VirtualBox

source: vbox/trunk/src/VBox/Main/src-client/ConsoleImplConfigArmV8.cpp@ 104820

Last change on this file since 104820 was 104386, checked in by vboxsync, 8 months ago

VMM/GIC: Add a dedicated GIC device implementation for linux.arm64 which interfaces with the in-kernel KVM GIC device emulation, bugref:10391

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1/* $Id: ConsoleImplConfigArmV8.cpp 104386 2024-04-20 19:05:54Z vboxsync $ */
2/** @file
3 * VBox Console COM Class implementation - VM Configuration Bits for ARMv8.
4 */
5
6/*
7 * Copyright (C) 2023 Oracle and/or its affiliates.
8 *
9 * This file is part of VirtualBox base platform packages, as
10 * available from https://www.virtualbox.org.
11 *
12 * This program is free software; you can redistribute it and/or
13 * modify it under the terms of the GNU General Public License
14 * as published by the Free Software Foundation, in version 3 of the
15 * License.
16 *
17 * This program is distributed in the hope that it will be useful, but
18 * WITHOUT ANY WARRANTY; without even the implied warranty of
19 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
20 * General Public License for more details.
21 *
22 * You should have received a copy of the GNU General Public License
23 * along with this program; if not, see <https://www.gnu.org/licenses>.
24 *
25 * SPDX-License-Identifier: GPL-3.0-only
26 */
27
28
29/*********************************************************************************************************************************
30* Header Files *
31*********************************************************************************************************************************/
32#define LOG_GROUP LOG_GROUP_MAIN_CONSOLE
33#include "LoggingNew.h"
34
35#include "ConsoleImpl.h"
36#include "ResourceStoreImpl.h"
37#include "Global.h"
38#include "VMMDev.h"
39
40// generated header
41#include "SchemaDefs.h"
42
43#include "AutoCaller.h"
44
45#include <iprt/buildconfig.h>
46#include <iprt/ctype.h>
47#include <iprt/dir.h>
48#include <iprt/fdt.h>
49#include <iprt/file.h>
50#include <iprt/param.h>
51#include <iprt/path.h>
52#include <iprt/string.h>
53#include <iprt/system.h>
54#if 0 /* enable to play with lots of memory. */
55# include <iprt/env.h>
56#endif
57#include <iprt/stream.h>
58
59#include <iprt/formats/arm-psci.h>
60
61#include <VBox/vmm/vmmr3vtable.h>
62#include <VBox/vmm/vmapi.h>
63#include <VBox/err.h>
64#include <VBox/param.h>
65#include <VBox/version.h>
66#include <VBox/platforms/vbox-armv8.h>
67
68#include "BusAssignmentManager.h"
69#include "ResourceAssignmentManager.h"
70#ifdef VBOX_WITH_EXTPACK
71# include "ExtPackManagerImpl.h"
72#endif
73
74
75/*********************************************************************************************************************************
76* Internal Functions *
77*********************************************************************************************************************************/
78
79/* Darwin compile kludge */
80#undef PVM
81
82#ifdef VBOX_WITH_VIRT_ARMV8
83/**
84 * Worker for configConstructor.
85 *
86 * @return VBox status code.
87 * @param pUVM The user mode VM handle.
88 * @param pVM The cross context VM handle.
89 * @param pVMM The VMM vtable.
90 * @param pAlock The automatic lock instance. This is for when we have
91 * to leave it in order to avoid deadlocks (ext packs and
92 * more).
93 */
94int Console::i_configConstructorArmV8(PUVM pUVM, PVM pVM, PCVMMR3VTABLE pVMM, AutoWriteLock *pAlock)
95{
96 RT_NOREF(pVM /* when everything is disabled */);
97 ComPtr<IMachine> pMachine = i_machine();
98
99 HRESULT hrc;
100 Utf8Str strTmp;
101 Bstr bstr;
102
103 RTFDT hFdt = NIL_RTFDT;
104 int vrc = RTFdtCreateEmpty(&hFdt);
105 AssertRCReturn(vrc, vrc);
106
107#define H() AssertLogRelMsgReturnStmt(!FAILED(hrc), ("hrc=%Rhrc\n", hrc), RTFdtDestroy(hFdt), VERR_MAIN_CONFIG_CONSTRUCTOR_COM_ERROR)
108#define VRC() AssertLogRelMsgReturnStmt(RT_SUCCESS(vrc), ("vrc=%Rrc\n", vrc), RTFdtDestroy(hFdt), vrc)
109
110 /** @todo Find a way to figure it out before CPUM is set up, can't use CPUMGetGuestAddrWidths() and on macOS we need
111 * access to Hypervisor.framework to query the ID registers (Linux can in theory parse /proc/cpuinfo, no idea for Windows). */
112 RTGCPHYS GCPhysTopOfAddrSpace = RT_BIT_64(36);
113
114 /*
115 * Get necessary objects and frequently used parameters.
