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|
/* $Id: VBoxServiceCpuHotPlug.cpp $ */
/** @file
* VBoxService - Guest Additions CPU Hot-Plugging Service.
*/
/*
* Copyright (C) 2010-2022 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
*/
/** @page pg_vgsvc_cpuhotplug VBoxService - CPU Hot-Plugging
*
* The CPU Hot-Plugging subservice helps execute and coordinate CPU hot-plugging
* between the guest OS and the VMM.
*
* CPU Hot-Plugging is useful for reallocating CPU resources from one VM to
* other VMs or/and the host. It talks to the VMM via VMMDev, new hot-plugging
* events being signalled with an interrupt (no polling).
*
* Currently only supported for linux guests.
*/
/*********************************************************************************************************************************
* Header Files *
*********************************************************************************************************************************/
#include <iprt/assert.h>
#include <iprt/dir.h>
#include <iprt/file.h>
#include <iprt/mem.h>
#include <iprt/path.h>
#include <iprt/string.h>
#include <iprt/thread.h>
#include <VBox/VBoxGuestLib.h>
#include "VBoxServiceInternal.h"
#ifdef RT_OS_LINUX
# include <iprt/linux/sysfs.h>
# include <errno.h> /* For the sysfs API */
#endif
/*********************************************************************************************************************************
* Defined Constants And Macros *
*********************************************************************************************************************************/
#ifdef RT_OS_LINUX
/** @name Paths to access the CPU device
* @{
*/
# define SYSFS_ACPI_CPU_PATH "/sys/devices"
# define SYSFS_CPU_PATH "/sys/devices/system/cpu"
/** @} */
/** Path component for the ACPI CPU path. */
typedef struct SYSFSCPUPATHCOMP
{
/** Flag whether the name is suffixed with a number */
bool fNumberedSuffix;
/** Name of the component */
const char *pcszName;
} SYSFSCPUPATHCOMP, *PSYSFSCPUPATHCOMP;
/** Pointer to a const component. */
typedef const SYSFSCPUPATHCOMP *PCSYSFSCPUPATHCOMP;
/**
* Structure which defines how the entries are assembled.
*/
typedef struct SYSFSCPUPATH
{
/** Id when probing for the correct path. */
uint32_t uId;
/** Array holding the possible components. */
PCSYSFSCPUPATHCOMP aComponentsPossible;
/** Number of entries in the array, excluding the terminator. */
unsigned cComponents;
/** Directory handle */
RTDIR hDir;
/** Current directory to try. */
char *pszPath;
} SYSFSCPUPATH, *PSYSFSCPUPATH;
/** Content of uId if the path wasn't probed yet. */
# define ACPI_CPU_PATH_NOT_PROBED UINT32_MAX
#endif /* RT_OS_LINUX*/
/*********************************************************************************************************************************
* Global Variables *
*********************************************************************************************************************************/
#ifdef RT_OS_LINUX
/** Possible combinations of all path components for level 1. */
static const SYSFSCPUPATHCOMP g_aAcpiCpuPathLvl1[] =
{
/** LNXSYSTEM:<id> */
{ true, "LNXSYSTM:*" }
};
/** Possible combinations of all path components for level 2. */
static const SYSFSCPUPATHCOMP g_aAcpiCpuPathLvl2[] =
{
/** device:<id> */
{ true, "device:*" },
/** LNXSYBUS:<id> */
{ true, "LNXSYBUS:*" }
};
/** Possible combinations of all path components for level 3 */
static const SYSFSCPUPATHCOMP g_aAcpiCpuPathLvl3[] =
{
/** ACPI0004:<id> */
{ true, "ACPI0004:*" }
};
/** Possible combinations of all path components for level 4 */
static const SYSFSCPUPATHCOMP g_aAcpiCpuPathLvl4[] =
{
/** LNXCPU:<id> */
{ true, "LNXCPU:*" },
/** ACPI_CPU:<id> */
{ true, "ACPI_CPU:*" }
};
/** All possible combinations. */
static SYSFSCPUPATH g_aAcpiCpuPath[] =
{
/** Level 1 */
{ ACPI_CPU_PATH_NOT_PROBED, g_aAcpiCpuPathLvl1, RT_ELEMENTS(g_aAcpiCpuPathLvl1), NULL, NULL },
/** Level 2 */
{ ACPI_CPU_PATH_NOT_PROBED, g_aAcpiCpuPathLvl2, RT_ELEMENTS(g_aAcpiCpuPathLvl2), NULL, NULL },
/** Level 3 */
{ ACPI_CPU_PATH_NOT_PROBED, g_aAcpiCpuPathLvl3, RT_ELEMENTS(g_aAcpiCpuPathLvl3), NULL, NULL },
/** Level 4 */
{ ACPI_CPU_PATH_NOT_PROBED, g_aAcpiCpuPathLvl4, RT_ELEMENTS(g_aAcpiCpuPathLvl4), NULL, NULL },
};
/**
* Possible directories to get to the topology directory for reading core and package id.
