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|
/* $Id: PerformanceSolaris.cpp $ */
/** @file
* VBox Solaris-specific Performance Classes implementation.
*/
/*
* Copyright (C) 2008-2023 Oracle and/or its affiliates.
*
* This file is part of VirtualBox base platform packages, as
* available from https://www.virtualbox.org.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation, in version 3 of the
* License.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see <https://www.gnu.org/licenses>.
*
* SPDX-License-Identifier: GPL-3.0-only
*/
#define LOG_GROUP LOG_GROUP_MAIN_PERFORMANCECOLLECTOR
#undef _FILE_OFFSET_BITS
#include <procfs.h>
#include <stdio.h>
#include <errno.h>
#include <fcntl.h>
#include <kstat.h>
#include <unistd.h>
#include <sys/sysinfo.h>
#include <sys/time.h>
#include <sys/types.h>
#include <sys/statvfs.h>
#include <iprt/ctype.h>
#include <iprt/err.h>
#include <iprt/string.h>
#include <iprt/alloc.h>
#include <iprt/param.h>
#include <iprt/path.h>
#include <iprt/system.h>
#include "LoggingNew.h"
#include "Performance.h"
#include <dlfcn.h>
#include <libzfs.h>
#include <libnvpair.h>
#include <map>
namespace pm {
typedef libzfs_handle_t *(*PFNZFSINIT)(void);
typedef void (*PFNZFSFINI)(libzfs_handle_t *);
typedef zfs_handle_t *(*PFNZFSOPEN)(libzfs_handle_t *, const char *, int);
typedef void (*PFNZFSCLOSE)(zfs_handle_t *);
typedef uint64_t (*PFNZFSPROPGETINT)(zfs_handle_t *, zfs_prop_t);
typedef zpool_handle_t *(*PFNZPOOLOPEN)(libzfs_handle_t *, const char *);
typedef void (*PFNZPOOLCLOSE)(zpool_handle_t *);
typedef nvlist_t *(*PFNZPOOLGETCONFIG)(zpool_handle_t *, nvlist_t **);
typedef char *(*PFNZPOOLVDEVNAME)(libzfs_handle_t *, zpool_handle_t *, nvlist_t *, boolean_t);
typedef std::map<RTCString,RTCString> FsMap;
class CollectorSolaris : public CollectorHAL
{
public:
CollectorSolaris();
virtual ~CollectorSolaris();
virtual int getHostMemoryUsage(ULONG *total, ULONG *used, ULONG *available);
virtual int getHostFilesystemUsage(const char *name, ULONG *total, ULONG *used, ULONG *available);
virtual int getHostDiskSize(const char *name, uint64_t *size);
virtual int getProcessMemoryUsage(RTPROCESS process, ULONG *used);
virtual int getRawHostCpuLoad(uint64_t *user, uint64_t *kernel, uint64_t *idle);
virtual int getRawHostNetworkLoad(const char *name, uint64_t *rx, uint64_t *tx);
virtual int getRawHostDiskLoad(const char *name, uint64_t *disk_ms, uint64_t *total_ms);
virtual int getRawProcessCpuLoad(RTPROCESS process, uint64_t *user, uint64_t *kernel, uint64_t *total);
virtual int getDiskListByFs(const char *name, DiskList& listUsage, DiskList& listLoad);
private:
static uint32_t getInstance(const char *pszIfaceName, char *pszDevName);
uint64_t getZfsTotal(uint64_t cbTotal, const char *szFsType, const char *szFsName);
void updateFilesystemMap(void);
RTCString physToInstName(const char *pcszPhysName);
RTCString pathToInstName(const char *pcszDevPathName);
uint64_t wrapCorrection(uint32_t cur, uint64_t prev, const char *name);
uint64_t wrapDetection(uint64_t cur, uint64_t prev, const char *name);
kstat_ctl_t *mKC;
kstat_t *mSysPages;
kstat_t *mZFSCache;
void *mZfsSo;
libzfs_handle_t *mZfsLib;
PFNZFSINIT mZfsInit;
PFNZFSFINI mZfsFini;
PFNZFSOPEN mZfsOpen;
PFNZFSCLOSE mZfsClose;
PFNZFSPROPGETINT mZfsPropGetInt;
PFNZPOOLOPEN mZpoolOpen;
PFNZPOOLCLOSE mZpoolClose;
PFNZPOOLGETCONFIG mZpoolGetConfig;
PFNZPOOLVDEVNAME mZpoolVdevName;
FsMap mFsMap;
uint32_t mCpus;
ULONG totalRAM;
};
CollectorHAL *createHAL()
{
return new CollectorSolaris();
}
// Collector HAL for Solaris
CollectorSolaris::CollectorSolaris()
: mKC(0),
mSysPages(0),
mZFSCache(0),
mZfsLib(0),
mCpus(0)
{
if ((mKC = kstat_open()) == 0)
{
Log(("kstat_open() -> %d\n", errno));
return;
}
if ((mSysPages = kstat_lookup(mKC, (char *)"unix", 0, (char *)"system_pages")) == 0)
{
Log(("kstat_lookup(system_pages) -> %d\n", errno));
return;
}
if ((mZFSCache = kstat_lookup(mKC, (char *)"zfs", 0, (char *)"arcstats")) == 0)
{
Log(("kstat_lookup(system_pages) -> %d\n", errno));
}
/* Try to load libzfs dynamically, it may be missing. */
mZfsSo = dlopen("libzfs.so", RTLD_LAZY);
if (mZfsSo)
{
mZfsInit = (PFNZFSINIT)(uintptr_t)dlsym(mZfsSo, "libzfs_init");
mZfsFini = (PFNZFSFINI)(uintptr_t)dlsym(mZfsSo, "libzfs_fini");
mZfsOpen = (PFNZFSOPEN)(uintptr_t)dlsym(mZfsSo, "zfs_open");
mZfsClose = (PFNZFSCLOSE)(uintptr_t)dlsym(mZfsSo, "zfs_close");
mZfsPropGetInt = (PFNZFSPROPGETINT)(uintptr_t)dlsym(mZfsSo, "zfs_prop_get_int");
mZpoolOpen = (PFNZPOOLOPEN)(uintptr_t)dlsym(mZfsSo, "zpool_open");
mZpoolClose = (PFNZPOOLCLOSE)(uintptr_t)dlsym(mZfsSo, "zpool_close");
mZpoolGetConfig = (PFNZPOOLGETCONFIG)(uintptr_t)dlsym(mZfsSo, "zpool_get_config");
mZpoolVdevName = (PFNZPOOLVDEVNAME)(uintptr_t)dlsym(mZfsSo, "zpool_vdev_name");
if ( mZfsInit
&& mZfsOpen
&& mZfsClose
&& mZfsPropGetInt
&& mZpoolOpen
&& mZpoolClose
&& mZpoolGetConfig
&& mZpoolVdevName)
mZfsLib = mZfsInit();
else
LogRel(("Incompatible libzfs? libzfs_init=%p zfs_open=%p zfs_close=%p zfs_prop_get_int=%p\n",
mZfsInit, mZfsOpen, mZfsClose, mZfsPropGetInt));
}
updateFilesystemMap();
/* Notice that mCpus member will be initialized by HostCpuLoadRaw::init() */
uint64_t cb;
int vrc = RTSystemQueryTotalRam(&cb);
if (RT_FAILURE(vrc))
totalRAM = 0;
else
totalRAM = (ULONG)(cb / 1024);
}
