xen/xenstore/xenstore.c

a6aedc5dSRoger Pau Monné/******************************************************************************
a6aedc5dSRoger Pau Monné * xenstore.c
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * Low-level kernel interface to the XenStore.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * Copyright (C) 2005 Rusty Russell, IBM Corporation
a6aedc5dSRoger Pau Monné * Copyright (C) 2009,2010 Spectra Logic Corporation
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * This file may be distributed separately from the Linux kernel, or
a6aedc5dSRoger Pau Monné * incorporated into other software packages, subject to the following license:
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * Permission is hereby granted, free of charge, to any person obtaining a copy
a6aedc5dSRoger Pau Monné * of this source file (the "Software"), to deal in the Software without
a6aedc5dSRoger Pau Monné * restriction, including without limitation the rights to use, copy, modify,
a6aedc5dSRoger Pau Monné * merge, publish, distribute, sublicense, and/or sell copies of the Software,
a6aedc5dSRoger Pau Monné * and to permit persons to whom the Software is furnished to do so, subject to
a6aedc5dSRoger Pau Monné * the following conditions:
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * The above copyright notice and this permission notice shall be included in
a6aedc5dSRoger Pau Monné * all copies or substantial portions of the Software.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
a6aedc5dSRoger Pau Monné * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
a6aedc5dSRoger Pau Monné * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
a6aedc5dSRoger Pau Monné * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
a6aedc5dSRoger Pau Monné * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
a6aedc5dSRoger Pau Monné * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
a6aedc5dSRoger Pau Monné * IN THE SOFTWARE.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné#include <sys/cdefs.h>
a6aedc5dSRoger Pau Monné__FBSDID("$FreeBSD$");
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné#include <sys/param.h>
a6aedc5dSRoger Pau Monné#include <sys/bus.h>
a6aedc5dSRoger Pau Monné#include <sys/kernel.h>
a6aedc5dSRoger Pau Monné#include <sys/lock.h>
a6aedc5dSRoger Pau Monné#include <sys/module.h>
a6aedc5dSRoger Pau Monné#include <sys/mutex.h>
a6aedc5dSRoger Pau Monné#include <sys/sx.h>
a6aedc5dSRoger Pau Monné#include <sys/syslog.h>
a6aedc5dSRoger Pau Monné#include <sys/malloc.h>
a6aedc5dSRoger Pau Monné#include <sys/systm.h>
a6aedc5dSRoger Pau Monné#include <sys/proc.h>
a6aedc5dSRoger Pau Monné#include <sys/kthread.h>
a6aedc5dSRoger Pau Monné#include <sys/sbuf.h>
a6aedc5dSRoger Pau Monné#include <sys/sysctl.h>
a6aedc5dSRoger Pau Monné#include <sys/uio.h>
a6aedc5dSRoger Pau Monné#include <sys/unistd.h>
1d84e2b3SRoger Pau Monné#include <sys/queue.h>
1d84e2b3SRoger Pau Monné#include <sys/taskqueue.h>
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné#include <machine/stdarg.h>
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné#include <xen/xen-os.h>
a6aedc5dSRoger Pau Monné#include <xen/hypervisor.h>
a6aedc5dSRoger Pau Monné#include <xen/xen_intr.h>
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné#include <xen/interface/hvm/params.h>
a6aedc5dSRoger Pau Monné#include <xen/hvm.h>
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné#include <xen/xenstore/xenstorevar.h>
a6aedc5dSRoger Pau Monné#include <xen/xenstore/xenstore_internal.h>
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné#include <vm/vm.h>
a6aedc5dSRoger Pau Monné#include <vm/pmap.h>
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * \file xenstore.c
a6aedc5dSRoger Pau Monné * \brief XenStore interface
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * The XenStore interface is a simple storage system that is a means of
a6aedc5dSRoger Pau Monné * communicating state and configuration data between the Xen Domain 0
a6aedc5dSRoger Pau Monné * and the various guest domains.  All configuration data other than
a6aedc5dSRoger Pau Monné * a small amount of essential information required during the early
a6aedc5dSRoger Pau Monné * boot process of launching a Xen aware guest, is managed using the
a6aedc5dSRoger Pau Monné * XenStore.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * The XenStore is ASCII string based, and has a structure and semantics
a6aedc5dSRoger Pau Monné * similar to a filesystem.  There are files and directories, the directories
453130d9SPedro F. Giffuni * able to contain files or other directories.  The depth of the hierarchy
a6aedc5dSRoger Pau Monné * is only limited by the XenStore's maximum path length.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * The communication channel between the XenStore service and other
a6aedc5dSRoger Pau Monné * domains is via two, guest specific, ring buffers in a shared memory
a6aedc5dSRoger Pau Monné * area.  One ring buffer is used for communicating in each direction.
a6aedc5dSRoger Pau Monné * The grant table references for this shared memory are given to the
a6aedc5dSRoger Pau Monné * guest either via the xen_start_info structure for a fully para-
a6aedc5dSRoger Pau Monné * virtualized guest, or via HVM hypercalls for a hardware virtualized
a6aedc5dSRoger Pau Monné * guest.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * The XenStore communication relies on an event channel and thus
a6aedc5dSRoger Pau Monné * interrupts.  For this reason, the attachment of the XenStore
a6aedc5dSRoger Pau Monné * relies on an interrupt driven configuration hook to hold off
a6aedc5dSRoger Pau Monné * boot processing until communication with the XenStore service
a6aedc5dSRoger Pau Monné * can be established.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * Several Xen services depend on the XenStore, most notably the
a6aedc5dSRoger Pau Monné * XenBus used to discover and manage Xen devices.  These services
a6aedc5dSRoger Pau Monné * are implemented as NewBus child attachments to a bus exported
a6aedc5dSRoger Pau Monné * by this XenStore driver.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéstatic struct xs_watch *find_watch(const char *token);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau MonnéMALLOC_DEFINE(M_XENSTORE, "xenstore", "XenStore data and results");
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Pointer to shared memory communication structures allowing us
a6aedc5dSRoger Pau Monné * to communicate with the XenStore service.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * When operating in full PV mode, this pointer is set early in kernel
a6aedc5dSRoger Pau Monné * startup from within xen_machdep.c.  In HVM mode, we use hypercalls
a6aedc5dSRoger Pau Monné * to get the guest frame number for the shared page and then map it
a6aedc5dSRoger Pau Monné * into kva.  See xs_init() for details.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstruct xenstore_domain_interface *xen_store;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/*-------------------------- Private Data Structures ------------------------*/
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Structure capturing messages received from the XenStore service.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstruct xs_stored_msg {
a6aedc5dSRoger Pau Monné	TAILQ_ENTRY(xs_stored_msg) list;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	struct xsd_sockmsg hdr;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	union {
a6aedc5dSRoger Pau Monné		/* Queued replies. */
a6aedc5dSRoger Pau Monné		struct {
a6aedc5dSRoger Pau Monné			char *body;
a6aedc5dSRoger Pau Monné		} reply;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		/* Queued watch events. */
a6aedc5dSRoger Pau Monné		struct {
a6aedc5dSRoger Pau Monné			struct xs_watch *handle;
a6aedc5dSRoger Pau Monné			const char **vec;
a6aedc5dSRoger Pau Monné			u_int vec_size;
a6aedc5dSRoger Pau Monné		} watch;
a6aedc5dSRoger Pau Monné	} u;
a6aedc5dSRoger Pau Monné};
a6aedc5dSRoger Pau MonnéTAILQ_HEAD(xs_stored_msg_list, xs_stored_msg);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Container for all XenStore related state.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstruct xs_softc {
a6aedc5dSRoger Pau Monné	/** Newbus device for the XenStore. */
a6aedc5dSRoger Pau Monné	device_t xs_dev;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/**
a6aedc5dSRoger Pau Monné	 * Lock serializing access to ring producer/consumer
a6aedc5dSRoger Pau Monné	 * indexes.  Use of this lock guarantees that wakeups
a6aedc5dSRoger Pau Monné	 * of blocking readers/writers are not missed due to
a6aedc5dSRoger Pau Monné	 * races with the XenStore service.
a6aedc5dSRoger Pau Monné	 */
a6aedc5dSRoger Pau Monné	struct mtx ring_lock;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/*
a6aedc5dSRoger Pau Monné	 * Mutex used to insure exclusive access to the outgoing
a6aedc5dSRoger Pau Monné	 * communication ring.  We use a lock type that can be
a6aedc5dSRoger Pau Monné	 * held while sleeping so that xs_write() can block waiting
a6aedc5dSRoger Pau Monné	 * for space in the ring to free up, without allowing another
a6aedc5dSRoger Pau Monné	 * writer to come in and corrupt a partial message write.
a6aedc5dSRoger Pau Monné	 */
a6aedc5dSRoger Pau Monné	struct sx request_mutex;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/**
a6aedc5dSRoger Pau Monné	 * A list of replies to our requests.
a6aedc5dSRoger Pau Monné	 *
a6aedc5dSRoger Pau Monné	 * The reply list is filled by xs_rcv_thread().  It
a6aedc5dSRoger Pau Monné	 * is consumed by the context that issued the request
a6aedc5dSRoger Pau Monné	 * to which a reply is made.  The requester blocks in
a6aedc5dSRoger Pau Monné	 * xs_read_reply().
a6aedc5dSRoger Pau Monné	 *
a6aedc5dSRoger Pau Monné	 * /note Only one requesting context can be active at a time.
a6aedc5dSRoger Pau Monné	 *       This is guaranteed by the request_mutex and insures
a6aedc5dSRoger Pau Monné	 *	 that the requester sees replies matching the order
a6aedc5dSRoger Pau Monné	 *	 of its requests.
a6aedc5dSRoger Pau Monné	 */
a6aedc5dSRoger Pau Monné	struct xs_stored_msg_list reply_list;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/** Lock protecting the reply list. */
a6aedc5dSRoger Pau Monné	struct mtx reply_lock;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/**
a6aedc5dSRoger Pau Monné	 * List of registered watches.
a6aedc5dSRoger Pau Monné	 */
a6aedc5dSRoger Pau Monné	struct xs_watch_list  registered_watches;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/** Lock protecting the registered watches list. */
a6aedc5dSRoger Pau Monné	struct mtx registered_watches_lock;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/**
a6aedc5dSRoger Pau Monné	 * List of pending watch callback events.
