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|
/* $OpenBSD: xenstore.c,v 1.46 2022/01/09 05:42:58 jsg Exp $ */
/*
* Copyright (c) 2015 Mike Belopuhov
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/atomic.h>
#include <sys/kernel.h>
#include <sys/malloc.h>
#include <sys/device.h>
#include <sys/mutex.h>
#include <sys/rwlock.h>
#include <sys/ioctl.h>
#include <sys/task.h>
#include <machine/bus.h>
#include <uvm/uvm_extern.h>
#include <dev/pv/pvvar.h>
#include <dev/pv/xenreg.h>
#include <dev/pv/xenvar.h>
/* #define XS_DEBUG */
#ifdef XS_DEBUG
#define DPRINTF(x...) printf(x)
#else
#define DPRINTF(x...)
#endif
/*
* The XenStore interface is a simple storage system that is a means of
* communicating state and configuration data between the Xen Domain 0
* and the various guest domains. All configuration data other than
* a small amount of essential information required during the early
* boot process of launching a Xen aware guest, is managed using the
* XenStore.
*
* The XenStore is ASCII string based, and has a structure and semantics
* similar to a filesystem. There are files and directories that are
* able to contain files or other directories. The depth of the hierarchy
* is only limited by the XenStore's maximum path length.
*
* The communication channel between the XenStore service and other
* domains is via two, guest specific, ring buffers in a shared memory
* area. One ring buffer is used for communicating in each direction.
* The grant table references for this shared memory are given to the
* guest via HVM hypercalls.
*
* The XenStore communication relies on an event channel and thus
* interrupts. Several Xen services depend on the XenStore, most
* notably the XenBus used to discover and manage Xen devices.
*/
const struct {
const char *xse_errstr;
int xse_errnum;
} xs_errors[] = {
{ "EINVAL", EINVAL },
{ "EACCES", EACCES },
{ "EEXIST", EEXIST },
{ "EISDIR", EISDIR },
{ "ENOENT", ENOENT },
{ "ENOMEM", ENOMEM },
{ "ENOSPC", ENOSPC },
{ "EIO", EIO },
{ "ENOTEMPTY", ENOTEMPTY },
{ "ENOSYS", ENOSYS },
{ "EROFS", EROFS },
{ "EBUSY", EBUSY },
{ "EAGAIN", EAGAIN },
{ "EISCONN", EISCONN },
{ NULL, -1 },
};
struct xs_msghdr {
/* Message type */
uint32_t xmh_type;
/* Request identifier, echoed in daemon's response. */
uint32_t xmh_rid;
/* Transaction id (0 if not related to a transaction). */
uint32_t xmh_tid;
/* Length of data following this. */
uint32_t xmh_len;
/* Generally followed by nul-terminated string(s). */
} __packed;
/*
* A minimum output buffer size needed to store an error string.
*/
#define XS_ERR_PAYLOAD 16
/*
* Although the Xen source code implies that the limit is 4k,
* in practice it turns out that we can only send 2k bytes of
* payload before receiving a ENOSPC. We set it to an even
* smaller value however, because there's no real need to use
* large buffers for anything.
*/
#define XS_MAX_PAYLOAD 1024
struct xs_msg {
struct xs_msghdr xsm_hdr;
uint32_t xsm_read;
uint32_t xsm_dlen;
uint8_t *xsm_data;
TAILQ_ENTRY(xs_msg) xsm_link;
};
TAILQ_HEAD(xs_msgq, xs_msg);
#define XS_RING_SIZE 1024
struct xs_ring {
uint8_t xsr_req[XS_RING_SIZE];
uint8_t xsr_rsp[XS_RING_SIZE];
uint32_t xsr_req_cons;
uint32_t xsr_req_prod;
uint32_t xsr_rsp_cons;
uint32_t xsr_rsp_prod;
} __packed;
#define XST_DELAY 1 /* in seconds */
#define XSW_TOKLEN (sizeof(void *) * 2 + 1)
struct xs_watch {
TAILQ_ENTRY(xs_watch) xsw_entry;
uint8_t xsw_token[XSW_TOKLEN];
struct task *xsw_task;
};
/*
* Container for all XenStore related state.
