VirtualBox

source: vbox/trunk/src/VBox/Additions/common/VBoxService/VBoxServiceCpuHotPlug.cpp@ 47151

Last change on this file since 47151 was 44529, checked in by vboxsync, 12 years ago

header (C) fixes

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1/* $Id: VBoxServiceCpuHotPlug.cpp 44529 2013-02-04 15:54:15Z vboxsync $ */
2/** @file
3 * VBoxService - Guest Additions CPU Hot Plugging Service.
4 */
5
6/*
7 * Copyright (C) 2010-2012 Oracle Corporation
8 *
9 * This file is part of VirtualBox Open Source Edition (OSE), as
10 * available from http://www.virtualbox.org. This file is free software;
11 * you can redistribute it and/or modify it under the terms of the GNU
12 * General Public License (GPL) as published by the Free Software
13 * Foundation, in version 2 as it comes in the "COPYING" file of the
14 * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
15 * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
16 */
17
18/*******************************************************************************
19* Header Files *
20*******************************************************************************/
21#include <iprt/assert.h>
22#include <iprt/dir.h>
23#include <iprt/file.h>
24#include <iprt/mem.h>
25#include <iprt/path.h>
26#include <iprt/string.h>
27#include <iprt/thread.h>
28#include <VBox/VBoxGuestLib.h>
29#include "VBoxServiceInternal.h"
30
31#ifdef RT_OS_LINUX
32# include <iprt/linux/sysfs.h>
33# include <errno.h> /* For the sysfs API */
34#endif
35
36
37/*******************************************************************************
38* Defined Constants And Macros *
39*******************************************************************************/
40#ifdef RT_OS_LINUX
41/** @name Paths to access the CPU device
42 * @{
43 */
44# define SYSFS_ACPI_CPU_PATH "/sys/devices"
45# define SYSFS_CPU_PATH "/sys/devices/system/cpu"
46/** @} */
47
48/** Path component for the ACPI CPU path. */
49typedef struct SYSFSCPUPATHCOMP
50{
51 /** Flag whether the name is suffixed with a number */
52 bool fNumberedSuffix;
53 /** Name of the component */
54 const char *pcszName;
55} SYSFSCPUPATHCOMP, *PSYSFSCPUPATHCOMP;
56/** Pointer to a const component. */
57typedef const SYSFSCPUPATHCOMP *PCSYSFSCPUPATHCOMP;
58
59/**
60 * Structure which defines how the entries are assembled.
61 */
62typedef struct SYSFSCPUPATH
63{
64 /** Id when probing for the correct path. */
65 uint32_t uId;
66 /** Array holding the possible components. */
67 PCSYSFSCPUPATHCOMP aComponentsPossible;
68 /** Number of entries in the array, excluding the terminator. */
69 unsigned cComponents;
70 /** Directory handle */
71 PRTDIR pDir;
72 /** Current directory to try. */
73 char *pszPath;
74} SYSFSCPUPATH, *PSYSFSCPUPATH;
75
76/** Content of uId if the path wasn't probed yet. */
77#define ACPI_CPU_PATH_NOT_PROBED UINT32_MAX
78
79/** Possible combinations of all path components for level 1. */
80const SYSFSCPUPATHCOMP g_aAcpiCpuPathLvl1[] =
81{
82 /** LNXSYSTEM:<id> */
83 {true, "LNXSYSTM:*"}
84};
85
86/** Possible combinations of all path components for level 2. */
87const SYSFSCPUPATHCOMP g_aAcpiCpuPathLvl2[] =
88{
89 /** device:<id> */
90 {true, "device:*"},
91 /** LNXSYBUS:<id> */
92 {true, "LNXSYBUS:*"}
93};
94
95/** Possible combinations of all path components for level 3 */
96const SYSFSCPUPATHCOMP g_aAcpiCpuPathLvl3[] =
97{
98 /** ACPI0004:<id> */
99 {true, "ACPI0004:*"}
100};
101
102/** Possible combinations of all path components for level 4 */
103const SYSFSCPUPATHCOMP g_aAcpiCpuPathLvl4[] =
104{
105 /** LNXCPU:<id> */
106 {true, "LNXCPU:*"},
107 /** ACPI_CPU:<id> */
108 {true, "ACPI_CPU:*"}
109};
110
111/** All possible combinations. */
112SYSFSCPUPATH g_aAcpiCpuPath[] =
113{
114 /** Level 1 */
115 {ACPI_CPU_PATH_NOT_PROBED, g_aAcpiCpuPathLvl1, RT_ELEMENTS(g_aAcpiCpuPathLvl1), NULL, NULL},
116 /** Level 2 */
117 {ACPI_CPU_PATH_NOT_PROBED, g_aAcpiCpuPathLvl2, RT_ELEMENTS(g_aAcpiCpuPathLvl2), NULL, NULL},
118 /** Level 3 */
119 {ACPI_CPU_PATH_NOT_PROBED, g_aAcpiCpuPathLvl3, RT_ELEMENTS(g_aAcpiCpuPathLvl3), NULL, NULL},
120 /** Level 4 */
121 {ACPI_CPU_PATH_NOT_PROBED, g_aAcpiCpuPathLvl4, RT_ELEMENTS(g_aAcpiCpuPathLvl4), NULL, NULL},
122};
123#endif
124
125#ifdef RT_OS_LINUX
126/**
127 * Probes for the correct path to the ACPI CPU object in sysfs for the
128 * various different kernel versions and distro's.