116 */
117 ComPtr<IVirtualBox> virtualBox;
118 hrc = pMachine->COMGETTER(Parent)(virtualBox.asOutParam()); H();
119
120 ComPtr<IHost> host;
121 hrc = virtualBox->COMGETTER(Host)(host.asOutParam()); H();
122
123 PlatformArchitecture_T platformArchHost;
124 hrc = host->COMGETTER(Architecture)(&platformArchHost); H();
125
126 ComPtr<ISystemProperties> systemProperties;
127 hrc = virtualBox->COMGETTER(SystemProperties)(systemProperties.asOutParam()); H();
128
129 ComPtr<IFirmwareSettings> firmwareSettings;
130 hrc = pMachine->COMGETTER(FirmwareSettings)(firmwareSettings.asOutParam()); H();
131
132 ComPtr<INvramStore> nvramStore;
133 hrc = pMachine->COMGETTER(NonVolatileStore)(nvramStore.asOutParam()); H();
134
135 hrc = pMachine->COMGETTER(HardwareUUID)(bstr.asOutParam()); H();
136 RTUUID HardwareUuid;
137 vrc = RTUuidFromUtf16(&HardwareUuid, bstr.raw());
138 AssertRCReturn(vrc, vrc);
139
140 ULONG cRamMBs;
141 hrc = pMachine->COMGETTER(MemorySize)(&cRamMBs); H();
142 uint64_t const cbRam = cRamMBs * (uint64_t)_1M;
143
144 ComPtr<IPlatform> platform;
145 hrc = pMachine->COMGETTER(Platform)(platform.asOutParam()); H();
146
147 /* Note: Should be guarded by VBOX_WITH_VIRT_ARMV8, but we check this anyway here. */
148#if 1 /* For now we only support running ARM VMs on ARM hosts. */
149 PlatformArchitecture_T platformArchMachine;
150 hrc = platform->COMGETTER(Architecture)(&platformArchMachine); H();
151 if (platformArchMachine != platformArchHost)
152 return pVMM->pfnVMR3SetError(pUVM, VERR_PLATFORM_ARCH_NOT_SUPPORTED, RT_SRC_POS,
153 N_("VM platform architecture (%s) not supported on this host (%s)."),
154 Global::stringifyPlatformArchitecture(platformArchMachine),
155 Global::stringifyPlatformArchitecture(platformArchHost));
156#endif
157
158 ComPtr<IPlatformProperties> pPlatformProperties;
159 hrc = platform->COMGETTER(Properties)(pPlatformProperties.asOutParam()); H();
160
161 ChipsetType_T chipsetType;
162 hrc = platform->COMGETTER(ChipsetType)(&chipsetType); H();
163
164 ULONG cCpus = 1;
165 hrc = pMachine->COMGETTER(CPUCount)(&cCpus); H();
166 Assert(cCpus);
167
168 ULONG ulCpuExecutionCap = 100;
169 hrc = pMachine->COMGETTER(CPUExecutionCap)(&ulCpuExecutionCap); H();
170
171 VMExecutionEngine_T enmExecEngine = VMExecutionEngine_NotSet;
172 hrc = pMachine->COMGETTER(VMExecutionEngine)(&enmExecEngine); H();
173
174 if ( enmExecEngine != VMExecutionEngine_Default
175 && enmExecEngine != VMExecutionEngine_NativeApi)
176 {
177 return pVMM->pfnVMR3SetError(pUVM, VERR_INVALID_PARAMETER, RT_SRC_POS,
178 N_("The ARM backend doesn't support any other execution engine than 'default' or 'native-api' right now."));
179 }
180
181 LogRel(("Guest architecture: ARM\n"));
182
183 Bstr osTypeId;
184 hrc = pMachine->COMGETTER(OSTypeId)(osTypeId.asOutParam()); H();
185 LogRel(("Guest OS type: '%s'\n", Utf8Str(osTypeId).c_str()));
186
187 BusAssignmentManager *pBusMgr = mBusMgr = BusAssignmentManager::createInstance(pVMM, chipsetType, IommuType_None);
188 ResourceAssignmentManager *pResMgr = ResourceAssignmentManager::createInstance(pVMM, chipsetType, IommuType_None,
189 GCPhysTopOfAddrSpace - sizeof(VBOXPLATFORMARMV8),
190 _1G, /*GCPhysRam*/
191 128 * _1M, /*GCPhysMmio32Start*/
192 _1G - 128 * _1M, /*cbMmio32*/
193 32 /*cInterrupts*/);
194
195 /*
196 * Get root node first.
197 * This is the only node in the tree.
198 */
199 PCFGMNODE pRoot = pVMM->pfnCFGMR3GetRootU(pUVM);
200 Assert(pRoot);
201
202 RTGCPHYS GCPhysRam = NIL_RTGCPHYS;
203
204 // catching throws from InsertConfigString and friends.
205 try
206 {
207
208 /*
209 * Set the root (and VMM) level values.
210 */
211 hrc = pMachine->COMGETTER(Name)(bstr.asOutParam()); H();
212 InsertConfigString(pRoot, "Name", bstr);
213 InsertConfigBytes(pRoot, "UUID", &HardwareUuid, sizeof(HardwareUuid));
214 InsertConfigInteger(pRoot, "NumCPUs", cCpus);
215 InsertConfigInteger(pRoot, "CpuExecutionCap", ulCpuExecutionCap);
216 InsertConfigInteger(pRoot, "TimerMillies", 10);
217
218 /*
219 * NEM
220 */
221 PCFGMNODE pNEM;
222 InsertConfigNode(pRoot, "NEM", &pNEM);
223
224 uint32_t idPHandleIntCtrl = RTFdtPHandleAllocate(hFdt);
225 Assert(idPHandleIntCtrl != UINT32_MAX);
226 uint32_t idPHandleIntCtrlMsi = RTFdtPHandleAllocate(hFdt);
227 Assert(idPHandleIntCtrlMsi != UINT32_MAX); RT_NOREF(idPHandleIntCtrlMsi);
228 uint32_t idPHandleAbpPClk = RTFdtPHandleAllocate(hFdt);
229 Assert(idPHandleAbpPClk != UINT32_MAX);
230 uint32_t idPHandleGpio = RTFdtPHandleAllocate(hFdt);
231 Assert(idPHandleGpio != UINT32_MAX);
232
233 uint32_t aidPHandleCpus[VMM_MAX_CPU_COUNT];
234 for (uint32_t i = 0; i < cCpus; i++)
235 {
236 aidPHandleCpus[i] = RTFdtPHandleAllocate(hFdt);
237 Assert(aidPHandleCpus[i] != UINT32_MAX);
238 }
239
240 vrc = RTFdtNodePropertyAddU32( hFdt, "interrupt-parent", idPHandleIntCtrl); VRC();
241 vrc = RTFdtNodePropertyAddString(hFdt, "model", "linux,dummy-virt"); VRC();
242 vrc = RTFdtNodePropertyAddU32( hFdt, "#size-cells", 2); VRC();
243 vrc = RTFdtNodePropertyAddU32( hFdt, "#address-cells", 2); VRC();
244 vrc = RTFdtNodePropertyAddString(hFdt, "compatible", "linux,dummy-virt"); VRC();
245
246 /* Configure the Power State Coordination Interface. */
247 vrc = RTFdtNodeAdd(hFdt, "psci"); VRC();
248 vrc = RTFdtNodePropertyAddU32( hFdt, "migrate", ARM_PSCI_FUNC_ID_CREATE_FAST_32(ARM_PSCI_FUNC_ID_MIGRATE)); VRC();
249 vrc = RTFdtNodePropertyAddU32( hFdt, "cpu_on", ARM_PSCI_FUNC_ID_CREATE_FAST_32(ARM_PSCI_FUNC_ID_CPU_ON)); VRC();
250 vrc = RTFdtNodePropertyAddU32( hFdt, "cpu_off", ARM_PSCI_FUNC_ID_CREATE_FAST_32(ARM_PSCI_FUNC_ID_CPU_OFF)); VRC();
251 vrc = RTFdtNodePropertyAddU32( hFdt, "cpu_suspend", ARM_PSCI_FUNC_ID_CREATE_FAST_32(ARM_PSCI_FUNC_ID_CPU_SUSPEND)); VRC();
252 vrc = RTFdtNodePropertyAddString(hFdt, "method", "hvc"); VRC();
253 vrc = RTFdtNodePropertyAddStringList(hFdt, "compatible", 3,
254 "arm,psci-1.0", "arm,psci-0.2", "arm,psci"); VRC();
255 vrc = RTFdtNodeFinalize(hFdt); VRC();
256
257 /* Configure the timer and clock. */
258 InsertConfigInteger(pNEM, "VTimerInterrupt", 0xb);
259 vrc = RTFdtNodeAdd(hFdt, "timer"); VRC();
260 vrc = RTFdtNodePropertyAddCellsU32(hFdt, "interrupts", 12,
261 0x01, 0x0d, 0x104,
262 0x01, 0x0e, 0x104,
263 0x01, 0x0b, 0x104,
264 0x01, 0x0a, 0x104); VRC();
265 vrc = RTFdtNodePropertyAddEmpty( hFdt, "always-on"); VRC();
266 vrc = RTFdtNodePropertyAddString( hFdt, "compatible", "arm,armv8-timer"); VRC();
267 vrc = RTFdtNodeFinalize(hFdt);
268
269 vrc = RTFdtNodeAdd(hFdt, "apb-clk"); VRC();
270 vrc = RTFdtNodePropertyAddU32( hFdt, "phandle", idPHandleAbpPClk); VRC();
271 vrc = RTFdtNodePropertyAddString( hFdt, "clock-output-names", "clk24mhz"); VRC();
272 vrc = RTFdtNodePropertyAddU32( hFdt, "clock-frequency", 24 * 1000 * 1000); VRC();
273 vrc = RTFdtNodePropertyAddU32( hFdt, "#clock-cells", 0); VRC();
274 vrc = RTFdtNodePropertyAddString( hFdt, "compatible", "fixed-clock"); VRC();
275 vrc = RTFdtNodeFinalize(hFdt);
276
277 /*
278 * MM values.
