */ if (master->priv_flags & IFF_UNICAST_FLT) { err = dev_uc_add(master, addr); if (err) return err; } return dsa_port_host_fdb_add(dp, addr, vid, db); } static int dsa_port_host_fdb_del(struct dsa_port *dp, const unsigned char *addr, u16 vid, struct dsa_db db) { struct dsa_notifier_fdb_info info = { .dp = dp, .addr = addr, .vid = vid, .db = db, }; if (!dp->ds->fdb_isolation) info.db.bridge.num = 0; return dsa_port_notify(dp, DSA_NOTIFIER_HOST_FDB_DEL, &info); } int dsa_port_standalone_host_fdb_del(struct dsa_port *dp, const unsigned char *addr, u16 vid) { struct dsa_db db = { .type = DSA_DB_PORT, .dp = dp, }; return dsa_port_host_fdb_del(dp, addr, vid, db); } int dsa_port_bridge_host_fdb_del(struct dsa_port *dp, const unsigned char *addr, u16 vid) { struct net_device *master = dsa_port_to_master(dp); struct dsa_db db = { .type = DSA_DB_BRIDGE, .bridge = *dp->bridge, }; int err; if (master->priv_flags & IFF_UNICAST_FLT) { err = dev_uc_del(master, addr); if (err) return err; } return dsa_port_host_fdb_del(dp, addr, vid, db); } int dsa_port_lag_fdb_add(struct dsa_port *dp, const unsigned char *addr, u16 vid) { struct dsa_notifier_lag_fdb_info info = { .lag = dp->lag, .addr = addr, .vid = vid, .db = { .type = DSA_DB_BRIDGE, .bridge = *dp->bridge, }, }; if (!dp->ds->fdb_isolation) info.db.bridge.num = 0; return dsa_port_notify(dp, DSA_NOTIFIER_LAG_FDB_ADD, &info); } int dsa_port_lag_fdb_del(struct dsa_port *dp, const unsigned char *addr, u16 vid) { struct dsa_notifier_lag_fdb_info info = { .lag = dp->lag, .addr = addr, .vid = vid, .db = { .type = DSA_DB_BRIDGE, .bridge = *dp->bridge, }, }; if (!dp->ds->fdb_isolation) info.db.bridge.num = 0; return dsa_port_notify(dp, DSA_NOTIFIER_LAG_FDB_DEL, &info); } int dsa_port_fdb_dump(struct dsa_port *dp, dsa_fdb_dump_cb_t *cb, void *data) { struct dsa_switch *ds = dp->ds; int port = dp->index; if (!ds->ops->port_fdb_dump) return -EOPNOTSUPP; return ds->ops->port_fdb_dump(ds, port, cb, data); } int dsa_port_mdb_add(const struct dsa_port *dp, const struct switchdev_obj_port_mdb *mdb) { struct dsa_notifier_mdb_info info = { .dp = dp, .mdb = mdb, .db = { .type = DSA_DB_BRIDGE, .bridge = *dp->bridge, }, }; if (!dp->ds->fdb_isolation) info.db.bridge.num = 0; return dsa_port_notify(dp, DSA_NOTIFIER_MDB_ADD, &info); } int dsa_port_mdb_del(const struct dsa_port *dp, const struct switchdev_obj_port_mdb *mdb) { struct dsa_notifier_mdb_info info = { .dp = dp, .mdb = mdb, .db = { .type = DSA_DB_BRIDGE, .bridge = *dp->bridge, }, }; if (!dp->ds->fdb_isolation) info.db.bridge.num = 0; return dsa_port_notify(dp, DSA_NOTIFIER_MDB_DEL, &info); } static int dsa_port_host_mdb_add(const struct dsa_port *dp, const struct switchdev_obj_port_mdb *mdb, struct dsa_db db) { struct dsa_notifier_mdb_info info = { .dp = dp, .mdb = mdb, .db = db, }; if (!dp->ds->fdb_isolation) info.db.bridge.num = 0; return dsa_port_notify(dp, DSA_NOTIFIER_HOST_MDB_ADD, &info); } int dsa_port_standalone_host_mdb_add(const struct dsa_port *dp, const struct switchdev_obj_port_mdb *mdb) { struct dsa_db db = { .type = DSA_DB_PORT, .dp = dp, }; return dsa_port_host_mdb_add(dp, mdb, db); } int dsa_port_bridge_host_mdb_add(const struct dsa_port *dp, const struct switchdev_obj_port_mdb *mdb) { struct net_device *master = dsa_port_to_master(dp); struct dsa_db db = { .type = DSA_DB_BRIDGE, .bridge = *dp->bridge, }; int err; err = dev_mc_add(master, mdb->addr); if (err) return err; return dsa_port_host_mdb_add(dp, mdb, db); } static int dsa_port_host_mdb_del(const struct dsa_port *dp, const struct switchdev_obj_port_mdb *mdb, struct dsa_db db) { struct dsa_notifier_mdb_info info = { .dp = dp, .mdb = mdb, .db = db, }; if (!dp->ds->fdb_isolation) info.db.bridge.num = 0; return dsa_port_notify(dp, DSA_NOTIFIER_HOST_MDB_DEL, &info); } int dsa_port_standalone_host_mdb_del(const struct dsa_port *dp, const struct switchdev_obj_port_mdb *mdb) { struct dsa_db db = { .type = DSA_DB_PORT, .dp = dp, }; return dsa_port_host_mdb_del(dp, mdb, db); } int dsa_port_bridge_host_mdb_del(const struct dsa_port *dp, const struct switchdev_obj_port_mdb *mdb) { struct net_device *master = dsa_port_to_master(dp); struct dsa_db db = { .type = DSA_DB_BRIDGE, .bridge = *dp->bridge, }; int err; err = dev_mc_del(master, mdb->addr); if (err) return err; return dsa_port_host_mdb_del(dp, mdb, db); } int dsa_port_vlan_add(struct dsa_port *dp, const struct switchdev_obj_port_vlan *vlan, struct netlink_ext_ack *extack) { struct dsa_notifier_vlan_info info = { .dp = dp, .vlan = vlan, .extack = extack, }; return dsa_port_notify(dp, DSA_NOTIFIER_VLAN_ADD, &info); } int dsa_port_vlan_del(struct dsa_port *dp, const struct switchdev_obj_port_vlan *vlan) { struct dsa_notifier_vlan_info info = { .dp = dp, .vlan = vlan, }; return dsa_port_notify(dp, DSA_NOTIFIER_VLAN_DEL, &info); } int dsa_port_host_vlan_add(struct dsa_port *dp, const struct switchdev_obj_port_vlan *vlan, struct netlink_ext_ack *extack) { struct net_device *master = dsa_port_to_master(dp); struct dsa_notifier_vlan_info info = { .dp = dp, .vlan = vlan, .extack = extack, }; int err; err = dsa_port_notify(dp, DSA_NOTIFIER_HOST_VLAN_ADD, &info); if (err && err != -EOPNOTSUPP) return err; vlan_vid_add(master, htons(ETH_P_8021Q), vlan->vid); return err; } int dsa_port_host_vlan_del(struct dsa_port *dp, const struct switchdev_obj_port_vlan *vlan) { struct net_device *master = dsa_port_to_master(dp); struct dsa_notifier_vlan_info info = { .dp = dp, .vlan = vlan, }; int err; err = dsa_port_notify(dp, DSA_NOTIFIER_HOST_VLAN_DEL, &info); if (err && err != -EOPNOTSUPP) return err; vlan_vid_del(master, htons(ETH_P_8021Q), vlan->vid); return err; } int dsa_port_mrp_add(const struct dsa_port *dp, const struct switchdev_obj_mrp *mrp) { struct dsa_switch *ds = dp->ds; if (!ds->ops->port_mrp_add) return -EOPNOTSUPP; return ds->ops->port_mrp_add(ds, dp->index, mrp); } int dsa_port_mrp_del(const struct dsa_port *dp, const struct switchdev_obj_mrp *mrp) { struct dsa_switch *ds = dp->ds; if (!ds->ops->port_mrp_del) return -EOPNOTSUPP; return ds->ops->port_mrp_del(ds, dp->index, mrp); } int dsa_port_mrp_add_ring_role(const struct dsa_port *dp, const struct switchdev_obj_ring_role_mrp *mrp) { struct dsa_switch *ds = dp->ds; if (!ds->ops->port_mrp_add_ring_role) return -EOPNOTSUPP; return ds->ops->port_mrp_add_ring_role(ds, dp->index, mrp); } int dsa_port_mrp_del_ring_role(const struct dsa_port *dp, const struct switchdev_obj_ring_role_mrp *mrp) { struct dsa_switch *ds = dp->ds; if (!ds->ops->port_mrp_del_ring_role) return -EOPNOTSUPP; return ds->ops->port_mrp_del_ring_role(ds, dp->index, mrp); } static int dsa_port_assign_master(struct dsa_port *dp, struct net_device *master, struct netlink_ext_ack *extack, bool fail_on_err) { struct dsa_switch *ds = dp->ds; int port = dp->index, err; err = ds->ops->port_change_master(ds, port, master, extack); if (err && !fail_on_err) dev_err(ds->dev, "port %d failed to assign master %s: %pe\n", port, master->name, ERR_PTR(err)); if (err && fail_on_err) return err; dp->cpu_dp = master->dsa_ptr; dp->cpu_port_in_lag = netif_is_lag_master(master); return 0; } /* Change the dp->cpu_dp affinity for a user port. Note that both cross-chip * notifiers and drivers have implicit assumptions about user-to-CPU-port * mappings, so we unfortunately cannot delay the deletion of the objects * (switchdev, standalone addresses, standalone VLANs) on the old CPU port * until the new CPU port has been set up. So we need to completely tear down * the old CPU port before changing it, and restore it on errors during the * bringup of the new one. */ int dsa_port_change_master(struct dsa_port *dp, struct net_device *master, struct netlink_ext_ack *extack) { struct net_device *bridge_dev = dsa_port_bridge_dev_get(dp); struct net_device *old_master = dsa_port_to_master(dp); struct net_device *dev = dp->slave; struct dsa_switch *ds = dp->ds; bool vlan_filtering; int err, tmp; /* Bridges may hold host FDB, MDB and VLAN objects. These need to be * migrated, so dynamically unoffload and later reoffload the bridge * port. */ if (bridge_dev) { dsa_port_pre_bridge_leave(dp, bridge_dev); dsa_port_bridge_leave(dp, bridge_dev); } /* The port might still be VLAN filtering even if it's no longer * under a bridge, either due to ds->vlan_filtering_is_global or * ds->needs_standalone_vlan_filtering. In turn this means VLANs * on the CPU port. */ vlan_filtering = dsa_port_is_vlan_filtering(dp); if (vlan_filtering) { err = dsa_slave_manage_vlan_filtering(dev, false); if (err) { NL_SET_ERR_MSG_MOD(extack, "Failed to remove standalone VLANs"); goto rewind_old_bridge; } } /* Standalone addresses, and addresses of upper interfaces like * VLAN, LAG, HSR need to be migrated. */ dsa_slave_unsync_ha(dev); err = dsa_port_assign_master(dp, master, extack, true); if (err) goto rewind_old_addrs; dsa_slave_sync_ha(dev); if (vlan_filtering) { err = dsa_slave_manage_vlan_filtering(dev, true); if (err) { NL_SET_ERR_MSG_MOD(extack, "Failed to restore standalone VLANs"); goto rewind_new_addrs; } } if (bridge_dev) { err = dsa_port_bridge_join(dp, bridge_dev, extack); if (err && err == -EOPNOTSUPP) { NL_SET_ERR_MSG_MOD(extack, "Failed to reoffload bridge"); goto rewind_new_vlan; } } return 0; rewind_new_vlan: if (vlan_filtering) dsa_slave_manage_vlan_filtering(dev, false); rewind_new_addrs: dsa_slave_unsync_ha(dev); dsa_port_assign_master(dp, old_master, NULL, false); /* Restore the objects on the old CPU port */ rewind_old_addrs: dsa_slave_sync_ha(dev); if (vlan_filtering) { tmp = dsa_slave_manage_vlan_filtering(dev, true); if (tmp) { dev_err(ds->dev, "port %d failed to restore standalone VLANs: %pe\n", dp->index, ERR_PTR(tmp)); } } rewind_old_bridge: if (bridge_dev) { tmp = dsa_port_bridge_join(dp, bridge_dev, extack); if (tmp) { dev_err(ds->dev, "port %d failed to rejoin bridge %s: %pe\n", dp->index, bridge_dev->name, ERR_PTR(tmp)); } } return err; } void dsa_port_set_tag_protocol(struct dsa_port *cpu_dp, const struct dsa_device_ops *tag_ops) { cpu_dp->rcv = tag_ops->rcv; cpu_dp->tag_ops = tag_ops; } static struct phy_device *dsa_port_get_phy_device(struct dsa_port *dp) { struct device_node *phy_dn; struct phy_device *phydev; phy_dn = of_parse_phandle(dp->dn, "phy-handle", 0); if (!phy_dn) return NULL; phydev = of_phy_find_device(phy_dn); if (!phydev) { of_node_put(phy_dn); return ERR_PTR(-EPROBE_DEFER); } of_node_put(phy_dn); return phydev; } static void dsa_port_phylink_validate(struct phylink_config *config, unsigned long *supported, struct phylink_link_state *state) { struct dsa_port *dp = container_of(config, struct dsa_port, pl_config); struct dsa_switch *ds = dp->ds; if (!ds->ops->phylink_validate) { if (config->mac_capabilities) phylink_generic_validate(config, supported, state); return; } ds->ops->phylink_validate(ds, dp->index, supported, state); } static void dsa_port_phylink_mac_pcs_get_state(struct phylink_config *config, struct phylink_link_state *state) { struct dsa_port *dp = container_of(config, struct dsa_port, pl_config); struct dsa_switch *ds = dp->ds; int err; /* Only called for inband modes */ if (!ds->ops->phylink_mac_link_state) { state->link = 0; return; } err = ds->ops->phylink_mac_link_state(ds, dp->index, state); if (err < 0) { dev_err(ds->dev, "p%d: phylink_mac_link_state() failed: %d\n", dp->index, err); state->link = 0; } } static struct phylink_pcs * dsa_port_phylink_mac_select_pcs(struct phylink_config *config, phy_interface_t interface) { struct dsa_port *dp = container_of(config, struct dsa_port, pl_config); struct phylink_pcs *pcs = ERR_PTR(-EOPNOTSUPP); struct dsa_switch *ds = dp->ds; if (ds->ops->phylink_mac_select_pcs) pcs = ds->ops->phylink_mac_select_pcs(ds, dp->index, interface); return pcs; } static void dsa_port_phylink_mac_config(struct phylink_config *config, unsigned int mode, const struct phylink_link_state *state) { struct dsa_port *dp = container_of(config, struct dsa_port, pl_config); struct dsa_switch *ds = dp->ds; if (!ds->ops->phylink_mac_config) return; ds->ops->phylink_mac_config(ds, dp->index, mode, state); } static void dsa_port_phylink_mac_an_restart(struct phylink_config *config) { struct dsa_port *dp = container_of(config, struct dsa_port, pl_config); struct dsa_switch *ds = dp->ds; if (!ds->ops->phylink_mac_an_restart) return; ds->ops->phylink_mac_an_restart(ds, dp->index); } static void dsa_port_phylink_mac_link_down(struct phylink_config *config, unsigned int mode, phy_interface_t interface) { struct dsa_port *dp = container_of(config, struct dsa_port, pl_config); struct phy_device *phydev = NULL; struct dsa_switch *ds = dp->ds; if (dsa_port_is_user(dp)) phydev = dp->slave->phydev; if (!ds->ops->phylink_mac_link_down) { if (ds->ops->adjust_link && phydev) ds->ops->adjust_link(ds, dp->index, phydev); return; } ds->ops->phylink_mac_link_down(ds, dp->index, mode, interface); } static void dsa_port_phylink_mac_link_up(struct phylink_config *config, struct phy_device *phydev, unsigned int mode, phy_interface_t interface, int speed, int duplex, bool tx_pause, bool rx_pause) { struct dsa_port *dp = container_of(config, struct dsa_port, pl_config); struct dsa_switch *ds = dp->ds; if (!ds->ops->phylink_mac_link_up) { if (ds->ops->adjust_link && phydev) ds->ops->adjust_link(ds, dp->index, phydev); return; } ds->ops->phylink_mac_link_up(ds, dp->index, mode, interface, phydev, speed, duplex, tx_pause, rx_pause); } static const struct phylink_mac_ops dsa_port_phylink_mac_ops = { .validate = dsa_port_phylink_validate, .mac_select_pcs = dsa_port_phylink_mac_select_pcs, .mac_pcs_get_state = dsa_port_phylink_mac_pcs_get_state, .mac_config = dsa_port_phylink_mac_config, .mac_an_restart = dsa_port_phylink_mac_an_restart, .mac_link_down = dsa_port_phylink_mac_link_down, .mac_link_up = dsa_port_phylink_mac_link_up, }; int dsa_port_phylink_create(struct dsa_port *dp) { struct dsa_switch *ds = dp->ds; phy_interface_t mode; struct phylink *pl; int err; err = of_get_phy_mode(dp->dn, &mode); if (err) mode = PHY_INTERFACE_MODE_NA; /* Presence of phylink_mac_link_state or phylink_mac_an_restart is * an indicator of a legacy phylink driver. */ if (ds->ops->phylink_mac_link_state || ds->ops->phylink_mac_an_restart) dp->pl_config.legacy_pre_march2020 = true; if (ds->ops->phylink_get_caps) ds->ops->phylink_get_caps(ds, dp->index, &dp->pl_config); pl = phylink_create(&dp->pl_config, of_fwnode_handle(dp->dn), mode, &dsa_port_phylink_mac_ops); if (IS_ERR(pl)) { pr_err("error creating PHYLINK: %ld\n", PTR_ERR(pl)); return PTR_ERR(pl); } dp->pl = pl; return 0; } void dsa_port_phylink_destroy(struct dsa_port *dp) { phylink_destroy(dp->pl); dp->pl = NULL; } static int dsa_shared_port_setup_phy_of(struct dsa_port *dp, bool enable) { struct dsa_switch *ds = dp->ds; struct phy_device *phydev; int port = dp->index; int err = 0; phydev = dsa_port_get_phy_device(dp); if (!phydev) return 0; if (IS_ERR(phydev)) return PTR_ERR(phydev); if (enable) { err = genphy_resume(phydev); if (err < 0) goto err_put_dev; err = genphy_read_status(phydev); if (err < 0) goto err_put_dev; } else { err = genphy_suspend(phydev); if (err < 0) goto err_put_dev; } if (ds->ops->adjust_link) ds->ops->adjust_link(ds, port, phydev); dev_dbg(ds->dev, "enabled port's phy: %s", phydev_name(phydev)); err_put_dev: put_device(&phydev->mdio.dev); return err; } static int dsa_shared_port_fixed_link_register_of(struct dsa_port *dp) { struct device_node *dn = dp->dn; struct dsa_switch *ds = dp->ds; struct phy_device *phydev; int port = dp->index; phy_interface_t mode; int err; err = of_phy_register_fixed_link(dn); if (err) { dev_err(ds->dev, "failed to register the fixed PHY of port %d\n", port); return err; } phydev = of_phy_find_device(dn); err = of_get_phy_mode(dn, &mode); if (err) mode = PHY_INTERFACE_MODE_NA; phydev->interface = mode; genphy_read_status(phydev); if (ds->ops->adjust_link) ds->ops->adjust_link(ds, port, phydev); put_device(&phydev->mdio.dev); return 0; } static int dsa_shared_port_phylink_register(struct dsa_port *dp) { struct dsa_switch *ds = dp->ds; struct device_node *port_dn = dp->dn; int err; dp->pl_config.dev = ds->dev; dp->pl_config.type = PHYLINK_DEV; err = dsa_port_phylink_create(dp); if (err) return err; err = phylink_of_phy_connect(dp->pl, port_dn, 0); if (err && err != -ENODEV) { pr_err("could not attach to PHY: %d\n", err); goto err_phy_connect; } return 0; err_phy_connect: dsa_port_phylink_destroy(dp); return err; } /* During the initial DSA driver migration to OF, port nodes were sometimes * added to device trees with no indication of how they should operate from a * link management perspective (phy-handle, fixed-link, etc). Additionally, the * phy-mode may be absent. The interpretation of these port OF nodes depends on * their type. * * User ports with no phy-handle or fixed-link are expected to connect to an * internal PHY located on the ds->slave_mii_bus at an MDIO address equal to * the port