a6aedc5dSRoger Pau Monné	 */
a6aedc5dSRoger Pau Monné	struct xs_stored_msg_list watch_events;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/** Lock protecting the watch calback list. */
a6aedc5dSRoger Pau Monné	struct mtx watch_events_lock;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/**
a6aedc5dSRoger Pau Monné	 * Sleepable lock used to prevent VM suspension while a
a6aedc5dSRoger Pau Monné	 * xenstore transaction is outstanding.
a6aedc5dSRoger Pau Monné	 *
a6aedc5dSRoger Pau Monné	 * Each active transaction holds a shared lock on the
a6aedc5dSRoger Pau Monné	 * suspend mutex.  Our suspend method blocks waiting
a6aedc5dSRoger Pau Monné	 * to acquire an exclusive lock.  This guarantees that
a6aedc5dSRoger Pau Monné	 * suspend processing will only proceed once all active
a6aedc5dSRoger Pau Monné	 * transactions have been retired.
a6aedc5dSRoger Pau Monné	 */
a6aedc5dSRoger Pau Monné	struct sx suspend_mutex;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/**
a6aedc5dSRoger Pau Monné	 * The processid of the xenwatch thread.
a6aedc5dSRoger Pau Monné	 */
a6aedc5dSRoger Pau Monné	pid_t xenwatch_pid;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/**
a6aedc5dSRoger Pau Monné	 * Sleepable mutex used to gate the execution of XenStore
a6aedc5dSRoger Pau Monné	 * watch event callbacks.
a6aedc5dSRoger Pau Monné	 *
a6aedc5dSRoger Pau Monné	 * xenwatch_thread holds an exclusive lock on this mutex
a6aedc5dSRoger Pau Monné	 * while delivering event callbacks, and xenstore_unregister_watch()
a6aedc5dSRoger Pau Monné	 * uses an exclusive lock of this mutex to guarantee that no
a6aedc5dSRoger Pau Monné	 * callbacks of the just unregistered watch are pending
a6aedc5dSRoger Pau Monné	 * before returning to its caller.
a6aedc5dSRoger Pau Monné	 */
a6aedc5dSRoger Pau Monné	struct sx xenwatch_mutex;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/**
a6aedc5dSRoger Pau Monné	 * The HVM guest pseudo-physical frame number.  This is Xen's mapping
a6aedc5dSRoger Pau Monné	 * of the true machine frame number into our "physical address space".
a6aedc5dSRoger Pau Monné	 */
a6aedc5dSRoger Pau Monné	unsigned long gpfn;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/**
a6aedc5dSRoger Pau Monné	 * The event channel for communicating with the
a6aedc5dSRoger Pau Monné	 * XenStore service.
a6aedc5dSRoger Pau Monné	 */
a6aedc5dSRoger Pau Monné	int evtchn;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/** Handle for XenStore interrupts. */
a6aedc5dSRoger Pau Monné	xen_intr_handle_t xen_intr_handle;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/**
a6aedc5dSRoger Pau Monné	 * Interrupt driven config hook allowing us to defer
a6aedc5dSRoger Pau Monné	 * attaching children until interrupts (and thus communication
a6aedc5dSRoger Pau Monné	 * with the XenStore service) are available.
a6aedc5dSRoger Pau Monné	 */
a6aedc5dSRoger Pau Monné	struct intr_config_hook xs_attachcb;
1d84e2b3SRoger Pau Monné
1d84e2b3SRoger Pau Monné	/**
1d84e2b3SRoger Pau Monné	 * Xenstore is a user-space process that usually runs in Dom0,
1d84e2b3SRoger Pau Monné	 * so if this domain is booting as Dom0, xenstore wont we accessible,
1d84e2b3SRoger Pau Monné	 * and we have to defer the initialization of xenstore related
1d84e2b3SRoger Pau Monné	 * devices to later (when xenstore is started).
1d84e2b3SRoger Pau Monné	 */
1d84e2b3SRoger Pau Monné	bool initialized;
1d84e2b3SRoger Pau Monné
1d84e2b3SRoger Pau Monné	/**
1d84e2b3SRoger Pau Monné	 * Task to run when xenstore is initialized (Dom0 only), will
1d84e2b3SRoger Pau Monné	 * take care of attaching xenstore related devices.
1d84e2b3SRoger Pau Monné	 */
1d84e2b3SRoger Pau Monné	struct task xs_late_init;
a6aedc5dSRoger Pau Monné};
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/*-------------------------------- Global Data ------------------------------*/
a6aedc5dSRoger Pau Monnéstatic struct xs_softc xs;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/*------------------------- Private Utility Functions -----------------------*/
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Count and optionally record pointers to a number of NUL terminated
a6aedc5dSRoger Pau Monné * strings in a buffer.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param strings  A pointer to a contiguous buffer of NUL terminated strings.
a6aedc5dSRoger Pau Monné * \param dest	   An array to store pointers to each string found in strings.
a6aedc5dSRoger Pau Monné * \param len	   The length of the buffer pointed to by strings.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \return  A count of the number of strings found.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic u_int
a6aedc5dSRoger Pau Monnéextract_strings(const char *strings, const char **dest, u_int len)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	u_int num;
a6aedc5dSRoger Pau Monné	const char *p;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	for (p = strings, num = 0; p < strings + len; p += strlen(p) + 1) {
a6aedc5dSRoger Pau Monné		if (dest != NULL)
a6aedc5dSRoger Pau Monné			*dest++ = p;
a6aedc5dSRoger Pau Monné		num++;
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (num);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Convert a contiguous buffer containing a series of NUL terminated
a6aedc5dSRoger Pau Monné * strings into an array of pointers to strings.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * The returned pointer references the array of string pointers which
a6aedc5dSRoger Pau Monné * is followed by the storage for the string data.  It is the client's
a6aedc5dSRoger Pau Monné * responsibility to free this storage.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * The storage addressed by strings is free'd prior to split returning.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param strings  A pointer to a contiguous buffer of NUL terminated strings.
a6aedc5dSRoger Pau Monné * \param len	   The length of the buffer pointed to by strings.
a6aedc5dSRoger Pau Monné * \param num	   The number of strings found and returned in the strings
a6aedc5dSRoger Pau Monné *                 array.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \return  An array of pointers to the strings found in the input buffer.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic const char **
a6aedc5dSRoger Pau Monnésplit(char *strings, u_int len, u_int *num)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	const char **ret;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/* Protect against unterminated buffers. */
a6aedc5dSRoger Pau Monné	if (len > 0)
a6aedc5dSRoger Pau Monné		strings[len - 1] = '\0';
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/* Count the strings. */
a6aedc5dSRoger Pau Monné	*num = extract_strings(strings, /*dest*/NULL, len);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/* Transfer to one big alloc for easy freeing by the caller. */
a6aedc5dSRoger Pau Monné	ret = malloc(*num * sizeof(char *) + len, M_XENSTORE, M_WAITOK);
a6aedc5dSRoger Pau Monné	memcpy(&ret[*num], strings, len);
a6aedc5dSRoger Pau Monné	free(strings, M_XENSTORE);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/* Extract pointers to newly allocated array. */
a6aedc5dSRoger Pau Monné	strings = (char *)&ret[*num];
a6aedc5dSRoger Pau Monné	(void)extract_strings(strings, /*dest*/ret, len);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (ret);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/*------------------------- Public Utility Functions -------------------------*/
a6aedc5dSRoger Pau Monné/*------- API comments for these methods can be found in xenstorevar.h -------*/
a6aedc5dSRoger Pau Monnéstruct sbuf *
a6aedc5dSRoger Pau Monnéxs_join(const char *dir, const char *name)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct sbuf *sb;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	sb = sbuf_new_auto();
a6aedc5dSRoger Pau Monné	sbuf_cat(sb, dir);
a6aedc5dSRoger Pau Monné	if (name[0] != '\0') {
a6aedc5dSRoger Pau Monné		sbuf_putc(sb, '/');
a6aedc5dSRoger Pau Monné		sbuf_cat(sb, name);
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné	sbuf_finish(sb);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (sb);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/*-------------------- Low Level Communication Management --------------------*/
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Interrupt handler for the XenStore event channel.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * XenStore reads and writes block on "xen_store" for buffer
a6aedc5dSRoger Pau Monné * space.  Wakeup any blocking operations when the XenStore
a6aedc5dSRoger Pau Monné * service has modified the queues.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic void
a6aedc5dSRoger Pau Monnéxs_intr(void * arg __unused /*__attribute__((unused))*/)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné
1d84e2b3SRoger Pau Monné	/* If xenstore has not been initialized, initialize it now */
1d84e2b3SRoger Pau Monné	if (!xs.initialized) {
1d84e2b3SRoger Pau Monné		xs.initialized = true;
1d84e2b3SRoger Pau Monné		/*
1d84e2b3SRoger Pau Monné		 * Since this task is probing and attaching devices we
1d84e2b3SRoger Pau Monné		 * have to hold the Giant lock.
1d84e2b3SRoger Pau Monné		 */
1d84e2b3SRoger Pau Monné		taskqueue_enqueue(taskqueue_swi_giant, &xs.xs_late_init);
1d84e2b3SRoger Pau Monné	}
1d84e2b3SRoger Pau Monné
a6aedc5dSRoger Pau Monné	/*
a6aedc5dSRoger Pau Monné	 * Hold ring lock across wakeup so that clients
a6aedc5dSRoger Pau Monné	 * cannot miss a wakeup.
a6aedc5dSRoger Pau Monné	 */
a6aedc5dSRoger Pau Monné	mtx_lock(&xs.ring_lock);
a6aedc5dSRoger Pau Monné	wakeup(xen_store);
a6aedc5dSRoger Pau Monné	mtx_unlock(&xs.ring_lock);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Verify that the indexes for a ring are valid.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * The difference between the producer and consumer cannot
a6aedc5dSRoger Pau Monné * exceed the size of the ring.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param cons  The consumer index for the ring to test.
a6aedc5dSRoger Pau Monné * \param prod  The producer index for the ring to test.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \retval 1  If indexes are in range.
a6aedc5dSRoger Pau Monné * \retval 0  If the indexes are out of range.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic int
a6aedc5dSRoger Pau Monnéxs_check_indexes(XENSTORE_RING_IDX cons, XENSTORE_RING_IDX prod)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return ((prod - cons) <= XENSTORE_RING_SIZE);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Return a pointer to, and the length of, the contiguous
a6aedc5dSRoger Pau Monné * free region available for output in a ring buffer.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param cons  The consumer index for the ring.
a6aedc5dSRoger Pau Monné * \param prod  The producer index for the ring.
a6aedc5dSRoger Pau Monné * \param buf   The base address of the ring's storage.