279 */
280 PCFGMNODE pMM;
281 InsertConfigNode(pRoot, "MM", &pMM);
282
283 /*
284 * Memory setup.
285 */
286 PCFGMNODE pMem = NULL;
287 InsertConfigNode(pMM, "MemRegions", &pMem);
288
289 hrc = pResMgr->assignRamRegion("Conventional", cbRam, &GCPhysRam); H();
290
291 PCFGMNODE pMemRegion = NULL;
292 InsertConfigNode(pMem, "Conventional", &pMemRegion);
293 InsertConfigInteger(pMemRegion, "GCPhysStart", GCPhysRam);
294 InsertConfigInteger(pMemRegion, "Size", cbRam);
295
296 vrc = RTFdtNodeAddF(hFdt, "memory@%RGp", GCPhysRam); VRC();
297 vrc = RTFdtNodePropertyAddCellsU64(hFdt, "reg", 2, GCPhysRam, cbRam); VRC();
298 vrc = RTFdtNodePropertyAddString( hFdt, "device_type", "memory"); VRC();
299 vrc = RTFdtNodeFinalize(hFdt); VRC();
300
301 /* Configure the CPUs in the system, only one socket and cluster at the moment. */
302 vrc = RTFdtNodeAdd(hFdt, "cpus"); VRC();
303 vrc = RTFdtNodePropertyAddU32(hFdt, "#size-cells", 0); VRC();
304 vrc = RTFdtNodePropertyAddU32(hFdt, "#address-cells", 1); VRC();
305
306 vrc = RTFdtNodeAdd(hFdt, "socket0"); VRC();
307 vrc = RTFdtNodeAdd(hFdt, "cluster0"); VRC();
308
309 for (uint32_t i = 0; i < cCpus; i++)
310 {
311 vrc = RTFdtNodeAddF(hFdt, "core%u", i); VRC();
312 vrc = RTFdtNodePropertyAddU32(hFdt, "cpu", aidPHandleCpus[i]); VRC();
313 vrc = RTFdtNodeFinalize(hFdt); VRC();
314 }
315
316 vrc = RTFdtNodeFinalize(hFdt); VRC();
317 vrc = RTFdtNodeFinalize(hFdt); VRC();
318
319 for (uint32_t i = 0; i < cCpus; i++)
320 {
321 vrc = RTFdtNodeAddF(hFdt, "cpu@%u", i); VRC();
322 vrc = RTFdtNodePropertyAddU32(hFdt, "phandle", aidPHandleCpus[i]); VRC();
323 vrc = RTFdtNodePropertyAddU32(hFdt, "reg", i); VRC();
324 vrc = RTFdtNodePropertyAddString(hFdt, "compatible", "arm,cortex-a15"); VRC();
325 vrc = RTFdtNodePropertyAddString(hFdt, "device_type", "cpu"); VRC();
326 if (cCpus > 1)
327 {
328 vrc = RTFdtNodePropertyAddString(hFdt, "enable-method", "psci"); VRC();
329 }
330 vrc = RTFdtNodeFinalize(hFdt); VRC();
331 }
332
333 vrc = RTFdtNodeFinalize(hFdt); VRC();
334
335
336 /*
337 * PDM config.
338 * Load drivers in VBoxC.[so|dll]
339 */
340 vrc = i_configPdm(pMachine, pVMM, pUVM, pRoot); VRC();
341
342
343 /*
344 * VGA.
345 */
346 ComPtr<IGraphicsAdapter> pGraphicsAdapter;
347 hrc = pMachine->COMGETTER(GraphicsAdapter)(pGraphicsAdapter.asOutParam()); H();
348 GraphicsControllerType_T enmGraphicsController;
349 hrc = pGraphicsAdapter->COMGETTER(GraphicsControllerType)(&enmGraphicsController); H();
350
351 /*
352 * Devices
353 */
354 PCFGMNODE pDevices = NULL; /* /Devices */
355 PCFGMNODE pDev = NULL; /* /Devices/Dev/ */
356 PCFGMNODE pInst = NULL; /* /Devices/Dev/0/ */
357 PCFGMNODE pCfg = NULL; /* /Devices/Dev/.../Config/ */
358 PCFGMNODE pLunL0 = NULL; /* /Devices/Dev/0/LUN#0/ */
359
360 InsertConfigNode(pRoot, "Devices", &pDevices);
361
362 InsertConfigNode(pDevices, "pci-generic-ecam-bridge", NULL);
363
364 InsertConfigNode(pDevices, "platform", &pDev);
365 InsertConfigNode(pDev, "0", &pInst);
366 InsertConfigNode(pInst, "Config", &pCfg);
367 InsertConfigNode(pInst, "LUN#0", &pLunL0);
368 InsertConfigString(pLunL0, "Driver", "ResourceStore");
369
370 /* Add the resources. */
371 PCFGMNODE pResources = NULL; /* /Devices/platform/Config/Resources */
372 PCFGMNODE pRes = NULL; /* /Devices/platform/Config/Resources/<Resource> */
373 InsertConfigString(pCfg, "ResourceNamespace", "resources");
374 InsertConfigNode(pCfg, "Resources", &pResources);
375 InsertConfigNode(pResources, "EfiRom", &pRes);
376 InsertConfigInteger(pRes, "RegisterAsRom", 1);
377 InsertConfigInteger(pRes, "GCPhysLoadAddress", 0);
378
379 /** @todo r=aeichner 32-bit guests and query the firmware type from VBoxSVC. */
380 /*
381 * Firmware.