129 *
130 * @returns VBox status code.
131 */
132static int VBoxServiceCpuHotPlugProbePath(void)
133{
134 int rc = VINF_SUCCESS;
135
136 /* Probe for the correct path if we didn't already. */
137 if (RT_UNLIKELY(g_aAcpiCpuPath[0].uId == ACPI_CPU_PATH_NOT_PROBED))
138 {
139 char *pszPath = NULL; /** < Current path, increasing while we dig deeper. */
140
141 pszPath = RTStrDup(SYSFS_ACPI_CPU_PATH);
142 if (!pszPath)
143 return VERR_NO_MEMORY;
144
145 /*
146 * Simple algorithm to find the path.
147 * Performance is not a real problem because it is
148 * only executed once.
149 */
150 for (unsigned iLvlCurr = 0; iLvlCurr < RT_ELEMENTS(g_aAcpiCpuPath); iLvlCurr++)
151 {
152 PSYSFSCPUPATH pAcpiCpuPathLvl = &g_aAcpiCpuPath[iLvlCurr];
153
154 for (unsigned iCompCurr = 0; iCompCurr < pAcpiCpuPathLvl->cComponents; iCompCurr++)
155 {
156 PCSYSFSCPUPATHCOMP pPathComponent = &pAcpiCpuPathLvl->aComponentsPossible[iCompCurr];
157
158 /* Open the directory */
159 PRTDIR pDirCurr = NULL;
160 char *pszPathTmp = RTPathJoinA(pszPath, pPathComponent->pcszName);
161 if (pszPathTmp)
162 {
163 rc = RTDirOpenFiltered(&pDirCurr, pszPathTmp, RTDIRFILTER_WINNT, 0);
164 RTStrFree(pszPathTmp);
165 }
166 else
167 rc = VERR_NO_STR_MEMORY;
168 if (RT_FAILURE(rc))
169 break;
170
171 /* Search if the current directory contains one of the possible parts. */
172 size_t cchName = strlen(pPathComponent->pcszName);
173 RTDIRENTRY DirFolderContent;
174 bool fFound = false;
175
176 /* Get rid of the * filter which is in the path component. */
177 if (pPathComponent->fNumberedSuffix)
178 cchName--;
179
180 while (RT_SUCCESS(RTDirRead(pDirCurr, &DirFolderContent, NULL))) /* Assumption that szName has always enough space */
181 {
182 if ( DirFolderContent.cbName >= cchName
183 && !strncmp(DirFolderContent.szName, pPathComponent->pcszName, cchName))
184 {
185 /* Found, use the complete name to dig deeper. */
186 fFound = true;
187 pAcpiCpuPathLvl->uId = iCompCurr;
188 char *pszPathLvl = RTPathJoinA(pszPath, DirFolderContent.szName);
189 if (pszPathLvl)
190 {
191 RTStrFree(pszPath);
192 pszPath = pszPathLvl;
193 }
194 else
195 rc = VERR_NO_STR_MEMORY;
196 break;
197 }
198 }
199 RTDirClose(pDirCurr);
200
201 if (fFound)
202 break;
203 } /* For every possible component. */
204
205 /* No matching component for this part, no need to continue */
206 if (RT_FAILURE(rc))
207 break;
208 } /* For every level */
209
210 VBoxServiceVerbose(1, "Final path after probing %s rc=%Rrc\n", pszPath, rc);
211 RTStrFree(pszPath);
212 }
213
214 return rc;
215}
216
217/**
218 * Returns the path of the ACPI CPU device with the given core and package ID.