CollectorSolaris::~CollectorSolaris()
{
if (mKC)
kstat_close(mKC);
/* Not calling libzfs_fini() causes file descriptor leaks (#6788). */
if (mZfsFini && mZfsLib)
mZfsFini(mZfsLib);
if (mZfsSo)
dlclose(mZfsSo);
}
int CollectorSolaris::getRawHostCpuLoad(uint64_t *user, uint64_t *kernel, uint64_t *idle)
{
kstat_t *ksp;
uint64_t tmpUser, tmpKernel, tmpIdle;
int cpus;
cpu_stat_t cpu_stats;
if (mKC == 0)
return VERR_INTERNAL_ERROR;
tmpUser = tmpKernel = tmpIdle = cpus = 0;
for (ksp = mKC->kc_chain; ksp != NULL; ksp = ksp->ks_next) {
if (strcmp(ksp->ks_module, "cpu_stat") == 0) {
if (kstat_read(mKC, ksp, &cpu_stats) == -1)
{
Log(("kstat_read() -> %d\n", errno));
return VERR_INTERNAL_ERROR;
}
++cpus;
tmpUser += cpu_stats.cpu_sysinfo.cpu[CPU_USER];
tmpKernel += cpu_stats.cpu_sysinfo.cpu[CPU_KERNEL];
tmpIdle += cpu_stats.cpu_sysinfo.cpu[CPU_IDLE];
}
}
if (cpus == 0)
{
Log(("no cpu stats found!\n"));
return VERR_INTERNAL_ERROR;
}
else
mCpus = cpus;
if (user) *user = tmpUser;
if (kernel) *kernel = tmpKernel;
if (idle) *idle = tmpIdle;
return VINF_SUCCESS;
}
int CollectorSolaris::getRawProcessCpuLoad(RTPROCESS process, uint64_t *user, uint64_t *kernel, uint64_t *total)
{
int vrc = VINF_SUCCESS;
char *pszName;
prusage_t prusage;
RTStrAPrintf(&pszName, "/proc/%d/usage", process);
Log(("Opening %s...\n", pszName));
int h = open(pszName, O_RDONLY);
RTStrFree(pszName);
if (h != -1)
{
if (read(h, &prusage, sizeof(prusage)) == sizeof(prusage))
{
//Assert((pid_t)process == pstatus.pr_pid);
//Log(("user=%u kernel=%u total=%u\n", prusage.pr_utime.tv_sec, prusage.pr_stime.tv_sec, prusage.pr_tstamp.tv_sec));
/*
* The CPU time spent must be adjusted by the number of cores for compatibility with
* other platforms (see @bugref{6345}).
*/
Assert(mCpus);
if (mCpus)
{
*user = ((uint64_t)prusage.pr_utime.tv_sec * 1000000000 + prusage.pr_utime.tv_nsec) / mCpus;
*kernel = ((uint64_t)prusage.pr_stime.tv_sec * 1000000000 + prusage.pr_stime.tv_nsec) / mCpus;
}
else
*user = *kernel = 0;
*total = (uint64_t)prusage.pr_tstamp.tv_sec * 1000000000 + prusage.pr_tstamp.tv_nsec;
//Log(("user=%llu kernel=%llu total=%llu\n", *user, *kernel, *total));
}
else
{
Log(("read() -> %d\n", errno));
vrc = VERR_FILE_IO_ERROR;
}
close(h);
}
else
{
Log(("open() -> %d\n", errno));
vrc = VERR_ACCESS_DENIED;
}
return vrc;
}
int CollectorSolaris::getHostMemoryUsage(ULONG *total, ULONG *used, ULONG *available)
{
AssertReturn(totalRAM, VERR_INTERNAL_ERROR);
uint64_t cb;
int vrc = RTSystemQueryAvailableRam(&cb);
if (RT_SUCCESS(vrc))
{
*total = totalRAM;
*available = (ULONG)RT_MIN(cb / 1024, ~(ULONG)0);
*used = *total - *available;
}
return vrc;
}
