eib_mac.c revision b494511a9cf72b1fc4eb13a0e593f55c624ab829
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright (c) 2010, Oracle and/or its affiliates. All rights reserved.
*/
#include <sys/types.h>
#include <sys/conf.h>
#include <sys/devops.h>
#include <sys/kmem.h>
#include <sys/ksynch.h>
#include <sys/modctl.h>
#include <sys/stat.h>
#include <sys/ddi.h>
#include <sys/sunddi.h>
#include <sys/mac_provider.h>
#include <sys/mac_ether.h>
#include <sys/ib/clients/eoib/eib_impl.h>
/*
* Declarations private to this file
*/
static void eib_rb_mac_start(eib_t *, eib_vnic_t *);
/*
* This set of routines are used to set/clear the condition that the
* caller is about to do something that affects the state of the nic.
* If there's already someone doing either a start or a stop (possibly
* due to the async handler, a plumb or a dlpi_open happening, or an
* unplumb or dlpi_close coming in), we wait until that's done.
*/
void
eib_mac_set_nic_state(eib_t *ss, uint_t flags)
{
eib_node_state_t *ns = ss->ei_node_state;
mutex_enter(&ns->ns_lock);
while ((ns->ns_nic_state & EIB_NIC_STARTING) ||
(ns->ns_nic_state & EIB_NIC_STOPPING)) {
cv_wait(&ns->ns_cv, &ns->ns_lock);
}
ns->ns_nic_state |= flags;
mutex_exit(&ns->ns_lock);
}
void
eib_mac_clr_nic_state(eib_t *ss, uint_t flags)
{
eib_node_state_t *ns = ss->ei_node_state;
mutex_enter(&ns->ns_lock);
ns->ns_nic_state &= (~flags);
cv_broadcast(&ns->ns_cv);
mutex_exit(&ns->ns_lock);
}
void
eib_mac_upd_nic_state(eib_t *ss, uint_t clr_flags, uint_t set_flags)
{
eib_node_state_t *ns = ss->ei_node_state;
mutex_enter(&ns->ns_lock);
ns->ns_nic_state &= (~clr_flags);
ns->ns_nic_state |= set_flags;
cv_broadcast(&ns->ns_cv);
mutex_exit(&ns->ns_lock);
}
uint_t
eib_mac_get_nic_state(eib_t *ss)
{
eib_node_state_t *ns = ss->ei_node_state;
uint_t nic_state;
mutex_enter(&ns->ns_lock);
nic_state = ns->ns_nic_state;
mutex_exit(&ns->ns_lock);
return (nic_state);
}
void
eib_mac_link_state(eib_t *ss, link_state_t new_link_state,
boolean_t force)
{
eib_node_state_t *ns = ss->ei_node_state;
boolean_t state_changed = B_FALSE;
mutex_enter(&ns->ns_lock);
/*
* We track the link state only if the current link state is
* not unknown. Obviously therefore, the first calls to set
* the link state from eib_mac_start() have to pass an explicit
* 'force' flag to force the state change tracking.
*/
if (ns->ns_link_state != LINK_STATE_UNKNOWN)
force = B_TRUE;
if ((force) && (new_link_state != ns->ns_link_state)) {
ns->ns_link_state = new_link_state;
state_changed = B_TRUE;
}
mutex_exit(&ns->ns_lock);
if (state_changed) {
EIB_DPRINTF_DEBUG(ss->ei_instance,
"eib_mac_link_state: changing link state to %d",
new_link_state);
mac_link_update(ss->ei_mac_hdl, new_link_state);
} else {
EIB_DPRINTF_DEBUG(ss->ei_instance,
"eib_mac_link_state: link state already %d",
new_link_state);
}
}
void
eib_mac_link_up(eib_t *ss, boolean_t force)
{
eib_mac_link_state(ss, LINK_STATE_UP, force);
}
void
eib_mac_link_down(eib_t *ss, boolean_t force)
{
eib_mac_link_state(ss, LINK_STATE_DOWN, force);
}
int
eib_mac_start(eib_t *ss)
{
eib_vnic_t *vnic0 = NULL;
eib_login_data_t *ld;
int err;
/*
* Perform HCA related initializations
*/
if (eib_ibt_hca_init(ss) != EIB_E_SUCCESS)
goto start_fail;
/*
* Make sure port is up. Also record the port base lid if it's up.