219 *
220 * @returns VBox status code.
221 * @param ppszPath Where to store the path.
222 * @param idCpuCore The core ID of the CPU.
223 * @param idCpuPackage The package ID of the CPU.
224 */
225static int VBoxServiceCpuHotPlugGetACPIDevicePath(char **ppszPath, uint32_t idCpuCore, uint32_t idCpuPackage)
226{
227 int rc = VINF_SUCCESS;
228
229 AssertPtrReturn(ppszPath, VERR_INVALID_PARAMETER);
230
231 rc = VBoxServiceCpuHotPlugProbePath();
232 if (RT_SUCCESS(rc))
233 {
234 /* Build the path from all components. */
235 bool fFound = false;
236 unsigned iLvlCurr = 0;
237 char *pszPath = NULL;
238 char *pszPathDir = NULL;
239 PSYSFSCPUPATH pAcpiCpuPathLvl = &g_aAcpiCpuPath[iLvlCurr];
240
241 /* Init everything. */
242 Assert(pAcpiCpuPathLvl->uId != ACPI_CPU_PATH_NOT_PROBED);
243 pszPath = RTPathJoinA(SYSFS_ACPI_CPU_PATH, pAcpiCpuPathLvl->aComponentsPossible[pAcpiCpuPathLvl->uId].pcszName);
244 if (!pszPath)
245 return VERR_NO_STR_MEMORY;
246
247 pAcpiCpuPathLvl->pszPath = RTStrDup(SYSFS_ACPI_CPU_PATH);
248 if (!pAcpiCpuPathLvl->pszPath)
249 {
250 RTStrFree(pszPath);
251 return VERR_NO_STR_MEMORY;
252 }
253
254 /* Open the directory */
255 rc = RTDirOpenFiltered(&pAcpiCpuPathLvl->pDir, pszPath, RTDIRFILTER_WINNT, 0);
256 if (RT_SUCCESS(rc))
257 {
258 RTStrFree(pszPath);
259
260 /* Search for CPU */
261 while (!fFound)
262 {
263 /* Get the next directory. */
264 RTDIRENTRY DirFolderContent;
265 rc = RTDirRead(pAcpiCpuPathLvl->pDir, &DirFolderContent, NULL);
266 if (RT_SUCCESS(rc))
267 {
268 /* Create the new path. */
269 char *pszPathCurr = RTPathJoinA(pAcpiCpuPathLvl->pszPath, DirFolderContent.szName);
270 if (!pszPathCurr)
271 {
272 rc = VERR_NO_STR_MEMORY;
273 break;
274 }
275
276 /* If this is the last level check for the given core and package id. */
277 if (iLvlCurr == RT_ELEMENTS(g_aAcpiCpuPath) - 1)
278 {
279 /* Get the sysdev */
280 uint32_t idCore = RTLinuxSysFsReadIntFile(10, "%s/sysdev/topology/core_id",
281 pszPathCurr);
282 uint32_t idPackage = RTLinuxSysFsReadIntFile(10, "%s/sysdev/topology/physical_package_id",
283 pszPathCurr);
284 if ( idCore == idCpuCore
285 && idPackage == idCpuPackage)
286 {
287 /* Return the path */
288 pszPath = pszPathCurr;
289 fFound = true;
290 VBoxServiceVerbose(3, "CPU found\n");
291 break;
292 }
293 else
294 {
295 /* Get the next directory. */
296 RTStrFree(pszPathCurr);
297 VBoxServiceVerbose(3, "CPU doesn't match, next directory\n");
298 }
299 }
300 else
301 {
302 /* Go deeper */
303 iLvlCurr++;
304
305 VBoxServiceVerbose(3, "Going deeper (iLvlCurr=%u)\n", iLvlCurr);
306
307 pAcpiCpuPathLvl = &g_aAcpiCpuPath[iLvlCurr];
308
309 Assert(!pAcpiCpuPathLvl->pDir);
310 Assert(!pAcpiCpuPathLvl->pszPath);
311 pAcpiCpuPathLvl->pszPath = pszPathCurr;