a6aedc5dSRoger Pau Monné * \param len   The amount of contiguous storage available.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \return  A pointer to the start location of the free region.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic void *
a6aedc5dSRoger Pau Monnéxs_get_output_chunk(XENSTORE_RING_IDX cons, XENSTORE_RING_IDX prod,
a6aedc5dSRoger Pau Monné    char *buf, uint32_t *len)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	*len = XENSTORE_RING_SIZE - MASK_XENSTORE_IDX(prod);
a6aedc5dSRoger Pau Monné	if ((XENSTORE_RING_SIZE - (prod - cons)) < *len)
a6aedc5dSRoger Pau Monné		*len = XENSTORE_RING_SIZE - (prod - cons);
a6aedc5dSRoger Pau Monné	return (buf + MASK_XENSTORE_IDX(prod));
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Return a pointer to, and the length of, the contiguous
a6aedc5dSRoger Pau Monné * data available to read from a ring buffer.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param cons  The consumer index for the ring.
a6aedc5dSRoger Pau Monné * \param prod  The producer index for the ring.
a6aedc5dSRoger Pau Monné * \param buf   The base address of the ring's storage.
a6aedc5dSRoger Pau Monné * \param len   The amount of contiguous data available to read.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \return  A pointer to the start location of the available data.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic const void *
a6aedc5dSRoger Pau Monnéxs_get_input_chunk(XENSTORE_RING_IDX cons, XENSTORE_RING_IDX prod,
a6aedc5dSRoger Pau Monné    const char *buf, uint32_t *len)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	*len = XENSTORE_RING_SIZE - MASK_XENSTORE_IDX(cons);
a6aedc5dSRoger Pau Monné	if ((prod - cons) < *len)
a6aedc5dSRoger Pau Monné		*len = prod - cons;
a6aedc5dSRoger Pau Monné	return (buf + MASK_XENSTORE_IDX(cons));
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Transmit data to the XenStore service.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param tdata  A pointer to the contiguous data to send.
a6aedc5dSRoger Pau Monné * \param len    The amount of data to send.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \return  On success 0, otherwise an errno value indicating the
a6aedc5dSRoger Pau Monné *          cause of failure.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \invariant  Called from thread context.
a6aedc5dSRoger Pau Monné * \invariant  The buffer pointed to by tdata is at least len bytes
a6aedc5dSRoger Pau Monné *             in length.
a6aedc5dSRoger Pau Monné * \invariant  xs.request_mutex exclusively locked.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic int
a6aedc5dSRoger Pau Monnéxs_write_store(const void *tdata, unsigned len)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	XENSTORE_RING_IDX cons, prod;
a6aedc5dSRoger Pau Monné	const char *data = (const char *)tdata;
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	sx_assert(&xs.request_mutex, SX_XLOCKED);
a6aedc5dSRoger Pau Monné	while (len != 0) {
a6aedc5dSRoger Pau Monné		void *dst;
a6aedc5dSRoger Pau Monné		u_int avail;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		/* Hold lock so we can't miss wakeups should we block. */
a6aedc5dSRoger Pau Monné		mtx_lock(&xs.ring_lock);
a6aedc5dSRoger Pau Monné		cons = xen_store->req_cons;
a6aedc5dSRoger Pau Monné		prod = xen_store->req_prod;
a6aedc5dSRoger Pau Monné		if ((prod - cons) == XENSTORE_RING_SIZE) {
a6aedc5dSRoger Pau Monné			/*
a6aedc5dSRoger Pau Monné			 * Output ring is full. Wait for a ring event.
a6aedc5dSRoger Pau Monné			 *
a6aedc5dSRoger Pau Monné			 * Note that the events from both queues
a6aedc5dSRoger Pau Monné			 * are combined, so being woken does not
a6aedc5dSRoger Pau Monné			 * guarantee that data exist in the read
a6aedc5dSRoger Pau Monné			 * ring.
a6aedc5dSRoger Pau Monné			 *
a6aedc5dSRoger Pau Monné			 * To simplify error recovery and the retry,
a6aedc5dSRoger Pau Monné			 * we specify PDROP so our lock is *not* held
a6aedc5dSRoger Pau Monné			 * when msleep returns.
a6aedc5dSRoger Pau Monné			 */
a6aedc5dSRoger Pau Monné			error = msleep(xen_store, &xs.ring_lock, PCATCH|PDROP,
a6aedc5dSRoger Pau Monné			     "xbwrite", /*timeout*/0);
a6aedc5dSRoger Pau Monné			if (error && error != EWOULDBLOCK)
a6aedc5dSRoger Pau Monné				return (error);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné			/* Try again. */
a6aedc5dSRoger Pau Monné			continue;
a6aedc5dSRoger Pau Monné		}
a6aedc5dSRoger Pau Monné		mtx_unlock(&xs.ring_lock);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		/* Verify queue sanity. */
a6aedc5dSRoger Pau Monné		if (!xs_check_indexes(cons, prod)) {
a6aedc5dSRoger Pau Monné			xen_store->req_cons = xen_store->req_prod = 0;
a6aedc5dSRoger Pau Monné			return (EIO);
a6aedc5dSRoger Pau Monné		}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		dst = xs_get_output_chunk(cons, prod, xen_store->req, &avail);
a6aedc5dSRoger Pau Monné		if (avail > len)
a6aedc5dSRoger Pau Monné			avail = len;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		memcpy(dst, data, avail);
a6aedc5dSRoger Pau Monné		data += avail;
a6aedc5dSRoger Pau Monné		len -= avail;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		/*
a6aedc5dSRoger Pau Monné		 * The store to the producer index, which indicates
a6aedc5dSRoger Pau Monné		 * to the other side that new data has arrived, must
a6aedc5dSRoger Pau Monné		 * be visible only after our copy of the data into the
a6aedc5dSRoger Pau Monné		 * ring has completed.
a6aedc5dSRoger Pau Monné		 */
a6aedc5dSRoger Pau Monné		wmb();
a6aedc5dSRoger Pau Monné		xen_store->req_prod += avail;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		/*
a6aedc5dSRoger Pau Monné		 * xen_intr_signal() implies mb(). The other side will see
a6aedc5dSRoger Pau Monné		 * the change to req_prod at the time of the interrupt.
a6aedc5dSRoger Pau Monné		 */
a6aedc5dSRoger Pau Monné		xen_intr_signal(xs.xen_intr_handle);
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (0);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Receive data from the XenStore service.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param tdata  A pointer to the contiguous buffer to receive the data.
a6aedc5dSRoger Pau Monné * \param len    The amount of data to receive.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \return  On success 0, otherwise an errno value indicating the
a6aedc5dSRoger Pau Monné *          cause of failure.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \invariant  Called from thread context.
a6aedc5dSRoger Pau Monné * \invariant  The buffer pointed to by tdata is at least len bytes
a6aedc5dSRoger Pau Monné *             in length.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \note xs_read does not perform any internal locking to guarantee
a6aedc5dSRoger Pau Monné *       serial access to the incoming ring buffer.  However, there
a6aedc5dSRoger Pau Monné *	 is only one context processing reads: xs_rcv_thread().
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic int
a6aedc5dSRoger Pau Monnéxs_read_store(void *tdata, unsigned len)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	XENSTORE_RING_IDX cons, prod;
a6aedc5dSRoger Pau Monné	char *data = (char *)tdata;
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	while (len != 0) {
a6aedc5dSRoger Pau Monné		u_int avail;
a6aedc5dSRoger Pau Monné		const char *src;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		/* Hold lock so we can't miss wakeups should we block. */
a6aedc5dSRoger Pau Monné		mtx_lock(&xs.ring_lock);
a6aedc5dSRoger Pau Monné		cons = xen_store->rsp_cons;
a6aedc5dSRoger Pau Monné		prod = xen_store->rsp_prod;
a6aedc5dSRoger Pau Monné		if (cons == prod) {
a6aedc5dSRoger Pau Monné			/*
a6aedc5dSRoger Pau Monné			 * Nothing to read. Wait for a ring event.
a6aedc5dSRoger Pau Monné			 *
a6aedc5dSRoger Pau Monné			 * Note that the events from both queues
a6aedc5dSRoger Pau Monné			 * are combined, so being woken does not
a6aedc5dSRoger Pau Monné			 * guarantee that data exist in the read
a6aedc5dSRoger Pau Monné			 * ring.
a6aedc5dSRoger Pau Monné			 *
a6aedc5dSRoger Pau Monné			 * To simplify error recovery and the retry,
a6aedc5dSRoger Pau Monné			 * we specify PDROP so our lock is *not* held
a6aedc5dSRoger Pau Monné			 * when msleep returns.
a6aedc5dSRoger Pau Monné			 */
a6aedc5dSRoger Pau Monné			error = msleep(xen_store, &xs.ring_lock, PCATCH|PDROP,
a6aedc5dSRoger Pau Monné			    "xbread", /*timeout*/0);
a6aedc5dSRoger Pau Monné			if (error && error != EWOULDBLOCK)
a6aedc5dSRoger Pau Monné				return (error);
a6aedc5dSRoger Pau Monné			continue;
a6aedc5dSRoger Pau Monné		}
a6aedc5dSRoger Pau Monné		mtx_unlock(&xs.ring_lock);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		/* Verify queue sanity. */
a6aedc5dSRoger Pau Monné		if (!xs_check_indexes(cons, prod)) {
a6aedc5dSRoger Pau Monné			xen_store->rsp_cons = xen_store->rsp_prod = 0;
a6aedc5dSRoger Pau Monné			return (EIO);
a6aedc5dSRoger Pau Monné		}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		src = xs_get_input_chunk(cons, prod, xen_store->rsp, &avail);
a6aedc5dSRoger Pau Monné		if (avail > len)
a6aedc5dSRoger Pau Monné			avail = len;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		/*
a6aedc5dSRoger Pau Monné		 * Insure the data we read is related to the indexes
a6aedc5dSRoger Pau Monné		 * we read above.
a6aedc5dSRoger Pau Monné		 */
a6aedc5dSRoger Pau Monné		rmb();
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		memcpy(data, src, avail);
a6aedc5dSRoger Pau Monné		data += avail;
a6aedc5dSRoger Pau Monné		len -= avail;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		/*
a6aedc5dSRoger Pau Monné		 * Insure that the producer of this ring does not see
a6aedc5dSRoger Pau Monné		 * the ring space as free until after we have copied it
a6aedc5dSRoger Pau Monné		 * out.