*/
struct xs_softc {
struct xen_softc *xs_sc;
evtchn_port_t xs_port;
xen_intr_handle_t xs_ih;
struct xs_ring *xs_ring;
struct xs_msg xs_msgs[10];
struct xs_msg *xs_rmsg;
struct xs_msgq xs_free;
struct xs_msgq xs_reqs;
struct xs_msgq xs_rsps;
volatile uint xs_rid;
const char *xs_wchan;
const char *xs_rchan;
struct mutex xs_reqlck; /* request queue mutex */
struct mutex xs_rsplck; /* response queue mutex */
struct mutex xs_frqlck; /* free queue mutex */
TAILQ_HEAD(, xs_watch) xs_watches;
struct mutex xs_watchlck;
struct xs_msg xs_emsg;
struct taskq *xs_watchtq;
struct rwlock xs_rnglck;
};
struct xs_msg *
xs_get_msg(struct xs_softc *, int);
void xs_put_msg(struct xs_softc *, struct xs_msg *);
int xs_ring_get(struct xs_softc *, void *, size_t);
int xs_ring_put(struct xs_softc *, void *, size_t);
void xs_intr(void *);
void xs_poll(struct xs_softc *, int);
int xs_output(struct xs_transaction *, uint8_t *, int);
int xs_start(struct xs_transaction *, struct xs_msg *, struct iovec *, int);
struct xs_msg *
xs_reply(struct xs_transaction *, uint);
int xs_parse(struct xs_transaction *, struct xs_msg *, struct iovec **,
int *);
int xs_event(struct xs_softc *, struct xs_msg *);
int
xs_attach(struct xen_softc *sc)
{
struct xen_hvm_param xhv;
struct xs_softc *xs;
paddr_t pa;
int i;
if ((xs = malloc(sizeof(*xs), M_DEVBUF, M_NOWAIT | M_ZERO)) == NULL) {
printf(": failed to allocate xenstore softc\n");
return (-1);
}
sc->sc_xs = xs;
xs->xs_sc = sc;
/* Fetch event channel port */
memset(&xhv, 0, sizeof(xhv));
xhv.domid = DOMID_SELF;
xhv.index = HVM_PARAM_STORE_EVTCHN;
if (xen_hypercall(sc, XC_HVM, 2, HVMOP_get_param, &xhv)) {
printf(": failed to obtain a xenstore event channel\n");
goto fail_1;
}
xs->xs_port = xhv.value;
printf(", event channel %u\n", xs->xs_port);
/* Fetch a frame number (PA) of a shared xenstore page */
memset(&xhv, 0, sizeof(xhv));
xhv.domid = DOMID_SELF;
xhv.index = HVM_PARAM_STORE_PFN;
if (xen_hypercall(sc, XC_HVM, 2, HVMOP_get_param, &xhv))
goto fail_1;
pa = ptoa(xhv.value);
/* Allocate a page of virtual memory */
xs->xs_ring = km_alloc(PAGE_SIZE, &kv_any, &kp_none, &kd_nowait);
if (xs->xs_ring == NULL)
goto fail_1;
/* Map in the xenstore page into our KVA */
pa |= PMAP_NOCACHE;
pmap_kenter_pa((vaddr_t)xs->xs_ring, pa, PROT_READ | PROT_WRITE);
pmap_update(pmap_kernel());
if (xen_intr_establish(xs->xs_port, &xs->xs_ih, 0, xs_intr, xs,
sc->sc_dev.dv_xname))
goto fail_2;
xs->xs_wchan = "xswrite";
xs->xs_rchan = "xsread";
TAILQ_INIT(&xs->xs_free);
TAILQ_INIT(&xs->xs_reqs);
TAILQ_INIT(&xs->xs_rsps);
for (i = 0; i < nitems(xs->xs_msgs); i++)
TAILQ_INSERT_TAIL(&xs->xs_free, &xs->xs_msgs[i], xsm_link);