*
* @remark: This is not part of the path above because the eject file is not in one of the directories
* below and would make the hot unplug code fail.
*/
static const char *g_apszTopologyPath[] =
{
"sysdev",
"physical_node"
};
#endif /* RT_OS_LINUX*/
#ifdef RT_OS_LINUX
/**
* Probes for the correct path to the ACPI CPU object in sysfs for the
* various different kernel versions and distro's.
*
* @returns VBox status code.
*/
static int vgsvcCpuHotPlugProbePath(void)
{
int rc = VINF_SUCCESS;
/* Probe for the correct path if we didn't already. */
if (RT_UNLIKELY(g_aAcpiCpuPath[0].uId == ACPI_CPU_PATH_NOT_PROBED))
{
char *pszPath = NULL; /** < Current path, increasing while we dig deeper. */
pszPath = RTStrDup(SYSFS_ACPI_CPU_PATH);
if (!pszPath)
return VERR_NO_MEMORY;
/*
* Simple algorithm to find the path.
* Performance is not a real problem because it is
* only executed once.
*/
for (unsigned iLvlCurr = 0; iLvlCurr < RT_ELEMENTS(g_aAcpiCpuPath); iLvlCurr++)
{
PSYSFSCPUPATH pAcpiCpuPathLvl = &g_aAcpiCpuPath[iLvlCurr];
for (unsigned iCompCurr = 0; iCompCurr < pAcpiCpuPathLvl->cComponents; iCompCurr++)
{
PCSYSFSCPUPATHCOMP pPathComponent = &pAcpiCpuPathLvl->aComponentsPossible[iCompCurr];
/* Open the directory */
RTDIR hDirCurr = NIL_RTDIR;
char *pszPathTmp = RTPathJoinA(pszPath, pPathComponent->pcszName);
if (pszPathTmp)
{
rc = RTDirOpenFiltered(&hDirCurr, pszPathTmp, RTDIRFILTER_WINNT, 0 /*fFlags*/);
RTStrFree(pszPathTmp);
}
else
rc = VERR_NO_STR_MEMORY;
if (RT_FAILURE(rc))
break;
/* Search if the current directory contains one of the possible parts. */
size_t cchName = strlen(pPathComponent->pcszName);
RTDIRENTRY DirFolderContent;
bool fFound = false;
/* Get rid of the * filter which is in the path component. */
if (pPathComponent->fNumberedSuffix)
cchName--;
while (RT_SUCCESS(RTDirRead(hDirCurr, &DirFolderContent, NULL))) /* Assumption that szName has always enough space */
{
if ( DirFolderContent.cbName >= cchName
&& !strncmp(DirFolderContent.szName, pPathComponent->pcszName, cchName))
{
/* Found, use the complete name to dig deeper. */
fFound = true;
pAcpiCpuPathLvl->uId = iCompCurr;
char *pszPathLvl = RTPathJoinA(pszPath, DirFolderContent.szName);
if (pszPathLvl)
{
RTStrFree(pszPath);
pszPath = pszPathLvl;
}
else
rc = VERR_NO_STR_MEMORY;
break;
}
}
RTDirClose(hDirCurr);
if (fFound)
break;
} /* For every possible component. */
/* No matching component for this part, no need to continue */
if (RT_FAILURE(rc))
break;
} /* For every level */
VGSvcVerbose(1, "Final path after probing %s rc=%Rrc\n", pszPath, rc);
RTStrFree(pszPath);
}
return rc;
}
/**
* Returns the path of the ACPI CPU device with the given core and package ID.