a6aedc5dSRoger Pau Monné		 */
a6aedc5dSRoger Pau Monné		mb();
a6aedc5dSRoger Pau Monné		xen_store->rsp_cons += avail;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		/*
a6aedc5dSRoger Pau Monné		 * xen_intr_signal() implies mb(). The producer will see
a6aedc5dSRoger Pau Monné		 * the updated consumer index when the event is delivered.
a6aedc5dSRoger Pau Monné		 */
a6aedc5dSRoger Pau Monné		xen_intr_signal(xs.xen_intr_handle);
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (0);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/*----------------------- Received Message Processing ------------------------*/
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Block reading the next message from the XenStore service and
a6aedc5dSRoger Pau Monné * process the result.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param type  The returned type of the XenStore message received.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \return  0 on success.  Otherwise an errno value indicating the
a6aedc5dSRoger Pau Monné *          type of failure encountered.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic int
a6aedc5dSRoger Pau Monnéxs_process_msg(enum xsd_sockmsg_type *type)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct xs_stored_msg *msg;
a6aedc5dSRoger Pau Monné	char *body;
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	msg = malloc(sizeof(*msg), M_XENSTORE, M_WAITOK);
a6aedc5dSRoger Pau Monné	error = xs_read_store(&msg->hdr, sizeof(msg->hdr));
a6aedc5dSRoger Pau Monné	if (error) {
a6aedc5dSRoger Pau Monné		free(msg, M_XENSTORE);
a6aedc5dSRoger Pau Monné		return (error);
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	body = malloc(msg->hdr.len + 1, M_XENSTORE, M_WAITOK);
a6aedc5dSRoger Pau Monné	error = xs_read_store(body, msg->hdr.len);
a6aedc5dSRoger Pau Monné	if (error) {
a6aedc5dSRoger Pau Monné		free(body, M_XENSTORE);
a6aedc5dSRoger Pau Monné		free(msg, M_XENSTORE);
a6aedc5dSRoger Pau Monné		return (error);
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné	body[msg->hdr.len] = '\0';
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	*type = msg->hdr.type;
a6aedc5dSRoger Pau Monné	if (msg->hdr.type == XS_WATCH_EVENT) {
a6aedc5dSRoger Pau Monné		msg->u.watch.vec = split(body, msg->hdr.len,
a6aedc5dSRoger Pau Monné		    &msg->u.watch.vec_size);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		mtx_lock(&xs.registered_watches_lock);
a6aedc5dSRoger Pau Monné		msg->u.watch.handle = find_watch(
a6aedc5dSRoger Pau Monné		    msg->u.watch.vec[XS_WATCH_TOKEN]);
a6aedc5dSRoger Pau Monné		if (msg->u.watch.handle != NULL) {
a6aedc5dSRoger Pau Monné			mtx_lock(&xs.watch_events_lock);
a6aedc5dSRoger Pau Monné			TAILQ_INSERT_TAIL(&xs.watch_events, msg, list);
a6aedc5dSRoger Pau Monné			wakeup(&xs.watch_events);
a6aedc5dSRoger Pau Monné			mtx_unlock(&xs.watch_events_lock);
a6aedc5dSRoger Pau Monné		} else {
a6aedc5dSRoger Pau Monné			free(msg->u.watch.vec, M_XENSTORE);
a6aedc5dSRoger Pau Monné			free(msg, M_XENSTORE);
a6aedc5dSRoger Pau Monné		}
a6aedc5dSRoger Pau Monné		mtx_unlock(&xs.registered_watches_lock);
a6aedc5dSRoger Pau Monné	} else {
a6aedc5dSRoger Pau Monné		msg->u.reply.body = body;
a6aedc5dSRoger Pau Monné		mtx_lock(&xs.reply_lock);
a6aedc5dSRoger Pau Monné		TAILQ_INSERT_TAIL(&xs.reply_list, msg, list);
a6aedc5dSRoger Pau Monné		wakeup(&xs.reply_list);
a6aedc5dSRoger Pau Monné		mtx_unlock(&xs.reply_lock);
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (0);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Thread body of the XenStore receive thread.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * This thread blocks waiting for data from the XenStore service
a6aedc5dSRoger Pau Monné * and processes and received messages.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic void
a6aedc5dSRoger Pau Monnéxs_rcv_thread(void *arg __unused)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné	enum xsd_sockmsg_type type;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	for (;;) {
a6aedc5dSRoger Pau Monné		error = xs_process_msg(&type);
a6aedc5dSRoger Pau Monné		if (error)
a6aedc5dSRoger Pau Monné			printf("XENSTORE error %d while reading message\n",
a6aedc5dSRoger Pau Monné			    error);
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/*---------------- XenStore Message Request/Reply Processing -----------------*/
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Filter invoked before transmitting any message to the XenStore service.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * The role of the filter may expand, but currently serves to manage
a6aedc5dSRoger Pau Monné * the interactions of messages with transaction state.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param request_msg_type  The message type for the request.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic inline void
a6aedc5dSRoger Pau Monnéxs_request_filter(uint32_t request_msg_type)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	if (request_msg_type == XS_TRANSACTION_START)
a6aedc5dSRoger Pau Monné		sx_slock(&xs.suspend_mutex);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Filter invoked after transmitting any message to the XenStore service.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * The role of the filter may expand, but currently serves to manage
a6aedc5dSRoger Pau Monné * the interactions of messages with transaction state.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param request_msg_type     The message type for the original request.
a6aedc5dSRoger Pau Monné * \param reply_msg_type       The message type for any received reply.
a6aedc5dSRoger Pau Monné * \param request_reply_error  The error status from the attempt to send
a6aedc5dSRoger Pau Monné *                             the request or retrieve the reply.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic inline void
a6aedc5dSRoger Pau Monnéxs_reply_filter(uint32_t request_msg_type,
a6aedc5dSRoger Pau Monné    uint32_t reply_msg_type, int request_reply_error)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	/*
a6aedc5dSRoger Pau Monné	 * The count of transactions drops if we attempted
a6aedc5dSRoger Pau Monné	 * to end a transaction (even if that attempt fails
a6aedc5dSRoger Pau Monné	 * in error), we receive a transaction end acknowledgement,
a6aedc5dSRoger Pau Monné	 * or if our attempt to begin a transaction fails.
a6aedc5dSRoger Pau Monné	 */
a6aedc5dSRoger Pau Monné	if (request_msg_type == XS_TRANSACTION_END
a6aedc5dSRoger Pau Monné	 || (request_reply_error == 0 && reply_msg_type == XS_TRANSACTION_END)
a6aedc5dSRoger Pau Monné	 || (request_msg_type == XS_TRANSACTION_START
a6aedc5dSRoger Pau Monné	  && (request_reply_error != 0 || reply_msg_type == XS_ERROR)))
a6aedc5dSRoger Pau Monné		sx_sunlock(&xs.suspend_mutex);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné#define xsd_error_count	(sizeof(xsd_errors) / sizeof(xsd_errors[0]))
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Convert a XenStore error string into an errno number.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param errorstring  The error string to convert.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \return  The errno best matching the input string.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \note Unknown error strings are converted to EINVAL.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic int
a6aedc5dSRoger Pau Monnéxs_get_error(const char *errorstring)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	u_int i;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	for (i = 0; i < xsd_error_count; i++) {
a6aedc5dSRoger Pau Monné		if (!strcmp(errorstring, xsd_errors[i].errstring))
a6aedc5dSRoger Pau Monné			return (xsd_errors[i].errnum);
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné	log(LOG_WARNING, "XENSTORE xen store gave: unknown error %s",
a6aedc5dSRoger Pau Monné	    errorstring);
a6aedc5dSRoger Pau Monné	return (EINVAL);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Block waiting for a reply to a message request.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param type	  The returned type of the reply.
a6aedc5dSRoger Pau Monné * \param len	  The returned body length of the reply.
a6aedc5dSRoger Pau Monné * \param result  The returned body of the reply.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \return  0 on success.  Otherwise an errno indicating the
a6aedc5dSRoger Pau Monné *          cause of failure.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic int
a6aedc5dSRoger Pau Monnéxs_read_reply(enum xsd_sockmsg_type *type, u_int *len, void **result)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct xs_stored_msg *msg;
a6aedc5dSRoger Pau Monné	char *body;
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	mtx_lock(&xs.reply_lock);
a6aedc5dSRoger Pau Monné	while (TAILQ_EMPTY(&xs.reply_list)) {
a6aedc5dSRoger Pau Monné		error = mtx_sleep(&xs.reply_list, &xs.reply_lock,
a6aedc5dSRoger Pau Monné		    PCATCH, "xswait", hz/10);
a6aedc5dSRoger Pau Monné		if (error && error != EWOULDBLOCK) {
a6aedc5dSRoger Pau Monné			mtx_unlock(&xs.reply_lock);
a6aedc5dSRoger Pau Monné			return (error);
a6aedc5dSRoger Pau Monné		}
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné	msg = TAILQ_FIRST(&xs.reply_list);
a6aedc5dSRoger Pau Monné	TAILQ_REMOVE(&xs.reply_list, msg, list);
a6aedc5dSRoger Pau Monné	mtx_unlock(&xs.reply_lock);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	*type = msg->hdr.type;
a6aedc5dSRoger Pau Monné	if (len)
a6aedc5dSRoger Pau Monné		*len = msg->hdr.len;
a6aedc5dSRoger Pau Monné	body = msg->u.reply.body;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	free(msg, M_XENSTORE);
a6aedc5dSRoger Pau Monné	*result = body;
a6aedc5dSRoger Pau Monné	return (0);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Pass-thru interface for XenStore access by userland processes
a6aedc5dSRoger Pau Monné * via the XenStore device.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * Reply type and length data are returned by overwriting these
a6aedc5dSRoger Pau Monné * fields in the passed in request message.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param msg	  A properly formatted message to transmit to
a6aedc5dSRoger Pau Monné *		  the XenStore service.
a6aedc5dSRoger Pau Monné * \param result  The returned body of the reply.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \return  0 on success.  Otherwise an errno indicating the cause
a6aedc5dSRoger Pau Monné *          of failure.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \note The returned result is provided in malloced storage and thus
a6aedc5dSRoger Pau Monné *       must be free'd by the caller with 'free(result, M_XENSTORE);
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéint
a6aedc5dSRoger Pau Monnéxs_dev_request_and_reply(struct xsd_sockmsg *msg, void **result)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	uint32_t request_type;
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	request_type = msg->type;
a6aedc5dSRoger Pau Monné	xs_request_filter(request_type);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	sx_xlock(&xs.request_mutex);
a6aedc5dSRoger Pau Monné	if ((error = xs_write_store(msg, sizeof(*msg) + msg->len)) == 0)
a6aedc5dSRoger Pau Monné		error = xs_read_reply(&msg->type, &msg->len, result);
a6aedc5dSRoger Pau Monné	sx_xunlock(&xs.request_mutex);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	xs_reply_filter(request_type, msg->type, error);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (error);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Send a message with an optionally muti-part body to the XenStore service.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param t              The transaction to use for this request.
