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eb812ea9ab
freebsd-skq/sys/dev/hyperv/vmbus/vmbus_chan.c
Sepherosa Ziehau eb812ea9ab hyperv/vmbus: Commit the GPADL id only after the connection succeeds. 
Minor style change.

MFC after:	1 week
Sponsored by:	Microsoft
Differential Revision:	https://reviews.freebsd.org/D8563
2016-11-25 05:35:29 +00:00

1791 lines
46 KiB
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/*-
* Copyright (c) 2009-2012,2016 Microsoft Corp.
* Copyright (c) 2012 NetApp Inc.
* Copyright (c) 2012 Citrix Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice unmodified, this list of conditions, and the following
* disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <sys/param.h>
#include <sys/bus.h>
#include <sys/kernel.h>
#include <sys/lock.h>
#include <sys/malloc.h>
#include <sys/mutex.h>
#include <sys/smp.h>
#include <sys/sysctl.h>
#include <sys/systm.h>
#include <machine/atomic.h>
#include <machine/stdarg.h>
#include <dev/hyperv/include/hyperv_busdma.h>
#include <dev/hyperv/include/vmbus_xact.h>
#include <dev/hyperv/vmbus/hyperv_var.h>
#include <dev/hyperv/vmbus/vmbus_reg.h>
#include <dev/hyperv/vmbus/vmbus_var.h>
#include <dev/hyperv/vmbus/vmbus_brvar.h>
#include <dev/hyperv/vmbus/vmbus_chanvar.h>
static void vmbus_chan_update_evtflagcnt(
struct vmbus_softc *,
const struct vmbus_channel *);
static void vmbus_chan_close_internal(
struct vmbus_channel *);
static int vmbus_chan_sysctl_mnf(SYSCTL_HANDLER_ARGS);
static void vmbus_chan_sysctl_create(
struct vmbus_channel *);
static struct vmbus_channel *vmbus_chan_alloc(struct vmbus_softc *);
static void vmbus_chan_free(struct vmbus_channel *);
static int vmbus_chan_add(struct vmbus_channel *);
static void vmbus_chan_cpu_default(struct vmbus_channel *);
static int vmbus_chan_release(struct vmbus_channel *);
static void vmbus_chan_set_chmap(struct vmbus_channel *);
static void vmbus_chan_clear_chmap(struct vmbus_channel *);
static void vmbus_chan_detach(struct vmbus_channel *);
static void vmbus_chan_ins_prilist(struct vmbus_softc *,
struct vmbus_channel *);
static void vmbus_chan_rem_prilist(struct vmbus_softc *,
struct vmbus_channel *);
static void vmbus_chan_ins_list(struct vmbus_softc *,
struct vmbus_channel *);
static void vmbus_chan_rem_list(struct vmbus_softc *,
struct vmbus_channel *);
static void vmbus_chan_ins_sublist(struct vmbus_channel *,
struct vmbus_channel *);
static void vmbus_chan_rem_sublist(struct vmbus_channel *,
struct vmbus_channel *);
static void vmbus_chan_task(void *, int);
static void vmbus_chan_task_nobatch(void *, int);
static void vmbus_chan_clrchmap_task(void *, int);
static void vmbus_prichan_attach_task(void *, int);
static void vmbus_subchan_attach_task(void *, int);
static void vmbus_prichan_detach_task(void *, int);
static void vmbus_subchan_detach_task(void *, int);
static void vmbus_chan_msgproc_choffer(struct vmbus_softc *,
const struct vmbus_message *);
static void vmbus_chan_msgproc_chrescind(
struct vmbus_softc *,
const struct vmbus_message *);
static int vmbus_chan_printf(const struct vmbus_channel *,
const char *, ...) __printflike(2, 3);
/*
* Vmbus channel message processing.
*/
static const vmbus_chanmsg_proc_t
vmbus_chan_msgprocs[VMBUS_CHANMSG_TYPE_MAX] = {
VMBUS_CHANMSG_PROC(CHOFFER, vmbus_chan_msgproc_choffer),
VMBUS_CHANMSG_PROC(CHRESCIND, vmbus_chan_msgproc_chrescind),
VMBUS_CHANMSG_PROC_WAKEUP(CHOPEN_RESP),
VMBUS_CHANMSG_PROC_WAKEUP(GPADL_CONNRESP),
VMBUS_CHANMSG_PROC_WAKEUP(GPADL_DISCONNRESP)
};
/*
* Notify host that there are data pending on our TX bufring.
*/
static __inline void
vmbus_chan_signal_tx(const struct vmbus_channel *chan)
{
atomic_set_long(chan->ch_evtflag, chan->ch_evtflag_mask);
if (chan->ch_txflags & VMBUS_CHAN_TXF_HASMNF)
atomic_set_int(chan->ch_montrig, chan->ch_montrig_mask);
else
hypercall_signal_event(chan->ch_monprm_dma.hv_paddr);
}
static void
vmbus_chan_ins_prilist(struct vmbus_softc *sc, struct vmbus_channel *chan)
{
mtx_assert(&sc->vmbus_prichan_lock, MA_OWNED);
if (atomic_testandset_int(&chan->ch_stflags,
VMBUS_CHAN_ST_ONPRIL_SHIFT))
panic("channel is already on the prilist");
TAILQ_INSERT_TAIL(&sc->vmbus_prichans, chan, ch_prilink);
}
static void
vmbus_chan_rem_prilist(struct vmbus_softc *sc, struct vmbus_channel *chan)
{
mtx_assert(&sc->vmbus_prichan_lock, MA_OWNED);
if (atomic_testandclear_int(&chan->ch_stflags,
VMBUS_CHAN_ST_ONPRIL_SHIFT) == 0)
panic("channel is not on the prilist");
TAILQ_REMOVE(&sc->vmbus_prichans, chan, ch_prilink);
}
static void
vmbus_chan_ins_sublist(struct vmbus_channel *prichan,
struct vmbus_channel *chan)
{
mtx_assert(&prichan->ch_subchan_lock, MA_OWNED);
if (atomic_testandset_int(&chan->ch_stflags,
VMBUS_CHAN_ST_ONSUBL_SHIFT))
panic("channel is already on the sublist");
TAILQ_INSERT_TAIL(&prichan->ch_subchans, chan, ch_sublink);
/* Bump sub-channel count. */
prichan->ch_subchan_cnt++;
}
static void
vmbus_chan_rem_sublist(struct vmbus_channel *prichan,
struct vmbus_channel *chan)
{
mtx_assert(&prichan->ch_subchan_lock, MA_OWNED);
KASSERT(prichan->ch_subchan_cnt > 0,
("invalid subchan_cnt %d", prichan->ch_subchan_cnt));
prichan->ch_subchan_cnt--;
if (atomic_testandclear_int(&chan->ch_stflags,
VMBUS_CHAN_ST_ONSUBL_SHIFT) == 0)
panic("channel is not on the sublist");
TAILQ_REMOVE(&prichan->ch_subchans, chan, ch_sublink);
}
static void
vmbus_chan_ins_list(struct vmbus_softc *sc, struct vmbus_channel *chan)
{
mtx_assert(&sc->vmbus_chan_lock, MA_OWNED);
if (atomic_testandset_int(&chan->ch_stflags,
VMBUS_CHAN_ST_ONLIST_SHIFT))
panic("channel is already on the list");
TAILQ_INSERT_TAIL(&sc->vmbus_chans, chan, ch_link);
}
static void
vmbus_chan_rem_list(struct vmbus_softc *sc, struct vmbus_channel *chan)
{
mtx_assert(&sc->vmbus_chan_lock, MA_OWNED);
if (atomic_testandclear_int(&chan->ch_stflags,
VMBUS_CHAN_ST_ONLIST_SHIFT) == 0)
panic("channel is not on the list");
TAILQ_REMOVE(&sc->vmbus_chans, chan, ch_link);
}
static int
vmbus_chan_sysctl_mnf(SYSCTL_HANDLER_ARGS)
{
struct vmbus_channel *chan = arg1;
int mnf = 0;
if (chan->ch_txflags & VMBUS_CHAN_TXF_HASMNF)
mnf = 1;
return sysctl_handle_int(oidp, &mnf, 0, req);
}
static void
vmbus_chan_sysctl_create(struct vmbus_channel *chan)
{
struct sysctl_oid *ch_tree, *chid_tree, *br_tree;
struct sysctl_ctx_list *ctx;
uint32_t ch_id;
char name[16];
/*
* Add sysctl nodes related to this channel to this
* channel's sysctl ctx, so that they can be destroyed
* independently upon close of this channel, which can
* happen even if the device is not detached.