382 */
383 FirmwareType_T eFwType = FirmwareType_EFI64;
384#ifdef VBOX_WITH_EFI_IN_DD2
385 const char *pszEfiRomFile = eFwType == FirmwareType_EFIDUAL ? "<INVALID>"
386 : eFwType == FirmwareType_EFI32 ? "VBoxEFIAArch32.fd"
387 : "VBoxEFIAArch64.fd";
388 const char *pszKey = "ResourceId";
389#else
390 Utf8Str efiRomFile;
391 vrc = findEfiRom(virtualBox, PlatformArchitecture_ARM, eFwType, &efiRomFile);
392 AssertRCReturn(vrc, vrc);
393 const char *pszEfiRomFile = efiRomFile.c_str();
394 const char *pszKey = "Filename";
395#endif
396 InsertConfigString(pRes, pszKey, pszEfiRomFile);
397
398 InsertConfigNode(pResources, "ArmV8Desc", &pRes);
399 InsertConfigInteger(pRes, "RegisterAsRom", 1);
400 InsertConfigInteger(pRes, "GCPhysLoadAddress", UINT64_MAX); /* End of physical address space. */
401 InsertConfigString(pRes, "ResourceId", "VBoxArmV8Desc");
402
403 /*
404 * Configure the interrupt controller.
405 */
406 RTGCPHYS GCPhysIntcDist;
407 RTGCPHYS GCPhysIntcReDist;
408 RTGCPHYS cbMmioIntcDist;
409 RTGCPHYS cbMmioIntcReDist;
410
411 /* Each vCPU needs on re-distributor, this would allow for up to 256 vCPUs in the future. */
412 hrc = pResMgr->assignMmioRegion("gic", 256 * _64K, &GCPhysIntcReDist, &cbMmioIntcReDist); H();
413 hrc = pResMgr->assignMmioRegion("gic", _64K, &GCPhysIntcDist, &cbMmioIntcDist); H();
414
415#ifndef RT_OS_LINUX
416 InsertConfigNode(pDevices, "gic", &pDev);
417#else
418 /* On Linux we default to the KVM in-kernel GIC for now. */
419 InsertConfigNode(pDevices, "gic-kvm", &pDev);
420#endif
421 InsertConfigNode(pDev, "0", &pInst);
422 InsertConfigInteger(pInst, "Trusted", 1);
423 InsertConfigNode(pInst, "Config", &pCfg);
424 InsertConfigInteger(pCfg, "DistributorMmioBase", GCPhysIntcDist);
425 InsertConfigInteger(pCfg, "RedistributorMmioBase", GCPhysIntcReDist);
426
427 vrc = RTFdtNodeAddF(hFdt, "intc@%RGp", GCPhysIntcDist); VRC();
428 vrc = RTFdtNodePropertyAddU32( hFdt, "phandle", idPHandleIntCtrl); VRC();
429 vrc = RTFdtNodePropertyAddCellsU64(hFdt, "reg", 4,
430 GCPhysIntcDist, cbMmioIntcDist, /* Distributor */
431 GCPhysIntcReDist, cbMmioIntcReDist); /* Re-Distributor */ VRC();
432 vrc = RTFdtNodePropertyAddU32( hFdt, "#redistributor-regions", 1); VRC();
433 vrc = RTFdtNodePropertyAddString( hFdt, "compatible", "arm,gic-v3"); VRC();
434 vrc = RTFdtNodePropertyAddEmpty( hFdt, "ranges"); VRC();
435 vrc = RTFdtNodePropertyAddU32( hFdt, "#size-cells", 2); VRC();
436 vrc = RTFdtNodePropertyAddU32( hFdt, "#address-cells", 2); VRC();
437 vrc = RTFdtNodePropertyAddEmpty( hFdt, "interrupt-controller"); VRC();
438 vrc = RTFdtNodePropertyAddU32( hFdt, "#interrupt-cells", 3); VRC();
439
440#if 0
441 vrc = RTFdtNodeAddF(hFdt, "its@%RX32", 0x08080000); VRC();
442 vrc = RTFdtNodePropertyAddU32( hFdt, "phandle", idPHandleIntCtrlMsi); VRC();
443 vrc = RTFdtNodePropertyAddCellsU32(hFdt, "reg", 4, 0, 0x08080000, 0, 0x20000); VRC();
444 vrc = RTFdtNodePropertyAddU32( hFdt, "#msi-cells", 1); VRC();
445 vrc = RTFdtNodePropertyAddEmpty( hFdt, "msi-controller"); VRC();
446 vrc = RTFdtNodePropertyAddString( hFdt, "compatible", "arm,gic-v3-its"); VRC();
447 vrc = RTFdtNodeFinalize(hFdt); VRC();
448#endif
449
450 vrc = RTFdtNodeFinalize(hFdt); VRC();
451
452 RTGCPHYS GCPhysMmioStart;
453 RTGCPHYS cbMmio;
454 if (enmGraphicsController == GraphicsControllerType_QemuRamFB)
455 {
456 hrc = pResMgr->assignMmioRegion("qemu-fw-cfg", _4K, &GCPhysMmioStart, &cbMmio); H();
457
458 InsertConfigNode(pDevices, "qemu-fw-cfg", &pDev);
459 InsertConfigNode(pDev, "0", &pInst);
460 InsertConfigNode(pInst, "Config", &pCfg);
461 InsertConfigInteger(pCfg, "MmioSize", cbMmio);
462 InsertConfigInteger(pCfg, "MmioBase", GCPhysMmioStart);
463 InsertConfigInteger(pCfg, "DmaEnabled", 1);
464 InsertConfigInteger(pCfg, "QemuRamfbSupport", 1);
465 InsertConfigNode(pInst, "LUN#0", &pLunL0);
466 InsertConfigString(pLunL0, "Driver", "MainDisplay");
467
468 vrc = RTFdtNodeAddF(hFdt, "fw-cfg@%RGp", GCPhysMmioStart); VRC();
469 vrc = RTFdtNodePropertyAddEmpty( hFdt, "dma-coherent"); VRC();