a6aedc5dSRoger Pau Monné * \param request_type   The type of message to send.
a6aedc5dSRoger Pau Monné * \param iovec          Pointers to the body sections of the request.
a6aedc5dSRoger Pau Monné * \param num_vecs       The number of body sections in the request.
a6aedc5dSRoger Pau Monné * \param len            The returned length of the reply.
a6aedc5dSRoger Pau Monné * \param result         The returned body of the reply.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \return  0 on success.  Otherwise an errno indicating
a6aedc5dSRoger Pau Monné *          the cause of failure.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \note The returned result is provided in malloced storage and thus
a6aedc5dSRoger Pau Monné *       must be free'd by the caller with 'free(*result, M_XENSTORE);
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic int
a6aedc5dSRoger Pau Monnéxs_talkv(struct xs_transaction t, enum xsd_sockmsg_type request_type,
a6aedc5dSRoger Pau Monné    const struct iovec *iovec, u_int num_vecs, u_int *len, void **result)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct xsd_sockmsg msg;
a6aedc5dSRoger Pau Monné	void *ret = NULL;
a6aedc5dSRoger Pau Monné	u_int i;
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	msg.tx_id = t.id;
a6aedc5dSRoger Pau Monné	msg.req_id = 0;
a6aedc5dSRoger Pau Monné	msg.type = request_type;
a6aedc5dSRoger Pau Monné	msg.len = 0;
a6aedc5dSRoger Pau Monné	for (i = 0; i < num_vecs; i++)
a6aedc5dSRoger Pau Monné		msg.len += iovec[i].iov_len;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	xs_request_filter(request_type);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	sx_xlock(&xs.request_mutex);
a6aedc5dSRoger Pau Monné	error = xs_write_store(&msg, sizeof(msg));
a6aedc5dSRoger Pau Monné	if (error) {
a6aedc5dSRoger Pau Monné		printf("xs_talkv failed %d\n", error);
a6aedc5dSRoger Pau Monné		goto error_lock_held;
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	for (i = 0; i < num_vecs; i++) {
a6aedc5dSRoger Pau Monné		error = xs_write_store(iovec[i].iov_base, iovec[i].iov_len);
a6aedc5dSRoger Pau Monné		if (error) {
a6aedc5dSRoger Pau Monné			printf("xs_talkv failed %d\n", error);
a6aedc5dSRoger Pau Monné			goto error_lock_held;
a6aedc5dSRoger Pau Monné		}
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	error = xs_read_reply(&msg.type, len, &ret);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéerror_lock_held:
a6aedc5dSRoger Pau Monné	sx_xunlock(&xs.request_mutex);
a6aedc5dSRoger Pau Monné	xs_reply_filter(request_type, msg.type, error);
a6aedc5dSRoger Pau Monné	if (error)
a6aedc5dSRoger Pau Monné		return (error);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	if (msg.type == XS_ERROR) {
a6aedc5dSRoger Pau Monné		error = xs_get_error(ret);
a6aedc5dSRoger Pau Monné		free(ret, M_XENSTORE);
a6aedc5dSRoger Pau Monné		return (error);
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/* Reply is either error or an echo of our request message type. */
a6aedc5dSRoger Pau Monné	KASSERT(msg.type == request_type, ("bad xenstore message type"));
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	if (result)
a6aedc5dSRoger Pau Monné		*result = ret;
a6aedc5dSRoger Pau Monné	else
a6aedc5dSRoger Pau Monné		free(ret, M_XENSTORE);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (0);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Wrapper for xs_talkv allowing easy transmission of a message with
a6aedc5dSRoger Pau Monné * a single, contiguous, message body.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param t              The transaction to use for this request.
a6aedc5dSRoger Pau Monné * \param request_type   The type of message to send.
a6aedc5dSRoger Pau Monné * \param body           The body of the request.
a6aedc5dSRoger Pau Monné * \param len            The returned length of the reply.
a6aedc5dSRoger Pau Monné * \param result         The returned body of the reply.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \return  0 on success.  Otherwise an errno indicating
a6aedc5dSRoger Pau Monné *          the cause of failure.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \note The returned result is provided in malloced storage and thus
a6aedc5dSRoger Pau Monné *       must be free'd by the caller with 'free(*result, M_XENSTORE);
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic int
a6aedc5dSRoger Pau Monnéxs_single(struct xs_transaction t, enum xsd_sockmsg_type request_type,
a6aedc5dSRoger Pau Monné    const char *body, u_int *len, void **result)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct iovec iovec;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	iovec.iov_base = (void *)(uintptr_t)body;
a6aedc5dSRoger Pau Monné	iovec.iov_len = strlen(body) + 1;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (xs_talkv(t, request_type, &iovec, 1, len, result));
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/*------------------------- XenStore Watch Support ---------------------------*/
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Transmit a watch request to the XenStore service.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param path    The path in the XenStore to watch.
a6aedc5dSRoger Pau Monné * \param tocken  A unique identifier for this watch.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \return  0 on success.  Otherwise an errno indicating the
a6aedc5dSRoger Pau Monné *          cause of failure.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic int
a6aedc5dSRoger Pau Monnéxs_watch(const char *path, const char *token)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct iovec iov[2];
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	iov[0].iov_base = (void *)(uintptr_t) path;
a6aedc5dSRoger Pau Monné	iov[0].iov_len = strlen(path) + 1;
a6aedc5dSRoger Pau Monné	iov[1].iov_base = (void *)(uintptr_t) token;
a6aedc5dSRoger Pau Monné	iov[1].iov_len = strlen(token) + 1;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (xs_talkv(XST_NIL, XS_WATCH, iov, 2, NULL, NULL));
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Transmit an uwatch request to the XenStore service.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param path    The path in the XenStore to watch.
a6aedc5dSRoger Pau Monné * \param tocken  A unique identifier for this watch.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \return  0 on success.  Otherwise an errno indicating the
a6aedc5dSRoger Pau Monné *          cause of failure.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic int
a6aedc5dSRoger Pau Monnéxs_unwatch(const char *path, const char *token)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct iovec iov[2];
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	iov[0].iov_base = (void *)(uintptr_t) path;
a6aedc5dSRoger Pau Monné	iov[0].iov_len = strlen(path) + 1;
a6aedc5dSRoger Pau Monné	iov[1].iov_base = (void *)(uintptr_t) token;
a6aedc5dSRoger Pau Monné	iov[1].iov_len = strlen(token) + 1;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (xs_talkv(XST_NIL, XS_UNWATCH, iov, 2, NULL, NULL));
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Convert from watch token (unique identifier) to the associated
a6aedc5dSRoger Pau Monné * internal tracking structure for this watch.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param tocken  The unique identifier for the watch to find.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \return  A pointer to the found watch structure or NULL.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic struct xs_watch *
a6aedc5dSRoger Pau Monnéfind_watch(const char *token)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct xs_watch *i, *cmp;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	cmp = (void *)strtoul(token, NULL, 16);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	LIST_FOREACH(i, &xs.registered_watches, list)
a6aedc5dSRoger Pau Monné		if (i == cmp)
a6aedc5dSRoger Pau Monné			return (i);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (NULL);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Thread body of the XenStore watch event dispatch thread.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic void
a6aedc5dSRoger Pau Monnéxenwatch_thread(void *unused)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct xs_stored_msg *msg;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	for (;;) {
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		mtx_lock(&xs.watch_events_lock);
a6aedc5dSRoger Pau Monné		while (TAILQ_EMPTY(&xs.watch_events))
a6aedc5dSRoger Pau Monné			mtx_sleep(&xs.watch_events,
a6aedc5dSRoger Pau Monné			    &xs.watch_events_lock,
a6aedc5dSRoger Pau Monné			    PWAIT | PCATCH, "waitev", hz/10);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		mtx_unlock(&xs.watch_events_lock);
a6aedc5dSRoger Pau Monné		sx_xlock(&xs.xenwatch_mutex);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		mtx_lock(&xs.watch_events_lock);
a6aedc5dSRoger Pau Monné		msg = TAILQ_FIRST(&xs.watch_events);
a6aedc5dSRoger Pau Monné		if (msg)
a6aedc5dSRoger Pau Monné			TAILQ_REMOVE(&xs.watch_events, msg, list);
a6aedc5dSRoger Pau Monné		mtx_unlock(&xs.watch_events_lock);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		if (msg != NULL) {
a6aedc5dSRoger Pau Monné			/*
a6aedc5dSRoger Pau Monné			 * XXX There are messages coming in with a NULL
a6aedc5dSRoger Pau Monné			 * XXX callback.  This deserves further investigation;
a6aedc5dSRoger Pau Monné			 * XXX the workaround here simply prevents the kernel
a6aedc5dSRoger Pau Monné			 * XXX from panic'ing on startup.