mtx_init(&xs->xs_reqlck, IPL_NET);
mtx_init(&xs->xs_rsplck, IPL_NET);
mtx_init(&xs->xs_frqlck, IPL_NET);
rw_init(&xs->xs_rnglck, "xsrnglck");
xs->xs_watchtq = taskq_create("xenwatch", 1, IPL_NET, 0);
mtx_init(&xs->xs_watchlck, IPL_NET);
TAILQ_INIT(&xs->xs_watches);
xs->xs_emsg.xsm_data = malloc(XS_MAX_PAYLOAD, M_DEVBUF,
M_ZERO | M_NOWAIT);
if (xs->xs_emsg.xsm_data == NULL)
goto fail_2;
xs->xs_emsg.xsm_dlen = XS_MAX_PAYLOAD;
return (0);
fail_2:
pmap_kremove((vaddr_t)xs->xs_ring, PAGE_SIZE);
pmap_update(pmap_kernel());
km_free(xs->xs_ring, PAGE_SIZE, &kv_any, &kp_none);
xs->xs_ring = NULL;
fail_1:
free(xs, sizeof(*xs), M_DEVBUF);
sc->sc_xs = NULL;
return (-1);
}
struct xs_msg *
xs_get_msg(struct xs_softc *xs, int waitok)
{
static const char *chan = "xsalloc";
struct xs_msg *xsm;
mtx_enter(&xs->xs_frqlck);
for (;;) {
xsm = TAILQ_FIRST(&xs->xs_free);
if (xsm != NULL) {
TAILQ_REMOVE(&xs->xs_free, xsm, xsm_link);
break;
}
if (!waitok) {
mtx_leave(&xs->xs_frqlck);
delay(XST_DELAY * 1000 >> 2);
mtx_enter(&xs->xs_frqlck);
} else
msleep_nsec(chan, &xs->xs_frqlck, PRIBIO, chan,
SEC_TO_NSEC(XST_DELAY) >> 2);
}
mtx_leave(&xs->xs_frqlck);
return (xsm);
}
void
xs_put_msg(struct xs_softc *xs, struct xs_msg *xsm)
{
memset(xsm, 0, sizeof(*xsm));
mtx_enter(&xs->xs_frqlck);
TAILQ_INSERT_TAIL(&xs->xs_free, xsm, xsm_link);
mtx_leave(&xs->xs_frqlck);
}
int
xs_geterror(struct xs_msg *xsm)
{
int i;
for (i = 0; i < nitems(xs_errors); i++)
if (strcmp(xs_errors[i].xse_errstr, xsm->xsm_data) == 0)
return (xs_errors[i].xse_errnum);
return (EOPNOTSUPP);
}
static inline uint32_t
xs_ring_avail(struct xs_ring *xsr, int req)
{
uint32_t cons = req ? xsr->xsr_req_cons : xsr->xsr_rsp_cons;
uint32_t prod = req ? xsr->xsr_req_prod : xsr->xsr_rsp_prod;
KASSERT(prod - cons <= XS_RING_SIZE);
return (req ? XS_RING_SIZE - (prod - cons) : prod - cons);
}
void
xs_poll(struct xs_softc *xs, int nosleep)
{
int s;
if (nosleep) {
delay(XST_DELAY * 1000 >> 2);
s = splnet();
xs_intr(xs);
splx(s);
} else {
tsleep_nsec(xs->xs_wchan, PRIBIO, xs->xs_wchan,
SEC_TO_NSEC(XST_DELAY) >> 2);
}
}
int
xs_output(struct xs_transaction *xst, uint8_t *bp, int len)
{
struct xs_softc *xs = xst->xst_cookie;
int chunk;
while (len > 0) {
chunk = xs_ring_put(xs, bp, MIN(len, XS_RING_SIZE));
if (chunk < 0)
return (-1);
if (chunk > 0) {
len -= chunk;
bp += chunk;
if (xs_ring_avail(xs->xs_ring, 1) > 0)
continue;
}
/* Squeaky wheel gets the kick */
xen_intr_signal(xs->xs_ih);
/*
* chunk == 0: we need to wait for hv to consume
* what has already been written;
*
* Alternatively we have managed to fill the ring
* and must wait for HV to collect the data.
