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|
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2009 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
/*
* Xen event provider for DTrace
*
* NOTE: This provider is PRIVATE. It is intended as a short-term solution and
* may disappear or be re-implemented at anytime.
*
* This provider isn't suitable as a general-purpose solution for a number of
* reasons. First and foremost, we rely on the Xen tracing mechanism and don't
* have any way to gather data other than that collected by the Xen trace
* buffers. Further, it does not fit into the DTrace model (see "Interacting
* with DTrace" below.)
*
*
* Tracing in Xen
* --------------
*
* Xen implements a tracing facility for generating and collecting execution
* event traces from the hypervisor. When tracing is enabled, compiled in
* probes record events in contiguous per-CPU trace buffers.
*
* +---------+
* +------+ | |
* | CPUn |----> | BUFFERn |
* +------+ | |
* +---------+- tbuf.va + (tbuf.size * n)
* : :
* +---------+
* +------+ | |
* | CPU1 |----> | BUFFER1 |
* +------+ | |
* +---------+- tbuf.va + tbuf.size
* +------+ | |
* | CPU0 |----> | BUFFER0 |
* +------+ | |
* +---------+- tbuf.va
*
* Each CPU buffer consists of a metadata header followed by the trace records.
* The metadata consists of a producer/consumer pair of pointers into the buffer
* that point to the next record to be written and the next record to be read
* respectively. The trace record format is as follows:
*
* +--------------------------------------------------------------------------+
* | CPUID(uint_t) | TSC(uint64_t) | EVENTID(uint32_t) | DATA FIELDS |
* +--------------------------------------------------------------------------+
*
* DATA FIELDS:
* +--------------------------------------------------------------------------+
* | D1(uint32_t) | D2(uint32_t) | D3(uint32_t) | D4(uint32_t) | D5(uint32_t) |
* +--------------------------------------------------------------------------+
*
*
* Interacting with DTrace
* -----------------------
*
* Every xdt_poll_nsec nano-seconds we poll the trace buffers for data and feed
* each entry into dtrace_probe() with the corresponding probe ID for the event.
* As a result of this periodic collection implementation probe firings are
* asynchronous. This is the only sensible way to implement this form of
* provider, but because of its asynchronous nature asking things like
* "current CPU" and, more importantly, arbitrary questions about the context
* surrounding the probe firing are not meaningful. So, consumers should not
* attempt to infer anything beyond what is supplied via the probe arguments.
*/
#include <sys/types.h>
#include <sys/sysmacros.h>
#include <sys/modctl.h>
#include <sys/sunddi.h>
#include <sys/ddi.h>
#include <sys/conf.h>
#include <sys/devops.h>
#include <sys/stat.h>
#include <sys/cmn_err.h>
#include <sys/dtrace.h>
#include <sys/sdt.h>
#include <sys/cyclic.h>
#include <vm/seg_kmem.h>
#include <vm/hat_i86.h>
#include <sys/hypervisor.h>
#include <xen/public/trace.h>
#include <xen/public/sched.h>
#define XDT_POLL_DEFAULT 100000000 /* default poll interval (ns) */
#define XDT_POLL_MIN 10000000 /* min poll interval (ns) */
#define XDT_TBUF_RETRY 50 /* tbuf disable retry count */
/*
* The domid must match IDLE_DOMAIN_ID in xen.hg/xen/include/xen/sched.h
* in the xVM gate.