number. This description is still actively supported. * * Shared (CPU and DSA) ports with no phy-handle or fixed-link are expected to * operate at the maximum speed that their phy-mode is capable of. If the * phy-mode is absent, they are expected to operate using the phy-mode * supported by the port that gives the highest link speed. It is unspecified * if the port should use flow control or not, half duplex or full duplex, or * if the phy-mode is a SERDES link, whether in-band autoneg is expected to be * enabled or not. * * In the latter case of shared ports, omitting the link management description * from the firmware node is deprecated and strongly discouraged. DSA uses * phylink, which rejects the firmware nodes of these ports for lacking * required properties. * * For switches in this table, DSA will skip enforcing validation and will * later omit registering a phylink instance for the shared ports, if they lack * a fixed-link, a phy-handle, or a managed = "in-band-status" property. * It becomes the responsibility of the driver to ensure that these ports * operate at the maximum speed (whatever this means) and will interoperate * with the DSA master or other cascade port, since phylink methods will not be * invoked for them. * * If you are considering expanding this table for newly introduced switches, * think again. It is OK to remove switches from this table if there aren't DT * blobs in circulation which rely on defaulting the shared ports. */ static const char * const dsa_switches_apply_workarounds[] = { #if IS_ENABLED(CONFIG_NET_DSA_XRS700X) "arrow,xrs7003e", "arrow,xrs7003f", "arrow,xrs7004e", "arrow,xrs7004f", #endif #if IS_ENABLED(CONFIG_B53) "brcm,bcm5325", "brcm,bcm53115", "brcm,bcm53125", "brcm,bcm53128", "brcm,bcm5365", "brcm,bcm5389", "brcm,bcm5395", "brcm,bcm5397", "brcm,bcm5398", "brcm,bcm53010-srab", "brcm,bcm53011-srab", "brcm,bcm53012-srab", "brcm,bcm53018-srab", "brcm,bcm53019-srab", "brcm,bcm5301x-srab", "brcm,bcm11360-srab", "brcm,bcm58522-srab", "brcm,bcm58525-srab", "brcm,bcm58535-srab", "brcm,bcm58622-srab", "brcm,bcm58623-srab", "brcm,bcm58625-srab", "brcm,bcm88312-srab", "brcm,cygnus-srab", "brcm,nsp-srab", "brcm,omega-srab", "brcm,bcm3384-switch", "brcm,bcm6328-switch", "brcm,bcm6368-switch", "brcm,bcm63xx-switch", #endif #if IS_ENABLED(CONFIG_NET_DSA_BCM_SF2) "brcm,bcm7445-switch-v4.0", "brcm,bcm7278-switch-v4.0", "brcm,bcm7278-switch-v4.8", #endif #if IS_ENABLED(CONFIG_NET_DSA_LANTIQ_GSWIP) "lantiq,xrx200-gswip", "lantiq,xrx300-gswip", "lantiq,xrx330-gswip", #endif #if IS_ENABLED(CONFIG_NET_DSA_MV88E6060) "marvell,mv88e6060", #endif #if IS_ENABLED(CONFIG_NET_DSA_MV88E6XXX) "marvell,mv88e6085", "marvell,mv88e6190", "marvell,mv88e6250", #endif #if IS_ENABLED(CONFIG_NET_DSA_MICROCHIP_KSZ_COMMON) "microchip,ksz8765", "microchip,ksz8794", "microchip,ksz8795", "microchip,ksz8863", "microchip,ksz8873", "microchip,ksz9477", "microchip,ksz9897", "microchip,ksz9893", "microchip,ksz9563", "microchip,ksz8563", "microchip,ksz9567", #endif #if IS_ENABLED(CONFIG_NET_DSA_SMSC_LAN9303_MDIO) "smsc,lan9303-mdio", #endif #if IS_ENABLED(CONFIG_NET_DSA_SMSC_LAN9303_I2C) "smsc,lan9303-i2c", #endif NULL, }; static void dsa_shared_port_validate_of(struct dsa_port *dp, bool *missing_phy_mode, bool *missing_link_description) { struct device_node *dn = dp->dn, *phy_np; struct dsa_switch *ds = dp->ds; phy_interface_t