*/
if (eib_mac_hca_portstate(ss, &ss->ei_props->ep_blid,
&err) != EIB_E_SUCCESS) {
goto start_fail;
}
/*
* Set up tx and rx buffer pools
*/
if (eib_rsrc_setup_bufs(ss, &err) != EIB_E_SUCCESS)
goto start_fail;
/*
* Set up admin qp for logins and logouts
*/
if (eib_adm_setup_qp(ss, &err) != EIB_E_SUCCESS)
goto start_fail;
/*
* Create the vnic for physlink (instance 0)
*/
if (eib_vnic_create(ss, 0, 0, &vnic0, &err) != EIB_E_SUCCESS)
goto start_fail;
/*
* Update the mac layer about the correct values for MTU and
* unicast MAC address. Note that we've already verified that the
* vhub mtu (plus the eoib encapsulation header) is not greater
* than our port mtu, so we can go ahead and report the vhub mtu
* (of vnic0) directly.
*/
ld = &(vnic0->vn_login_data);
(void) mac_maxsdu_update(ss->ei_mac_hdl, ld->ld_vhub_mtu);
mac_unicst_update(ss->ei_mac_hdl, ld->ld_assigned_mac);
/*
* Report that the link is up and ready
*/
eib_mac_link_up(ss, B_TRUE);
return (0);
start_fail:
eib_rb_mac_start(ss, vnic0);
eib_mac_link_down(ss, B_TRUE);
return (err);
}
void
eib_mac_stop(eib_t *ss)
{
eib_vnic_t *vnic;
link_state_t cur_link_state = ss->ei_node_state->ns_link_state;
int ndx;
/*
* Stopping an EoIB device instance is somewhat different from starting
* it. Between the time the device instance was started and the call to
* eib_m_stop() now, a number of vnics could've been created. All of
* these will need to be destroyed before we can stop the device.
*/
for (ndx = EIB_MAX_VNICS - 1; ndx >= 0; ndx--) {
if ((vnic = ss->ei_vnic[ndx]) != NULL)
eib_vnic_delete(ss, vnic);
}
/*
* And now, to undo the things we did in start (other than creation
* of vnics itself)
*/
eib_rb_mac_start(ss, NULL);
/*
* Now that we're completed stopped, there's no mac address assigned
* to us. Update the mac layer with this information. Note that we
* can let the old max mtu information remain as-is, since we're likely
* to get that same mtu on a later plumb.
*/
mac_unicst_update(ss->ei_mac_hdl, eib_zero_mac);
/*
* If our link state was up when the eib_m_stop() callback was called,
* we'll mark the link state as unknown now. Otherwise, we'll leave
* the link state as-is (down).
*/
if (cur_link_state == LINK_STATE_UP)
eib_mac_link_state(ss, LINK_STATE_UNKNOWN, B_TRUE);
}
int
eib_mac_multicast(eib_t *ss, boolean_t add, uint8_t *mcast_mac)
{
int ret = EIB_E_SUCCESS;
int err = 0;
/*
* If it's a broadcast group join, each vnic needs to and is always
* joined to the broadcast address, so we return success immediately.
* If it's a broadcast group leave, we fail immediately for the same
* reason as above.