*/
while (xs->xs_ring->xsr_req_prod != xs->xs_ring->xsr_req_cons)
xs_poll(xs, 1);
}
return (0);
}
int
xs_start(struct xs_transaction *xst, struct xs_msg *xsm, struct iovec *iov,
int iov_cnt)
{
struct xs_softc *xs = xst->xst_cookie;
int i;
rw_enter_write(&xs->xs_rnglck);
/* Header */
if (xs_output(xst, (uint8_t *)&xsm->xsm_hdr,
sizeof(xsm->xsm_hdr)) == -1) {
printf("%s: failed to write the header\n", __func__);
rw_exit_write(&xs->xs_rnglck);
return (-1);
}
/* Data loop */
for (i = 0; i < iov_cnt; i++) {
if (xs_output(xst, iov[i].iov_base, iov[i].iov_len) == -1) {
printf("%s: failed on iovec #%d len %lu\n", __func__,
i, iov[i].iov_len);
rw_exit_write(&xs->xs_rnglck);
return (-1);
}
}
mtx_enter(&xs->xs_reqlck);
TAILQ_INSERT_TAIL(&xs->xs_reqs, xsm, xsm_link);
mtx_leave(&xs->xs_reqlck);
xen_intr_signal(xs->xs_ih);
rw_exit_write(&xs->xs_rnglck);
return (0);
}
struct xs_msg *
xs_reply(struct xs_transaction *xst, uint rid)
{
struct xs_softc *xs = xst->xst_cookie;
struct xs_msg *xsm;
int s;
mtx_enter(&xs->xs_rsplck);
for (;;) {
TAILQ_FOREACH(xsm, &xs->xs_rsps, xsm_link) {
if (xsm->xsm_hdr.xmh_tid == xst->xst_id &&
xsm->xsm_hdr.xmh_rid == rid)
break;
}
if (xsm != NULL) {
TAILQ_REMOVE(&xs->xs_rsps, xsm, xsm_link);
break;
}
if (cold) {
mtx_leave(&xs->xs_rsplck);
delay(XST_DELAY * 1000 >> 2);
s = splnet();
xs_intr(xs);
splx(s);
mtx_enter(&xs->xs_rsplck);
} else
msleep_nsec(xs->xs_rchan, &xs->xs_rsplck, PRIBIO,
xs->xs_rchan, SEC_TO_NSEC(XST_DELAY) >> 2);
}
mtx_leave(&xs->xs_rsplck);
return (xsm);
}
int
xs_ring_put(struct xs_softc *xs, void *src, size_t size)
{
struct xs_ring *xsr = xs->xs_ring;
uint32_t prod = xsr->xsr_req_prod & (XS_RING_SIZE - 1);
uint32_t avail = xs_ring_avail(xsr, 1);
size_t left;
if (size > XS_RING_SIZE)
return (-1);
if (avail == 0)
return (0);
/* Bound the size by the number of available slots */
size = MIN(size, avail);
/* How many contiguous bytes can we memcpy... */
left = XS_RING_SIZE - prod;
/* ...bounded by by how much we need to write? */
left = MIN(left, size);
memcpy(&xsr->xsr_req[prod], src, left);
memcpy(&xsr->xsr_req[0], (caddr_t)src + left, size - left);
virtio_membar_sync();
xsr->xsr_req_prod += size;
return (size);
}
int
xs_ring_get(struct xs_softc *xs, void *dst, size_t size)
{
struct xs_ring *xsr = xs->xs_ring;
uint32_t cons = xsr->xsr_rsp_cons & (XS_RING_SIZE - 1);
uint32_t avail = xs_ring_avail(xsr, 0);
size_t left;
if (size > XS_RING_SIZE)
return (-1);
if (avail == 0)
return (0);
/* Bound the size by the number of available slots */
size = MIN(size, avail);
/* How many contiguous bytes can we memcpy... */
left = XS_RING_SIZE - cons;
/* ...bounded by by how much we need to read? */
left = MIN(left, size);
memcpy(dst, &xsr->xsr_rsp[cons], left);
memcpy((caddr_t)dst + left, &xsr->xsr_rsp[0], size - left);
virtio_membar_sync();
xsr->xsr_rsp_cons += size;
return (size);
}
void
xs_intr(void *arg)
{
struct xs_softc *xs = arg;
struct xs_ring *xsr = xs->xs_ring;
struct xen_softc *sc = xs->xs_sc;
struct xs_msg *xsm = xs->xs_rmsg;