*/
ctx = &chan->ch_sysctl_ctx;
sysctl_ctx_init(ctx);
/*
* Create dev.NAME.UNIT.channel tree.
*/
ch_tree = SYSCTL_ADD_NODE(ctx,
SYSCTL_CHILDREN(device_get_sysctl_tree(chan->ch_dev)),
OID_AUTO, "channel", CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "");
if (ch_tree == NULL)
return;
/*
* Create dev.NAME.UNIT.channel.CHANID tree.
*/
if (VMBUS_CHAN_ISPRIMARY(chan))
ch_id = chan->ch_id;
else
ch_id = chan->ch_prichan->ch_id;
snprintf(name, sizeof(name), "%d", ch_id);
chid_tree = SYSCTL_ADD_NODE(ctx, SYSCTL_CHILDREN(ch_tree),
OID_AUTO, name, CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "");
if (chid_tree == NULL)
return;
if (!VMBUS_CHAN_ISPRIMARY(chan)) {
/*
* Create dev.NAME.UNIT.channel.CHANID.sub tree.
*/
ch_tree = SYSCTL_ADD_NODE(ctx, SYSCTL_CHILDREN(chid_tree),
OID_AUTO, "sub", CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "");
if (ch_tree == NULL)
return;
/*
* Create dev.NAME.UNIT.channel.CHANID.sub.SUBIDX tree.
*
* NOTE:
* chid_tree is changed to this new sysctl tree.
*/
snprintf(name, sizeof(name), "%d", chan->ch_subidx);
chid_tree = SYSCTL_ADD_NODE(ctx, SYSCTL_CHILDREN(ch_tree),
OID_AUTO, name, CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "");
if (chid_tree == NULL)
return;
SYSCTL_ADD_UINT(ctx, SYSCTL_CHILDREN(chid_tree), OID_AUTO,
"chanid", CTLFLAG_RD, &chan->ch_id, 0, "channel id");
}
SYSCTL_ADD_UINT(ctx, SYSCTL_CHILDREN(chid_tree), OID_AUTO,
"cpu", CTLFLAG_RD, &chan->ch_cpuid, 0, "owner CPU id");
SYSCTL_ADD_PROC(ctx, SYSCTL_CHILDREN(chid_tree), OID_AUTO,
"mnf", CTLTYPE_INT | CTLFLAG_RD | CTLFLAG_MPSAFE,
chan, 0, vmbus_chan_sysctl_mnf, "I",
"has monitor notification facilities");
br_tree = SYSCTL_ADD_NODE(ctx, SYSCTL_CHILDREN(chid_tree), OID_AUTO,
"br", CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "");
if (br_tree != NULL) {
/*
* Create sysctl tree for RX bufring.
*/
vmbus_br_sysctl_create(ctx, br_tree, &chan->ch_rxbr.rxbr, "rx");
/*
* Create sysctl tree for TX bufring.
*/
vmbus_br_sysctl_create(ctx, br_tree, &chan->ch_txbr.txbr, "tx");
}
}
int
vmbus_chan_open(struct vmbus_channel *chan, int txbr_size, int rxbr_size,
const void *udata, int udlen, vmbus_chan_callback_t cb, void *cbarg)
{
struct vmbus_chan_br cbr;
int error;
/*
* Allocate the TX+RX bufrings.
*/
KASSERT(chan->ch_bufring == NULL, ("bufrings are allocated"));
chan->ch_bufring = hyperv_dmamem_alloc(bus_get_dma_tag(chan->ch_dev),
PAGE_SIZE, 0, txbr_size + rxbr_size, &chan->ch_bufring_dma,
BUS_DMA_WAITOK);
if (chan->ch_bufring == NULL) {
vmbus_chan_printf(chan, "bufring allocation failed\n");
return (ENOMEM);
}
cbr.cbr = chan->ch_bufring;
cbr.cbr_paddr = chan->ch_bufring_dma.hv_paddr;
cbr.cbr_txsz = txbr_size;
cbr.cbr_rxsz = rxbr_size;
error = vmbus_chan_open_br(chan, &cbr, udata, udlen, cb, cbarg);
if (error) {
hyperv_dmamem_free(&chan->ch_bufring_dma, chan->ch_bufring);
chan->ch_bufring = NULL;
}
return (error);
}
int
vmbus_chan_open_br(struct vmbus_channel *chan, const struct vmbus_chan_br *cbr,
const void *udata, int udlen, vmbus_chan_callback_t cb, void *cbarg)
{
struct vmbus_softc *sc = chan->ch_vmbus;
const struct vmbus_chanmsg_chopen_resp *resp;
const struct vmbus_message *msg;
struct vmbus_chanmsg_chopen *req;
struct vmbus_msghc *mh;
uint32_t status;
int error, txbr_size, rxbr_size;
task_fn_t *task_fn;
uint8_t *br;
if (udlen > VMBUS_CHANMSG_CHOPEN_UDATA_SIZE) {
vmbus_chan_printf(chan,
"invalid udata len %d for chan%u\n", udlen, chan->ch_id);
return EINVAL;
}
br = cbr->cbr;
txbr_size = cbr->cbr_txsz;
rxbr_size = cbr->cbr_rxsz;
KASSERT((txbr_size & PAGE_MASK) == 0,
("send bufring size is not multiple page"));
KASSERT((rxbr_size & PAGE_MASK) == 0,
("recv bufring size is not multiple page"));
KASSERT((cbr->cbr_paddr & PAGE_MASK) == 0,
("bufring is not page aligned"));
/*
* Zero out the TX/RX bufrings, in case that they were used before.
*/
memset(br, 0, txbr_size + rxbr_size);
if (atomic_testandset_int(&chan->ch_stflags,
VMBUS_CHAN_ST_OPENED_SHIFT))
panic("double-open chan%u", chan->ch_id);
chan->ch_cb = cb;
chan->ch_cbarg = cbarg;
vmbus_chan_update_evtflagcnt(sc, chan);
chan->ch_tq = VMBUS_PCPU_GET(chan->ch_vmbus, event_tq, chan->ch_cpuid);
if (chan->ch_flags & VMBUS_CHAN_FLAG_BATCHREAD)
task_fn = vmbus_chan_task;
else
task_fn = vmbus_chan_task_nobatch;
TASK_INIT(&chan->ch_task, 0, task_fn, chan);
/* TX bufring comes first */
vmbus_txbr_setup(&chan->ch_txbr, br, txbr_size);
/* RX bufring immediately follows TX bufring */
vmbus_rxbr_setup(&chan->ch_rxbr, br + txbr_size, rxbr_size);
/* Create sysctl tree for this channel */
vmbus_chan_sysctl_create(chan);
/*
* Connect the bufrings, both RX and TX, to this channel.