312 PCSYSFSCPUPATHCOMP pPathComponent = &pAcpiCpuPathLvl->aComponentsPossible[pAcpiCpuPathLvl->uId];
313
314 Assert(pAcpiCpuPathLvl->uId != ACPI_CPU_PATH_NOT_PROBED);
315
316 pszPathDir = RTPathJoinA(pszPathCurr, pPathComponent->pcszName);
317 if (!pszPathDir)
318 {
319 rc = VERR_NO_STR_MEMORY;
320 break;
321 }
322
323 VBoxServiceVerbose(3, "New path %s\n", pszPathDir);
324
325 /* Open the directory */
326 rc = RTDirOpenFiltered(&pAcpiCpuPathLvl->pDir, pszPathDir, RTDIRFILTER_WINNT, 0);
327 if (RT_FAILURE(rc))
328 break;
329 }
330 }
331 else
332 {
333 /* Go back one level and try to get the next entry. */
334 Assert(iLvlCurr > 0);
335
336 RTDirClose(pAcpiCpuPathLvl->pDir);
337 RTStrFree(pAcpiCpuPathLvl->pszPath);
338 pAcpiCpuPathLvl->pDir = NULL;
339 pAcpiCpuPathLvl->pszPath = NULL;
340
341 iLvlCurr--;
342 pAcpiCpuPathLvl = &g_aAcpiCpuPath[iLvlCurr];
343 VBoxServiceVerbose(3, "Directory not found, going back (iLvlCurr=%u)\n", iLvlCurr);
344 }
345 } /* while not found */
346 } /* Successful init */
347
348 /* Cleanup */
349 for (unsigned i = 0; i < RT_ELEMENTS(g_aAcpiCpuPath); i++)
350 {
351 if (g_aAcpiCpuPath[i].pDir)
352 RTDirClose(g_aAcpiCpuPath[i].pDir);
353 if (g_aAcpiCpuPath[i].pszPath)
354 RTStrFree(g_aAcpiCpuPath[i].pszPath);
355 g_aAcpiCpuPath[i].pDir = NULL;
356 g_aAcpiCpuPath[i].pszPath = NULL;
357 }
358 if (pszPathDir)
359 RTStrFree(pszPathDir);
360 if (RT_FAILURE(rc) && pszPath)
361 RTStrFree(pszPath);
362
363 if (RT_SUCCESS(rc))
364 *ppszPath = pszPath;
365 }
366
367 return rc;
368}
369#endif /* RT_OS_LINUX */
370
371
372/** @copydoc VBOXSERVICE::pfnPreInit */
373static DECLCALLBACK(int) VBoxServiceCpuHotPlugPreInit(void)
374{
375 return VINF_SUCCESS;
376}
377
378
379/** @copydoc VBOXSERVICE::pfnOption */
380static DECLCALLBACK(int) VBoxServiceCpuHotPlugOption(const char **ppszShort, int argc, char **argv, int *pi)
381{
382 NOREF(ppszShort);
383 NOREF(argc);
384 NOREF(argv);
385 NOREF(pi);
386
387 return -1;
388}
389
390
391/** @copydoc VBOXSERVICE::pfnInit */
392static DECLCALLBACK(int) VBoxServiceCpuHotPlugInit(void)
393{
394 return VINF_SUCCESS;
395}
396
397
398/**
399 * Handles VMMDevCpuEventType_Plug.
400 *
401 * @param idCpuCore The CPU core ID.
402 * @param idCpuPackage The CPU package ID.
403 */
404static void VBoxServiceCpuHotPlugHandlePlugEvent(uint32_t idCpuCore, uint32_t idCpuPackage)
405{
406#ifdef RT_OS_LINUX
407 /*
408 * The topology directory (containing the physical and core id properties)
409 * is not available until the CPU is online. So we just iterate over all directories
410 * and enable every CPU which is not online already.
411 * Because the directory might not be available immediately we try a few times.