*/
#define IS_IDLE_DOM(domid) (domid == 0x7FFFU)
/* Macros to extract the domid and cpuid from a HVM trace data field */
#define HVM_DOMID(d) (d >> 16)
#define HVM_VCPUID(d) (d & 0xFFFF)
#define XDT_PROBE4(event, cpuid, arg0, arg1, arg2, arg3) { \
dtrace_id_t id = xdt_probemap[event]; \
if (id) \
dtrace_probe(id, cpuid, arg0, arg1, arg2, arg3); \
} \
#define XDT_PROBE3(event, cpuid, arg0, arg1, arg2) \
XDT_PROBE4(event, cpuid, arg0, arg1, arg2, 0)
#define XDT_PROBE2(event, cpuid, arg0, arg1) \
XDT_PROBE4(event, cpuid, arg0, arg1, 0, 0)
#define XDT_PROBE1(event, cpuid, arg0) \
XDT_PROBE4(event, cpuid, arg0, 0, 0, 0)
#define XDT_PROBE0(event, cpuid) \
XDT_PROBE4(event, cpuid, 0, 0, 0, 0)
/* Probe classes */
#define XDT_SCHED 0
#define XDT_MEM 1
#define XDT_HVM 2
#define XDT_NCLASSES 3
/* Probe events */
#define XDT_EVT_INVALID (-(int)1)
#define XDT_SCHED_OFF_CPU 0
#define XDT_SCHED_ON_CPU 1
#define XDT_SCHED_IDLE_OFF_CPU 2
#define XDT_SCHED_IDLE_ON_CPU 3
#define XDT_SCHED_BLOCK 4
#define XDT_SCHED_SLEEP 5
#define XDT_SCHED_WAKE 6
#define XDT_SCHED_YIELD 7
#define XDT_SCHED_SHUTDOWN_POWEROFF 8
#define XDT_SCHED_SHUTDOWN_REBOOT 9
#define XDT_SCHED_SHUTDOWN_SUSPEND 10
#define XDT_SCHED_SHUTDOWN_CRASH 11
#define XDT_MEM_PAGE_GRANT_MAP 12
#define XDT_MEM_PAGE_GRANT_UNMAP 13
#define XDT_MEM_PAGE_GRANT_TRANSFER 14
#define XDT_HVM_VMENTRY 15
#define XDT_HVM_VMEXIT 16
#define XDT_NEVENTS 17
typedef struct {
const char *pr_mod; /* probe module */
const char *pr_name; /* probe name */
int evt_id; /* event id */
uint_t class; /* probe class */
} xdt_probe_t;
typedef struct {
uint32_t trc_mask; /* trace mask */
uint32_t cnt; /* num enabled probes in class */
} xdt_classinfo_t;
typedef struct {
ulong_t prev_domid; /* previous dom executed */
ulong_t prev_vcpuid; /* previous vcpu executed */
ulong_t prev_ctime; /* time spent on cpu */
ulong_t next_domid; /* next dom to be scheduled */
ulong_t next_vcpuid; /* next vcpu to be scheduled */
ulong_t next_wtime; /* time spent waiting to get on cpu */
ulong_t next_ts; /* allocated time slice */
} xdt_schedinfo_t;
static struct {
uint_t cnt; /* total num of trace buffers */
size_t size; /* size of each cpu buffer */
mfn_t start_mfn; /* starting mfn of buffers */
caddr_t va; /* va buffers are mapped into */
/* per-cpu buffers */
struct t_buf **meta; /* buffer metadata */
struct t_rec **data; /* buffer data records */
/* statistics */
uint64_t stat_dropped_recs; /* records dropped */
uint64_t stat_spurious_cpu; /* recs with garbage cpuids */
uint64_t stat_spurious_switch; /* inconsistent vcpu switches */
uint64_t stat_unknown_shutdown; /* unknown shutdown code */
uint64_t stat_unknown_recs; /* unknown records */
} tbuf;
static char *xdt_stats[] = {
"dropped_recs",
};
/*
* Tunable variables
*
* The following may be tuned by adding a line to /etc/system that
* includes both the name of the module ("xdt") and the name of the variable.
* For example:
* set xdt:xdt_tbuf_pages = 40
*/
uint_t xdt_tbuf_pages = 20; /* pages to alloc per-cpu buf */
/*
* The following may be tuned by adding a line to
* /platform/i86xpv/kernel/drv/xdt.conf.