*/
error = vmbus_chan_gpadl_connect(chan, cbr->cbr_paddr,
txbr_size + rxbr_size, &chan->ch_bufring_gpadl);
if (error) {
vmbus_chan_printf(chan,
"failed to connect bufring GPADL to chan%u\n", chan->ch_id);
goto failed;
}
/*
* Install this channel, before it is opened, but after everything
* else has been setup.
*/
vmbus_chan_set_chmap(chan);
/*
* Open channel w/ the bufring GPADL on the target CPU.
*/
mh = vmbus_msghc_get(sc, sizeof(*req));
if (mh == NULL) {
vmbus_chan_printf(chan,
"can not get msg hypercall for chopen(chan%u)\n",
chan->ch_id);
error = ENXIO;
goto failed;
}
req = vmbus_msghc_dataptr(mh);
req->chm_hdr.chm_type = VMBUS_CHANMSG_TYPE_CHOPEN;
req->chm_chanid = chan->ch_id;
req->chm_openid = chan->ch_id;
req->chm_gpadl = chan->ch_bufring_gpadl;
req->chm_vcpuid = chan->ch_vcpuid;
req->chm_txbr_pgcnt = txbr_size >> PAGE_SHIFT;
if (udlen > 0)
memcpy(req->chm_udata, udata, udlen);
error = vmbus_msghc_exec(sc, mh);
if (error) {
vmbus_chan_printf(chan,
"chopen(chan%u) msg hypercall exec failed: %d\n",
chan->ch_id, error);
vmbus_msghc_put(sc, mh);
goto failed;
}
msg = vmbus_msghc_wait_result(sc, mh);
resp = (const struct vmbus_chanmsg_chopen_resp *)msg->msg_data;
status = resp->chm_status;
vmbus_msghc_put(sc, mh);
if (status == 0) {
if (bootverbose) {
vmbus_chan_printf(chan, "chan%u opened\n", chan->ch_id);
}
return 0;
}
vmbus_chan_printf(chan, "failed to open chan%u\n", chan->ch_id);
error = ENXIO;
failed:
vmbus_chan_clear_chmap(chan);
if (chan->ch_bufring_gpadl != 0) {
vmbus_chan_gpadl_disconnect(chan, chan->ch_bufring_gpadl);
chan->ch_bufring_gpadl = 0;
}
atomic_clear_int(&chan->ch_stflags, VMBUS_CHAN_ST_OPENED);
return error;
}
int
vmbus_chan_gpadl_connect(struct vmbus_channel *chan, bus_addr_t paddr,
int size, uint32_t *gpadl0)
{
struct vmbus_softc *sc = chan->ch_vmbus;
struct vmbus_msghc *mh;
struct vmbus_chanmsg_gpadl_conn *req;
const struct vmbus_message *msg;
size_t reqsz;
uint32_t gpadl, status;
int page_count, range_len, i, cnt, error;
uint64_t page_id;
/*
* Preliminary checks.
*/
KASSERT((size & PAGE_MASK) == 0,
("invalid GPA size %d, not multiple page size", size));
page_count = size >> PAGE_SHIFT;
KASSERT((paddr & PAGE_MASK) == 0,
("GPA is not page aligned %jx", (uintmax_t)paddr));
page_id = paddr >> PAGE_SHIFT;
range_len = __offsetof(struct vmbus_gpa_range, gpa_page[page_count]);
/*
* We don't support multiple GPA ranges.
*/
if (range_len > UINT16_MAX) {
vmbus_chan_printf(chan, "GPA too large, %d pages\n",
page_count);
return EOPNOTSUPP;
}
/*
* Allocate GPADL id.
*/
gpadl = vmbus_gpadl_alloc(sc);
/*
* Connect this GPADL to the target channel.
*
* NOTE:
* Since each message can only hold small set of page
* addresses, several messages may be required to
* complete the connection.
*/
if (page_count > VMBUS_CHANMSG_GPADL_CONN_PGMAX)
cnt = VMBUS_CHANMSG_GPADL_CONN_PGMAX;
else
cnt = page_count;
page_count -= cnt;
reqsz = __offsetof(struct vmbus_chanmsg_gpadl_conn,
chm_range.gpa_page[cnt]);
mh = vmbus_msghc_get(sc, reqsz);
if (mh == NULL) {
vmbus_chan_printf(chan,
"can not get msg hypercall for gpadl_conn(chan%u)\n",
chan->ch_id);
return EIO;
}
req = vmbus_msghc_dataptr(mh);
req->chm_hdr.chm_type = VMBUS_CHANMSG_TYPE_GPADL_CONN;
req->chm_chanid = chan->ch_id;
req->chm_gpadl = gpadl;
req->chm_range_len = range_len;
req->chm_range_cnt = 1;
req->chm_range.gpa_len = size;
req->chm_range.gpa_ofs = 0;
for (i = 0; i < cnt; ++i)
req->chm_range.gpa_page[i] = page_id++;
error = vmbus_msghc_exec(sc, mh);
if (error) {
vmbus_chan_printf(chan,
"gpadl_conn(chan%u) msg hypercall exec failed: %d\n",
chan->ch_id, error);
vmbus_msghc_put(sc, mh);
return error;
}
while (page_count > 0) {
struct vmbus_chanmsg_gpadl_subconn *subreq;
if (page_count > VMBUS_CHANMSG_GPADL_SUBCONN_PGMAX)
cnt = VMBUS_CHANMSG_GPADL_SUBCONN_PGMAX;
else
cnt = page_count;
page_count -= cnt;
reqsz = __offsetof(struct vmbus_chanmsg_gpadl_subconn,
chm_gpa_page[cnt]);
vmbus_msghc_reset(mh, reqsz);
subreq = vmbus_msghc_dataptr(mh);
subreq->chm_hdr.chm_type = VMBUS_CHANMSG_TYPE_GPADL_SUBCONN;
subreq->chm_gpadl = gpadl;
for (i = 0; i < cnt; ++i)
subreq->chm_gpa_page[i] = page_id++;
vmbus_msghc_exec_noresult(mh);
}
KASSERT(page_count == 0, ("invalid page count %d", page_count));
msg = vmbus_msghc_wait_result(sc, mh);
status = ((const struct vmbus_chanmsg_gpadl_connresp *)
msg->msg_data)->chm_status;
vmbus_msghc_put(sc, mh);
if (status != 0) {
vmbus_chan_printf(chan, "gpadl_conn(chan%u) failed: %u\n",
chan->ch_id, status);
return EIO;
}
/* Done; commit the GPADL id. */
*gpadl0 = gpadl;
if (bootverbose) {
vmbus_chan_printf(chan, "gpadl_conn(chan%u) succeeded\n",
chan->ch_id);
}
return 0;
}
/*
* Disconnect the GPA from the target channel
*/
int
vmbus_chan_gpadl_disconnect(struct vmbus_channel *chan, uint32_t gpadl)
{
struct vmbus_softc *sc = chan->ch_vmbus;
struct vmbus_msghc *mh;
struct vmbus_chanmsg_gpadl_disconn *req;
int error;
mh = vmbus_msghc_get(sc, sizeof(*req));
if (mh == NULL) {
vmbus_chan_printf(chan,
"can not get msg hypercall for gpadl_disconn(chan%u)\n",
chan->ch_id);
return EBUSY;
}
req = vmbus_msghc_dataptr(mh);
req->chm_hdr.chm_type = VMBUS_CHANMSG_TYPE_GPADL_DISCONN;
req->chm_chanid = chan->ch_id;
req->chm_gpadl = gpadl;
error = vmbus_msghc_exec(sc, mh);
if (error) {
vmbus_chan_printf(chan,
"gpadl_disconn(chan%u) msg hypercall exec failed: %d\n",
chan->ch_id, error);
vmbus_msghc_put(sc, mh);
return error;
}
vmbus_msghc_wait_result(sc, mh);
/* Discard result; no useful information */
vmbus_msghc_put(sc, mh);
return 0;
}
static void
vmbus_chan_detach(struct vmbus_channel *chan)
{
int refs;
KASSERT(chan->ch_refs > 0, ("chan%u: invalid refcnt %d",
chan->ch_id, chan->ch_refs));
refs = atomic_fetchadd_int(&chan->ch_refs, -1);
#ifdef INVARIANTS
if (VMBUS_CHAN_ISPRIMARY(chan)) {
KASSERT(refs == 1, ("chan%u: invalid refcnt %d for prichan",
chan->ch_id, refs + 1));
}
#endif
if (refs == 1) {
/*
* Detach the target channel.