412 *
413 * @todo: Maybe use udev to monitor hot-add events from the kernel
414 */
415 bool fCpuOnline = false;
416 unsigned cTries = 5;
417
418 do
419 {
420 PRTDIR pDirDevices = NULL;
421 int rc = RTDirOpen(&pDirDevices, SYSFS_CPU_PATH);
422 if (RT_SUCCESS(rc))
423 {
424 RTDIRENTRY DirFolderContent;
425 while (RT_SUCCESS(RTDirRead(pDirDevices, &DirFolderContent, NULL))) /* Assumption that szName has always enough space */
426 {
427 /** @todo r-bird: This code is bringing all CPUs online; the idCpuCore and
428 * idCpuPackage parameters are unused!
429 * aeichner: These files are not available at this point unfortunately. (see comment above)
430 * bird: Yes, but isn't that easily dealt with by doing:
431 * if (matching_topology() || !have_topology_directory())
432 * bring_cpu_online()
433 * That could save you the cpu0 and cpuidle checks to.
434 */
435 /*
436 * Check if this is a CPU object.
437 * cpu0 is excluded because it is not possible to change the state
438 * of the first CPU on Linux (it doesn't even have an online file)
439 * and cpuidle is no CPU device. Prevents error messages later.
440 */
441 if( !strncmp(DirFolderContent.szName, "cpu", 3)
442 && strncmp(DirFolderContent.szName, "cpu0", 4)
443 && strncmp(DirFolderContent.szName, "cpuidle", 7))
444 {
445 /* Get the sysdev */
446 RTFILE hFileCpuOnline = NIL_RTFILE;
447
448 rc = RTFileOpenF(&hFileCpuOnline, RTFILE_O_WRITE | RTFILE_O_OPEN | RTFILE_O_DENY_NONE,
449 "%s/%s/online", SYSFS_CPU_PATH, DirFolderContent.szName);
450 if (RT_SUCCESS(rc))
451 {
452 /* Write a 1 to online the CPU */
453 rc = RTFileWrite(hFileCpuOnline, "1", 1, NULL);
454 RTFileClose(hFileCpuOnline);
455 if (RT_SUCCESS(rc))
456 {
457 VBoxServiceVerbose(1, "CpuHotPlug: CPU %u/%u was brought online\n", idCpuPackage, idCpuCore);
458 fCpuOnline = true;
459 break;
460 }
461 /* Error means CPU not present or online already */
462 }
463 else
464 VBoxServiceError("CpuHotPlug: Failed to open \"%s/%s/online\" rc=%Rrc\n",
465 SYSFS_CPU_PATH, DirFolderContent.szName, rc);
466 }
467 }
468 }
469 else
470 VBoxServiceError("CpuHotPlug: Failed to open path %s rc=%Rrc\n", SYSFS_CPU_PATH, rc);
471
472 /* Sleep a bit */
473 if (!fCpuOnline)
474 RTThreadSleep(10);
475
476 } while ( !fCpuOnline
477 && cTries-- > 0);
478#else
479# error "Port me"
480#endif
481}
482
483
484/**
485 * Handles VMMDevCpuEventType_Unplug.
486 *
487 * @param idCpuCore The CPU core ID.
488 * @param idCpuPackage The CPU package ID.