struct xs_msghdr xmh;
uint32_t avail;
int len;
virtio_membar_sync();
if (xsr->xsr_rsp_cons == xsr->xsr_rsp_prod)
return;
avail = xs_ring_avail(xsr, 0);
/* Response processing */
again:
if (xs->xs_rmsg == NULL) {
if (avail < sizeof(xmh)) {
DPRINTF("%s: incomplete header: %u\n",
sc->sc_dev.dv_xname, avail);
goto out;
}
avail -= sizeof(xmh);
if ((len = xs_ring_get(xs, &xmh, sizeof(xmh))) != sizeof(xmh)) {
printf("%s: message too short: %d\n",
sc->sc_dev.dv_xname, len);
goto out;
}
if (xmh.xmh_type == XS_EVENT) {
xsm = &xs->xs_emsg;
xsm->xsm_read = 0;
} else {
mtx_enter(&xs->xs_reqlck);
TAILQ_FOREACH(xsm, &xs->xs_reqs, xsm_link) {
if (xsm->xsm_hdr.xmh_rid == xmh.xmh_rid) {
TAILQ_REMOVE(&xs->xs_reqs, xsm,
xsm_link);
break;
}
}
mtx_leave(&xs->xs_reqlck);
if (xsm == NULL) {
printf("%s: unexpected message id %u\n",
sc->sc_dev.dv_xname, xmh.xmh_rid);
goto out;
}
}
memcpy(&xsm->xsm_hdr, &xmh, sizeof(xmh));
xs->xs_rmsg = xsm;
}
if (xsm->xsm_hdr.xmh_len > xsm->xsm_dlen)
panic("message too large: %d vs %d for type %d, rid %u",
xsm->xsm_hdr.xmh_len, xsm->xsm_dlen, xsm->xsm_hdr.xmh_type,
xsm->xsm_hdr.xmh_rid);
len = MIN(xsm->xsm_hdr.xmh_len - xsm->xsm_read, avail);
if (len) {
/* Get data if reply is not empty */
if ((len = xs_ring_get(xs,
&xsm->xsm_data[xsm->xsm_read], len)) <= 0) {
printf("%s: read failure %d\n", sc->sc_dev.dv_xname,
len);
goto out;
}
xsm->xsm_read += len;
}
/* Notify reader that we've managed to read the whole message */
if (xsm->xsm_read == xsm->xsm_hdr.xmh_len) {
xs->xs_rmsg = NULL;
if (xsm->xsm_hdr.xmh_type == XS_EVENT) {
xs_event(xs, xsm);
} else {
mtx_enter(&xs->xs_rsplck);
TAILQ_INSERT_TAIL(&xs->xs_rsps, xsm, xsm_link);
mtx_leave(&xs->xs_rsplck);
wakeup(xs->xs_rchan);
}
}
if ((avail = xs_ring_avail(xsr, 0)) > 0)
goto again;
out:
/* Wakeup sleeping writes (if any) */
wakeup(xs->xs_wchan);
xen_intr_signal(xs->xs_ih);
}
static inline int
xs_get_buf(struct xs_transaction *xst, struct xs_msg *xsm, int len)
{
unsigned char *buf;
buf = malloc(len, M_DEVBUF, M_ZERO | (cold ? M_NOWAIT : M_WAITOK));
if (buf == NULL)
return (-1);
xsm->xsm_dlen = len;
xsm->xsm_data = buf;
return (0);
}
static inline void
xs_put_buf(struct xs_transaction *xst, struct xs_msg *xsm)
{
free(xsm->xsm_data, M_DEVBUF, xsm->xsm_dlen);
xsm->xsm_data = NULL;
}
void
xs_resfree(struct xs_transaction *xst, struct iovec *iov, int iov_cnt)
{
int i;
for (i = 0; i < iov_cnt; i++)
free(iov[i].iov_base, M_DEVBUF, iov[i].iov_len);
free(iov, M_DEVBUF, sizeof(struct iovec) * iov_cnt);
}
int
xs_parse(struct xs_transaction *xst, struct xs_msg *xsm, struct iovec **iov,
int *iov_cnt)
{
char *bp, *cp;
uint32_t dlen;
int i, flags;
/* If the response size is zero, we return an empty string */
dlen = MAX(xsm->xsm_hdr.xmh_len, 1);
flags = M_ZERO | (cold ? M_NOWAIT : M_WAITOK);
*iov_cnt = 0;
/* Make sure that the data is NUL terminated */
if (xsm->xsm_data[dlen - 1] != '\0') {
/*
* The XS_READ operation always returns length without
* the trailing NUL so we have to adjust the length.