a6aedc5dSRoger Pau Monné			 */
a6aedc5dSRoger Pau Monné			if (msg->u.watch.handle->callback != NULL)
a6aedc5dSRoger Pau Monné				msg->u.watch.handle->callback(
a6aedc5dSRoger Pau Monné					msg->u.watch.handle,
a6aedc5dSRoger Pau Monné					(const char **)msg->u.watch.vec,
a6aedc5dSRoger Pau Monné					msg->u.watch.vec_size);
a6aedc5dSRoger Pau Monné			free(msg->u.watch.vec, M_XENSTORE);
a6aedc5dSRoger Pau Monné			free(msg, M_XENSTORE);
a6aedc5dSRoger Pau Monné		}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		sx_xunlock(&xs.xenwatch_mutex);
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/*----------- XenStore Configuration, Initialization, and Control ------------*/
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Setup communication channels with the XenStore service.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \return  On success, 0. Otherwise an errno value indicating the
a6aedc5dSRoger Pau Monné *          type of failure.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic int
a6aedc5dSRoger Pau Monnéxs_init_comms(void)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	if (xen_store->rsp_prod != xen_store->rsp_cons) {
a6aedc5dSRoger Pau Monné		log(LOG_WARNING, "XENSTORE response ring is not quiescent "
a6aedc5dSRoger Pau Monné		    "(%08x:%08x): fixing up\n",
a6aedc5dSRoger Pau Monné		    xen_store->rsp_cons, xen_store->rsp_prod);
a6aedc5dSRoger Pau Monné		xen_store->rsp_cons = xen_store->rsp_prod;
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	xen_intr_unbind(&xs.xen_intr_handle);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	error = xen_intr_bind_local_port(xs.xs_dev, xs.evtchn,
a6aedc5dSRoger Pau Monné	    /*filter*/NULL, xs_intr, /*arg*/NULL, INTR_TYPE_NET|INTR_MPSAFE,
a6aedc5dSRoger Pau Monné	    &xs.xen_intr_handle);
a6aedc5dSRoger Pau Monné	if (error) {
a6aedc5dSRoger Pau Monné		log(LOG_WARNING, "XENSTORE request irq failed %i\n", error);
a6aedc5dSRoger Pau Monné		return (error);
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (0);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/*------------------ Private Device Attachment Functions  --------------------*/
a6aedc5dSRoger Pau Monnéstatic void
a6aedc5dSRoger Pau Monnéxs_identify(driver_t *driver, device_t parent)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	BUS_ADD_CHILD(parent, 0, "xenstore", 0);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
453130d9SPedro F. Giffuni * Probe for the existence of the XenStore.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * \param dev
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic int
a6aedc5dSRoger Pau Monnéxs_probe(device_t dev)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	/*
a6aedc5dSRoger Pau Monné	 * We are either operating within a PV kernel or being probed
a6aedc5dSRoger Pau Monné	 * as the child of the successfully attached xenpci device.
a6aedc5dSRoger Pau Monné	 * Thus we are in a Xen environment and there will be a XenStore.
a6aedc5dSRoger Pau Monné	 * Unconditionally return success.
a6aedc5dSRoger Pau Monné	 */
a6aedc5dSRoger Pau Monné	device_set_desc(dev, "XenStore");
2f9ec994SRoger Pau Monné	return (BUS_PROBE_NOWILDCARD);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéstatic void
a6aedc5dSRoger Pau Monnéxs_attach_deferred(void *arg)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	bus_generic_probe(xs.xs_dev);
a6aedc5dSRoger Pau Monné	bus_generic_attach(xs.xs_dev);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	config_intrhook_disestablish(&xs.xs_attachcb);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
1d84e2b3SRoger Pau Monnéstatic void
1d84e2b3SRoger Pau Monnéxs_attach_late(void *arg, int pending)
1d84e2b3SRoger Pau Monné{
1d84e2b3SRoger Pau Monné
1d84e2b3SRoger Pau Monné	KASSERT((pending == 1), ("xs late attach queued several times"));
1d84e2b3SRoger Pau Monné	bus_generic_probe(xs.xs_dev);
1d84e2b3SRoger Pau Monné	bus_generic_attach(xs.xs_dev);
1d84e2b3SRoger Pau Monné}
1d84e2b3SRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Attach to the XenStore.
a6aedc5dSRoger Pau Monné *
a6aedc5dSRoger Pau Monné * This routine also prepares for the probe/attach of drivers that rely
a6aedc5dSRoger Pau Monné * on the XenStore.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic int
a6aedc5dSRoger Pau Monnéxs_attach(device_t dev)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/* Allow us to get device_t from softc and vice-versa. */
a6aedc5dSRoger Pau Monné	xs.xs_dev = dev;
a6aedc5dSRoger Pau Monné	device_set_softc(dev, &xs);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/* Initialize the interface to xenstore. */
a6aedc5dSRoger Pau Monné	struct proc *p;
a6aedc5dSRoger Pau Monné
1d84e2b3SRoger Pau Monné	xs.initialized = false;
a6aedc5dSRoger Pau Monné	if (xen_hvm_domain()) {
a6aedc5dSRoger Pau Monné		xs.evtchn = hvm_get_parameter(HVM_PARAM_STORE_EVTCHN);
a6aedc5dSRoger Pau Monné		xs.gpfn = hvm_get_parameter(HVM_PARAM_STORE_PFN);
a6aedc5dSRoger Pau Monné		xen_store = pmap_mapdev(xs.gpfn * PAGE_SIZE, PAGE_SIZE);
1d84e2b3SRoger Pau Monné		xs.initialized = true;
a6aedc5dSRoger Pau Monné	} else if (xen_pv_domain()) {
1d84e2b3SRoger Pau Monné		if (HYPERVISOR_start_info->store_evtchn == 0) {
1d84e2b3SRoger Pau Monné			struct evtchn_alloc_unbound alloc_unbound;
1d84e2b3SRoger Pau Monné
1d84e2b3SRoger Pau Monné			/* Allocate a local event channel for xenstore */
1d84e2b3SRoger Pau Monné			alloc_unbound.dom = DOMID_SELF;
1d84e2b3SRoger Pau Monné			alloc_unbound.remote_dom = DOMID_SELF;
1d84e2b3SRoger Pau Monné			error = HYPERVISOR_event_channel_op(
1d84e2b3SRoger Pau Monné			    EVTCHNOP_alloc_unbound, &alloc_unbound);
1d84e2b3SRoger Pau Monné			if (error != 0)
1d84e2b3SRoger Pau Monné				panic(
1d84e2b3SRoger Pau Monné				   "unable to alloc event channel for Dom0: %d",
1d84e2b3SRoger Pau Monné				    error);
1d84e2b3SRoger Pau Monné
1d84e2b3SRoger Pau Monné			HYPERVISOR_start_info->store_evtchn =
1d84e2b3SRoger Pau Monné			    alloc_unbound.port;
1d84e2b3SRoger Pau Monné			xs.evtchn = alloc_unbound.port;
1d84e2b3SRoger Pau Monné
1d84e2b3SRoger Pau Monné			/* Allocate memory for the xs shared ring */
1d84e2b3SRoger Pau Monné			xen_store = malloc(PAGE_SIZE, M_XENSTORE,
1d84e2b3SRoger Pau Monné			    M_WAITOK | M_ZERO);
1d84e2b3SRoger Pau Monné		} else {
a6aedc5dSRoger Pau Monné			xs.evtchn = HYPERVISOR_start_info->store_evtchn;
1d84e2b3SRoger Pau Monné			xs.initialized = true;
1d84e2b3SRoger Pau Monné		}
a6aedc5dSRoger Pau Monné	} else {
a6aedc5dSRoger Pau Monné		panic("Unknown domain type, cannot initialize xenstore.");
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	TAILQ_INIT(&xs.reply_list);
a6aedc5dSRoger Pau Monné	TAILQ_INIT(&xs.watch_events);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	mtx_init(&xs.ring_lock, "ring lock", NULL, MTX_DEF);
a6aedc5dSRoger Pau Monné	mtx_init(&xs.reply_lock, "reply lock", NULL, MTX_DEF);
a6aedc5dSRoger Pau Monné	sx_init(&xs.xenwatch_mutex, "xenwatch");
a6aedc5dSRoger Pau Monné	sx_init(&xs.request_mutex, "xenstore request");
a6aedc5dSRoger Pau Monné	sx_init(&xs.suspend_mutex, "xenstore suspend");
a6aedc5dSRoger Pau Monné	mtx_init(&xs.registered_watches_lock, "watches", NULL, MTX_DEF);
a6aedc5dSRoger Pau Monné	mtx_init(&xs.watch_events_lock, "watch events", NULL, MTX_DEF);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/* Initialize the shared memory rings to talk to xenstored */
a6aedc5dSRoger Pau Monné	error = xs_init_comms();
a6aedc5dSRoger Pau Monné	if (error)
a6aedc5dSRoger Pau Monné		return (error);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	error = kproc_create(xenwatch_thread, NULL, &p, RFHIGHPID,
a6aedc5dSRoger Pau Monné	    0, "xenwatch");
a6aedc5dSRoger Pau Monné	if (error)
a6aedc5dSRoger Pau Monné		return (error);
a6aedc5dSRoger Pau Monné	xs.xenwatch_pid = p->p_pid;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	error = kproc_create(xs_rcv_thread, NULL, NULL,
a6aedc5dSRoger Pau Monné	    RFHIGHPID, 0, "xenstore_rcv");
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	xs.xs_attachcb.ich_func = xs_attach_deferred;
a6aedc5dSRoger Pau Monné	xs.xs_attachcb.ich_arg = NULL;
1d84e2b3SRoger Pau Monné	if (xs.initialized) {
a6aedc5dSRoger Pau Monné		config_intrhook_establish(&xs.xs_attachcb);
1d84e2b3SRoger Pau Monné	} else {
1d84e2b3SRoger Pau Monné		TASK_INIT(&xs.xs_late_init, 0, xs_attach_late, NULL);
1d84e2b3SRoger Pau Monné	}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (error);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Prepare for suspension of this VM by halting XenStore access after
a6aedc5dSRoger Pau Monné * all transactions and individual requests have completed.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic int
a6aedc5dSRoger Pau Monnéxs_suspend(device_t dev)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/* Suspend child Xen devices. */
a6aedc5dSRoger Pau Monné	error = bus_generic_suspend(dev);
a6aedc5dSRoger Pau Monné	if (error != 0)
a6aedc5dSRoger Pau Monné		return (error);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	sx_xlock(&xs.suspend_mutex);
a6aedc5dSRoger Pau Monné	sx_xlock(&xs.request_mutex);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (0);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/**
a6aedc5dSRoger Pau Monné * Resume XenStore operations after this VM is resumed.
a6aedc5dSRoger Pau Monné */
a6aedc5dSRoger Pau Monnéstatic int
a6aedc5dSRoger Pau Monnéxs_resume(device_t dev __unused)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct xs_watch *watch;
a6aedc5dSRoger Pau Monné	char token[sizeof(watch) * 2 + 1];
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	xs_init_comms();
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	sx_xunlock(&xs.request_mutex);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/*
a6aedc5dSRoger Pau Monné	 * No need for registered_watches_lock: the suspend_mutex
a6aedc5dSRoger Pau Monné	 * is sufficient.