489 */
490static void VBoxServiceCpuHotPlugHandleUnplugEvent(uint32_t idCpuCore, uint32_t idCpuPackage)
491{
492#ifdef RT_OS_LINUX
493 char *pszCpuDevicePath = NULL;
494 int rc = VBoxServiceCpuHotPlugGetACPIDevicePath(&pszCpuDevicePath, idCpuCore, idCpuPackage);
495 if (RT_SUCCESS(rc))
496 {
497 RTFILE hFileCpuEject;
498 rc = RTFileOpenF(&hFileCpuEject, RTFILE_O_WRITE | RTFILE_O_OPEN | RTFILE_O_DENY_NONE,
499 "%s/eject", pszCpuDevicePath);
500 if (RT_SUCCESS(rc))
501 {
502 /* Write a 1 to eject the CPU */
503 rc = RTFileWrite(hFileCpuEject, "1", 1, NULL);
504 if (RT_SUCCESS(rc))
505 VBoxServiceVerbose(1, "CpuHotPlug: CPU %u/%u was ejected\n", idCpuPackage, idCpuCore);
506 else
507 VBoxServiceError("CpuHotPlug: Failed to eject CPU %u/%u rc=%Rrc\n", idCpuPackage, idCpuCore, rc);
508
509 RTFileClose(hFileCpuEject);
510 }
511 else
512 VBoxServiceError("CpuHotPlug: Failed to open \"%s/eject\" rc=%Rrc\n", pszCpuDevicePath, rc);
513 RTStrFree(pszCpuDevicePath);
514 }
515 else
516 VBoxServiceError("CpuHotPlug: Failed to get CPU device path rc=%Rrc\n", rc);
517#else
518# error "Port me"
519#endif
520}
521
522
523/** @copydoc VBOXSERVICE::pfnWorker */
524DECLCALLBACK(int) VBoxServiceCpuHotPlugWorker(bool volatile *pfShutdown)
525{
526 /*
527 * Tell the control thread that it can continue spawning services.
528 */
529 RTThreadUserSignal(RTThreadSelf());
530
531 /*
532 * Enable the CPU hotplug notifier.
533 */
534 int rc = VbglR3CpuHotPlugInit();
535 if (RT_FAILURE(rc))
536 return rc;
537
538 /*
539 * The Work Loop.
540 */
541 for (;;)
542 {
543 /* Wait for CPU hot plugging event. */
544 uint32_t idCpuCore;
545 uint32_t idCpuPackage;
546 VMMDevCpuEventType enmEventType;
547 rc = VbglR3CpuHotPlugWaitForEvent(&enmEventType, &idCpuCore, &idCpuPackage);
548 if (RT_SUCCESS(rc))
549 {
550 VBoxServiceVerbose(3, "CpuHotPlug: Event happened idCpuCore=%u idCpuPackage=%u enmEventType=%d\n",
551 idCpuCore, idCpuPackage, enmEventType);
552 switch (enmEventType)
553 {
554 case VMMDevCpuEventType_Plug:
555 VBoxServiceCpuHotPlugHandlePlugEvent(idCpuCore, idCpuPackage);
556 break;
557
558 case VMMDevCpuEventType_Unplug:
559 VBoxServiceCpuHotPlugHandleUnplugEvent(idCpuCore, idCpuPackage);
560 break;
561
562 default:
563 {
564 static uint32_t s_iErrors = 0;
565 if (s_iErrors++ < 10)
566 VBoxServiceError("CpuHotPlug: Unknown event: idCpuCore=%u idCpuPackage=%u enmEventType=%d\n",
567 idCpuCore, idCpuPackage, enmEventType);
568 break;
569 }
570 }
571 }
572 else if (rc != VERR_INTERRUPTED && rc != VERR_TRY_AGAIN)
573 {
574 VBoxServiceError("CpuHotPlug: VbglR3CpuHotPlugWaitForEvent returned %Rrc\n", rc);
575 break;
576 }
577
578 if (*pfShutdown)
579 break;
580 }
581
582 VbglR3CpuHotPlugTerm();
583 return rc;
584}
585
586
587/** @copydoc VBOXSERVICE::pfnStop */
588static DECLCALLBACK(void) VBoxServiceCpuHotPlugStop(void)
589{
590 VbglR3InterruptEventWaits();
591 return;
592}
593
594
595/** @copydoc VBOXSERVICE::pfnTerm */
596static DECLCALLBACK(void) VBoxServiceCpuHotPlugTerm(void)
597{
598 return;
599}
600
601
602/**
603 * The 'timesync' service description.
604 */
605VBOXSERVICE g_CpuHotPlug =
606{
607 /* pszName. */
608 "cpuhotplug",
609 /* pszDescription. */
610 "CPU hot plugging monitor",
611 /* pszUsage. */
612 NULL,
613 /* pszOptions. */
614 NULL,
615 /* methods */
616 VBoxServiceCpuHotPlugPreInit,
617 VBoxServiceCpuHotPlugOption,
618 VBoxServiceCpuHotPlugInit,
619 VBoxServiceCpuHotPlugWorker,
620 VBoxServiceCpuHotPlugStop,
621 VBoxServiceCpuHotPlugTerm
622};
623
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