*/
if (bootverbose) {
vmbus_chan_printf(chan, "chan%u detached\n",
chan->ch_id);
}
taskqueue_enqueue(chan->ch_mgmt_tq, &chan->ch_detach_task);
}
}
static void
vmbus_chan_clrchmap_task(void *xchan, int pending __unused)
{
struct vmbus_channel *chan = xchan;
critical_enter();
chan->ch_vmbus->vmbus_chmap[chan->ch_id] = NULL;
critical_exit();
}
static void
vmbus_chan_clear_chmap(struct vmbus_channel *chan)
{
struct task chmap_task;
TASK_INIT(&chmap_task, 0, vmbus_chan_clrchmap_task, chan);
taskqueue_enqueue(chan->ch_tq, &chmap_task);
taskqueue_drain(chan->ch_tq, &chmap_task);
}
static void
vmbus_chan_set_chmap(struct vmbus_channel *chan)
{
__compiler_membar();
chan->ch_vmbus->vmbus_chmap[chan->ch_id] = chan;
}
static void
vmbus_chan_close_internal(struct vmbus_channel *chan)
{
struct vmbus_softc *sc = chan->ch_vmbus;
struct vmbus_msghc *mh;
struct vmbus_chanmsg_chclose *req;
int error;
/* TODO: stringent check */
atomic_clear_int(&chan->ch_stflags, VMBUS_CHAN_ST_OPENED);
/*
* Free this channel's sysctl tree attached to its device's
* sysctl tree.
*/
sysctl_ctx_free(&chan->ch_sysctl_ctx);
/*
* NOTE:
* Order is critical. This channel _must_ be uninstalled first,
* else the channel task may be enqueued by the IDT after it has
* been drained.
*/
vmbus_chan_clear_chmap(chan);
taskqueue_drain(chan->ch_tq, &chan->ch_task);
chan->ch_tq = NULL;
/*
* Close this channel.
*/
mh = vmbus_msghc_get(sc, sizeof(*req));
if (mh == NULL) {
vmbus_chan_printf(chan,
"can not get msg hypercall for chclose(chan%u)\n",
chan->ch_id);
return;
}
req = vmbus_msghc_dataptr(mh);
req->chm_hdr.chm_type = VMBUS_CHANMSG_TYPE_CHCLOSE;
req->chm_chanid = chan->ch_id;
error = vmbus_msghc_exec_noresult(mh);
vmbus_msghc_put(sc, mh);
if (error) {
vmbus_chan_printf(chan,
"chclose(chan%u) msg hypercall exec failed: %d\n",
chan->ch_id, error);
return;
} else if (bootverbose) {
vmbus_chan_printf(chan, "close chan%u\n", chan->ch_id);
}
/*
* Disconnect the TX+RX bufrings from this channel.
*/
if (chan->ch_bufring_gpadl) {
vmbus_chan_gpadl_disconnect(chan, chan->ch_bufring_gpadl);
chan->ch_bufring_gpadl = 0;
}
/*
* Destroy the TX+RX bufrings.
*/
if (chan->ch_bufring != NULL) {
hyperv_dmamem_free(&chan->ch_bufring_dma, chan->ch_bufring);
chan->ch_bufring = NULL;
}
}
/*
* Caller should make sure that all sub-channels have
* been added to 'chan' and all to-be-closed channels
* are not being opened.
*/
void
vmbus_chan_close(struct vmbus_channel *chan)
{
int subchan_cnt;
if (!VMBUS_CHAN_ISPRIMARY(chan)) {
/*
* Sub-channel is closed when its primary channel
* is closed; done.
*/
return;
}
/*
* Close all sub-channels, if any.
*/
subchan_cnt = chan->ch_subchan_cnt;
if (subchan_cnt > 0) {
struct vmbus_channel **subchan;
int i;
subchan = vmbus_subchan_get(chan, subchan_cnt);
for (i = 0; i < subchan_cnt; ++i) {
vmbus_chan_close_internal(subchan[i]);
/*
* This sub-channel is referenced, when it is
* linked to the primary channel; drop that
* reference now.
*/
vmbus_chan_detach(subchan[i]);
}
vmbus_subchan_rel(subchan, subchan_cnt);
}
/* Then close the primary channel. */
vmbus_chan_close_internal(chan);
}
void
vmbus_chan_intr_drain(struct vmbus_channel *chan)
{
taskqueue_drain(chan->ch_tq, &chan->ch_task);
}
int
vmbus_chan_send(struct vmbus_channel *chan, uint16_t type, uint16_t flags,
void *data, int dlen, uint64_t xactid)
{
struct vmbus_chanpkt pkt;
int pktlen, pad_pktlen, hlen, error;
uint64_t pad = 0;
struct iovec iov[3];
boolean_t send_evt;
hlen = sizeof(pkt);
pktlen = hlen + dlen;
pad_pktlen = VMBUS_CHANPKT_TOTLEN(pktlen);
KASSERT(pad_pktlen <= vmbus_txbr_maxpktsz(&chan->ch_txbr),
("invalid packet size %d", pad_pktlen));
pkt.cp_hdr.cph_type = type;
pkt.cp_hdr.cph_flags = flags;
VMBUS_CHANPKT_SETLEN(pkt.cp_hdr.cph_hlen, hlen);
VMBUS_CHANPKT_SETLEN(pkt.cp_hdr.cph_tlen, pad_pktlen);
pkt.cp_hdr.cph_xactid = xactid;
iov[0].iov_base = &pkt;
iov[0].iov_len = hlen;
iov[1].iov_base = data;
iov[1].iov_len = dlen;
iov[2].iov_base = &pad;
iov[2].iov_len = pad_pktlen - pktlen;
error = vmbus_txbr_write(&chan->ch_txbr, iov, 3, &send_evt);
if (!error && send_evt)
vmbus_chan_signal_tx(chan);
return error;
}
int
vmbus_chan_send_sglist(struct vmbus_channel *chan,
struct vmbus_gpa sg[], int sglen, void *data, int dlen, uint64_t xactid)
{
struct vmbus_chanpkt_sglist pkt;
int pktlen, pad_pktlen, hlen, error;
struct iovec iov[4];
boolean_t send_evt;
uint64_t pad = 0;
hlen = __offsetof(struct vmbus_chanpkt_sglist, cp_gpa[sglen]);
pktlen = hlen + dlen;
pad_pktlen = VMBUS_CHANPKT_TOTLEN(pktlen);
KASSERT(pad_pktlen <= vmbus_txbr_maxpktsz(&chan->ch_txbr),
("invalid packet size %d", pad_pktlen));
pkt.cp_hdr.cph_type = VMBUS_CHANPKT_TYPE_GPA;
pkt.cp_hdr.cph_flags = VMBUS_CHANPKT_FLAG_RC;
VMBUS_CHANPKT_SETLEN(pkt.cp_hdr.cph_hlen, hlen);
VMBUS_CHANPKT_SETLEN(pkt.cp_hdr.cph_tlen, pad_pktlen);
pkt.cp_hdr.cph_xactid = xactid;
pkt.cp_rsvd = 0;
pkt.cp_gpa_cnt = sglen;
iov[0].iov_base = &pkt;
iov[0].iov_len = sizeof(pkt);
iov[1].iov_base = sg;
iov[1].iov_len = sizeof(struct vmbus_gpa) * sglen;
iov[2].iov_base = data;
iov[2].iov_len = dlen;
iov[3].iov_base = &pad;
iov[3].iov_len = pad_pktlen - pktlen;
error = vmbus_txbr_write(&chan->ch_txbr, iov, 4, &send_evt);