* For example:
* xdt_poll_nsec = 200000000;
*/
static hrtime_t xdt_poll_nsec; /* trace buffer poll interval */
/*
* Internal variables
*/
static dev_info_t *xdt_devi;
static dtrace_provider_id_t xdt_id;
static uint_t xdt_ncpus; /* total number of phys CPUs */
static uint32_t cur_trace_mask; /* current trace mask */
static xdt_schedinfo_t *xdt_cpu_schedinfo; /* per-cpu sched info */
dtrace_id_t xdt_probemap[XDT_NEVENTS]; /* map of enabled probes */
dtrace_id_t xdt_prid[XDT_NEVENTS]; /* IDs of registered events */
static cyclic_id_t xdt_cyclic = CYCLIC_NONE;
static kstat_t *xdt_kstats;
static xdt_classinfo_t xdt_classinfo[XDT_NCLASSES];
static xdt_probe_t xdt_probe[] = {
/* Sched probes */
{ "sched", "off-cpu", XDT_SCHED_OFF_CPU, XDT_SCHED },
{ "sched", "on-cpu", XDT_SCHED_ON_CPU, XDT_SCHED },
{ "sched", "idle-off-cpu", XDT_SCHED_IDLE_OFF_CPU, XDT_SCHED },
{ "sched", "idle-on-cpu", XDT_SCHED_IDLE_ON_CPU, XDT_SCHED },
{ "sched", "block", XDT_SCHED_BLOCK, XDT_SCHED },
{ "sched", "sleep", XDT_SCHED_SLEEP, XDT_SCHED },
{ "sched", "wake", XDT_SCHED_WAKE, XDT_SCHED },
{ "sched", "yield", XDT_SCHED_YIELD, XDT_SCHED },
{ "sched", "shutdown-poweroff", XDT_SCHED_SHUTDOWN_POWEROFF,
XDT_SCHED },
{ "sched", "shutdown-reboot", XDT_SCHED_SHUTDOWN_REBOOT, XDT_SCHED },
{ "sched", "shutdown-suspend", XDT_SCHED_SHUTDOWN_SUSPEND, XDT_SCHED },
{ "sched", "shutdown-crash", XDT_SCHED_SHUTDOWN_CRASH, XDT_SCHED },
/* Memory probes */
{ "mem", "page-grant-map", XDT_MEM_PAGE_GRANT_MAP, XDT_MEM },
{ "mem", "page-grant-unmap", XDT_MEM_PAGE_GRANT_UNMAP, XDT_MEM },
{ "mem", "page-grant-transfer", XDT_MEM_PAGE_GRANT_TRANSFER, XDT_MEM },
/* HVM probes */
{ "hvm", "vmentry", XDT_HVM_VMENTRY, XDT_HVM },
{ "hvm", "vmexit", XDT_HVM_VMEXIT, XDT_HVM },
{ NULL }
};
extern uint_t xen_get_nphyscpus(void);
static inline uint32_t
xdt_nr_active_probes()
{
int i;
uint32_t tot = 0;
for (i = 0; i < XDT_NCLASSES; i++)
tot += xdt_classinfo[i].cnt;
return (tot);
}
static void
xdt_init_trace_masks(void)
{
xdt_classinfo[XDT_SCHED].trc_mask = TRC_SCHED;
xdt_classinfo[XDT_MEM].trc_mask = TRC_MEM;
xdt_classinfo[XDT_HVM].trc_mask = TRC_HVM;
}
static int
xdt_kstat_update(kstat_t *ksp, int flag)
{
kstat_named_t *knp;
if (flag != KSTAT_READ)
return (EACCES);
knp = ksp->ks_data;
/*
* Assignment order should match that of the names in
* xdt_stats.
*/
(knp++)->value.ui64 = tbuf.stat_dropped_recs;
return (0);
}
static void
xdt_kstat_init(void)
{
int nstats = sizeof (xdt_stats) / sizeof (xdt_stats[0]);
char **cp = xdt_stats;
kstat_named_t *knp;
if ((xdt_kstats = kstat_create("xdt", 0, "trace_statistics", "misc",
KSTAT_TYPE_NAMED, nstats, 0)) == NULL)
return;
xdt_kstats->ks_update = xdt_kstat_update;
knp = xdt_kstats->ks_data;
while (nstats > 0) {
kstat_named_init(knp, *cp, KSTAT_DATA_UINT64);
knp++;
cp++;
nstats--;
}
kstat_install(xdt_kstats);
}
static int
xdt_sysctl_tbuf(xen_sysctl_tbuf_op_t *tbuf_op)
{
xen_sysctl_t op;
int xerr;
op.cmd = XEN_SYSCTL_tbuf_op;
op.interface_version = XEN_SYSCTL_INTERFACE_VERSION;
op.u.tbuf_op = *tbuf_op;
if ((xerr = HYPERVISOR_sysctl(&op)) != 0)
return (xen_xlate_errcode(xerr));
*tbuf_op = op.u.tbuf_op;
return (0);
}
static int
xdt_map_trace_buffers(mfn_t mfn, caddr_t va, size_t len)
{
x86pte_t pte;
caddr_t const sva = va;
caddr_t const eva = va + len;
int xerr;
ASSERT(mfn != MFN_INVALID);
ASSERT(va != NULL);
ASSERT(IS_PAGEALIGNED(len));
for (; va < eva; va += MMU_PAGESIZE) {
/*
* Ask the HAT to load a throwaway mapping to page zero, then
* overwrite it with the hypervisor mapping. It gets removed
* later via hat_unload().