*/
dlen = MIN(dlen + 1, xsm->xsm_dlen);
xsm->xsm_data[dlen - 1] = '\0';
}
for (i = 0; i < dlen; i++)
if (xsm->xsm_data[i] == '\0')
(*iov_cnt)++;
*iov = mallocarray(*iov_cnt, sizeof(struct iovec), M_DEVBUF, flags);
if (*iov == NULL)
goto cleanup;
bp = xsm->xsm_data;
for (i = 0; i < *iov_cnt; i++) {
cp = bp;
while (cp - (caddr_t)xsm->xsm_data < dlen && *cp != '\0')
cp++;
(*iov)[i].iov_len = cp - bp + 1;
(*iov)[i].iov_base = malloc((*iov)[i].iov_len, M_DEVBUF, flags);
if (!(*iov)[i].iov_base) {
xs_resfree(xst, *iov, *iov_cnt);
goto cleanup;
}
memcpy((*iov)[i].iov_base, bp, (*iov)[i].iov_len);
bp = ++cp;
}
return (0);
cleanup:
*iov = NULL;
*iov_cnt = 0;
return (ENOMEM);
}
int
xs_event(struct xs_softc *xs, struct xs_msg *xsm)
{
struct xs_watch *xsw;
char *token = NULL;
int i;
for (i = 0; i < xsm->xsm_read; i++) {
if (xsm->xsm_data[i] == '\0') {
token = &xsm->xsm_data[i+1];
break;
}
}
if (token == NULL) {
printf("%s: event on \"%s\" without token\n",
xs->xs_sc->sc_dev.dv_xname, xsm->xsm_data);
return (-1);
}
mtx_enter(&xs->xs_watchlck);
TAILQ_FOREACH(xsw, &xs->xs_watches, xsw_entry) {
if (strcmp(xsw->xsw_token, token))
continue;
mtx_leave(&xs->xs_watchlck);
task_add(xs->xs_watchtq, xsw->xsw_task);
return (0);
}
mtx_leave(&xs->xs_watchlck);
printf("%s: no watchers for node \"%s\"\n",
xs->xs_sc->sc_dev.dv_xname, xsm->xsm_data);
return (-1);
}
int
xs_cmd(struct xs_transaction *xst, int cmd, const char *path,
struct iovec **iov, int *iov_cnt)
{
struct xs_softc *xs = xst->xst_cookie;
struct xs_msg *xsm;
struct iovec ov[10]; /* output vector */
int datalen = XS_ERR_PAYLOAD;
int ov_cnt = 0;
enum { READ, WRITE } mode = READ;
int i, error = 0;
if (cmd >= XS_MAX)
return (EINVAL);
switch (cmd) {
case XS_TOPEN:
ov[0].iov_base = "";
ov[0].iov_len = 1;
ov_cnt++;
break;
case XS_TCLOSE:
case XS_RM:
case XS_WATCH:
case XS_WRITE:
mode = WRITE;
/* FALLTHROUGH */
default:
if (mode == READ)
datalen = XS_MAX_PAYLOAD;
break;
}
if (path) {
ov[ov_cnt].iov_base = (void *)path;
ov[ov_cnt++].iov_len = strlen(path) + 1; /* +NUL */
}
if (mode == WRITE && iov && iov_cnt && *iov_cnt > 0) {
for (i = 0; i < *iov_cnt && ov_cnt < nitems(ov);
i++, ov_cnt++) {
ov[ov_cnt].iov_base = (*iov)[i].iov_base;
ov[ov_cnt].iov_len = (*iov)[i].iov_len;
}
}
xsm = xs_get_msg(xs, !cold);
if (xs_get_buf(xst, xsm, datalen)) {
xs_put_msg(xs, xsm);
return (ENOMEM);
}
xsm->xsm_hdr.xmh_tid = xst->xst_id;
xsm->xsm_hdr.xmh_type = cmd;
xsm->xsm_hdr.xmh_rid = atomic_inc_int_nv(&xs->xs_rid);
for (i = 0; i < ov_cnt; i++)
xsm->xsm_hdr.xmh_len += ov[i].iov_len;
if (xsm->xsm_hdr.xmh_len > XS_MAX_PAYLOAD) {
printf("%s: message type %d with payload above the limit\n",
xs->xs_sc->sc_dev.dv_xname, cmd);
xs_put_buf(xst, xsm);
xs_put_msg(xs, xsm);
return (EIO);
}
if (xs_start(xst, xsm, ov, ov_cnt)) {
printf("%s: message type %d transmission failed\n",
xs->xs_sc->sc_dev.dv_xname, cmd);
xs_put_buf(xst, xsm);
xs_put_msg(xs, xsm);
return (EIO);
}
xsm = xs_reply(xst, xsm->xsm_hdr.xmh_rid);
if (xsm->xsm_hdr.xmh_type == XS_ERROR) {
error = xs_geterror(xsm);
DPRINTF("%s: xenstore request %d \"%s\" error %s\n",
xs->xs_sc->sc_dev.dv_xname, cmd, path, xsm->xsm_data);
} else if (mode == READ) {
KASSERT(iov && iov_cnt);
error = xs_parse(xst, xsm, iov, iov_cnt);