int CollectorSolaris::getProcessMemoryUsage(RTPROCESS process, ULONG *used)
{
int vrc = VINF_SUCCESS;
char *pszName = NULL;
psinfo_t psinfo;
RTStrAPrintf(&pszName, "/proc/%d/psinfo", process);
Log(("Opening %s...\n", pszName));
int h = open(pszName, O_RDONLY);
RTStrFree(pszName);
if (h != -1)
{
/* psinfo_t keeps growing, so only read what we need to maximize
* cross-version compatibility. The structures are compatible. */
ssize_t cb = RT_UOFFSETOF(psinfo_t, pr_rssize) + RT_SIZEOFMEMB(psinfo_t, pr_rssize);
AssertCompile(RTASSERT_OFFSET_OF(psinfo_t, pr_rssize) > RTASSERT_OFFSET_OF(psinfo_t, pr_pid));
if (read(h, &psinfo, cb) == cb)
{
Assert((pid_t)process == psinfo.pr_pid);
*used = (ULONG)RT_MIN(psinfo.pr_rssize, ~(ULONG)0);
}
else
{
Log(("read() -> %d\n", errno));
vrc = VERR_FILE_IO_ERROR;
}
close(h);
}
else
{
Log(("open() -> %d\n", errno));
vrc = VERR_ACCESS_DENIED;
}
return vrc;
}
uint32_t CollectorSolaris::getInstance(const char *pszIfaceName, char *pszDevName)
{
/*
* Get the instance number from the interface name, then clip it off.
*/
int cbInstance = 0;
size_t cbIface = strlen(pszIfaceName);
const char *pszEnd = pszIfaceName + cbIface - 1;
for (size_t i = 0; i < cbIface - 1; i++)
{
if (!RT_C_IS_DIGIT(*pszEnd))
break;
cbInstance++;
pszEnd--;
}
uint32_t uInstance = RTStrToUInt32(pszEnd + 1);
strncpy(pszDevName, pszIfaceName, cbIface - cbInstance);
pszDevName[cbIface - cbInstance] = '\0';
return uInstance;
}
uint64_t CollectorSolaris::wrapCorrection(uint32_t cur, uint64_t prev, const char *name)
{
NOREF(name);
uint64_t corrected = (prev & 0xffffffff00000000) + cur;
if (cur < (prev & 0xffffffff))
{
/* wrap has occurred */
corrected += 0x100000000;
LogFlowThisFunc(("Corrected wrap on %s (%u < %u), returned %llu.\n",
name, cur, (uint32_t)prev, corrected));
}
return corrected;
}
uint64_t CollectorSolaris::wrapDetection(uint64_t cur, uint64_t prev, const char *name)
{
if (cur < prev)
LogRelMax(2, ("Detected wrap on %s (%llu < %llu).\n", name, cur, prev));
return cur;
}
/*
* WARNING! This function expects the previous values of rx and tx counter to
* be passed in as well as returnes new values in the same parameters. This is
* needed to provide a workaround for 32-bit counter wrapping.
*/
int CollectorSolaris::getRawHostNetworkLoad(const char *name, uint64_t *rx, uint64_t *tx)
{
#if ARCH_BITS == 32
static bool g_fNotReported = true;
#endif
AssertReturn(strlen(name) < KSTAT_STRLEN, VERR_INVALID_PARAMETER);
LogFlowThisFunc(("m=%s i=%d n=%s\n", "link", -1, name));
kstat_t *ksAdapter = kstat_lookup(mKC, (char *)"link", -1, (char *)name);
if (ksAdapter == 0)
{
char szModule[KSTAT_STRLEN];
uint32_t uInstance = getInstance(name, szModule);