if (!error && send_evt)
vmbus_chan_signal_tx(chan);
return error;
}
int
vmbus_chan_send_prplist(struct vmbus_channel *chan,
struct vmbus_gpa_range *prp, int prp_cnt, void *data, int dlen,
uint64_t xactid)
{
struct vmbus_chanpkt_prplist pkt;
int pktlen, pad_pktlen, hlen, error;
struct iovec iov[4];
boolean_t send_evt;
uint64_t pad = 0;
hlen = __offsetof(struct vmbus_chanpkt_prplist,
cp_range[0].gpa_page[prp_cnt]);
pktlen = hlen + dlen;
pad_pktlen = VMBUS_CHANPKT_TOTLEN(pktlen);
KASSERT(pad_pktlen <= vmbus_txbr_maxpktsz(&chan->ch_txbr),
("invalid packet size %d", pad_pktlen));
pkt.cp_hdr.cph_type = VMBUS_CHANPKT_TYPE_GPA;
pkt.cp_hdr.cph_flags = VMBUS_CHANPKT_FLAG_RC;
VMBUS_CHANPKT_SETLEN(pkt.cp_hdr.cph_hlen, hlen);
VMBUS_CHANPKT_SETLEN(pkt.cp_hdr.cph_tlen, pad_pktlen);
pkt.cp_hdr.cph_xactid = xactid;
pkt.cp_rsvd = 0;
pkt.cp_range_cnt = 1;
iov[0].iov_base = &pkt;
iov[0].iov_len = sizeof(pkt);
iov[1].iov_base = prp;
iov[1].iov_len = __offsetof(struct vmbus_gpa_range, gpa_page[prp_cnt]);
iov[2].iov_base = data;
iov[2].iov_len = dlen;
iov[3].iov_base = &pad;
iov[3].iov_len = pad_pktlen - pktlen;
error = vmbus_txbr_write(&chan->ch_txbr, iov, 4, &send_evt);
if (!error && send_evt)
vmbus_chan_signal_tx(chan);
return error;
}
int
vmbus_chan_recv(struct vmbus_channel *chan, void *data, int *dlen0,
uint64_t *xactid)
{
struct vmbus_chanpkt_hdr pkt;
int error, dlen, hlen;
error = vmbus_rxbr_peek(&chan->ch_rxbr, &pkt, sizeof(pkt));
if (error)
return (error);
if (__predict_false(pkt.cph_hlen < VMBUS_CHANPKT_HLEN_MIN)) {
vmbus_chan_printf(chan, "invalid hlen %u\n", pkt.cph_hlen);
/* XXX this channel is dead actually. */
return (EIO);
}
if (__predict_false(pkt.cph_hlen > pkt.cph_tlen)) {
vmbus_chan_printf(chan, "invalid hlen %u and tlen %u\n",
pkt.cph_hlen, pkt.cph_tlen);
/* XXX this channel is dead actually. */
return (EIO);
}
hlen = VMBUS_CHANPKT_GETLEN(pkt.cph_hlen);
dlen = VMBUS_CHANPKT_GETLEN(pkt.cph_tlen) - hlen;
if (*dlen0 < dlen) {
/* Return the size of this packet's data. */
*dlen0 = dlen;
return (ENOBUFS);
}
*xactid = pkt.cph_xactid;
*dlen0 = dlen;
/* Skip packet header */
error = vmbus_rxbr_read(&chan->ch_rxbr, data, dlen, hlen);
KASSERT(!error, ("vmbus_rxbr_read failed"));
return (0);
}
int
vmbus_chan_recv_pkt(struct vmbus_channel *chan,
struct vmbus_chanpkt_hdr *pkt, int *pktlen0)
{
int error, pktlen, pkt_hlen;
pkt_hlen = sizeof(*pkt);
error = vmbus_rxbr_peek(&chan->ch_rxbr, pkt, pkt_hlen);
if (error)
return (error);
if (__predict_false(pkt->cph_hlen < VMBUS_CHANPKT_HLEN_MIN)) {
vmbus_chan_printf(chan, "invalid hlen %u\n", pkt->cph_hlen);
/* XXX this channel is dead actually. */
return (EIO);
}
if (__predict_false(pkt->cph_hlen > pkt->cph_tlen)) {
vmbus_chan_printf(chan, "invalid hlen %u and tlen %u\n",
pkt->cph_hlen, pkt->cph_tlen);
/* XXX this channel is dead actually. */
return (EIO);
}
pktlen = VMBUS_CHANPKT_GETLEN(pkt->cph_tlen);
if (*pktlen0 < pktlen) {
/* Return the size of this packet. */
*pktlen0 = pktlen;
return (ENOBUFS);
}
*pktlen0 = pktlen;
/*
* Skip the fixed-size packet header, which has been filled
* by the above vmbus_rxbr_peek().
*/
error = vmbus_rxbr_read(&chan->ch_rxbr, pkt + 1,
pktlen - pkt_hlen, pkt_hlen);
KASSERT(!error, ("vmbus_rxbr_read failed"));
return (0);
}
static void
vmbus_chan_task(void *xchan, int pending __unused)
{
struct vmbus_channel *chan = xchan;
vmbus_chan_callback_t cb = chan->ch_cb;
void *cbarg = chan->ch_cbarg;
/*
* Optimize host to guest signaling by ensuring:
* 1. While reading the channel, we disable interrupts from
* host.
* 2. Ensure that we process all posted messages from the host
* before returning from this callback.
* 3. Once we return, enable signaling from the host. Once this
* state is set we check to see if additional packets are
* available to read. In this case we repeat the process.
*
* NOTE: Interrupt has been disabled in the ISR.
*/
for (;;) {
uint32_t left;
cb(chan, cbarg);
left = vmbus_rxbr_intr_unmask(&chan->ch_rxbr);
if (left == 0) {
/* No more data in RX bufring; done */
break;
}
vmbus_rxbr_intr_mask(&chan->ch_rxbr);
}
}
static void
vmbus_chan_task_nobatch(void *xchan, int pending __unused)
{
struct vmbus_channel *chan = xchan;
chan->ch_cb(chan, chan->ch_cbarg);
}
static __inline void
vmbus_event_flags_proc(struct vmbus_softc *sc, volatile u_long *event_flags,
int flag_cnt)
{
int f;
for (f = 0; f < flag_cnt; ++f) {
uint32_t chid_base;
u_long flags;
int chid_ofs;
if (event_flags[f] == 0)
continue;
flags = atomic_swap_long(&event_flags[f], 0);
chid_base = f << VMBUS_EVTFLAG_SHIFT;
while ((chid_ofs = ffsl(flags)) != 0) {
struct vmbus_channel *chan;
--chid_ofs; /* NOTE: ffsl is 1-based */
flags &= ~(1UL << chid_ofs);
chan = sc->vmbus_chmap[chid_base + chid_ofs];
if (__predict_false(chan == NULL)) {
/* Channel is closed. */
continue;
}
__compiler_membar();
if (chan->ch_flags & VMBUS_CHAN_FLAG_BATCHREAD)
vmbus_rxbr_intr_mask(&chan->ch_rxbr);
taskqueue_enqueue(chan->ch_tq, &chan->ch_task);
}
}
}
void
vmbus_event_proc(struct vmbus_softc *sc, int cpu)
{
struct vmbus_evtflags *eventf;
/*
* On Host with Win8 or above, the event page can be checked directly
* to get the id of the channel that has the pending interrupt.