*
* @returns VBox status code.
* @param ppszPath Where to store the path.
* @param idCpuCore The core ID of the CPU.
* @param idCpuPackage The package ID of the CPU.
*/
static int vgsvcCpuHotPlugGetACPIDevicePath(char **ppszPath, uint32_t idCpuCore, uint32_t idCpuPackage)
{
int rc = VINF_SUCCESS;
AssertPtrReturn(ppszPath, VERR_INVALID_PARAMETER);
rc = vgsvcCpuHotPlugProbePath();
if (RT_SUCCESS(rc))
{
/* Build the path from all components. */
bool fFound = false;
unsigned iLvlCurr = 0;
char *pszPath = NULL;
char *pszPathDir = NULL;
PSYSFSCPUPATH pAcpiCpuPathLvl = &g_aAcpiCpuPath[iLvlCurr];
/* Init everything. */
Assert(pAcpiCpuPathLvl->uId != ACPI_CPU_PATH_NOT_PROBED);
pszPath = RTPathJoinA(SYSFS_ACPI_CPU_PATH, pAcpiCpuPathLvl->aComponentsPossible[pAcpiCpuPathLvl->uId].pcszName);
if (!pszPath)
return VERR_NO_STR_MEMORY;
pAcpiCpuPathLvl->pszPath = RTStrDup(SYSFS_ACPI_CPU_PATH);
if (!pAcpiCpuPathLvl->pszPath)
{
RTStrFree(pszPath);
return VERR_NO_STR_MEMORY;
}
/* Open the directory */
rc = RTDirOpenFiltered(&pAcpiCpuPathLvl->hDir, pszPath, RTDIRFILTER_WINNT, 0 /*fFlags*/);
if (RT_SUCCESS(rc))
{
RTStrFree(pszPath);
pszPath = NULL;
/* Search for CPU */
while (!fFound)
{
/* Get the next directory. */
RTDIRENTRY DirFolderContent;
rc = RTDirRead(pAcpiCpuPathLvl->hDir, &DirFolderContent, NULL);
if (RT_SUCCESS(rc))
{
/* Create the new path. */
char *pszPathCurr = RTPathJoinA(pAcpiCpuPathLvl->pszPath, DirFolderContent.szName);
if (!pszPathCurr)
{
rc = VERR_NO_STR_MEMORY;
break;
}
/* If this is the last level check for the given core and package id. */
if (iLvlCurr == RT_ELEMENTS(g_aAcpiCpuPath) - 1)
{
/* Get the sysdev */
uint32_t idCore = 0;
uint32_t idPackage = 0;
for (unsigned i = 0; i < RT_ELEMENTS(g_apszTopologyPath); i++)
{
int64_t i64Core = 0;
int64_t i64Package = 0;
int rc2 = RTLinuxSysFsReadIntFile(10, &i64Core, "%s/%s/topology/core_id",
pszPathCurr, g_apszTopologyPath[i]);
if (RT_SUCCESS(rc2))
rc2 = RTLinuxSysFsReadIntFile(10, &i64Package, "%s/%s/topology/physical_package_id",
pszPathCurr, g_apszTopologyPath[i]);
if (RT_SUCCESS(rc2))
{
idCore = (uint32_t)i64Core;
idPackage = (uint32_t)i64Package;
break;
}
}
if ( idCore == idCpuCore
&& idPackage == idCpuPackage)
{
/* Return the path */
pszPath = pszPathCurr;
fFound = true;
VGSvcVerbose(3, "CPU found\n");