LogFlowThisFunc(("m=%s i=%u n=%s\n", szModule, uInstance, "phys"));
ksAdapter = kstat_lookup(mKC, szModule, uInstance, (char *)"phys");
if (ksAdapter == 0)
{
LogFlowThisFunc(("m=%s i=%u n=%s\n", szModule, uInstance, name));
ksAdapter = kstat_lookup(mKC, szModule, uInstance, (char *)name);
if (ksAdapter == 0)
{
static uint32_t s_tsLogRelLast;
uint32_t tsNow = RTTimeProgramSecTS();
if ( tsNow < RT_SEC_1HOUR
|| (tsNow - s_tsLogRelLast >= 60))
{
s_tsLogRelLast = tsNow;
LogRel(("Failed to get network statistics for %s. Max one msg/min.\n", name));
}
return VERR_INTERNAL_ERROR;
}
}
}
if (kstat_read(mKC, ksAdapter, 0) == -1)
{
LogRel(("kstat_read(adapter) -> %d\n", errno));
return VERR_INTERNAL_ERROR;
}
kstat_named_t *kn;
if ((kn = (kstat_named_t *)kstat_data_lookup(ksAdapter, (char *)"rbytes64")) == NULL)
{
if ((kn = (kstat_named_t *)kstat_data_lookup(ksAdapter, (char *)"rbytes")) == NULL)
{
LogRel(("kstat_data_lookup(rbytes) -> %d, name=%s\n", errno, name));
return VERR_INTERNAL_ERROR;
}
#if ARCH_BITS == 32
if (g_fNotReported)
{
g_fNotReported = false;
LogRel(("Failed to locate rbytes64, falling back to 32-bit counters...\n"));
}
*rx = wrapCorrection(kn->value.ul, *rx, "rbytes");
#else
AssertCompile(sizeof(kn->value.ul) == sizeof(uint64_t));
*rx = wrapDetection(kn->value.ul, *rx, "rbytes");
#endif
}
else
*rx = wrapDetection(kn->value.ull, *rx, "rbytes64");
if ((kn = (kstat_named_t *)kstat_data_lookup(ksAdapter, (char *)"obytes64")) == NULL)
{
if ((kn = (kstat_named_t *)kstat_data_lookup(ksAdapter, (char *)"obytes")) == NULL)
{
LogRel(("kstat_data_lookup(obytes) -> %d\n", errno));
return VERR_INTERNAL_ERROR;
}
#if ARCH_BITS == 32
if (g_fNotReported)
{
g_fNotReported = false;
LogRel(("Failed to locate obytes64, falling back to 32-bit counters...\n"));
}
*tx = wrapCorrection(kn->value.ul, *tx, "obytes");
#else
AssertCompile(sizeof(kn->value.ul) == sizeof(uint64_t));
*tx = wrapDetection(kn->value.ul, *tx, "obytes");
#endif
}
else
*tx = wrapDetection(kn->value.ull, *tx, "obytes64");
return VINF_SUCCESS;
}
int CollectorSolaris::getRawHostDiskLoad(const char *name, uint64_t *disk_ms, uint64_t *total_ms)
{
int vrc = VINF_SUCCESS;
AssertReturn(strlen(name) < KSTAT_STRLEN, VERR_INVALID_PARAMETER);
LogFlowThisFunc(("n=%s\n", name));
kstat_t *ksDisk = kstat_lookup(mKC, NULL, -1, (char *)name);
if (ksDisk != 0)
{
if (kstat_read(mKC, ksDisk, 0) == -1)
{
LogRel(("kstat_read(%s) -> %d\n", name, errno));
vrc = VERR_INTERNAL_ERROR;
}
else
{
kstat_io_t *ksIo = KSTAT_IO_PTR(ksDisk);
/*
* We do not care for wrap possibility here, although we may
* reconsider in about 300 years (9223372036854775807 ns).