*/
eventf = VMBUS_PCPU_GET(sc, event_flags, cpu) + VMBUS_SINT_MESSAGE;
vmbus_event_flags_proc(sc, eventf->evt_flags,
VMBUS_PCPU_GET(sc, event_flags_cnt, cpu));
}
void
vmbus_event_proc_compat(struct vmbus_softc *sc, int cpu)
{
struct vmbus_evtflags *eventf;
eventf = VMBUS_PCPU_GET(sc, event_flags, cpu) + VMBUS_SINT_MESSAGE;
if (atomic_testandclear_long(&eventf->evt_flags[0], 0)) {
vmbus_event_flags_proc(sc, sc->vmbus_rx_evtflags,
VMBUS_CHAN_MAX_COMPAT >> VMBUS_EVTFLAG_SHIFT);
}
}
static void
vmbus_chan_update_evtflagcnt(struct vmbus_softc *sc,
const struct vmbus_channel *chan)
{
volatile int *flag_cnt_ptr;
int flag_cnt;
flag_cnt = (chan->ch_id / VMBUS_EVTFLAG_LEN) + 1;
flag_cnt_ptr = VMBUS_PCPU_PTR(sc, event_flags_cnt, chan->ch_cpuid);
for (;;) {
int old_flag_cnt;
old_flag_cnt = *flag_cnt_ptr;
if (old_flag_cnt >= flag_cnt)
break;
if (atomic_cmpset_int(flag_cnt_ptr, old_flag_cnt, flag_cnt)) {
if (bootverbose) {
vmbus_chan_printf(chan,
"chan%u update cpu%d flag_cnt to %d\n",
chan->ch_id, chan->ch_cpuid, flag_cnt);
}
break;
}
}
}
static struct vmbus_channel *
vmbus_chan_alloc(struct vmbus_softc *sc)
{
struct vmbus_channel *chan;
chan = malloc(sizeof(*chan), M_DEVBUF, M_WAITOK | M_ZERO);
chan->ch_monprm = hyperv_dmamem_alloc(bus_get_dma_tag(sc->vmbus_dev),
HYPERCALL_PARAM_ALIGN, 0, sizeof(struct hyperv_mon_param),
&chan->ch_monprm_dma, BUS_DMA_WAITOK | BUS_DMA_ZERO);
if (chan->ch_monprm == NULL) {
device_printf(sc->vmbus_dev, "monprm alloc failed\n");
free(chan, M_DEVBUF);
return NULL;
}
chan->ch_refs = 1;
chan->ch_vmbus = sc;
mtx_init(&chan->ch_subchan_lock, "vmbus subchan", NULL, MTX_DEF);
sx_init(&chan->ch_orphan_lock, "vmbus chorphan");
TAILQ_INIT(&chan->ch_subchans);
vmbus_rxbr_init(&chan->ch_rxbr);
vmbus_txbr_init(&chan->ch_txbr);
return chan;
}
static void
vmbus_chan_free(struct vmbus_channel *chan)
{
KASSERT(TAILQ_EMPTY(&chan->ch_subchans) && chan->ch_subchan_cnt == 0,
("still owns sub-channels"));
KASSERT((chan->ch_stflags &
(VMBUS_CHAN_ST_OPENED |
VMBUS_CHAN_ST_ONPRIL |
VMBUS_CHAN_ST_ONSUBL |
VMBUS_CHAN_ST_ONLIST)) == 0, ("free busy channel"));
KASSERT(chan->ch_orphan_xact == NULL,
("still has orphan xact installed"));
KASSERT(chan->ch_refs == 0, ("chan%u: invalid refcnt %d",
chan->ch_id, chan->ch_refs));
hyperv_dmamem_free(&chan->ch_monprm_dma, chan->ch_monprm);
mtx_destroy(&chan->ch_subchan_lock);
sx_destroy(&chan->ch_orphan_lock);
vmbus_rxbr_deinit(&chan->ch_rxbr);
vmbus_txbr_deinit(&chan->ch_txbr);
free(chan, M_DEVBUF);
}
static int
vmbus_chan_add(struct vmbus_channel *newchan)
{
struct vmbus_softc *sc = newchan->ch_vmbus;
struct vmbus_channel *prichan;
if (newchan->ch_id == 0) {
/*
* XXX
* Chan0 will neither be processed nor should be offered;
* skip it.
*/
device_printf(sc->vmbus_dev, "got chan0 offer, discard\n");
return EINVAL;
} else if (newchan->ch_id >= VMBUS_CHAN_MAX) {
device_printf(sc->vmbus_dev, "invalid chan%u offer\n",
newchan->ch_id);
return EINVAL;
}
mtx_lock(&sc->vmbus_prichan_lock);
TAILQ_FOREACH(prichan, &sc->vmbus_prichans, ch_prilink) {
/*
* Sub-channel will have the same type GUID and instance
* GUID as its primary channel.
*/
if (memcmp(&prichan->ch_guid_type, &newchan->ch_guid_type,
sizeof(struct hyperv_guid)) == 0 &&
memcmp(&prichan->ch_guid_inst, &newchan->ch_guid_inst,
sizeof(struct hyperv_guid)) == 0)
break;
}
if (VMBUS_CHAN_ISPRIMARY(newchan)) {
if (prichan == NULL) {
/* Install the new primary channel */
vmbus_chan_ins_prilist(sc, newchan);
mtx_unlock(&sc->vmbus_prichan_lock);
goto done;
} else {
mtx_unlock(&sc->vmbus_prichan_lock);
device_printf(sc->vmbus_dev,
"duplicated primary chan%u\n", newchan->ch_id);
return EINVAL;
}
} else { /* Sub-channel */
if (prichan == NULL) {
mtx_unlock(&sc->vmbus_prichan_lock);
device_printf(sc->vmbus_dev,
"no primary chan for chan%u\n", newchan->ch_id);
return EINVAL;
}
/*
* Found the primary channel for this sub-channel and
* move on.
*
* XXX refcnt prichan
*/
}
mtx_unlock(&sc->vmbus_prichan_lock);
/*
* This is a sub-channel; link it with the primary channel.
*/
KASSERT(!VMBUS_CHAN_ISPRIMARY(newchan),
("new channel is not sub-channel"));
KASSERT(prichan != NULL, ("no primary channel"));
/*
* Reference count this sub-channel; it will be dereferenced
* when this sub-channel is closed.
*/
KASSERT(newchan->ch_refs == 1, ("chan%u: invalid refcnt %d",
newchan->ch_id, newchan->ch_refs));
atomic_add_int(&newchan->ch_refs, 1);
newchan->ch_prichan = prichan;
newchan->ch_dev = prichan->ch_dev;
mtx_lock(&prichan->ch_subchan_lock);
vmbus_chan_ins_sublist(prichan, newchan);
mtx_unlock(&prichan->ch_subchan_lock);
/*
* Notify anyone that is interested in this sub-channel,
* after this sub-channel is setup.
*/
wakeup(prichan);
done:
/*
* Hook this channel up for later revocation.