a6aedc5dSRoger Pau Monné	 */
a6aedc5dSRoger Pau Monné	LIST_FOREACH(watch, &xs.registered_watches, list) {
a6aedc5dSRoger Pau Monné		sprintf(token, "%lX", (long)watch);
a6aedc5dSRoger Pau Monné		xs_watch(watch->node, token);
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	sx_xunlock(&xs.suspend_mutex);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/* Resume child Xen devices. */
a6aedc5dSRoger Pau Monné	bus_generic_resume(dev);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (0);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/*-------------------- Private Device Attachment Data  -----------------------*/
a6aedc5dSRoger Pau Monnéstatic device_method_t xenstore_methods[] = {
a6aedc5dSRoger Pau Monné	/* Device interface */
a6aedc5dSRoger Pau Monné	DEVMETHOD(device_identify,	xs_identify),
a6aedc5dSRoger Pau Monné	DEVMETHOD(device_probe,         xs_probe),
a6aedc5dSRoger Pau Monné	DEVMETHOD(device_attach,        xs_attach),
a6aedc5dSRoger Pau Monné	DEVMETHOD(device_detach,        bus_generic_detach),
a6aedc5dSRoger Pau Monné	DEVMETHOD(device_shutdown,      bus_generic_shutdown),
a6aedc5dSRoger Pau Monné	DEVMETHOD(device_suspend,       xs_suspend),
a6aedc5dSRoger Pau Monné	DEVMETHOD(device_resume,        xs_resume),
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/* Bus interface */
a6aedc5dSRoger Pau Monné	DEVMETHOD(bus_add_child,        bus_generic_add_child),
a6aedc5dSRoger Pau Monné	DEVMETHOD(bus_alloc_resource,   bus_generic_alloc_resource),
a6aedc5dSRoger Pau Monné	DEVMETHOD(bus_release_resource, bus_generic_release_resource),
a6aedc5dSRoger Pau Monné	DEVMETHOD(bus_activate_resource, bus_generic_activate_resource),
a6aedc5dSRoger Pau Monné	DEVMETHOD(bus_deactivate_resource, bus_generic_deactivate_resource),
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	DEVMETHOD_END
a6aedc5dSRoger Pau Monné};
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau MonnéDEFINE_CLASS_0(xenstore, xenstore_driver, xenstore_methods, 0);
a6aedc5dSRoger Pau Monnéstatic devclass_t xenstore_devclass;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau MonnéDRIVER_MODULE(xenstore, xenpv, xenstore_driver, xenstore_devclass, 0, 0);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/*------------------------------- Sysctl Data --------------------------------*/
a6aedc5dSRoger Pau Monné/* XXX Shouldn't the node be somewhere else? */
a6aedc5dSRoger Pau MonnéSYSCTL_NODE(_dev, OID_AUTO, xen, CTLFLAG_RD, NULL, "Xen");
a6aedc5dSRoger Pau MonnéSYSCTL_INT(_dev_xen, OID_AUTO, xsd_port, CTLFLAG_RD, &xs.evtchn, 0, "");
a6aedc5dSRoger Pau MonnéSYSCTL_ULONG(_dev_xen, OID_AUTO, xsd_kva, CTLFLAG_RD, (u_long *) &xen_store, 0, "");
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné/*-------------------------------- Public API --------------------------------*/
a6aedc5dSRoger Pau Monné/*------- API comments for these methods can be found in xenstorevar.h -------*/
a6aedc5dSRoger Pau Monnéint
a6aedc5dSRoger Pau Monnéxs_directory(struct xs_transaction t, const char *dir, const char *node,
a6aedc5dSRoger Pau Monné    u_int *num, const char ***result)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct sbuf *path;
a6aedc5dSRoger Pau Monné	char *strings;
a6aedc5dSRoger Pau Monné	u_int len = 0;
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	path = xs_join(dir, node);
a6aedc5dSRoger Pau Monné	error = xs_single(t, XS_DIRECTORY, sbuf_data(path), &len,
a6aedc5dSRoger Pau Monné	    (void **)&strings);
a6aedc5dSRoger Pau Monné	sbuf_delete(path);
a6aedc5dSRoger Pau Monné	if (error)
a6aedc5dSRoger Pau Monné		return (error);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	*result = split(strings, len, num);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (0);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéint
a6aedc5dSRoger Pau Monnéxs_exists(struct xs_transaction t, const char *dir, const char *node)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	const char **d;
a6aedc5dSRoger Pau Monné	int error, dir_n;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	error = xs_directory(t, dir, node, &dir_n, &d);
a6aedc5dSRoger Pau Monné	if (error)
a6aedc5dSRoger Pau Monné		return (0);
a6aedc5dSRoger Pau Monné	free(d, M_XENSTORE);
a6aedc5dSRoger Pau Monné	return (1);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéint
a6aedc5dSRoger Pau Monnéxs_read(struct xs_transaction t, const char *dir, const char *node,
a6aedc5dSRoger Pau Monné    u_int *len, void **result)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct sbuf *path;
a6aedc5dSRoger Pau Monné	void *ret;
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	path = xs_join(dir, node);
a6aedc5dSRoger Pau Monné	error = xs_single(t, XS_READ, sbuf_data(path), len, &ret);
a6aedc5dSRoger Pau Monné	sbuf_delete(path);
a6aedc5dSRoger Pau Monné	if (error)
a6aedc5dSRoger Pau Monné		return (error);
a6aedc5dSRoger Pau Monné	*result = ret;
a6aedc5dSRoger Pau Monné	return (0);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéint
a6aedc5dSRoger Pau Monnéxs_write(struct xs_transaction t, const char *dir, const char *node,
a6aedc5dSRoger Pau Monné    const char *string)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct sbuf *path;
a6aedc5dSRoger Pau Monné	struct iovec iovec[2];
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	path = xs_join(dir, node);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	iovec[0].iov_base = (void *)(uintptr_t) sbuf_data(path);
a6aedc5dSRoger Pau Monné	iovec[0].iov_len = sbuf_len(path) + 1;
a6aedc5dSRoger Pau Monné	iovec[1].iov_base = (void *)(uintptr_t) string;
a6aedc5dSRoger Pau Monné	iovec[1].iov_len = strlen(string);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	error = xs_talkv(t, XS_WRITE, iovec, 2, NULL, NULL);
a6aedc5dSRoger Pau Monné	sbuf_delete(path);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (error);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéint
a6aedc5dSRoger Pau Monnéxs_mkdir(struct xs_transaction t, const char *dir, const char *node)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct sbuf *path;
a6aedc5dSRoger Pau Monné	int ret;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	path = xs_join(dir, node);
a6aedc5dSRoger Pau Monné	ret = xs_single(t, XS_MKDIR, sbuf_data(path), NULL, NULL);
a6aedc5dSRoger Pau Monné	sbuf_delete(path);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (ret);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéint
a6aedc5dSRoger Pau Monnéxs_rm(struct xs_transaction t, const char *dir, const char *node)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct sbuf *path;
a6aedc5dSRoger Pau Monné	int ret;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	path = xs_join(dir, node);
a6aedc5dSRoger Pau Monné	ret = xs_single(t, XS_RM, sbuf_data(path), NULL, NULL);
a6aedc5dSRoger Pau Monné	sbuf_delete(path);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (ret);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéint
a6aedc5dSRoger Pau Monnéxs_rm_tree(struct xs_transaction xbt, const char *base, const char *node)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct xs_transaction local_xbt;
a6aedc5dSRoger Pau Monné	struct sbuf *root_path_sbuf;
a6aedc5dSRoger Pau Monné	struct sbuf *cur_path_sbuf;
a6aedc5dSRoger Pau Monné	char *root_path;
a6aedc5dSRoger Pau Monné	char *cur_path;
a6aedc5dSRoger Pau Monné	const char **dir;
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéretry:
a6aedc5dSRoger Pau Monné	root_path_sbuf = xs_join(base, node);
a6aedc5dSRoger Pau Monné	cur_path_sbuf  = xs_join(base, node);
a6aedc5dSRoger Pau Monné	root_path      = sbuf_data(root_path_sbuf);
a6aedc5dSRoger Pau Monné	cur_path       = sbuf_data(cur_path_sbuf);
a6aedc5dSRoger Pau Monné	dir            = NULL;
a6aedc5dSRoger Pau Monné	local_xbt.id   = 0;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	if (xbt.id == 0) {
a6aedc5dSRoger Pau Monné		error = xs_transaction_start(&local_xbt);
a6aedc5dSRoger Pau Monné		if (error != 0)
a6aedc5dSRoger Pau Monné			goto out;
a6aedc5dSRoger Pau Monné		xbt = local_xbt;
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	while (1) {
a6aedc5dSRoger Pau Monné		u_int count;
a6aedc5dSRoger Pau Monné		u_int i;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		error = xs_directory(xbt, cur_path, "", &count, &dir);
a6aedc5dSRoger Pau Monné		if (error)
a6aedc5dSRoger Pau Monné			goto out;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		for (i = 0; i < count; i++) {
a6aedc5dSRoger Pau Monné			error = xs_rm(xbt, cur_path, dir[i]);
a6aedc5dSRoger Pau Monné			if (error == ENOTEMPTY) {
a6aedc5dSRoger Pau Monné				struct sbuf *push_dir;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné				/*
a6aedc5dSRoger Pau Monné				 * Descend to clear out this sub directory.
a6aedc5dSRoger Pau Monné				 * We'll return to cur_dir once push_dir
a6aedc5dSRoger Pau Monné				 * is empty.