*/
hat_devload(kas.a_hat, va, MMU_PAGESIZE, (pfn_t)0,
PROT_READ | HAT_UNORDERED_OK,
HAT_LOAD_NOCONSIST | HAT_LOAD);
pte = mmu_ptob((x86pte_t)mfn) | PT_VALID | PT_USER
| PT_FOREIGN | PT_WRITABLE;
xerr = HYPERVISOR_update_va_mapping_otherdomain((ulong_t)va,
pte, UVMF_INVLPG | UVMF_LOCAL, DOMID_XEN);
if (xerr != 0) {
/* unmap pages loaded so far */
size_t ulen = (uintptr_t)(va + MMU_PAGESIZE) -
(uintptr_t)sva;
hat_unload(kas.a_hat, sva, ulen, HAT_UNLOAD_UNMAP);
return (xen_xlate_errcode(xerr));
}
mfn++;
}
return (0);
}
static int
xdt_attach_trace_buffers(void)
{
xen_sysctl_tbuf_op_t tbuf_op;
size_t len;
int err;
uint_t i;
/*
* Xen does not support trace buffer re-sizing. If the buffers
* have already been allocated we just use them as is.
*/
tbuf_op.cmd = XEN_SYSCTL_TBUFOP_get_info;
if ((err = xdt_sysctl_tbuf(&tbuf_op)) != 0)
return (err);
if (tbuf_op.size == 0) {
/* set trace buffer size */
tbuf_op.cmd = XEN_SYSCTL_TBUFOP_set_size;
tbuf_op.size = xdt_tbuf_pages;
(void) xdt_sysctl_tbuf(&tbuf_op);
/* get trace buffer info */
tbuf_op.cmd = XEN_SYSCTL_TBUFOP_get_info;
if ((err = xdt_sysctl_tbuf(&tbuf_op)) != 0)
return (err);
if (tbuf_op.size == 0) {
cmn_err(CE_NOTE, "Couldn't allocate trace buffers.");
return (ENOBUFS);
}
}
tbuf.size = tbuf_op.size;
tbuf.start_mfn = (mfn_t)tbuf_op.buffer_mfn;
tbuf.cnt = xdt_ncpus;
ASSERT(tbuf.start_mfn != MFN_INVALID);
ASSERT(tbuf.cnt > 0);
len = tbuf.size * tbuf.cnt;
tbuf.va = vmem_alloc(heap_arena, len, VM_SLEEP);
if ((err = xdt_map_trace_buffers(tbuf.start_mfn, tbuf.va, len)) != 0) {
vmem_free(heap_arena, tbuf.va, len);
tbuf.va = NULL;
return (err);
}
tbuf.meta = (struct t_buf **)kmem_alloc(tbuf.cnt * sizeof (*tbuf.meta),
KM_SLEEP);
tbuf.data = (struct t_rec **)kmem_alloc(tbuf.cnt * sizeof (*tbuf.data),
KM_SLEEP);
for (i = 0; i < tbuf.cnt; i++) {
void *cpu_buf = (void *)(tbuf.va + (tbuf.size * i));
tbuf.meta[i] = cpu_buf;
tbuf.data[i] = (struct t_rec *)((uintptr_t)cpu_buf +
sizeof (struct t_buf));
/* throw away stale trace records */
tbuf.meta[i]->cons = tbuf.meta[i]->prod;
}
return (0);
}
static void
xdt_detach_trace_buffers(void)
{
size_t len = tbuf.size * tbuf.cnt;
ASSERT(tbuf.va != NULL);
hat_unload(kas.a_hat, tbuf.va, len,
HAT_UNLOAD_UNMAP | HAT_UNLOAD_UNLOCK);
vmem_free(heap_arena, tbuf.va, len);
kmem_free(tbuf.meta, tbuf.cnt * sizeof (*tbuf.meta));
kmem_free(tbuf.data, tbuf.cnt * sizeof (*tbuf.data));
}
static inline void
xdt_process_rec(uint_t cpuid, struct t_rec *rec)
{
xdt_schedinfo_t *sp = &xdt_cpu_schedinfo[cpuid];
int eid;
ASSERT(rec != NULL);
ASSERT(xdt_ncpus == xen_get_nphyscpus());
if (cpuid >= xdt_ncpus) {
tbuf.stat_spurious_cpu++;
return;
}
switch (rec->event) {
/*
* Sched probes
*/
case TRC_SCHED_SWITCH_INFPREV:
/*
* Info on vCPU being de-scheduled
*
* rec->data[0] = prev domid
* rec->data[1] = time spent on pcpu
*/
sp->prev_domid = rec->data[0];
sp->prev_ctime = rec->data[1];
break;
case TRC_SCHED_SWITCH_INFNEXT:
/*
* Info on next vCPU to be scheduled
*
* rec->data[0] = next domid
* rec->data[1] = time spent waiting to get on cpu
* rec->data[2] = time slice
*/
sp->next_domid = rec->data[0];
sp->next_wtime = rec->data[1];
sp->next_ts = rec->data[2];
break;
case TRC_SCHED_SWITCH:
/*
* vCPU switch
*
* rec->data[0] = prev domid
* rec->data[1] = prev vcpuid
* rec->data[2] = next domid
* rec->data[3] = next vcpuid
*/
if (rec->data[0] != sp->prev_domid &&
rec->data[2] != sp->next_domid) {
/* prev and next info don't match doms being sched'd */
tbuf.stat_spurious_switch++;
return;
}
sp->prev_vcpuid = rec->data[1];
sp->next_vcpuid = rec->data[3];
XDT_PROBE3(IS_IDLE_DOM(sp->prev_domid)?