470 vrc = RTFdtNodePropertyAddCellsU64(hFdt, "reg", 2, GCPhysMmioStart, cbMmio); VRC();
471 vrc = RTFdtNodePropertyAddString( hFdt, "compatible", "qemu,fw-cfg-mmio"); VRC();
472 vrc = RTFdtNodeFinalize(hFdt); VRC();
473 }
474
475 InsertConfigNode(pDevices, "flash-cfi", &pDev);
476 InsertConfigNode(pDev, "0", &pInst);
477 InsertConfigNode(pInst, "Config", &pCfg);
478 InsertConfigInteger(pCfg, "BaseAddress", 64 * _1M);
479 InsertConfigInteger(pCfg, "Size", 768 * _1K);
480 InsertConfigString(pCfg, "FlashFile", "nvram");
481 /* Attach the NVRAM storage driver. */
482 InsertConfigNode(pInst, "LUN#0", &pLunL0);
483 InsertConfigString(pLunL0, "Driver", "NvramStore");
484
485 vrc = RTFdtNodeAddF(hFdt, "flash@%RX32", 0); VRC();
486 vrc = RTFdtNodePropertyAddU32( hFdt, "bank-width", 4); VRC();
487 vrc = RTFdtNodePropertyAddCellsU64(hFdt, "reg", 4,
488 0, 0x04000000, /* First region (EFI). */
489 0x04000000, 0x04000000); /* Second region (NVRAM). */ VRC();
490 vrc = RTFdtNodePropertyAddString( hFdt, "compatible", "cfi-flash"); VRC();
491 vrc = RTFdtNodeFinalize(hFdt); VRC();
492
493 InsertConfigNode(pDevices, "arm-pl011", &pDev);
494 for (ULONG ulInstance = 0; ulInstance < 1 /** @todo SchemaDefs::SerialPortCount*/; ++ulInstance)
495 {
496 ComPtr<ISerialPort> serialPort;
497 hrc = pMachine->GetSerialPort(ulInstance, serialPort.asOutParam()); H();
498 BOOL fEnabledSerPort = FALSE;
499 if (serialPort)
500 {
501 hrc = serialPort->COMGETTER(Enabled)(&fEnabledSerPort); H();
502 }
503 if (!fEnabledSerPort)
504 {
505 m_aeSerialPortMode[ulInstance] = PortMode_Disconnected;
506 continue;
507 }
508
509 InsertConfigNode(pDev, Utf8StrFmt("%u", ulInstance).c_str(), &pInst);
510 InsertConfigInteger(pInst, "Trusted", 1); /* boolean */
511 InsertConfigNode(pInst, "Config", &pCfg);
512
513 uint32_t iIrq = 0;
514 hrc = pResMgr->assignSingleInterrupt("arm-pl011", &iIrq); H();
515 hrc = pResMgr->assignMmioRegion("arm-pl011", _4K, &GCPhysMmioStart, &cbMmio); H();
516
517 InsertConfigInteger(pCfg, "Irq", iIrq);
518 InsertConfigInteger(pCfg, "MmioBase", GCPhysMmioStart);
519
520 vrc = RTFdtNodeAddF(hFdt, "pl011@%RGp", GCPhysMmioStart); VRC();
521 vrc = RTFdtNodePropertyAddStringList(hFdt, "clock-names", 2, "uartclk", "apb_pclk"); VRC();
522 vrc = RTFdtNodePropertyAddCellsU32(hFdt, "clocks", 2,
523 idPHandleAbpPClk, idPHandleAbpPClk); VRC();
524 vrc = RTFdtNodePropertyAddCellsU32(hFdt, "interrupts", 3, 0x00, iIrq, 0x04); VRC();
525 vrc = RTFdtNodePropertyAddCellsU64(hFdt, "reg", 2, GCPhysMmioStart, cbMmio); VRC();
526 vrc = RTFdtNodePropertyAddStringList(hFdt, "compatible", 2,
527 "arm,pl011", "arm,primecell"); VRC();
528 vrc = RTFdtNodeFinalize(hFdt); VRC();
529
530 BOOL fServer;
531 hrc = serialPort->COMGETTER(Server)(&fServer); H();
532 hrc = serialPort->COMGETTER(Path)(bstr.asOutParam()); H();
533
534 PortMode_T eHostMode;
535 hrc = serialPort->COMGETTER(HostMode)(&eHostMode); H();
536
537 m_aeSerialPortMode[ulInstance] = eHostMode;
538 if (eHostMode != PortMode_Disconnected)
539 {
540 vrc = i_configSerialPort(pInst, eHostMode, Utf8Str(bstr).c_str(), RT_BOOL(fServer));
541 if (RT_FAILURE(vrc))
542 return vrc;
543 }
544 }
545
546 BOOL fRTCUseUTC;
547 hrc = platform->COMGETTER(RTCUseUTC)(&fRTCUseUTC); H();
548
549 uint32_t iIrq = 0;
550 hrc = pResMgr->assignSingleInterrupt("arm-pl031-rtc", &iIrq); H();
551 hrc = pResMgr->assignMmioRegion("arm-pl031-rtc", _4K, &GCPhysMmioStart, &cbMmio); H();
552 InsertConfigNode(pDevices, "arm-pl031-rtc", &pDev);
553 InsertConfigNode(pDev, "0", &pInst);
554 InsertConfigNode(pInst, "Config", &pCfg);
555 InsertConfigInteger(pCfg, "Irq", iIrq);
556 InsertConfigInteger(pCfg, "MmioBase", GCPhysMmioStart);
557 InsertConfigInteger(pCfg, "UtcOffset", fRTCUseUTC ? 1 : 0);
558
559 vrc = RTFdtNodeAddF(hFdt, "pl032@%RGp", GCPhysMmioStart); VRC();
560 vrc = RTFdtNodePropertyAddString( hFdt, "clock-names", "apb_pclk"); VRC();
561 vrc = RTFdtNodePropertyAddU32( hFdt, "clocks", idPHandleAbpPClk); VRC();
562 vrc = RTFdtNodePropertyAddCellsU32(hFdt, "interrupts", 3, 0x00, iIrq, 0x04); VRC();
563 vrc = RTFdtNodePropertyAddCellsU64(hFdt, "reg", 2, GCPhysMmioStart, cbMmio); VRC();