*/
if (bcmp(mcast_mac, eib_broadcast_mac, ETHERADDRL) == 0) {
if (add)
return (0);
else
return (EINVAL);
}
if (ss->ei_vnic[0]) {
if (add) {
ret = eib_vnic_join_data_mcg(ss, ss->ei_vnic[0],
mcast_mac, B_FALSE, &err);
} else {
eib_vnic_leave_data_mcg(ss, ss->ei_vnic[0], mcast_mac);
ret = EIB_E_SUCCESS;
}
}
if (ret == EIB_E_SUCCESS)
return (0);
else
return (err);
}
int
eib_mac_promisc(eib_t *ss, boolean_t set)
{
int ret = EIB_E_SUCCESS;
int err = 0;
if (ss->ei_vnic[0]) {
if (set) {
ret = eib_vnic_join_data_mcg(ss, ss->ei_vnic[0],
eib_zero_mac, B_FALSE, &err);
} else {
eib_vnic_leave_data_mcg(ss, ss->ei_vnic[0],
eib_zero_mac);
ret = EIB_E_SUCCESS;
}
}
if (ret == EIB_E_SUCCESS)
return (0);
else
return (err);
}
int
eib_mac_tx(eib_t *ss, mblk_t *mp)
{
eib_ether_hdr_t evh;
eib_vnic_t *vnic = NULL;
eib_wqe_t *swqe = NULL;
boolean_t failed_vnic;
int found;
int ret;
/*
* Grab a send wqe. If we cannot get one, wake up a service
* thread to monitor the swqe status and let the mac layer know
* as soon as we have enough tx wqes to start the traffic again.
*/
if ((swqe = eib_rsrc_grab_swqe(ss, EIB_WPRI_LO)) == NULL) {
EIB_DPRINTF_WARN(ss->ei_instance, "eib_mac_tx: "
"no swqe available, holding tx until resource "
"becomes available");
eib_rsrc_txwqes_needed(ss);
return (EIB_E_FAILURE);
}
/*
* Determine dmac, smac and vlan information
*/
eib_data_parse_ether_hdr(mp, &evh);
/*
* Lookup the {smac, vlan} tuple in our vnic list. If it isn't
* there, this is obviously a new packet on a vnic/vlan that
* we haven't been informed about. So go ahead and file a request
* to create a new vnic. This is obviously not a clean thing to
* do - we should be informed when a vnic/vlan is being created
* and should be given a proper opportunity to login to the gateway
* and do the creation. But we don't have that luxury now, and
* this is the next best thing to do. Note that we return failure
* from here, so tx flow control should prevent further packets
* from coming in until the vnic creation has completed.
*/
found = eib_data_lookup_vnic(ss, evh.eh_smac, evh.eh_vlan, &vnic,
&failed_vnic);
if (found != EIB_E_SUCCESS) {
uint8_t *m = evh.eh_smac;
/*
* Return the swqe back to the pool
*/
eib_rsrc_return_swqe(ss, swqe, NULL);
/*
* If we had previously tried creating this vnic and had
* failed, we'll simply drop the packets on this vnic.
* Otherwise, we'll queue up a request to create this vnic.
*/
if (failed_vnic) {
EIB_DPRINTF_VERBOSE(ss->ei_instance, "eib_mac_tx: "
"vnic creation for mac=%x:%x:%x:%x:%x:%x "
"vlan=0x%x failed previously, dropping pkt",
m[0], m[1], m[2], m[3], m[4], m[5], evh.eh_vlan);
return (EIB_E_SUCCESS);
} else {
eib_vnic_need_new(ss, evh.eh_smac, evh.eh_vlan);
return (EIB_E_FAILURE);
}
}
/*
* We'll try to setup the destination in the swqe for this dmac
* and vlan. If we don't succeed, there's no need to undo any
* vnic-creation we might've made above (if we didn't find the
* vnic corresponding to the {smac, vlan} originally). Note that
* this is not a resource issue, so we'll issue a warning and
* drop the packet, but won't return failure from here.
*/
ret = eib_vnic_setup_dest(vnic, swqe, evh.eh_dmac, evh.eh_vlan);
if (ret != EIB_E_SUCCESS) {
uint8_t *dmac;
dmac = evh.eh_dmac;
EIB_DPRINTF_WARN(ss->ei_instance, "eib_mac_tx: "
"eib_vnic_setup_dest() failed for mac=%x:%x:%x:%x:%x:%x, "
"vlan=0x%x, dropping pkt", dmac[0], dmac[1], dmac[2],
dmac[3], dmac[4], dmac[5]);
eib_rsrc_return_swqe(ss, swqe, NULL);
return (EIB_E_SUCCESS);
}
/*
* The only reason why this would fail is if we needed LSO buffer(s)
* to prepare this frame and couldn't find enough of those.