*/
mtx_lock(&sc->vmbus_chan_lock);
vmbus_chan_ins_list(sc, newchan);
mtx_unlock(&sc->vmbus_chan_lock);
if (bootverbose) {
vmbus_chan_printf(newchan, "chan%u subidx%u offer\n",
newchan->ch_id, newchan->ch_subidx);
}
/* Select default cpu for this channel. */
vmbus_chan_cpu_default(newchan);
return 0;
}
void
vmbus_chan_cpu_set(struct vmbus_channel *chan, int cpu)
{
KASSERT(cpu >= 0 && cpu < mp_ncpus, ("invalid cpu %d", cpu));
if (chan->ch_vmbus->vmbus_version == VMBUS_VERSION_WS2008 ||
chan->ch_vmbus->vmbus_version == VMBUS_VERSION_WIN7) {
/* Only cpu0 is supported */
cpu = 0;
}
chan->ch_cpuid = cpu;
chan->ch_vcpuid = VMBUS_PCPU_GET(chan->ch_vmbus, vcpuid, cpu);
if (bootverbose) {
vmbus_chan_printf(chan,
"chan%u assigned to cpu%u [vcpu%u]\n",
chan->ch_id, chan->ch_cpuid, chan->ch_vcpuid);
}
}
void
vmbus_chan_cpu_rr(struct vmbus_channel *chan)
{
static uint32_t vmbus_chan_nextcpu;
int cpu;
cpu = atomic_fetchadd_int(&vmbus_chan_nextcpu, 1) % mp_ncpus;
vmbus_chan_cpu_set(chan, cpu);
}
static void
vmbus_chan_cpu_default(struct vmbus_channel *chan)
{
/*
* By default, pin the channel to cpu0. Devices having
* special channel-cpu mapping requirement should call
* vmbus_chan_cpu_{set,rr}().
*/
vmbus_chan_cpu_set(chan, 0);
}
static void
vmbus_chan_msgproc_choffer(struct vmbus_softc *sc,
const struct vmbus_message *msg)
{
const struct vmbus_chanmsg_choffer *offer;
struct vmbus_channel *chan;
task_fn_t *detach_fn, *attach_fn;
int error;
offer = (const struct vmbus_chanmsg_choffer *)msg->msg_data;
chan = vmbus_chan_alloc(sc);
if (chan == NULL) {
device_printf(sc->vmbus_dev, "allocate chan%u failed\n",
offer->chm_chanid);
return;
}
chan->ch_id = offer->chm_chanid;
chan->ch_subidx = offer->chm_subidx;
chan->ch_guid_type = offer->chm_chtype;
chan->ch_guid_inst = offer->chm_chinst;
/* Batch reading is on by default */
chan->ch_flags |= VMBUS_CHAN_FLAG_BATCHREAD;
chan->ch_monprm->mp_connid = VMBUS_CONNID_EVENT;
if (sc->vmbus_version != VMBUS_VERSION_WS2008)
chan->ch_monprm->mp_connid = offer->chm_connid;
if (offer->chm_flags1 & VMBUS_CHOFFER_FLAG1_HASMNF) {
int trig_idx;
/*
* Setup MNF stuffs.
*/
chan->ch_txflags |= VMBUS_CHAN_TXF_HASMNF;
trig_idx = offer->chm_montrig / VMBUS_MONTRIG_LEN;
if (trig_idx >= VMBUS_MONTRIGS_MAX)
panic("invalid monitor trigger %u", offer->chm_montrig);
chan->ch_montrig =
&sc->vmbus_mnf2->mnf_trigs[trig_idx].mt_pending;
chan->ch_montrig_mask =
1 << (offer->chm_montrig % VMBUS_MONTRIG_LEN);
}
/*
* Setup event flag.
*/
chan->ch_evtflag =
&sc->vmbus_tx_evtflags[chan->ch_id >> VMBUS_EVTFLAG_SHIFT];
chan->ch_evtflag_mask = 1UL << (chan->ch_id & VMBUS_EVTFLAG_MASK);
/*
* Setup attach and detach tasks.
*/
if (VMBUS_CHAN_ISPRIMARY(chan)) {
chan->ch_mgmt_tq = sc->vmbus_devtq;
attach_fn = vmbus_prichan_attach_task;
detach_fn = vmbus_prichan_detach_task;
} else {
chan->ch_mgmt_tq = sc->vmbus_subchtq;
attach_fn = vmbus_subchan_attach_task;
detach_fn = vmbus_subchan_detach_task;
}
TASK_INIT(&chan->ch_attach_task, 0, attach_fn, chan);
TASK_INIT(&chan->ch_detach_task, 0, detach_fn, chan);
error = vmbus_chan_add(chan);
if (error) {
device_printf(sc->vmbus_dev, "add chan%u failed: %d\n",
chan->ch_id, error);
atomic_subtract_int(&chan->ch_refs, 1);
vmbus_chan_free(chan);
return;
}
taskqueue_enqueue(chan->ch_mgmt_tq, &chan->ch_attach_task);
}
static void
vmbus_chan_msgproc_chrescind(struct vmbus_softc *sc,
const struct vmbus_message *msg)
{
const struct vmbus_chanmsg_chrescind *note;
struct vmbus_channel *chan;
note = (const struct vmbus_chanmsg_chrescind *)msg->msg_data;
if (note->chm_chanid > VMBUS_CHAN_MAX) {
device_printf(sc->vmbus_dev, "invalid revoked chan%u\n",
note->chm_chanid);
return;
}
/*
* Find and remove the target channel from the channel list.
*/
mtx_lock(&sc->vmbus_chan_lock);
TAILQ_FOREACH(chan, &sc->vmbus_chans, ch_link) {
if (chan->ch_id == note->chm_chanid)
break;
}
if (chan == NULL) {
mtx_unlock(&sc->vmbus_chan_lock);
device_printf(sc->vmbus_dev, "chan%u is not offered\n",
note->chm_chanid);
return;
}
vmbus_chan_rem_list(sc, chan);
mtx_unlock(&sc->vmbus_chan_lock);
if (VMBUS_CHAN_ISPRIMARY(chan)) {
/*
* The target channel is a primary channel; remove the
* target channel from the primary channel list now,
* instead of later, so that it will not be found by
* other sub-channel offers, which are processed in
* this thread.
*/
mtx_lock(&sc->vmbus_prichan_lock);
vmbus_chan_rem_prilist(sc, chan);
mtx_unlock(&sc->vmbus_prichan_lock);
}
/*
* NOTE:
* The following processing order is critical:
* Set the REVOKED state flag before orphaning the installed xact.
*/
if (atomic_testandset_int(&chan->ch_stflags,
VMBUS_CHAN_ST_REVOKED_SHIFT))
panic("channel has already been revoked");
sx_xlock(&chan->ch_orphan_lock);
if (chan->ch_orphan_xact != NULL)
vmbus_xact_ctx_orphan(chan->ch_orphan_xact);
sx_xunlock(&chan->ch_orphan_lock);
if (bootverbose)
vmbus_chan_printf(chan, "chan%u revoked\n", note->chm_chanid);
vmbus_chan_detach(chan);
}
static int
vmbus_chan_release(struct vmbus_channel *chan)
{
struct vmbus_softc *sc = chan->ch_vmbus;
struct vmbus_chanmsg_chfree *req;
struct vmbus_msghc *mh;
int error;
mh = vmbus_msghc_get(sc, sizeof(*req));
if (mh == NULL) {
vmbus_chan_printf(chan,
"can not get msg hypercall for chfree(chan%u)\n",
chan->ch_id);
return (ENXIO);
}
req = vmbus_msghc_dataptr(mh);
req->chm_hdr.chm_type = VMBUS_CHANMSG_TYPE_CHFREE;
req->chm_chanid = chan->ch_id;
error = vmbus_msghc_exec_noresult(mh);
vmbus_msghc_put(sc, mh);
if (error) {
vmbus_chan_printf(chan,
"chfree(chan%u) msg hypercall exec failed: %d\n",
chan->ch_id, error);
} else {
if (bootverbose)
vmbus_chan_printf(chan, "chan%u freed\n", chan->ch_id);
}
return (error);
}
static void
vmbus_prichan_detach_task(void *xchan, int pending __unused)
{
struct vmbus_channel *chan = xchan;
KASSERT(VMBUS_CHAN_ISPRIMARY(chan),
("chan%u is not primary channel", chan->ch_id));
/* Delete and detach the device associated with this channel. */
vmbus_delete_child(chan);
/* Release this channel (back to vmbus). */
vmbus_chan_release(chan);
/* Free this channel's resource. */
vmbus_chan_free(chan);
}
static void
vmbus_subchan_detach_task(void *xchan, int pending __unused)
{
struct vmbus_channel *chan = xchan;
struct vmbus_channel *pri_chan = chan->ch_prichan;
KASSERT(!VMBUS_CHAN_ISPRIMARY(chan),
("chan%u is primary channel", chan->ch_id));
/* Release this channel (back to vmbus). */
vmbus_chan_release(chan);
/* Unlink from its primary channel's sub-channel list. */
mtx_lock(&pri_chan->ch_subchan_lock);
vmbus_chan_rem_sublist(pri_chan, chan);
mtx_unlock(&pri_chan->ch_subchan_lock);
/* Notify anyone that is waiting for this sub-channel to vanish. */
wakeup(pri_chan);
/* Free this channel's resource. */
vmbus_chan_free(chan);
}
static void
vmbus_prichan_attach_task(void *xchan, int pending __unused)
{
/*
* Add device for this primary channel.