564 vrc = RTFdtNodePropertyAddStringList(hFdt, "compatible", 2,
565 "arm,pl031", "arm,primecell"); VRC();
566 vrc = RTFdtNodeFinalize(hFdt); VRC();
567
568 /* Configure gpio keys. */
569 hrc = pResMgr->assignSingleInterrupt("arm-pl061-gpio", &iIrq); H();
570 hrc = pResMgr->assignMmioRegion("arm-pl061-gpio", _4K, &GCPhysMmioStart, &cbMmio); H();
571 InsertConfigNode(pDevices, "arm-pl061-gpio",&pDev);
572 InsertConfigNode(pDev, "0", &pInst);
573 InsertConfigNode(pInst, "Config", &pCfg);
574 InsertConfigInteger(pCfg, "Irq", iIrq);
575 InsertConfigInteger(pCfg, "MmioBase", GCPhysMmioStart);
576 vrc = RTFdtNodeAddF(hFdt, "pl061@%RGp", GCPhysMmioStart); VRC();
577 vrc = RTFdtNodePropertyAddU32( hFdt, "phandle", idPHandleGpio); VRC();
578 vrc = RTFdtNodePropertyAddString( hFdt, "clock-names", "apb_pclk"); VRC();
579 vrc = RTFdtNodePropertyAddU32( hFdt, "clocks", idPHandleAbpPClk); VRC();
580 vrc = RTFdtNodePropertyAddCellsU32(hFdt, "interrupts", 3, 0x00, iIrq, 0x04); VRC();
581 vrc = RTFdtNodePropertyAddEmpty( hFdt, "gpio-controller"); VRC();
582 vrc = RTFdtNodePropertyAddU32( hFdt, "#gpio-cells", 2); VRC();
583 vrc = RTFdtNodePropertyAddStringList(hFdt, "compatible", 2,
584 "arm,pl061", "arm,primecell"); VRC();
585 vrc = RTFdtNodePropertyAddCellsU64(hFdt, "reg", 2, GCPhysMmioStart, cbMmio); VRC();
586 vrc = RTFdtNodeFinalize(hFdt); VRC();
587
588 InsertConfigNode(pInst, "LUN#0", &pLunL0);
589 InsertConfigString(pLunL0, "Driver", "GpioButton");
590 InsertConfigNode(pLunL0, "Config", &pCfg);
591 InsertConfigInteger(pCfg, "PowerButtonGpio", 3);
592 InsertConfigInteger(pCfg, "SleepButtonGpio", 4);
593
594 vrc = RTFdtNodeAdd(hFdt, "gpio-keys"); VRC();
595 vrc = RTFdtNodePropertyAddString(hFdt, "compatible", "gpio-keys"); VRC();
596
597 vrc = RTFdtNodeAdd(hFdt, "poweroff"); VRC();
598 vrc = RTFdtNodePropertyAddCellsU32(hFdt, "gpios", 3, idPHandleGpio, 3, 0); VRC();
599 vrc = RTFdtNodePropertyAddU32( hFdt, "linux,code", 0x74); VRC();
600 vrc = RTFdtNodePropertyAddString( hFdt, "label", "GPIO Key Poweroff"); VRC();
601 vrc = RTFdtNodeFinalize(hFdt); VRC();
602
603 vrc = RTFdtNodeAdd(hFdt, "suspend"); VRC();
604 vrc = RTFdtNodePropertyAddCellsU32(hFdt, "gpios", 3, idPHandleGpio, 4, 0); VRC();
605 vrc = RTFdtNodePropertyAddU32( hFdt, "linux,code", 0xcd); VRC();
606 vrc = RTFdtNodePropertyAddString( hFdt, "label", "GPIO Key Suspend"); VRC();
607 vrc = RTFdtNodeFinalize(hFdt);
608
609 vrc = RTFdtNodeFinalize(hFdt); VRC();
610
611 hrc = pResMgr->assignInterrupts("pci-generic-ecam", 4 /*cInterrupts*/, &iIrq); H();
612 uint32_t aPinIrqs[] = { iIrq, iIrq + 1, iIrq + 2, iIrq + 3 };
613 RTGCPHYS GCPhysPciMmioEcam, GCPhysPciMmio, GCPhysPciMmio32;
614 RTGCPHYS cbPciMmioEcam, cbPciMmio, cbPciMmio32;
615 hrc = pResMgr->assignMmioRegionAligned("pci-pio", _64K, _64K, &GCPhysMmioStart, &cbMmio); H();
616 hrc = pResMgr->assignMmioRegion( "pci-ecam", 16 * _1M, &GCPhysPciMmioEcam, &cbPciMmioEcam); H();
617 hrc = pResMgr->assignMmioRegion( "pci-mmio", _2G, &GCPhysPciMmio, &cbPciMmio); H();
618 hrc = pResMgr->assignMmio32Region( "pci-mmio32", (1024 - 128) * _1M, &GCPhysPciMmio32, &cbPciMmio32); H();
619
620 InsertConfigNode(pDevices, "pci-generic-ecam", &pDev);
621 InsertConfigNode(pDev, "0", &pInst);
622 InsertConfigNode(pInst, "Config", &pCfg);
623 InsertConfigInteger(pCfg, "MmioEcamBase", GCPhysPciMmioEcam);
624 InsertConfigInteger(pCfg, "MmioEcamLength", cbPciMmioEcam);
625 InsertConfigInteger(pCfg, "MmioPioBase", GCPhysMmioStart);
626 InsertConfigInteger(pCfg, "MmioPioSize", cbMmio);
627 InsertConfigInteger(pCfg, "IntPinA", aPinIrqs[0]);
628 InsertConfigInteger(pCfg, "IntPinB", aPinIrqs[1]);
629 InsertConfigInteger(pCfg, "IntPinC", aPinIrqs[2]);
630 InsertConfigInteger(pCfg, "IntPinD", aPinIrqs[3]);
631 vrc = RTFdtNodeAddF(hFdt, "pcie@%RGp", GCPhysPciMmio); VRC();
632 vrc = RTFdtNodePropertyAddCellsU32(hFdt, "interrupt-map-mask", 4, 0xf800, 0, 0, 7); VRC();
633
634 uint32_t aIrqCells[32 * 4 * 10]; RT_ZERO(aIrqCells); /* Maximum of 32 devices on the root bus, each supporting 4 interrupts (INTA# ... INTD#). */