*/
*disk_ms = ksIo->rtime / 1000000;
*total_ms = ksDisk->ks_snaptime / 1000000;
}
}
else
{
LogRel(("kstat_lookup(%s) -> %d\n", name, errno));
vrc = VERR_INTERNAL_ERROR;
}
return vrc;
}
uint64_t CollectorSolaris::getZfsTotal(uint64_t cbTotal, const char *szFsType, const char *szFsName)
{
if (strcmp(szFsType, "zfs"))
return cbTotal;
FsMap::iterator it = mFsMap.find(szFsName);
if (it == mFsMap.end())
return cbTotal;
char *pszDataset = strdup(it->second.c_str());
char *pszEnd = pszDataset + strlen(pszDataset);
uint64_t uAvail = 0;
while (pszEnd)
{
zfs_handle_t *hDataset;
*pszEnd = 0;
hDataset = mZfsOpen(mZfsLib, pszDataset, ZFS_TYPE_DATASET);
if (!hDataset)
break;
if (uAvail == 0)
{
uAvail = mZfsPropGetInt(hDataset, ZFS_PROP_REFQUOTA);
if (uAvail == 0)
uAvail = UINT64_MAX;
}
uint64_t uQuota = mZfsPropGetInt(hDataset, ZFS_PROP_QUOTA);
if (uQuota && uAvail > uQuota)
uAvail = uQuota;
pszEnd = strrchr(pszDataset, '/');
if (!pszEnd)
{
uint64_t uPoolSize = mZfsPropGetInt(hDataset, ZFS_PROP_USED) +
mZfsPropGetInt(hDataset, ZFS_PROP_AVAILABLE);
if (uAvail > uPoolSize)
uAvail = uPoolSize;
}
mZfsClose(hDataset);
}
free(pszDataset);
return uAvail ? uAvail : cbTotal;
}
int CollectorSolaris::getHostFilesystemUsage(const char *path, ULONG *total, ULONG *used, ULONG *available)
{
struct statvfs64 stats;
if (statvfs64(path, &stats) == -1)
{
LogRel(("Failed to collect %s filesystem usage: errno=%d.\n", path, errno));
return VERR_ACCESS_DENIED;
}
uint64_t cbBlock = stats.f_frsize ? stats.f_frsize : stats.f_bsize;
*total = (ULONG)(getZfsTotal(cbBlock * stats.f_blocks, stats.f_basetype, path) / _1M);
LogFlowThisFunc(("f_blocks=%llu.\n", stats.f_blocks));
*used = (ULONG)(cbBlock * (stats.f_blocks - stats.f_bfree) / _1M);
*available = (ULONG)(cbBlock * stats.f_bavail / _1M);
return VINF_SUCCESS;
}
int CollectorSolaris::getHostDiskSize(const char *name, uint64_t *size)
{
int vrc = VINF_SUCCESS;
AssertReturn(strlen(name) + 5 < KSTAT_STRLEN, VERR_INVALID_PARAMETER);
LogFlowThisFunc(("n=%s\n", name));
char szName[KSTAT_STRLEN];
strcpy(szName, name);
strcat(szName, ",err");
kstat_t *ksDisk = kstat_lookup(mKC, NULL, -1, szName);
if (ksDisk != 0)
{
if (kstat_read(mKC, ksDisk, 0) == -1)
{
LogRel(("kstat_read(%s) -> %d\n", name, errno));
vrc = VERR_INTERNAL_ERROR;
}
else
{
kstat_named_t *kn;
if ((kn = (kstat_named_t *)kstat_data_lookup(ksDisk, (char *)"Size")) == 0)
{
LogRel(("kstat_data_lookup(rbytes) -> %d, name=%s\n", errno, name));
return VERR_INTERNAL_ERROR;
}
*size = kn->value.ull;
}
}
else
{
LogRel(("kstat_lookup(%s) -> %d\n", szName, errno));
vrc = VERR_INTERNAL_ERROR;
}
return vrc;
}
RTCString CollectorSolaris::physToInstName(const char *pcszPhysName)
{
FILE *fp = fopen("/etc/path_to_inst", "r");
if (!fp)
return RTCString();
RTCString strInstName;
size_t cbName = strlen(pcszPhysName);
char szBuf[RTPATH_MAX];
while (fgets(szBuf, sizeof(szBuf), fp))
{