a6aedc5dSRoger Pau Monné				 */
a6aedc5dSRoger Pau Monné				push_dir = xs_join(cur_path, dir[i]);
a6aedc5dSRoger Pau Monné				sbuf_delete(cur_path_sbuf);
a6aedc5dSRoger Pau Monné				cur_path_sbuf = push_dir;
a6aedc5dSRoger Pau Monné				cur_path = sbuf_data(cur_path_sbuf);
a6aedc5dSRoger Pau Monné				break;
a6aedc5dSRoger Pau Monné			} else if (error != 0) {
a6aedc5dSRoger Pau Monné				goto out;
a6aedc5dSRoger Pau Monné			}
a6aedc5dSRoger Pau Monné		}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		free(dir, M_XENSTORE);
a6aedc5dSRoger Pau Monné		dir = NULL;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		if (i == count) {
a6aedc5dSRoger Pau Monné			char *last_slash;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné			/* Directory is empty.  It is now safe to remove. */
a6aedc5dSRoger Pau Monné			error = xs_rm(xbt, cur_path, "");
a6aedc5dSRoger Pau Monné			if (error != 0)
a6aedc5dSRoger Pau Monné				goto out;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné			if (!strcmp(cur_path, root_path))
a6aedc5dSRoger Pau Monné				break;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné			/* Return to processing the parent directory. */
a6aedc5dSRoger Pau Monné			last_slash = strrchr(cur_path, '/');
a6aedc5dSRoger Pau Monné			KASSERT(last_slash != NULL,
a6aedc5dSRoger Pau Monné				("xs_rm_tree: mangled path %s", cur_path));
a6aedc5dSRoger Pau Monné			*last_slash = '\0';
a6aedc5dSRoger Pau Monné		}
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéout:
a6aedc5dSRoger Pau Monné	sbuf_delete(cur_path_sbuf);
a6aedc5dSRoger Pau Monné	sbuf_delete(root_path_sbuf);
a6aedc5dSRoger Pau Monné	if (dir != NULL)
a6aedc5dSRoger Pau Monné		free(dir, M_XENSTORE);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	if (local_xbt.id != 0) {
a6aedc5dSRoger Pau Monné		int terror;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		terror = xs_transaction_end(local_xbt, /*abort*/error != 0);
a6aedc5dSRoger Pau Monné		xbt.id = 0;
a6aedc5dSRoger Pau Monné		if (terror == EAGAIN && error == 0)
a6aedc5dSRoger Pau Monné			goto retry;
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné	return (error);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéint
a6aedc5dSRoger Pau Monnéxs_transaction_start(struct xs_transaction *t)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	char *id_str;
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	error = xs_single(XST_NIL, XS_TRANSACTION_START, "", NULL,
a6aedc5dSRoger Pau Monné	    (void **)&id_str);
a6aedc5dSRoger Pau Monné	if (error == 0) {
a6aedc5dSRoger Pau Monné		t->id = strtoul(id_str, NULL, 0);
a6aedc5dSRoger Pau Monné		free(id_str, M_XENSTORE);
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné	return (error);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéint
a6aedc5dSRoger Pau Monnéxs_transaction_end(struct xs_transaction t, int abort)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	char abortstr[2];
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	if (abort)
a6aedc5dSRoger Pau Monné		strcpy(abortstr, "F");
a6aedc5dSRoger Pau Monné	else
a6aedc5dSRoger Pau Monné		strcpy(abortstr, "T");
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (xs_single(t, XS_TRANSACTION_END, abortstr, NULL, NULL));
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéint
a6aedc5dSRoger Pau Monnéxs_scanf(struct xs_transaction t, const char *dir, const char *node,
a6aedc5dSRoger Pau Monné     int *scancountp, const char *fmt, ...)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	va_list ap;
a6aedc5dSRoger Pau Monné	int error, ns;
a6aedc5dSRoger Pau Monné	char *val;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	error = xs_read(t, dir, node, NULL, (void **) &val);
a6aedc5dSRoger Pau Monné	if (error)
a6aedc5dSRoger Pau Monné		return (error);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	va_start(ap, fmt);
a6aedc5dSRoger Pau Monné	ns = vsscanf(val, fmt, ap);
a6aedc5dSRoger Pau Monné	va_end(ap);
a6aedc5dSRoger Pau Monné	free(val, M_XENSTORE);
a6aedc5dSRoger Pau Monné	/* Distinctive errno. */
a6aedc5dSRoger Pau Monné	if (ns == 0)
a6aedc5dSRoger Pau Monné		return (ERANGE);
a6aedc5dSRoger Pau Monné	if (scancountp)
a6aedc5dSRoger Pau Monné		*scancountp = ns;
a6aedc5dSRoger Pau Monné	return (0);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéint
a6aedc5dSRoger Pau Monnéxs_vprintf(struct xs_transaction t,
a6aedc5dSRoger Pau Monné    const char *dir, const char *node, const char *fmt, va_list ap)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct sbuf *sb;
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	sb = sbuf_new_auto();
a6aedc5dSRoger Pau Monné	sbuf_vprintf(sb, fmt, ap);
a6aedc5dSRoger Pau Monné	sbuf_finish(sb);
a6aedc5dSRoger Pau Monné	error = xs_write(t, dir, node, sbuf_data(sb));
a6aedc5dSRoger Pau Monné	sbuf_delete(sb);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (error);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéint
a6aedc5dSRoger Pau Monnéxs_printf(struct xs_transaction t, const char *dir, const char *node,
a6aedc5dSRoger Pau Monné     const char *fmt, ...)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	va_list ap;
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	va_start(ap, fmt);
a6aedc5dSRoger Pau Monné	error = xs_vprintf(t, dir, node, fmt, ap);
a6aedc5dSRoger Pau Monné	va_end(ap);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (error);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéint
a6aedc5dSRoger Pau Monnéxs_gather(struct xs_transaction t, const char *dir, ...)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	va_list ap;
a6aedc5dSRoger Pau Monné	const char *name;
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	va_start(ap, dir);
a6aedc5dSRoger Pau Monné	error = 0;
a6aedc5dSRoger Pau Monné	while (error == 0 && (name = va_arg(ap, char *)) != NULL) {
a6aedc5dSRoger Pau Monné		const char *fmt = va_arg(ap, char *);
a6aedc5dSRoger Pau Monné		void *result = va_arg(ap, void *);
a6aedc5dSRoger Pau Monné		char *p;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		error = xs_read(t, dir, name, NULL, (void **) &p);
a6aedc5dSRoger Pau Monné		if (error)
a6aedc5dSRoger Pau Monné			break;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné		if (fmt) {
a6aedc5dSRoger Pau Monné			if (sscanf(p, fmt, result) == 0)
a6aedc5dSRoger Pau Monné				error = EINVAL;
a6aedc5dSRoger Pau Monné			free(p, M_XENSTORE);
a6aedc5dSRoger Pau Monné		} else
a6aedc5dSRoger Pau Monné			*(char **)result = p;
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné	va_end(ap);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (error);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnéint
a6aedc5dSRoger Pau Monnéxs_register_watch(struct xs_watch *watch)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	/* Pointer in ascii is the token. */
a6aedc5dSRoger Pau Monné	char token[sizeof(watch) * 2 + 1];
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	sprintf(token, "%lX", (long)watch);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	sx_slock(&xs.suspend_mutex);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	mtx_lock(&xs.registered_watches_lock);
a6aedc5dSRoger Pau Monné	KASSERT(find_watch(token) == NULL, ("watch already registered"));
a6aedc5dSRoger Pau Monné	LIST_INSERT_HEAD(&xs.registered_watches, watch, list);
a6aedc5dSRoger Pau Monné	mtx_unlock(&xs.registered_watches_lock);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	error = xs_watch(watch->node, token);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/* Ignore errors due to multiple registration. */
a6aedc5dSRoger Pau Monné	if (error == EEXIST)
a6aedc5dSRoger Pau Monné		error = 0;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	if (error != 0) {
a6aedc5dSRoger Pau Monné		mtx_lock(&xs.registered_watches_lock);
a6aedc5dSRoger Pau Monné		LIST_REMOVE(watch, list);
a6aedc5dSRoger Pau Monné		mtx_unlock(&xs.registered_watches_lock);
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	sx_sunlock(&xs.suspend_mutex);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	return (error);
a6aedc5dSRoger Pau Monné}
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monnévoid
a6aedc5dSRoger Pau Monnéxs_unregister_watch(struct xs_watch *watch)
a6aedc5dSRoger Pau Monné{
a6aedc5dSRoger Pau Monné	struct xs_stored_msg *msg, *tmp;
a6aedc5dSRoger Pau Monné	char token[sizeof(watch) * 2 + 1];
a6aedc5dSRoger Pau Monné	int error;
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	sprintf(token, "%lX", (long)watch);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	sx_slock(&xs.suspend_mutex);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	mtx_lock(&xs.registered_watches_lock);
a6aedc5dSRoger Pau Monné	if (find_watch(token) == NULL) {
a6aedc5dSRoger Pau Monné		mtx_unlock(&xs.registered_watches_lock);
a6aedc5dSRoger Pau Monné		sx_sunlock(&xs.suspend_mutex);
a6aedc5dSRoger Pau Monné		return;
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné	LIST_REMOVE(watch, list);
a6aedc5dSRoger Pau Monné	mtx_unlock(&xs.registered_watches_lock);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	error = xs_unwatch(watch->node, token);
a6aedc5dSRoger Pau Monné	if (error)
a6aedc5dSRoger Pau Monné		log(LOG_WARNING, "XENSTORE Failed to release watch %s: %i\n",
a6aedc5dSRoger Pau Monné		    watch->node, error);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	sx_sunlock(&xs.suspend_mutex);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/* Cancel pending watch events. */
a6aedc5dSRoger Pau Monné	mtx_lock(&xs.watch_events_lock);
a6aedc5dSRoger Pau Monné	TAILQ_FOREACH_SAFE(msg, &xs.watch_events, list, tmp) {
a6aedc5dSRoger Pau Monné		if (msg->u.watch.handle != watch)
a6aedc5dSRoger Pau Monné			continue;
a6aedc5dSRoger Pau Monné		TAILQ_REMOVE(&xs.watch_events, msg, list);
a6aedc5dSRoger Pau Monné		free(msg->u.watch.vec, M_XENSTORE);
a6aedc5dSRoger Pau Monné		free(msg, M_XENSTORE);
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné	mtx_unlock(&xs.watch_events_lock);
a6aedc5dSRoger Pau Monné
a6aedc5dSRoger Pau Monné	/* Flush any currently-executing callback, unless we are it. :-) */
a6aedc5dSRoger Pau Monné	if (curproc->p_pid != xs.xenwatch_pid) {
a6aedc5dSRoger Pau Monné		sx_xlock(&xs.xenwatch_mutex);
a6aedc5dSRoger Pau Monné		sx_xunlock(&xs.xenwatch_mutex);
a6aedc5dSRoger Pau Monné	}
a6aedc5dSRoger Pau Monné}
*41716b8dSRoger Pau Monné
*41716b8dSRoger Pau Monnévoid
*41716b8dSRoger Pau Monnéxs_lock(void)
*41716b8dSRoger Pau Monné{
*41716b8dSRoger Pau Monné
*41716b8dSRoger Pau Monné	sx_xlock(&xs.request_mutex);
*41716b8dSRoger Pau Monné	return;
*41716b8dSRoger Pau Monné}
*41716b8dSRoger Pau Monné
*41716b8dSRoger Pau Monnévoid
*41716b8dSRoger Pau Monnéxs_unlock(void)
*41716b8dSRoger Pau Monné{
*41716b8dSRoger Pau Monné
*41716b8dSRoger Pau Monné	sx_xunlock(&xs.request_mutex);
*41716b8dSRoger Pau Monné	return;
*41716b8dSRoger Pau Monné}
*41716b8dSRoger Pau Monné