}
#ifdef XS_DEBUG
else
if (strcmp(xsm->xsm_data, "OK"))
printf("%s: xenstore request %d failed: %s\n",
xs->xs_sc->sc_dev.dv_xname, cmd, xsm->xsm_data);
#endif
xs_put_buf(xst, xsm);
xs_put_msg(xs, xsm);
return (error);
}
int
xs_watch(void *xsc, const char *path, const char *property, struct task *task,
void (*cb)(void *), void *arg)
{
struct xen_softc *sc = xsc;
struct xs_softc *xs = sc->sc_xs;
struct xs_transaction xst;
struct xs_watch *xsw;
struct iovec iov, *iovp = &iov;
char key[256];
int error, iov_cnt, ret;
memset(&xst, 0, sizeof(xst));
xst.xst_id = 0;
xst.xst_cookie = sc->sc_xs;
xsw = malloc(sizeof(*xsw), M_DEVBUF, M_NOWAIT | M_ZERO);
if (xsw == NULL)
return (-1);
task_set(task, cb, arg);
xsw->xsw_task = task;
snprintf(xsw->xsw_token, sizeof(xsw->xsw_token), "%0lx",
(unsigned long)xsw);
if (path)
ret = snprintf(key, sizeof(key), "%s/%s", path, property);
else
ret = snprintf(key, sizeof(key), "%s", property);
if (ret == -1 || ret >= sizeof(key)) {
free(xsw, M_DEVBUF, sizeof(*xsw));
return (EINVAL);
}
iov.iov_base = xsw->xsw_token;
iov.iov_len = sizeof(xsw->xsw_token);
iov_cnt = 1;
/*
* xs_watches must be prepared pre-emptively because a xenstore
* event is raised immediately after a watch is established.
*/
mtx_enter(&xs->xs_watchlck);
TAILQ_INSERT_TAIL(&xs->xs_watches, xsw, xsw_entry);
mtx_leave(&xs->xs_watchlck);
if ((error = xs_cmd(&xst, XS_WATCH, key, &iovp, &iov_cnt)) != 0) {
mtx_enter(&xs->xs_watchlck);
TAILQ_REMOVE(&xs->xs_watches, xsw, xsw_entry);
mtx_leave(&xs->xs_watchlck);
free(xsw, M_DEVBUF, sizeof(*xsw));
return (error);
}
return (0);
}
static unsigned long long
atoull(const char *cp, int *error)
{
unsigned long long res, cutoff;
int ch;
int cutlim;
res = 0;
cutoff = ULLONG_MAX / (unsigned long long)10;
cutlim = ULLONG_MAX % (unsigned long long)10;
do {
if (*cp < '0' || *cp > '9') {
*error = EINVAL;
return (res);
}
ch = *cp - '0';
if (res > cutoff || (res == cutoff && ch > cutlim)) {
*error = ERANGE;
return (res);
}
res *= 10;
res += ch;
} while (*(++cp) != '\0');
*error = 0;
return (res);
}
int
xs_getnum(void *xsc, const char *path, const char *property,
unsigned long long *val)
{
char *buf;
int error = 0;
buf = malloc(XS_MAX_PAYLOAD, M_DEVBUF, M_ZERO |
(cold ? M_NOWAIT : M_WAITOK));
if (buf == NULL)
return (ENOMEM);
error = xs_getprop(xsc, path, property, buf, XS_MAX_PAYLOAD);
if (error)
goto out;
*val = atoull(buf, &error);
if (error)
goto out;
out:
free(buf, M_DEVBUF, XS_MAX_PAYLOAD);
return (error);
}
int
xs_setnum(void *xsc, const char *path, const char *property,
unsigned long long val)
{
char buf[32];
int ret;
ret = snprintf(buf, sizeof(buf), "%llu", val);
if (ret == -1 || ret >= sizeof(buf))
return (ERANGE);
return (xs_setprop(xsc, path, property, buf, strlen(buf)));
}
int
xs_getprop(void *xsc, const char *path, const char *property, char *value,
int size)
{
struct xen_softc *sc = xsc;
struct xs_transaction xst;
struct iovec *iovp = NULL;
char key[256];
int error, ret, iov_cnt = 0;
if (!property)
return (EINVAL);
memset(&xst, 0, sizeof(xst));
xst.xst_id = 0;
xst.xst_cookie = sc->sc_xs;
if (path)
ret = snprintf(key, sizeof(key), "%s/%s", path, property);
else
ret = snprintf(key, sizeof(key), "%s", property);
if (ret == -1 || ret >= sizeof(key))