XDT_SCHED_IDLE_OFF_CPU:XDT_SCHED_OFF_CPU,
cpuid, sp->prev_domid, sp->prev_vcpuid, sp->prev_ctime);
XDT_PROBE4(IS_IDLE_DOM(sp->next_domid)?
XDT_SCHED_IDLE_ON_CPU:XDT_SCHED_ON_CPU,
cpuid, sp->next_domid, sp->next_vcpuid, sp->next_wtime,
sp->next_ts);
break;
case TRC_SCHED_BLOCK:
/*
* vCPU blocked
*
* rec->data[0] = domid
* rec->data[1] = vcpuid
*/
XDT_PROBE2(XDT_SCHED_BLOCK, cpuid, rec->data[0], rec->data[1]);
break;
case TRC_SCHED_SLEEP:
/*
* Put vCPU to sleep
*
* rec->data[0] = domid
* rec->data[1] = vcpuid
*/
XDT_PROBE2(XDT_SCHED_SLEEP, cpuid, rec->data[0], rec->data[1]);
break;
case TRC_SCHED_WAKE:
/*
* Wake up vCPU
*
* rec->data[0] = domid
* rec->data[1] = vcpuid
*/
XDT_PROBE2(XDT_SCHED_WAKE, cpuid, rec->data[0], rec->data[1]);
break;
case TRC_SCHED_YIELD:
/*
* vCPU yielded
*
* rec->data[0] = domid
* rec->data[1] = vcpuid
*/
XDT_PROBE2(XDT_SCHED_YIELD, cpuid, rec->data[0], rec->data[1]);
break;
case TRC_SCHED_SHUTDOWN:
/*
* Guest shutting down
*
* rec->data[0] = domid
* rec->data[1] = initiating vcpu
* rec->data[2] = shutdown code
*/
switch (rec->data[2]) {
case SHUTDOWN_poweroff:
eid = XDT_SCHED_SHUTDOWN_POWEROFF;
break;
case SHUTDOWN_reboot:
eid = XDT_SCHED_SHUTDOWN_REBOOT;
break;
case SHUTDOWN_suspend:
eid = XDT_SCHED_SHUTDOWN_SUSPEND;
break;
case SHUTDOWN_crash:
eid = XDT_SCHED_SHUTDOWN_CRASH;
break;
default:
tbuf.stat_unknown_shutdown++;
return;
}
XDT_PROBE1(eid, cpuid, rec->data[0]);
break;
/*
* Mem probes
*/
case TRC_MEM_PAGE_GRANT_MAP:
/*
* Guest mapped page grant
*
* rec->data[0] = domid
*/
XDT_PROBE1(XDT_MEM_PAGE_GRANT_MAP, cpuid, rec->data[0]);
break;
case TRC_MEM_PAGE_GRANT_UNMAP:
/*
* Guest unmapped page grant
*
* rec->data[0] = domid
*/
XDT_PROBE1(XDT_MEM_PAGE_GRANT_UNMAP, cpuid, rec->data[0]);
break;
case TRC_MEM_PAGE_GRANT_TRANSFER:
/*
* Page grant is being transferred
*
* rec->data[0] = target domid
*/
XDT_PROBE1(XDT_MEM_PAGE_GRANT_TRANSFER, cpuid, rec->data[0]);
break;
/*
* HVM probes
*/
case TRC_HVM_VMENTRY:
/*
* Return to guest via vmx_launch/vmrun
*
* rec->data[0] = (domid<<16 + vcpuid)
*/
XDT_PROBE2(XDT_HVM_VMENTRY, cpuid, HVM_DOMID(rec->data[0]),
HVM_VCPUID(rec->data[0]));
break;
case TRC_HVM_VMEXIT:
/*
* Entry into VMEXIT handler
*
* rec->data[0] = (domid<<16 + vcpuid)
* rec->data[1] = guest rip
* rec->data[2] = cpu vendor specific exit code
*/
XDT_PROBE4(XDT_HVM_VMEXIT, cpuid, HVM_DOMID(rec->data[0]),
HVM_VCPUID(rec->data[0]), rec->data[1], rec->data[2]);
break;
case TRC_LOST_RECORDS:
tbuf.stat_dropped_recs++;
break;
default:
tbuf.stat_unknown_recs++;
break;
}
}
/*ARGSUSED*/
static void
xdt_tbuf_scan(void *arg)
{
uint_t cpuid;
size_t nrecs;