if (szBuf[0] == '"' && strncmp(szBuf + 1, pcszPhysName, cbName) == 0)
{
char *pszDriver, *pszInstance;
pszDriver = strrchr(szBuf, '"');
if (pszDriver)
{
*pszDriver = '\0';
pszDriver = strrchr(szBuf, '"');
if (pszDriver)
{
*pszDriver++ = '\0';
pszInstance = strrchr(szBuf, ' ');
if (pszInstance)
{
*pszInstance = '\0';
pszInstance = strrchr(szBuf, ' ');
if (pszInstance)
{
*pszInstance++ = '\0';
strInstName = pszDriver;
strInstName += pszInstance;
break;
}
}
}
}
}
}
fclose(fp);
return strInstName;
}
RTCString CollectorSolaris::pathToInstName(const char *pcszDevPathName)
{
char szLink[RTPATH_MAX];
if (readlink(pcszDevPathName, szLink, sizeof(szLink)) != -1)
{
char *pszStart, *pszEnd;
pszStart = strstr(szLink, "/devices/");
pszEnd = strrchr(szLink, ':');
if (pszStart && pszEnd)
{
pszStart += 8; // Skip "/devices"
*pszEnd = '\0'; // Trim partition
return physToInstName(pszStart);
}
}
return RTCString(pcszDevPathName);
}
int CollectorSolaris::getDiskListByFs(const char *name, DiskList& listUsage, DiskList& listLoad)
{
FsMap::iterator it = mFsMap.find(name);
if (it == mFsMap.end())
return VERR_INVALID_PARAMETER;
RTCString strName = it->second.substr(0, it->second.find("/"));
if (mZpoolOpen && mZpoolClose && mZpoolGetConfig && !strName.isEmpty())
{
zpool_handle_t *zh = mZpoolOpen(mZfsLib, strName.c_str());
if (zh)
{
unsigned int cChildren = 0;
nvlist_t **nvChildren = NULL;
nvlist_t *nvRoot = NULL;
nvlist_t *nvConfig = mZpoolGetConfig(zh, NULL);
if ( !nvlist_lookup_nvlist(nvConfig, ZPOOL_CONFIG_VDEV_TREE, &nvRoot)
&& !nvlist_lookup_nvlist_array(nvRoot, ZPOOL_CONFIG_CHILDREN, &nvChildren, &cChildren))
{
for (unsigned int i = 0; i < cChildren; ++i)
{
uint64_t fHole = 0;
uint64_t fLog = 0;
nvlist_lookup_uint64(nvChildren[i], ZPOOL_CONFIG_IS_HOLE, &fHole);
nvlist_lookup_uint64(nvChildren[i], ZPOOL_CONFIG_IS_LOG, &fLog);
if (!fHole && !fLog)
{
char *pszChildName = mZpoolVdevName(mZfsLib, zh, nvChildren[i], _B_FALSE);
Assert(pszChildName);
RTCString strDevPath("/dev/dsk/");
strDevPath += pszChildName;
char szLink[RTPATH_MAX];
if (readlink(strDevPath.c_str(), szLink, sizeof(szLink)) != -1)
{
char *pszStart, *pszEnd;
pszStart = strstr(szLink, "/devices/");
pszEnd = strrchr(szLink, ':');
if (pszStart && pszEnd)
{
pszStart += 8; // Skip "/devices"
*pszEnd = '\0'; // Trim partition
listUsage.push_back(physToInstName(pszStart));
}
}
free(pszChildName);
}
}
}
mZpoolClose(zh);
}
}
else
listUsage.push_back(pathToInstName(it->second.c_str()));
listLoad = listUsage;
return VINF_SUCCESS;
}
void CollectorSolaris::updateFilesystemMap(void)
{
FILE *fp = fopen("/etc/mnttab", "r");
if (fp)
{
struct mnttab Entry;
int iRc = 0;
resetmnttab(fp);
while ((iRc = getmntent(fp, &Entry)) == 0)
mFsMap[Entry.mnt_mountp] = Entry.mnt_special;
fclose(fp);
if (iRc != -1)
LogRel(("Error while reading mnttab: %d\n", iRc));
}
}
}
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