return (EINVAL);
if ((error = xs_cmd(&xst, XS_READ, key, &iovp, &iov_cnt)) != 0)
return (error);
if (iov_cnt > 0)
strlcpy(value, (char *)iovp->iov_base, size);
xs_resfree(&xst, iovp, iov_cnt);
return (0);
}
int
xs_setprop(void *xsc, const char *path, const char *property, char *value,
int size)
{
struct xen_softc *sc = xsc;
struct xs_transaction xst;
struct iovec iov, *iovp = &iov;
char key[256];
int error, ret, iov_cnt = 0;
if (!property)
return (EINVAL);
memset(&xst, 0, sizeof(xst));
xst.xst_id = 0;
xst.xst_cookie = sc->sc_xs;
if (path)
ret = snprintf(key, sizeof(key), "%s/%s", path, property);
else
ret = snprintf(key, sizeof(key), "%s", property);
if (ret == -1 || ret >= sizeof(key))
return (EINVAL);
iov.iov_base = value;
iov.iov_len = size;
iov_cnt = 1;
error = xs_cmd(&xst, XS_WRITE, key, &iovp, &iov_cnt);
return (error);
}
int
xs_cmpprop(void *xsc, const char *path, const char *property, const char *value,
int *result)
{
struct xen_softc *sc = xsc;
struct xs_transaction xst;
struct iovec *iovp = NULL;
char key[256];
int error, ret, iov_cnt = 0;
if (!property)
return (EINVAL);
memset(&xst, 0, sizeof(xst));
xst.xst_id = 0;
xst.xst_cookie = sc->sc_xs;
if (path)
ret = snprintf(key, sizeof(key), "%s/%s", path, property);
else
ret = snprintf(key, sizeof(key), "%s", property);
if (ret == -1 || ret >= sizeof(key))
return (EINVAL);
if ((error = xs_cmd(&xst, XS_READ, key, &iovp, &iov_cnt)) != 0)
return (error);
*result = strcmp(value, (char *)iovp->iov_base);
xs_resfree(&xst, iovp, iov_cnt);
return (0);
}
int
xs_await_transition(void *xsc, const char *path, const char *property,
const char *value, int timo)
{
struct xen_softc *sc = xsc;
int error, res;
do {
error = xs_cmpprop(xsc, path, property, value, &res);
if (error)
return (error);
if (timo && --timo == 0)
return (ETIMEDOUT);
xs_poll(sc->sc_xs, cold);
} while (res != 0);
return (0);
}
int
xs_kvop(void *xsc, int op, char *key, char *value, size_t valuelen)
{
struct xen_softc *sc = xsc;
struct xs_transaction xst;
struct iovec iov, *iovp = &iov;
int error = 0, iov_cnt = 0, cmd, i;
switch (op) {
case PVBUS_KVWRITE:
cmd = XS_WRITE;
iov.iov_base = value;
iov.iov_len = strlen(value);
iov_cnt = 1;
break;
case PVBUS_KVREAD:
cmd = XS_READ;
break;
case PVBUS_KVLS:
cmd = XS_LIST;
break;
default:
return (EOPNOTSUPP);
}
memset(&xst, 0, sizeof(xst));
xst.xst_id = 0;
xst.xst_cookie = sc->sc_xs;
if ((error = xs_cmd(&xst, cmd, key, &iovp, &iov_cnt)) != 0)
return (error);
memset(value, 0, valuelen);
switch (cmd) {
case XS_READ:
if (iov_cnt == 1 && iovp[0].iov_len == 1) {
xs_resfree(&xst, iovp, iov_cnt);
/*
* We cannot distinguish if the returned value is
* a directory or a file in the xenstore. The only
* indication is that the read value of a directory
* returns an empty string (single nul byte),
* so try to get the directory list in this case.
*/
return (xs_kvop(xsc, PVBUS_KVLS, key, value, valuelen));
}
/* FALLTHROUGH */
case XS_LIST:
for (i = 0; i < iov_cnt; i++) {
if (i && strlcat(value, "\n", valuelen) >= valuelen)
break;
if (strlcat(value, iovp[i].iov_base,
valuelen) >= valuelen)
break;
}
xs_resfree(&xst, iovp, iov_cnt);
break;
default:
break;
}
return (0);
}
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