struct t_rec *rec;
uint32_t prod;
nrecs = (tbuf.size - sizeof (struct t_buf)) / sizeof (struct t_rec);
/* scan all cpu buffers for new records */
for (cpuid = 0; cpuid < tbuf.cnt; cpuid++) {
prod = tbuf.meta[cpuid]->prod;
membar_consumer(); /* read prod /then/ data */
while (tbuf.meta[cpuid]->cons != prod) {
rec = tbuf.data[cpuid] + tbuf.meta[cpuid]->cons % nrecs;
xdt_process_rec(cpuid, rec);
membar_exit(); /* read data /then/ update cons */
tbuf.meta[cpuid]->cons++;
}
}
}
static void
xdt_cyclic_enable(void)
{
cyc_handler_t hdlr;
cyc_time_t when;
ASSERT(MUTEX_HELD(&cpu_lock));
hdlr.cyh_func = xdt_tbuf_scan;
hdlr.cyh_arg = NULL;
hdlr.cyh_level = CY_LOW_LEVEL;
when.cyt_interval = xdt_poll_nsec;
when.cyt_when = dtrace_gethrtime() + when.cyt_interval;
xdt_cyclic = cyclic_add(&hdlr, &when);
}
static void
xdt_probe_create(xdt_probe_t *p)
{
ASSERT(p != NULL && p->pr_mod != NULL);
if (dtrace_probe_lookup(xdt_id, p->pr_mod, NULL, p->pr_name) != 0)
return;
xdt_prid[p->evt_id] = dtrace_probe_create(xdt_id, p->pr_mod, NULL,
p->pr_name, dtrace_mach_aframes(), p);
}
/*ARGSUSED*/
static void
xdt_provide(void *arg, const dtrace_probedesc_t *desc)
{
const char *mod, *name;
int i;
if (desc == NULL) {
for (i = 0; xdt_probe[i].pr_mod != NULL; i++) {
xdt_probe_create(&xdt_probe[i]);
}
} else {
mod = desc->dtpd_mod;
name = desc->dtpd_name;
for (i = 0; xdt_probe[i].pr_mod != NULL; i++) {
int l1 = strlen(xdt_probe[i].pr_name);
int l2 = strlen(xdt_probe[i].pr_mod);
if (strncmp(name, xdt_probe[i].pr_name, l1) == 0 &&
strncmp(mod, xdt_probe[i].pr_mod, l2) == 0)
break;
}
if (xdt_probe[i].pr_mod == NULL)
return;
xdt_probe_create(&xdt_probe[i]);
}
}
/*ARGSUSED*/
static void
xdt_destroy(void *arg, dtrace_id_t id, void *parg)
{
xdt_probe_t *p = parg;
xdt_prid[p->evt_id] = 0;
}
static void
xdt_set_trace_mask(uint32_t mask)
{
xen_sysctl_tbuf_op_t tbuf_op;
tbuf_op.cmd = XEN_SYSCTL_TBUFOP_set_evt_mask;
tbuf_op.evt_mask = mask;
(void) xdt_sysctl_tbuf(&tbuf_op);
}
/*ARGSUSED*/
static int
xdt_enable(void *arg, dtrace_id_t id, void *parg)
{
xdt_probe_t *p = parg;
xen_sysctl_tbuf_op_t tbuf_op;
ASSERT(MUTEX_HELD(&cpu_lock));
ASSERT(xdt_prid[p->evt_id] != 0);
xdt_probemap[p->evt_id] = xdt_prid[p->evt_id];
xdt_classinfo[p->class].cnt++;
if (xdt_classinfo[p->class].cnt == 1) {
/* set the trace mask for this class */
cur_trace_mask |= xdt_classinfo[p->class].trc_mask;
xdt_set_trace_mask(cur_trace_mask);
}
if (xdt_cyclic == CYCLIC_NONE) {
tbuf_op.cmd = XEN_SYSCTL_TBUFOP_enable;
if (xdt_sysctl_tbuf(&tbuf_op) != 0) {
cmn_err(CE_NOTE, "Couldn't enable hypervisor tracing.");
return (-1);
}
xdt_cyclic_enable();