break;
}
else
{
/* Get the next directory. */
RTStrFree(pszPathCurr);
pszPathCurr = NULL;
VGSvcVerbose(3, "CPU doesn't match, next directory\n");
}
}
else
{
/* Go deeper */
iLvlCurr++;
VGSvcVerbose(3, "Going deeper (iLvlCurr=%u)\n", iLvlCurr);
pAcpiCpuPathLvl = &g_aAcpiCpuPath[iLvlCurr];
Assert(pAcpiCpuPathLvl->hDir == NIL_RTDIR);
Assert(!pAcpiCpuPathLvl->pszPath);
pAcpiCpuPathLvl->pszPath = pszPathCurr;
PCSYSFSCPUPATHCOMP pPathComponent = &pAcpiCpuPathLvl->aComponentsPossible[pAcpiCpuPathLvl->uId];
Assert(pAcpiCpuPathLvl->uId != ACPI_CPU_PATH_NOT_PROBED);
pszPathDir = RTPathJoinA(pszPathCurr, pPathComponent->pcszName);
if (!pszPathDir)
{
rc = VERR_NO_STR_MEMORY;
break;
}
VGSvcVerbose(3, "New path %s\n", pszPathDir);
/* Open the directory */
rc = RTDirOpenFiltered(&pAcpiCpuPathLvl->hDir, pszPathDir, RTDIRFILTER_WINNT, 0 /*fFlags*/);
RTStrFree(pszPathDir);
pszPathDir = NULL;
if (RT_FAILURE(rc))
break;
}
}
else
{
RTDirClose(pAcpiCpuPathLvl->hDir);
RTStrFree(pAcpiCpuPathLvl->pszPath);
pAcpiCpuPathLvl->hDir = NIL_RTDIR;
pAcpiCpuPathLvl->pszPath = NULL;
/*
* If we reached the end we didn't find the matching path
* meaning the CPU is already offline.
*/
if (!iLvlCurr)
{
rc = VERR_NOT_FOUND;
break;
}
iLvlCurr--;
pAcpiCpuPathLvl = &g_aAcpiCpuPath[iLvlCurr];
VGSvcVerbose(3, "Directory not found, going back (iLvlCurr=%u)\n", iLvlCurr);
}
} /* while not found */
} /* Successful init */
/* Cleanup */
for (unsigned i = 0; i < RT_ELEMENTS(g_aAcpiCpuPath); i++)
{
if (g_aAcpiCpuPath[i].hDir)
RTDirClose(g_aAcpiCpuPath[i].hDir);
if (g_aAcpiCpuPath[i].pszPath)
RTStrFree(g_aAcpiCpuPath[i].pszPath);
g_aAcpiCpuPath[i].hDir = NIL_RTDIR;
g_aAcpiCpuPath[i].pszPath = NULL;
}
if (pszPathDir)
RTStrFree(pszPathDir);
if (RT_FAILURE(rc) && pszPath)
RTStrFree(pszPath);
if (RT_SUCCESS(rc))
*ppszPath = pszPath;
}
return rc;
}
#endif /* RT_OS_LINUX */
/**
* Handles VMMDevCpuEventType_Plug.
*
* @param idCpuCore The CPU core ID.
* @param idCpuPackage The CPU package ID.
*/
static void vgsvcCpuHotPlugHandlePlugEvent(uint32_t idCpuCore, uint32_t idCpuPackage)
{
#ifdef RT_OS_LINUX
/*
* The topology directory (containing the physical and core id properties)
* is not available until the CPU is online. So we just iterate over all directories
* and enable the first CPU which is not online already.