635 uint32_t *pau32IrqCell = &aIrqCells[0];
636 uint32_t iIrqPinSwizzle = 0;
637
638 for (uint32_t i = 0; i < 32; i++)
639 {
640 for (uint32_t iIrqPin = 0; iIrqPin < 4; iIrqPin++)
641 {
642 pau32IrqCell[0] = i << 11; /* The dev part, composed as dev.fn. */
643 pau32IrqCell[1] = 0;
644 pau32IrqCell[2] = 0;
645 pau32IrqCell[3] = iIrqPin + 1;
646 pau32IrqCell[4] = idPHandleIntCtrl;
647 pau32IrqCell[5] = 0;
648 pau32IrqCell[6] = 0;
649 pau32IrqCell[7] = 0;
650 pau32IrqCell[8] = aPinIrqs[(iIrqPinSwizzle + iIrqPin) % RT_ELEMENTS(aPinIrqs)];
651 pau32IrqCell[9] = 0x04;
652 pau32IrqCell += 10;
653 }
654
655 iIrqPinSwizzle++;
656 }
657
658 vrc = RTFdtNodePropertyAddCellsU32AsArray(hFdt, "interrupt-map", RT_ELEMENTS(aIrqCells), &aIrqCells[0]);
659 vrc = RTFdtNodePropertyAddU32( hFdt, "#interrupt-cells", 1); VRC();
660 vrc = RTFdtNodePropertyAddCellsU32(hFdt, "ranges", 21,
661 0x1000000, 0, 0,
662 GCPhysMmioStart >> 32, GCPhysMmioStart, cbMmio >> 32, cbMmio,
663 0x2000000, GCPhysPciMmio32 >> 32, GCPhysPciMmio32, GCPhysPciMmio32 >> 32, GCPhysPciMmio32,
664 cbPciMmio32 >> 32, cbPciMmio32,
665 0x3000000, GCPhysPciMmio >> 32, GCPhysPciMmio, GCPhysPciMmio >> 32, GCPhysPciMmio,
666 cbPciMmio >> 32, cbPciMmio); VRC();
667 vrc = RTFdtNodePropertyAddCellsU64(hFdt, "reg", 2, GCPhysPciMmioEcam, cbPciMmioEcam); VRC();
668 /** @todo msi-map */
669 vrc = RTFdtNodePropertyAddEmpty( hFdt, "dma-coherent"); VRC();
670 vrc = RTFdtNodePropertyAddCellsU32(hFdt, "bus-range", 2, 0, 0xf); VRC();
671 vrc = RTFdtNodePropertyAddU32( hFdt, "linux,pci-domain", 0); VRC();
672 vrc = RTFdtNodePropertyAddU32( hFdt, "#size-cells", 2); VRC();
673 vrc = RTFdtNodePropertyAddU32( hFdt, "#address-cells", 3); VRC();
674 vrc = RTFdtNodePropertyAddString( hFdt, "device_type", "pci"); VRC();
675 vrc = RTFdtNodePropertyAddString( hFdt, "compatible", "pci-host-ecam-generic"); VRC();
676 vrc = RTFdtNodeFinalize(hFdt); VRC();
677
678 /*
679 * VMSVGA compliant graphics controller.
680 */
681 if ( enmGraphicsController != GraphicsControllerType_QemuRamFB
682 && enmGraphicsController != GraphicsControllerType_Null)
683 {
684 vrc = i_configGraphicsController(pDevices, enmGraphicsController, pBusMgr, pMachine,
685 pGraphicsAdapter, firmwareSettings,
686 true /*fForceVmSvga3*/, false /*fExposeLegacyVga*/); VRC();
687 }
688
689 /*
690 * The USB Controllers and input devices.
691 */
692#if 0 /** @todo Make us of this and disallow PS/2 for ARM VMs for now. */
693 KeyboardHIDType_T aKbdHID;
694 hrc = pMachine->COMGETTER(KeyboardHIDType)(&aKbdHID); H();
695#endif
696
697 PointingHIDType_T aPointingHID;
698 hrc = pMachine->COMGETTER(PointingHIDType)(&aPointingHID); H();
699
700 PCFGMNODE pUsbDevices = NULL;
701 vrc = i_configUsb(pMachine, pBusMgr, pRoot, pDevices, KeyboardHIDType_USBKeyboard, aPointingHID, &pUsbDevices);
702
703 /*
704 * Storage controllers.
705 */
706 bool fFdcEnabled = false;
707 vrc = i_configStorageCtrls(pMachine, pBusMgr, pVMM, pUVM,
708 pDevices, pUsbDevices, NULL /*pBiosCfg*/, &fFdcEnabled); VRC();
709
710 /*
711 * Network adapters
712 */
713 std::list<BootNic> llBootNics;
714 vrc = i_configNetworkCtrls(pMachine, pPlatformProperties, chipsetType, pBusMgr,
715 pVMM, pUVM, pDevices, llBootNics); VRC();
716
717 /*
718 * The VMM device.
719 */
720 vrc = i_configVmmDev(pMachine, pBusMgr, pDevices, true /*fMmioReq*/); VRC();
721
722 /*
723 * Audio configuration.
724 */
725 bool fAudioEnabled = false;
726 vrc = i_configAudioCtrl(virtualBox, pMachine, pBusMgr, pDevices,
727 false /*fOsXGuest*/, &fAudioEnabled); VRC();
728 }
729 catch (ConfigError &x)
730 {
731 RTFdtDestroy(hFdt);
732
733 // InsertConfig threw something:
734 pVMM->pfnVMR3SetError(pUVM, x.m_vrc, RT_SRC_POS, "Caught ConfigError: %Rrc - %s", x.m_vrc, x.what());
735 return x.m_vrc;
736 }
737 catch (HRESULT hrcXcpt)
738 {
739 RTFdtDestroy(hFdt);
740 AssertLogRelMsgFailedReturn(("hrc=%Rhrc\n", hrcXcpt), VERR_MAIN_CONFIG_CONSTRUCTOR_COM_ERROR);
741 }
742
743#ifdef VBOX_WITH_EXTPACK
744 /*
745 * Call the extension pack hooks if everything went well thus far.