}
return (0);
}
/*ARGSUSED*/
static void
xdt_disable(void *arg, dtrace_id_t id, void *parg)
{
xdt_probe_t *p = parg;
xen_sysctl_tbuf_op_t tbuf_op;
int i, err;
ASSERT(MUTEX_HELD(&cpu_lock));
ASSERT(xdt_probemap[p->evt_id] != 0);
ASSERT(xdt_probemap[p->evt_id] == xdt_prid[p->evt_id]);
ASSERT(xdt_classinfo[p->class].cnt > 0);
/*
* We could be here in the slight window between the cyclic firing and
* a call to dtrace_probe() occurring. We need to be careful if we tear
* down any shared state.
*/
xdt_probemap[p->evt_id] = 0;
xdt_classinfo[p->class].cnt--;
if (xdt_nr_active_probes() == 0) {
cur_trace_mask = 0;
if (xdt_cyclic == CYCLIC_NONE)
return;
/*
* We will try to disable the trace buffers. If we fail for some
* reason we will try again, up to a count of XDT_TBUF_RETRY.
* If we still aren't successful we try to set the trace mask
* to 0 in order to prevent trace records from being written.
*/
tbuf_op.cmd = XEN_SYSCTL_TBUFOP_disable;
i = 0;
do {
err = xdt_sysctl_tbuf(&tbuf_op);
} while ((err != 0) && (++i < XDT_TBUF_RETRY));
if (err != 0) {
cmn_err(CE_NOTE,
"Couldn't disable hypervisor tracing.");
xdt_set_trace_mask(0);
} else {
cyclic_remove(xdt_cyclic);
xdt_cyclic = CYCLIC_NONE;
/*
* We don't bother making the hypercall to set
* the trace mask, since it will be reset when
* tracing is re-enabled.
*/
}
} else if (xdt_classinfo[p->class].cnt == 0) {
cur_trace_mask ^= xdt_classinfo[p->class].trc_mask;
/* other probes are enabled, so add the sub-class mask back */
cur_trace_mask |= 0xF000;
xdt_set_trace_mask(cur_trace_mask);
}
}
static dtrace_pattr_t xdt_attr = {
{ DTRACE_STABILITY_PRIVATE, DTRACE_STABILITY_PRIVATE, DTRACE_CLASS_PLATFORM },
{ DTRACE_STABILITY_PRIVATE, DTRACE_STABILITY_PRIVATE, DTRACE_CLASS_PLATFORM },
{ DTRACE_STABILITY_PRIVATE, DTRACE_STABILITY_PRIVATE, DTRACE_CLASS_UNKNOWN },
{ DTRACE_STABILITY_PRIVATE, DTRACE_STABILITY_PRIVATE, DTRACE_CLASS_PLATFORM },
{ DTRACE_STABILITY_PRIVATE, DTRACE_STABILITY_PRIVATE, DTRACE_CLASS_PLATFORM },
};
static dtrace_pops_t xdt_pops = {
xdt_provide, /* dtps_provide() */
NULL, /* dtps_provide_module() */
xdt_enable, /* dtps_enable() */
xdt_disable, /* dtps_disable() */
NULL, /* dtps_suspend() */
NULL, /* dtps_resume() */
NULL, /* dtps_getargdesc() */
NULL, /* dtps_getargval() */
NULL, /* dtps_usermode() */
xdt_destroy /* dtps_destroy() */
};
static int
xdt_attach(dev_info_t *devi, ddi_attach_cmd_t cmd)
{
int val;
if (!DOMAIN_IS_INITDOMAIN(xen_info))
return (DDI_FAILURE);
switch (cmd) {
case DDI_ATTACH:
break;
case DDI_RESUME:
/*
* We might support proper suspend/resume in the future, so,
* return DDI_FAILURE for now.