* Because the directory might not be available immediately we try a few times.
*
*/
/** @todo Maybe use udev to monitor hot-add events from the kernel */
bool fCpuOnline = false;
unsigned cTries = 5;
do
{
RTDIR hDirDevices = NULL;
int rc = RTDirOpen(&hDirDevices, SYSFS_CPU_PATH);
if (RT_SUCCESS(rc))
{
RTDIRENTRY DirFolderContent;
while (RT_SUCCESS(RTDirRead(hDirDevices, &DirFolderContent, NULL))) /* Assumption that szName has always enough space */
{
/* Check if this is a CPU object which can be brought online. */
if (RTLinuxSysFsExists("%s/%s/online", SYSFS_CPU_PATH, DirFolderContent.szName))
{
/* Check the status of the CPU by reading the online flag. */
int64_t i64Status = 0;
rc = RTLinuxSysFsReadIntFile(10 /*uBase*/, &i64Status, "%s/%s/online", SYSFS_CPU_PATH, DirFolderContent.szName);
if ( RT_SUCCESS(rc)
&& i64Status == 0)
{
/* CPU is offline, turn it on. */
rc = RTLinuxSysFsWriteU8File(10 /*uBase*/, 1, "%s/%s/online", SYSFS_CPU_PATH, DirFolderContent.szName);
if (RT_SUCCESS(rc))
{
VGSvcVerbose(1, "CpuHotPlug: CPU %u/%u was brought online\n", idCpuPackage, idCpuCore);
fCpuOnline = true;
break;
}
}
else if (RT_FAILURE(rc))
VGSvcError("CpuHotPlug: Failed to open '%s/%s/online' rc=%Rrc\n",
SYSFS_CPU_PATH, DirFolderContent.szName, rc);
else
{
/*
* Check whether the topology matches what we got (which means someone raced us and brought the CPU
* online already).
*/
int64_t i64Core = 0;
int64_t i64Package = 0;
int rc2 = RTLinuxSysFsReadIntFile(10, &i64Core, "%s/%s/topology/core_id",
SYSFS_CPU_PATH, DirFolderContent.szName);
if (RT_SUCCESS(rc2))
rc2 = RTLinuxSysFsReadIntFile(10, &i64Package, "%s/%s/topology/physical_package_id",
SYSFS_CPU_PATH, DirFolderContent.szName);
if ( RT_SUCCESS(rc2)
&& idCpuPackage == i64Package
&& idCpuCore == i64Core)
{
VGSvcVerbose(1, "CpuHotPlug: '%s' is already online\n", DirFolderContent.szName);
fCpuOnline = true;
break;
}
}
}
}
RTDirClose(hDirDevices);
}
else
VGSvcError("CpuHotPlug: Failed to open path %s rc=%Rrc\n", SYSFS_CPU_PATH, rc);
/* Sleep a bit */
if (!fCpuOnline)
RTThreadSleep(100);
} while ( !fCpuOnline
&& cTries-- > 0);
#else
# error "Port me"
#endif
}
/**
* Handles VMMDevCpuEventType_Unplug.
*
* @param idCpuCore The CPU core ID.
* @param idCpuPackage The CPU package ID.