*/
ret = eib_data_prepare_frame(vnic, swqe, mp, &evh);
if (ret != EIB_E_SUCCESS) {
EIB_DPRINTF_WARN(ss->ei_instance, "eib_mac_tx: "
"eib_data_prepare_frame() failed (no LSO bufs?), "
"holding tx until resource becomes available");
eib_rsrc_return_swqe(ss, swqe, NULL);
eib_rsrc_lsobufs_needed(ss);
return (EIB_E_FAILURE);
}
eib_data_post_tx(vnic, swqe);
return (EIB_E_SUCCESS);
}
int
eib_mac_hca_portstate(eib_t *ss, ib_lid_t *blid, int *err)
{
ibt_hca_portinfo_t *pi;
ibt_status_t ret;
uint_t num_pi;
uint_t sz_pi;
ret = ibt_query_hca_ports(ss->ei_hca_hdl, ss->ei_props->ep_port_num,
&pi, &num_pi, &sz_pi);
if (ret != IBT_SUCCESS) {
EIB_DPRINTF_ERR(ss->ei_instance,
"ibt_query_hca_ports(hca_hdl=0x%llx, "
"port=0x%x) failed, ret=%d", ss->ei_hca_hdl,
ss->ei_props->ep_port_num, ret);
goto mac_hca_portstate_fail;
}
if (num_pi != 1) {
EIB_DPRINTF_ERR(ss->ei_instance,
"ibt_query_hca_ports(hca_hdl=0x%llx, "
"port=0x%x) returned num_pi=%d", ss->ei_hca_hdl,
ss->ei_props->ep_port_num, num_pi);
goto mac_hca_portstate_fail;
}
if (pi->p_linkstate != IBT_PORT_ACTIVE)
goto mac_hca_portstate_fail;
/*
* Return the port's base lid if asked
*/
if (blid) {
*blid = pi->p_base_lid;
}
ibt_free_portinfo(pi, sz_pi);
return (EIB_E_SUCCESS);
mac_hca_portstate_fail:
if (pi) {
ibt_free_portinfo(pi, sz_pi);
}
if (err) {
*err = ENETDOWN;
}
return (EIB_E_FAILURE);
}
static void
eib_rb_mac_start(eib_t *ss, eib_vnic_t *vnic0)
{
int ntries;
/*
* If vnic0 is non-null, delete it
*/
if (vnic0) {
eib_rb_vnic_create(ss, vnic0, ~0);
}
/*
* At this point, we're pretty much done with all communication that
* we need to do for vnic-logout, etc. so we can get rid of any address
* vectors we might've allocated to send control/data packets.
*/
eib_ibt_free_avects(ss);
/*
* Tear down the rest of it
*/
if (ss->ei_admin_chan) {
eib_rb_adm_setup_qp(ss);
}
/*
* If (say) the network layer has been holding onto our rx buffers, we
* wait a reasonable time for it to hand them back to us. If we don't
* get it still, we have nothing to do but avoid rolling back hca init
* since we cannot unregister the memory, release the pd or close the
* hca. We'll try to reuse it if there's a plumb again.
*/
for (ntries = 0; ntries < EIB_MAX_ATTEMPTS; ntries++) {
eib_rb_rsrc_setup_bufs(ss, B_FALSE);
if ((ss->ei_tx == NULL) && (ss->ei_rx == NULL) &&
(ss->ei_lso == NULL)) {
break;
}
delay(drv_usectohz(EIB_DELAY_HALF_SECOND));
}
if (ntries == EIB_MAX_ATTEMPTS) {
EIB_DPRINTF_WARN(ss->ei_instance, "eib_rb_mac_start: "
"bufs outstanding, tx=0x%llx, rx=0x%llx, lso=0x%llx",
ss->ei_tx, ss->ei_rx, ss->ei_lso);
} else if (ss->ei_hca_hdl) {
eib_rb_ibt_hca_init(ss, ~0);
}
ss->ei_props->ep_blid = 0;
/*
* Pending vnic creation requests (and failed-vnic records) will have
* to be cleaned up in any case
*/
eib_flush_vnic_reqs(ss);
}