746 */
747 if (RT_SUCCESS(vrc))
748 {
749 pAlock->release();
750 vrc = mptrExtPackManager->i_callAllVmConfigureVmmHooks(this, pVM, pVMM);
751 pAlock->acquire();
752 }
753#endif
754
755#if 0
756 vrc = RTFdtNodeAdd(hFdt, "chosen"); VRC();
757 vrc = RTFdtNodePropertyAddString( hFdt, "stdout-path", "pl011@9000000"); VRC();
758 vrc = RTFdtNodePropertyAddString( hFdt, "stdin-path", "pl011@9000000"); VRC();
759 vrc = RTFdtNodeFinalize(hFdt);
760#endif
761
762 /* Finalize the FDT and add it to the resource store. */
763 vrc = RTFdtFinalize(hFdt);
764 AssertRCReturnStmt(vrc, RTFdtDestroy(hFdt), vrc);
765
766 RTVFSFILE hVfsFileDesc = NIL_RTVFSFILE;
767 vrc = RTVfsMemFileCreate(NIL_RTVFSIOSTREAM, 0 /*cbEstimate*/, &hVfsFileDesc);
768 AssertRCReturnStmt(vrc, RTFdtDestroy(hFdt), vrc);
769 RTVFSIOSTREAM hVfsIosDesc = RTVfsFileToIoStream(hVfsFileDesc);
770 AssertRelease(hVfsIosDesc != NIL_RTVFSIOSTREAM);
771
772 /* Initialize the VBox platform descriptor. */
773 VBOXPLATFORMARMV8 ArmV8Platform; RT_ZERO(ArmV8Platform);
774
775 vrc = RTFdtDumpToVfsIoStrm(hFdt, RTFDTTYPE_DTB, 0 /*fFlags*/, hVfsIosDesc, NULL /*pErrInfo*/);
776 if (RT_SUCCESS(vrc))
777 vrc = RTVfsFileQuerySize(hVfsFileDesc, &ArmV8Platform.cbFdt);
778 AssertRCReturnStmt(vrc, RTFdtDestroy(hFdt), vrc);
779
780 vrc = RTVfsIoStrmZeroFill(hVfsIosDesc, (RTFOFF)(RT_ALIGN_64(ArmV8Platform.cbFdt, _64K) - ArmV8Platform.cbFdt));
781 AssertRCReturn(vrc, vrc);
782
783 RTGCPHYS GCPhysMmioStart;
784 RTGCPHYS cbMmio;
785 hrc = pResMgr->queryMmioRegion(&GCPhysMmioStart, &cbMmio);
786 Assert(SUCCEEDED(hrc));
787
788 RTGCPHYS GCPhysMmio32Start;
789 RTGCPHYS cbMmio32;
790 hrc = pResMgr->queryMmio32Region(&GCPhysMmio32Start, &cbMmio32);
791 Assert(SUCCEEDED(hrc));
792
793 ArmV8Platform.u32Magic = VBOXPLATFORMARMV8_MAGIC;
794 ArmV8Platform.u32Version = VBOXPLATFORMARMV8_VERSION;
795 ArmV8Platform.cbDesc = sizeof(ArmV8Platform);
796 ArmV8Platform.fFlags = 0;
797 ArmV8Platform.u64PhysAddrRamBase = GCPhysRam;
798 ArmV8Platform.cbRamBase = cbRam;
799 ArmV8Platform.u64OffBackFdt = RT_ALIGN_64(ArmV8Platform.cbFdt, _64K);
800 ArmV8Platform.cbFdt = RT_ALIGN_64(ArmV8Platform.cbFdt, _64K);
801 ArmV8Platform.u64OffBackAcpiXsdp = 0;
802 ArmV8Platform.cbAcpiXsdp = 0;
803 ArmV8Platform.u64OffBackUefiRom = GCPhysTopOfAddrSpace - sizeof(ArmV8Platform);
804 ArmV8Platform.cbUefiRom = _64M; /** @todo Fixed reservation but the ROM region is usually much smaller. */
805 ArmV8Platform.u64OffBackMmio = GCPhysTopOfAddrSpace - sizeof(ArmV8Platform) - GCPhysMmioStart;
806 ArmV8Platform.cbMmio = cbMmio;
807 ArmV8Platform.u64OffBackMmio32 = GCPhysTopOfAddrSpace - sizeof(ArmV8Platform) - GCPhysMmio32Start;
808 ArmV8Platform.cbMmio32 = cbMmio32;
809
810 /* Add the VBox platform descriptor to the resource store. */
811 vrc = RTVfsIoStrmWrite(hVfsIosDesc, &ArmV8Platform, sizeof(ArmV8Platform), true /*fBlocking*/, NULL /*pcbWritten*/);
812 RTVfsIoStrmRelease(hVfsIosDesc);
813 vrc = mptrResourceStore->i_addItem("resources", "VBoxArmV8Desc", hVfsFileDesc);
814 RTVfsFileRelease(hVfsFileDesc);
815 AssertRCReturn(vrc, vrc);
816
817 /* Dump the DTB for debugging purposes if requested. */
818 Bstr DtbDumpVal;
819 hrc = mMachine->GetExtraData(Bstr("VBoxInternal2/DumpDtb").raw(),
820 DtbDumpVal.asOutParam());
821 if ( hrc == S_OK
822 && DtbDumpVal.isNotEmpty())
823 {
824 vrc = RTFdtDumpToFile(hFdt, RTFDTTYPE_DTB, 0 /*fFlags*/, Utf8Str(DtbDumpVal).c_str(), NULL /*pErrInfo*/);
825 AssertRCReturnStmt(vrc, RTFdtDestroy(hFdt), vrc);
826 }
827
828 delete pResMgr; /* Delete the address/interrupt assignment manager. */
829
830 /*
831 * Apply the CFGM overlay.
832 */
833 if (RT_SUCCESS(vrc))
834 vrc = i_configCfgmOverlay(pRoot, virtualBox, pMachine);
835
836 /*
837 * Dump all extradata API settings tweaks, both global and per VM.
838 */
839 if (RT_SUCCESS(vrc))
840 vrc = i_configDumpAPISettingsTweaks(virtualBox, pMachine);
841
842#undef H
843
844 pAlock->release(); /* Avoid triggering the lock order inversion check. */
845
846 /*
847 * Register VM state change handler.
848 */
849 int vrc2 = pVMM->pfnVMR3AtStateRegister(pUVM, Console::i_vmstateChangeCallback, this);
850 AssertRC(vrc2);
851 if (RT_SUCCESS(vrc))
852 vrc = vrc2;
853
854 /*
855 * Register VM runtime error handler.
856 */
857 vrc2 = pVMM->pfnVMR3AtRuntimeErrorRegister(pUVM, Console::i_atVMRuntimeErrorCallback, this);
858 AssertRC(vrc2);
859 if (RT_SUCCESS(vrc))
860 vrc = vrc2;
861
862 pAlock->acquire();
863
864 LogFlowFunc(("vrc = %Rrc\n", vrc));
865 LogFlowFuncLeave();
866
867 return vrc;
868}
869#endif /* !VBOX_WITH_VIRT_ARMV8 */
870
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