*/
static void vgsvcCpuHotPlugHandleUnplugEvent(uint32_t idCpuCore, uint32_t idCpuPackage)
{
#ifdef RT_OS_LINUX
char *pszCpuDevicePath = NULL;
int rc = vgsvcCpuHotPlugGetACPIDevicePath(&pszCpuDevicePath, idCpuCore, idCpuPackage);
if (RT_SUCCESS(rc))
{
RTFILE hFileCpuEject;
rc = RTFileOpenF(&hFileCpuEject, RTFILE_O_WRITE | RTFILE_O_OPEN | RTFILE_O_DENY_NONE, "%s/eject", pszCpuDevicePath);
if (RT_SUCCESS(rc))
{
/* Write a 1 to eject the CPU */
rc = RTFileWrite(hFileCpuEject, "1", 1, NULL);
if (RT_SUCCESS(rc))
VGSvcVerbose(1, "CpuHotPlug: CPU %u/%u was ejected\n", idCpuPackage, idCpuCore);
else
VGSvcError("CpuHotPlug: Failed to eject CPU %u/%u rc=%Rrc\n", idCpuPackage, idCpuCore, rc);
RTFileClose(hFileCpuEject);
}
else
VGSvcError("CpuHotPlug: Failed to open '%s/eject' rc=%Rrc\n", pszCpuDevicePath, rc);
RTStrFree(pszCpuDevicePath);
}
else if (rc == VERR_NOT_FOUND)
VGSvcVerbose(1, "CpuHotPlug: CPU %u/%u was aleady ejected by someone else!\n", idCpuPackage, idCpuCore);
else
VGSvcError("CpuHotPlug: Failed to get CPU device path rc=%Rrc\n", rc);
#else
# error "Port me"
#endif
}
/** @interface_method_impl{VBOXSERVICE,pfnWorker} */
static DECLCALLBACK(int) vgsvcCpuHotPlugWorker(bool volatile *pfShutdown)
{
/*
* Tell the control thread that it can continue spawning services.
*/
RTThreadUserSignal(RTThreadSelf());
/*
* Enable the CPU hotplug notifier.
*/
int rc = VbglR3CpuHotPlugInit();
if (RT_FAILURE(rc))
return rc;
/*
* The Work Loop.
*/
for (;;)
{
/* Wait for CPU hot-plugging event. */
uint32_t idCpuCore;
uint32_t idCpuPackage;
VMMDevCpuEventType enmEventType;
rc = VbglR3CpuHotPlugWaitForEvent(&enmEventType, &idCpuCore, &idCpuPackage);
if (RT_SUCCESS(rc))
{
VGSvcVerbose(3, "CpuHotPlug: Event happened idCpuCore=%u idCpuPackage=%u enmEventType=%d\n",
idCpuCore, idCpuPackage, enmEventType);
switch (enmEventType)
{
case VMMDevCpuEventType_Plug:
vgsvcCpuHotPlugHandlePlugEvent(idCpuCore, idCpuPackage);
break;
case VMMDevCpuEventType_Unplug:
vgsvcCpuHotPlugHandleUnplugEvent(idCpuCore, idCpuPackage);
break;
default:
{
static uint32_t s_iErrors = 0;
if (s_iErrors++ < 10)
VGSvcError("CpuHotPlug: Unknown event: idCpuCore=%u idCpuPackage=%u enmEventType=%d\n",
idCpuCore, idCpuPackage, enmEventType);
break;
}
}
}
else if (rc != VERR_INTERRUPTED && rc != VERR_TRY_AGAIN)
{
VGSvcError("CpuHotPlug: VbglR3CpuHotPlugWaitForEvent returned %Rrc\n", rc);
break;
}
if (*pfShutdown)
break;
}
VbglR3CpuHotPlugTerm();
return rc;
}
/** @interface_method_impl{VBOXSERVICE,pfnStop} */
static DECLCALLBACK(void) vgsvcCpuHotPlugStop(void)
{
VbglR3InterruptEventWaits();
return;
}
/**
* The 'CpuHotPlug' service description.
*/
VBOXSERVICE g_CpuHotPlug =
{
/* pszName. */
"cpuhotplug",
/* pszDescription. */
"CPU hot-plugging monitor",
/* pszUsage. */
NULL,
/* pszOptions. */
NULL,
/* methods */
VGSvcDefaultPreInit,
VGSvcDefaultOption,
VGSvcDefaultInit,
vgsvcCpuHotPlugWorker,
vgsvcCpuHotPlugStop,
VGSvcDefaultTerm
};
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