*/
return (DDI_FAILURE);
default:
return (DDI_FAILURE);
}
xdt_ncpus = xen_get_nphyscpus();
ASSERT(xdt_ncpus > 0);
if (ddi_create_minor_node(devi, "xdt", S_IFCHR, 0, DDI_PSEUDO, 0) ==
DDI_FAILURE || xdt_attach_trace_buffers() != 0 ||
dtrace_register("xdt", &xdt_attr, DTRACE_PRIV_KERNEL, NULL,
&xdt_pops, NULL, &xdt_id) != 0) {
if (tbuf.va != NULL)
xdt_detach_trace_buffers();
ddi_remove_minor_node(devi, NULL);
return (DDI_FAILURE);
}
val = ddi_getprop(DDI_DEV_T_ANY, devi, DDI_PROP_DONTPASS,
"xdt_poll_nsec", XDT_POLL_DEFAULT);
xdt_poll_nsec = MAX(val, XDT_POLL_MIN);
xdt_cpu_schedinfo = (xdt_schedinfo_t *)kmem_alloc(xdt_ncpus *
sizeof (xdt_schedinfo_t), KM_SLEEP);
xdt_init_trace_masks();
xdt_kstat_init();
xdt_devi = devi;
ddi_report_dev(devi);
return (DDI_SUCCESS);
}
static int
xdt_detach(dev_info_t *devi, ddi_detach_cmd_t cmd)
{
switch (cmd) {
case DDI_DETACH:
break;
case DDI_SUSPEND:
/*
* We might support proper suspend/resume in the future. So
* return DDI_FAILURE for now.
*/
return (DDI_FAILURE);
default:
return (DDI_FAILURE);
}
if (dtrace_unregister(xdt_id) != 0)
return (DDI_FAILURE);
xdt_detach_trace_buffers();
kmem_free(xdt_cpu_schedinfo, xdt_ncpus * sizeof (xdt_schedinfo_t));
if (xdt_cyclic != CYCLIC_NONE)
cyclic_remove(xdt_cyclic);
if (xdt_kstats != NULL)
kstat_delete(xdt_kstats);
xdt_devi = (void *)0;
ddi_remove_minor_node(devi, NULL);
return (DDI_SUCCESS);
}
/*ARGSUSED*/
static int
xdt_info(dev_info_t *devi, ddi_info_cmd_t infocmd, void *arg, void **result)
{
int error;
switch (infocmd) {
case DDI_INFO_DEVT2DEVINFO:
*result = xdt_devi;
error = DDI_SUCCESS;
break;
case DDI_INFO_DEVT2INSTANCE:
*result = (void *)0;
error = DDI_SUCCESS;
break;
default:
error = DDI_FAILURE;
}
return (error);
}
static struct cb_ops xdt_cb_ops = {
nulldev, /* open(9E) */
nodev, /* close(9E) */
nodev, /* strategy(9E) */
nodev, /* print(9E) */
nodev, /* dump(9E) */
nodev, /* read(9E) */
nodev, /* write(9E) */
nodev, /* ioctl(9E) */
nodev, /* devmap(9E) */
nodev, /* mmap(9E) */
nodev, /* segmap(9E) */
nochpoll, /* chpoll(9E) */
ddi_prop_op, /* prop_op(9E) */
NULL, /* streamtab(9S) */
D_MP | D_64BIT | D_NEW /* cb_flag */
};
static struct dev_ops xdt_ops = {
DEVO_REV, /* devo_rev */
0, /* devo_refcnt */
xdt_info, /* getinfo(9E) */
nulldev, /* identify(9E) */
nulldev, /* probe(9E) */
xdt_attach, /* attach(9E) */
xdt_detach, /* detach(9E) */
nulldev, /* devo_reset */
&xdt_cb_ops, /* devo_cb_ops */
NULL, /* devo_bus_ops */
NULL, /* power(9E) */
ddi_quiesce_not_needed, /* devo_quiesce */
};
static struct modldrv modldrv = {
&mod_driverops,
"Hypervisor event tracing",
&xdt_ops
};
static struct modlinkage modlinkage = {
MODREV_1,
&modldrv,
NULL
};
int
_init(void)
{
return (mod_install(&modlinkage));
}
int
_fini(void)
{
return (mod_remove(&modlinkage));
}
int
_info(struct modinfo *modinfop)
{
return (mod_info(&modlinkage, modinfop));
}
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