mode; *missing_phy_mode = false; *missing_link_description = false; if (of_get_phy_mode(dn, &mode)) { *missing_phy_mode = true; dev_err(ds->dev, "OF node %pOF of %s port %d lacks the required \"phy-mode\" property\n", dn, dsa_port_is_cpu(dp) ? "CPU" : "DSA", dp->index); } /* Note: of_phy_is_fixed_link() also returns true for * managed = "in-band-status" */ if (of_phy_is_fixed_link(dn)) return; phy_np = of_parse_phandle(dn, "phy-handle", 0); if (phy_np) { of_node_put(phy_np); return; } *missing_link_description = true; dev_err(ds->dev, "OF node %pOF of %s port %d lacks the required \"phy-handle\", \"fixed-link\" or \"managed\" properties\n", dn, dsa_port_is_cpu(dp) ? "CPU" : "DSA", dp->index); } int dsa_shared_port_link_register_of(struct dsa_port *dp) { struct dsa_switch *ds = dp->ds; bool missing_link_description; bool missing_phy_mode; int port = dp->index; dsa_shared_port_validate_of(dp, &missing_phy_mode, &missing_link_description); if ((missing_phy_mode || missing_link_description) && !of_device_compatible_match(ds->dev->of_node, dsa_switches_apply_workarounds)) return -EINVAL; if (!ds->ops->adjust_link) { if (missing_link_description) { dev_warn(ds->dev, "Skipping phylink registration for %s port %d\n", dsa_port_is_cpu(dp) ? "CPU" : "DSA", dp->index); } else { if (ds->ops->phylink_mac_link_down) ds->ops->phylink_mac_link_down(ds, port, MLO_AN_FIXED, PHY_INTERFACE_MODE_NA); return dsa_shared_port_phylink_register(dp); } return 0; } dev_warn(ds->dev, "Using legacy PHYLIB callbacks. Please migrate to PHYLINK!\n"); if (of_phy_is_fixed_link(dp->dn)) return dsa_shared_port_fixed_link_register_of(dp); else return dsa_shared_port_setup_phy_of(dp, true); } void dsa_shared_port_link_unregister_of(struct dsa_port *dp) { struct dsa_switch *ds = dp->ds; if (!ds->ops->adjust_link && dp->pl) { rtnl_lock(); phylink_disconnect_phy(dp->pl); rtnl_unlock(); dsa_port_phylink_destroy(dp); return; } if (of_phy_is_fixed_link(dp->dn)) of_phy_deregister_fixed_link(dp->dn); else dsa_shared_port_setup_phy_of(dp, false); } int dsa_port_hsr_join(struct dsa_port *dp, struct net_device *hsr) { struct dsa_switch *ds = dp->ds; int err; if (!ds->ops->port_hsr_join) return -EOPNOTSUPP; dp->hsr_dev = hsr; err = ds->ops->port_hsr_join(ds, dp->index, hsr); if (err) dp->hsr_dev = NULL; return err; } void dsa_port_hsr_leave(struct dsa_port *dp, struct net_device *hsr) { struct dsa_switch *ds = dp->ds; int err; dp->hsr_dev = NULL; if (ds->ops->port_hsr_leave) { err = ds->ops->port_hsr_leave(ds, dp->index, hsr); if (err) dev_err(dp->ds->dev, "port %d failed to leave HSR %s: %pe\n", dp->index, hsr->name, ERR_PTR(err)); } } int dsa_port_tag_8021q_vlan_add(struct dsa_port *dp, u16 vid, bool broadcast) { struct dsa_notifier_tag_8021q_vlan_info info = { .dp = dp, .vid = vid, }; if (broadcast) return dsa_broadcast(DSA_NOTIFIER_TAG_8021Q_VLAN_ADD, &info); return dsa_port_notify(dp, DSA_NOTIFIER_TAG_8021Q_VLAN_ADD, &info); } void dsa_port_tag_8021q_vlan_del(struct dsa_port *dp, u16 vid, bool broadcast) { struct dsa_notifier_tag_8021q_vlan_info info = { .dp = dp, .vid = vid, }; int err; if (broadcast) err = dsa_broadcast(DSA_NOTIFIER_TAG_8021Q_VLAN_DEL, &info); else err = dsa_port_notify(dp, DSA_NOTIFIER_TAG_8021Q_VLAN_DEL, &info); if (err) dev_err(dp->ds->dev, "port %d failed to notify tag_8021q VLAN %d deletion: %pe\n", dp->index, vid, ERR_PTR(err)); } |