*/
vmbus_add_child(xchan);
}
static void
vmbus_subchan_attach_task(void *xchan __unused, int pending __unused)
{
/* Nothing */
}
void
vmbus_chan_destroy_all(struct vmbus_softc *sc)
{
/*
* Detach all devices and destroy the corresponding primary
* channels.
*/
for (;;) {
struct vmbus_channel *chan;
mtx_lock(&sc->vmbus_chan_lock);
TAILQ_FOREACH(chan, &sc->vmbus_chans, ch_link) {
if (VMBUS_CHAN_ISPRIMARY(chan))
break;
}
if (chan == NULL) {
/* No more primary channels; done. */
mtx_unlock(&sc->vmbus_chan_lock);
break;
}
vmbus_chan_rem_list(sc, chan);
mtx_unlock(&sc->vmbus_chan_lock);
mtx_lock(&sc->vmbus_prichan_lock);
vmbus_chan_rem_prilist(sc, chan);
mtx_unlock(&sc->vmbus_prichan_lock);
taskqueue_enqueue(chan->ch_mgmt_tq, &chan->ch_detach_task);
}
}
struct vmbus_channel **
vmbus_subchan_get(struct vmbus_channel *pri_chan, int subchan_cnt)
{
struct vmbus_channel **ret, *chan;
int i;
KASSERT(subchan_cnt > 0, ("invalid sub-channel count %d", subchan_cnt));
ret = malloc(subchan_cnt * sizeof(struct vmbus_channel *), M_TEMP,
M_WAITOK);
mtx_lock(&pri_chan->ch_subchan_lock);
while (pri_chan->ch_subchan_cnt < subchan_cnt)
mtx_sleep(pri_chan, &pri_chan->ch_subchan_lock, 0, "subch", 0);
i = 0;
TAILQ_FOREACH(chan, &pri_chan->ch_subchans, ch_sublink) {
/* TODO: refcnt chan */
ret[i] = chan;
++i;
if (i == subchan_cnt)
break;
}
KASSERT(i == subchan_cnt, ("invalid subchan count %d, should be %d",
pri_chan->ch_subchan_cnt, subchan_cnt));
mtx_unlock(&pri_chan->ch_subchan_lock);
return ret;
}
void
vmbus_subchan_rel(struct vmbus_channel **subchan, int subchan_cnt __unused)
{
free(subchan, M_TEMP);
}
void
vmbus_subchan_drain(struct vmbus_channel *pri_chan)
{
mtx_lock(&pri_chan->ch_subchan_lock);
while (pri_chan->ch_subchan_cnt > 0)
mtx_sleep(pri_chan, &pri_chan->ch_subchan_lock, 0, "dsubch", 0);
mtx_unlock(&pri_chan->ch_subchan_lock);
}
void
vmbus_chan_msgproc(struct vmbus_softc *sc, const struct vmbus_message *msg)
{
vmbus_chanmsg_proc_t msg_proc;
uint32_t msg_type;
msg_type = ((const struct vmbus_chanmsg_hdr *)msg->msg_data)->chm_type;
KASSERT(msg_type < VMBUS_CHANMSG_TYPE_MAX,
("invalid message type %u", msg_type));
msg_proc = vmbus_chan_msgprocs[msg_type];
if (msg_proc != NULL)
msg_proc(sc, msg);
}
void
vmbus_chan_set_readbatch(struct vmbus_channel *chan, bool on)
{
if (!on)
chan->ch_flags &= ~VMBUS_CHAN_FLAG_BATCHREAD;
else
chan->ch_flags |= VMBUS_CHAN_FLAG_BATCHREAD;
}
uint32_t
vmbus_chan_id(const struct vmbus_channel *chan)
{
return chan->ch_id;
}
uint32_t
vmbus_chan_subidx(const struct vmbus_channel *chan)
{
return chan->ch_subidx;
}
bool
vmbus_chan_is_primary(const struct vmbus_channel *chan)
{
if (VMBUS_CHAN_ISPRIMARY(chan))
return true;
else
return false;
}
const struct hyperv_guid *
vmbus_chan_guid_inst(const struct vmbus_channel *chan)
{
return &chan->ch_guid_inst;
}
int
vmbus_chan_prplist_nelem(int br_size, int prpcnt_max, int dlen_max)
{
int elem_size;
elem_size = __offsetof(struct vmbus_chanpkt_prplist,
cp_range[0].gpa_page[prpcnt_max]);
elem_size += dlen_max;
elem_size = VMBUS_CHANPKT_TOTLEN(elem_size);
return (vmbus_br_nelem(br_size, elem_size));
}
bool
vmbus_chan_tx_empty(const struct vmbus_channel *chan)
{
return (vmbus_txbr_empty(&chan->ch_txbr));
}
bool
vmbus_chan_rx_empty(const struct vmbus_channel *chan)
{
return (vmbus_rxbr_empty(&chan->ch_rxbr));
}
static int
vmbus_chan_printf(const struct vmbus_channel *chan, const char *fmt, ...)
{
va_list ap;
device_t dev;
int retval;
if (chan->ch_dev == NULL || !device_is_alive(chan->ch_dev))
dev = chan->ch_vmbus->vmbus_dev;
else
dev = chan->ch_dev;
retval = device_print_prettyname(dev);
va_start(ap, fmt);
retval += vprintf(fmt, ap);
va_end(ap);
return (retval);
}
void
vmbus_chan_run_task(struct vmbus_channel *chan, struct task *task)
{
taskqueue_enqueue(chan->ch_tq, task);
taskqueue_drain(chan->ch_tq, task);
}
struct taskqueue *
vmbus_chan_mgmt_tq(const struct vmbus_channel *chan)
{
return (chan->ch_mgmt_tq);
}
bool
vmbus_chan_is_revoked(const struct vmbus_channel *chan)
{
if (chan->ch_stflags & VMBUS_CHAN_ST_REVOKED)
return (true);
return (false);
}
void
vmbus_chan_set_orphan(struct vmbus_channel *chan, struct vmbus_xact_ctx *xact)
{
sx_xlock(&chan->ch_orphan_lock);
chan->ch_orphan_xact = xact;
sx_xunlock(&chan->ch_orphan_lock);
}
void
vmbus_chan_unset_orphan(struct vmbus_channel *chan)
{
sx_xlock(&chan->ch_orphan_lock);
chan->ch_orphan_xact = NULL;
sx_xunlock(&chan->ch_orphan_lock);
}
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